"ID_SITE","ID_ENTITY","ID_SAMPLE","source","site_name","entity_name","latitude","longitude","elevation","basin_size","site_type","entity_type","age_BP","publication","doi","ID_BIOME","PNV","mi","gdd0","mat","mtco","mtwa","map"
1,1,9709,"Herzschuh et al., 2019","05-Mo","05-Mo",46.932097,102.667317,1632,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.311449683649188,1959.25122173004,-0.181295329060257,-17.876668772763,15.4528690833952,285.908474770714
1,2,9710,"Herzschuh et al., 2019","05-Mo","05-Mo-10",46.93229,102.66972,1630,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.311422983344761,1960.92743866002,-0.17438145954906,-17.875022848337,15.462078053989,285.882533554694
1,3,9711,"Herzschuh et al., 2019","05-Mo","05-Mo-11",46.7017,101.73172,2072,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.294647827696748,1636.14517539223,-1.79382560516125,-18.8406738137624,13.6921784172989,274.502334310509
1,4,9712,"Herzschuh et al., 2019","05-Mo","05-Mo-12",46.70199,101.73197,2075,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.29502655577512,1632.43907808025,-1.81447950256331,-18.8591749587462,13.6710245386436,274.757576064773
1,5,9713,"Herzschuh et al., 2019","05-Mo","05-Mo-13",46.60724,101.76215,2275,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.321991892255585,1407.55483467403,-2.97898000467935,-19.6480047217813,12.3401097602836,294.06591925274
1,6,9714,"Herzschuh et al., 2019","05-Mo","05-Mo-14",46.616667,101.783333,2250,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.319264287171335,1435.07911426189,-2.81980009036355,-19.5117401020891,12.5049321516653,292.262604125511
1,7,9715,"Herzschuh et al., 2019","05-Mo","05-Mo-15",46.58325,101.76854,2253,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.318657768820563,1434.87122154736,-2.82237395715982,-19.5146666557545,12.5046832291892,291.977935160587
1,8,9716,"Herzschuh et al., 2019","05-Mo","05-Mo-16",46.56656,101.7684,2307,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.325120471349846,1374.8347153342,-3.16433168393784,-19.7959518076622,12.1424293371121,296.273286823215
1,9,9717,"Herzschuh et al., 2019","05-Mo","05-Mo-17",46.54566,101.81228,2428,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.340831415171363,1241.53971580386,-3.93453208343184,-20.4153419289106,11.3163779684046,306.47241864172
1,10,9718,"Herzschuh et al., 2019","05-Mo","05-Mo-18",46.5467,101.81229,2428,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.340841666544472,1241.50061102865,-3.93479589103595,-20.4156200786667,11.3161294619188,306.474588609056
1,11,9719,"Herzschuh et al., 2019","05-Mo","05-Mo-19",46.56224,101.79383,2372,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.333578477194985,1302.40756261541,-3.57982781406257,-20.1307027907245,11.6970590613065,301.774968377128
1,12,9720,"Herzschuh et al., 2019","05-Mo","05-Mo-2",47.87225,105.34145,1010,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.444147537704609,2156.27529086029,-0.72950949645323,-22.0991294357277,17.1213218396455,355.632010900148
1,13,9721,"Herzschuh et al., 2019","05-Mo","05-Mo-20",46.56683,101.78783,2345,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.330117621155448,1332.18375323832,-3.40750290725177,-19.9908637719987,11.8810545079093,299.528256466954
1,14,9722,"Herzschuh et al., 2019","05-Mo","05-Mo-21",46.66208,101.72487,2095,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.295599650861394,1614.94943816856,-1.91458864943537,-18.9492673119467,13.5732067258818,275.259527430555
1,15,9723,"Herzschuh et al., 2019","05-Mo","05-Mo-22",46.9832,101.70857,2096,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.323716376790174,1511.46304490908,-2.50659149966797,-19.5569878472559,12.9519701092214,292.842173210395
1,16,9724,"Herzschuh et al., 2019","05-Mo","05-Mo-23",46.97522,101.40531,2670,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.347459705140221,1017.79207695268,-5.73281452539765,-22.7209966672575,9.91849094312468,304.712521147831
1,17,9725,"Herzschuh et al., 2019","05-Mo","05-Mo-24",47.4609,101.89296,1537,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.364110699841337,1826.30748514071,-0.86236212472935,-18.5572780928722,14.6948755181854,318.62981536024
1,18,9726,"Herzschuh et al., 2019","05-Mo","05-Mo-25",47.47089,101.88412,1532,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.364517278278045,1828.85286784063,-0.850185443583333,-18.5512338465204,14.7088220757515,318.858039035058
1,19,9727,"Herzschuh et al., 2019","05-Mo","05-Mo-26",47.43848,101.97708,1535,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.363033543067952,1834.59955155531,-0.827926486861449,-18.5499863951396,14.7412979181347,318.083550669104
1,20,9728,"Herzschuh et al., 2019","05-Mo","05-Mo-27",47.61116,102.36217,1363,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.371058834006348,1967.71696477459,-0.408718122216559,-18.8318932186619,15.5206281492983,322.543310487612
1,21,9729,"Herzschuh et al., 2019","05-Mo","05-Mo-28",47.6308,102.35659,1356,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.371928113387556,1971.09483123786,-0.398316103136694,-18.8409747506808,15.5400934107365,323.041418414583
1,22,9730,"Herzschuh et al., 2019","05-Mo","05-Mo-29",47.63668,102.53748,1360,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.371980864210948,1970.62622256143,-0.434782148175274,-18.9434599244802,15.5500029272655,322.994050446126
1,23,9731,"Herzschuh et al., 2019","05-Mo","05-Mo-3",47.86954,105.34437,1010,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.444084491178444,2156.16410271347,-0.730195271237546,-22.0999989711448,17.1207882925651,355.593452309812
1,24,9732,"Herzschuh et al., 2019","05-Mo","05-Mo-30",47.78021,102.63051,1330,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.394546374201724,1953.09846241664,-0.677148646945034,-19.5326302931263,15.524982640513601,338.342705363316
1,25,9733,"Herzschuh et al., 2019","05-Mo","05-Mo-31",47.78021,102.63051,1330,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.394546374201724,1953.09846241664,-0.677148646945034,-19.5326302931263,15.524982640513601,338.342705363316
1,26,9734,"Herzschuh et al., 2019","05-Mo","05-Mo-32",47.7762,102.72832,1341,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.394655683045528,1944.59684868764,-0.72310878167661,-19.5697653950248,15.4808051642406,338.361175180773
1,27,9735,"Herzschuh et al., 2019","05-Mo","05-Mo-33",47.88108,103.24567,1173,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.42564203025471,2012.63196357843,-0.758311400262843,-20.4494932469482,16.0087631593932,356.272416057385
1,28,9736,"Herzschuh et al., 2019","05-Mo","05-Mo-34",47.87952,103.24902,1174,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.42545656977283,2012.20023865618,-0.758972704463399,-20.4461449766949,16.0059611025365,356.158082993308
1,29,9737,"Herzschuh et al., 2019","05-Mo","05-Mo-35",47.88106,103.24377,1178,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.424974129562084,2010.36522595318,-0.762295386366631,-20.4350324271086,15.9939485031781,355.87943971941303
1,30,9738,"Herzschuh et al., 2019","05-Mo","05-Mo-36",47.833,104.26,945,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.455915197555871,2132.5565751763,-0.735820814392526,-21.767166487123,16.949002043251,365.694330107232
1,31,9739,"Herzschuh et al., 2019","05-Mo","05-Mo-38",46.79178,104.53616,1444,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.278191146170094,2181.61980399696,0.31254157023166,-18.709335901645,16.9697486146039,258.768252830565
1,32,9740,"Herzschuh et al., 2019","05-Mo","05-Mo-4",47.22123,104.52634,1334,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.313782543538756,2126.58732954296,-0.133353794919917,-19.543448497368,16.718549793819,280.677524751854
1,33,9741,"Herzschuh et al., 2019","05-Mo","05-Mo-5",47.13825,104.62803,1355,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.30556665099621,2138.68836140488,-0.0537098557599372,-19.4124564772705,16.7854928523705,275.479776382402
1,34,9742,"Herzschuh et al., 2019","05-Mo","05-Mo-8",46.9329,102.66872,1631,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.311470539409737,1959.95670105207,-0.178584675137473,-17.876683949461,15.4567545283418,285.916046261721
1,35,9743,"Herzschuh et al., 2019","05-Mo","05-Mo-9",46.93202,102.67046,1630,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.311405941362536,1960.99647050037,-0.174085693976549,-17.8748716127459,15.4624837598959,285.871652708103
2,36,15870,"Neotoma","10 [HFL10]","HFL10",52.866667,-56.7,221,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.19262391665391,1218.42783276251,-0.900759200180562,-13.5928882705966,10.945266072484,1113.89592086651
3,37,15871,"Neotoma","11 [HFL11]","HFL11",52.4,-57.033333,375,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.35889037408224,1141.39610753576,-1.77075282830396,-15.2464280886519,10.780486905191,1197.01787579536
4,38,15872,"Neotoma","12 [HFL12]","HFL12",52.5,-57.366667,337,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.26942223640426,1195.29842684266,-1.51592082171306,-15.0637945325482,11.1712677210188,1158.05589772051
5,39,15873,"Neotoma","13 [HFL13]","HFL13",52.2,-57.433333,379,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.32666842076068,1149.32968168268,-1.82408988817737,-15.4819434160192,10.9147278489276,1185.31794668813
6,40,15874,"Neotoma","14 [HFL14]","HFL14",52.366667,-57.716667,380,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.29931220868429,1172.58174296318,-1.81473967548678,-15.6608701544329,11.1447471540861,1171.35666739502
7,41,15875,"Neotoma","15 [HFL15]","HFL15",52.583333,-57.816667,406,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.29399576327821,1179.79105381656,-1.99442998133865,-16.1817876784852,11.3473203415818,1163.65549654472
8,42,15226,"Neotoma","15/1","15-1",55.091667,-75.25,244,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.36578018385015,1115.24051917489,-5.08593046472535,-23.5255849604475,10.7756310259305,628.425370927885
9,43,15227,"Neotoma","15/2","15-2",55.833333,-75.016667,305,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.41224804670864,1055.46822614922,-5.5067847954706,-23.8255147523661,10.5798488526709,631.966721848911
10,44,15876,"Neotoma","16 [HFL16]","HFL16",52.083333,-57.833333,319,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.22676117581514,1258.35495463917,-1.24034293985206,-14.933572795915,11.6157533802426,1158.91861704001
11,45,15228,"Neotoma","16/1","16-1",55.413333,-75.066667,285,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.39709451115604,1083.06474305354,-5.32761303927052,-23.7184672164336,10.7053852703524,634.445640056044
12,46,15877,"Neotoma","17 [HFL17]","HFL17",52.083333,-57.866667,319,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.22522162416198,1260.33369062803,-1.23807478536031,-14.94692050936,11.6337692887328,1158.50394487045
13,47,15229,"Neotoma","17/1","17-1",55.066667,-75.7,235,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.37049946093004,1145.68962308028,-4.91966631165279,-23.4492932954214,10.9684325538686,636.104167188324
14,48,15230,"Neotoma","17/2","17-2",55.25,-74.933333,335,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.43306621992785,1148.35038609723,-5.05291435693774,-23.6669741199517,11.3062062862773,667.515991314646
15,49,15231,"Neotoma","17/3","17-3",55.116667,-75.95,255,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.38379433155492,1160.9455305046,-4.85150139118011,-23.4302827690153,11.0985038651397,645.880900029717
16,50,12956,"Neotoma","18 [Moraine Lake]","MORAINE",52.266667,-58.05,385,"not known","lake","core","0","Engstrom, D.R., and B.C.S. Hansen. 1985. Postglacial vegetational change and soil development in southeastern Labrador as inferred from pollen and chemical stratigraphy. Canadian Journal of Botany 63(3):543-561. http://www.nrcresearchpress.com/doi/abs/10.1139/b85-070?journalCode=cjb1#.Uke_44bbN8E.","10.1139/b85-070",15,"cold evergreen needleleaf forest",2.26647436625302,1202.74914218693,-1.83382533631093,-15.9954559584417,11.4665233485075,1161.71514615777
17,51,15878,"Neotoma","19 [HFL19]","HFL19",52.133333,-57.45,357,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.30175700864538,1172.98006091404,-1.62935755121959,-15.1773502587919,11.0261720444381,1179.32247038006
18,52,15879,"Neotoma","20 [HFL20]","HFL20",52.2,-57.55,371,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.31336394714523,1162.5040453884,-1.75534186852298,-15.4222956494815,11.0040111913953,1181.23288667919
19,53,15880,"Neotoma","21 [HFL21]","HFL21",53.616667,-60.9,220,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.88958261571372,1411.97064529452,-1.8844726964341,-18.0817748000174,13.3904393954689,962.889198376625
20,54,7241,"EMPDv2","213","Fall_b14",35.31219,33.3633,123,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.324371357720278,7038.51895455783,19.283613574131,10.8054483113287,27.8813859923705,498.373123141211
21,55,15881,"Neotoma","22 [HFL22]","HFL22",53.616667,-60.75,136,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.82411524377577,1466.85474685179,-1.44705020693138,-17.5619873321734,13.5748685694785,934.488494925664
22,56,15882,"Neotoma","23 [HFL23]","HFL23",53.633333,-60.683333,295,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.97045280223264,1357.39112690597,-2.16406920497015,-18.2207556815031,13.0932024214155,997.933416691912
23,57,15883,"Neotoma","24 [HFL24]","HFL24",53.6,-60.616667,255,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.9349063526201,1382.86699982167,-1.98289575011192,-18.0387584812891,13.2009582974446,983.139475599166
24,58,15884,"Neotoma","25 [HFL25]","HFL25",53.683333,-60.316667,124,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.81062882357866,1454.52247750092,-1.48874477074401,-17.5577697838384,13.4711884222684,924.047504202762
25,59,15885,"Neotoma","26 [HFL26]","HFL26",53.716667,-60.233333,195,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.89543045570114,1398.62740612079,-1.73328367519961,-17.6102403425408,13.1507254721643,960.862077745527
26,60,15886,"Neotoma","27 [HFL27]","HFL27",54.716667,-60.15,160,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.89584647432839,1257.48678609739,-2.17076412093553,-17.4459541207933,11.9616503364089,914.408528715206
27,61,10700,"Bush et al., 2020","27N-Agu","27N-Agu",-11.9283,-71.3383,342,"not known","lake","lake surface sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.06723909566851,8997.99920929274,24.6520526281993,22.8639967497661,25.5744335607856,2988.6696489097
28,62,15888,"Neotoma","29 [HFL29]","HFL29",54.366667,-61.15,306,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.88337258479863,1242.21375625633,-3.02522044023038,-19.2259321079855,12.4019737404881,913.905581429334
29,63,7274,"EMPDv2","292","Fall_b47",34.9046499999999,33.0531399999999,1280,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.499509392177474,4492.77706750122,12.3089782671266,3.02314719180656,21.8686599716429,710.286843257663
30,64,15889,"Neotoma","30 [HFL30]","HFL30",54.416667,-61.25,289,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.87562485305687,1235.89966330298,-3.02029187803523,-19.1772684245072,12.3143424689331,907.313148312112
31,65,15891,"Neotoma","32 [HFL32]","HFL32",54.466667,-61.2,290,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.88198184426308,1234.80473062299,-3.00050438380322,-19.1189955534026,12.2996250574325,909.533244469709
32,66,15896,"Neotoma","37 [HFL37]","HFL37",55.233333,-62.65,623,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.77567536916983,1027.05909867206,-5.64405149268174,-22.6860042571994,11.5873562346944,807.625865028628
33,67,15897,"Neotoma","38 [HFL38]","HFL38",55.216667,-62.25,570,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.82770426361211,1041.44559821537,-5.22787421060672,-21.9641336118131,11.5979988802563,834.775158212349
34,68,15898,"Neotoma","39 [HFL39]","HFL39",55.1,-62.2,590,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.83608526729919,1045.90241011607,-5.31711867799694,-22.1912782304357,11.7016191724066,841.451581634128
35,69,15864,"Neotoma","4 [HFL4]","HFL04",52.416667,-56.666667,235,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.20827737754648,1222.18559587655,-0.847300299743475,-13.469098531284,10.9540325160255,1134.17287459709
36,70,15899,"Neotoma","40 [HFL40]","HFL40",54.883333,-62.45,566,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.80518289973736,1064.14245049517,-5.18584546307903,-22.126364919414,11.7425085547812,834.344825840495
37,71,7255,"EMPDv2","408","Fall_b28",34.8536399999999,33.19373,487,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.362215431251588,6235.21849760243,17.0827904043902,8.36704322363256,25.9425735200075,545.868382963873
38,72,7259,"EMPDv2","427","Fall_b32",34.8497199999999,33.06607,605,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.381901649460081,5976.26592458713,16.3733313002387,7.59308229846752,25.3181784324516,570.726897597037
39,73,15903,"Neotoma","44 [HFL44]","HFL44",57.166667,-63.166667,510,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.9151583771607,739.382377704282,-6.46405928288703,-22.0293229596991,8.88419430989744,775.1823909184
40,74,15906,"Neotoma","47 [HFL47]","HFL47",57.266667,-62.866667,470,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",31,"tundra",1.94607896705302,721.110044254011,-6.37527509557504,-21.7039085303222,8.64874644822238,782.340887452931
41,75,11524,"Neotoma","4H Pond [Lake Bluestem]","FH-9",38.86432,-96.90135,371,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.777739204257315,4750.39440067471,12.6899165002614,-2.63121293773032,26.5041998650437,866.806990061203
42,76,15865,"Neotoma","5 [HFL5]","HFL05",52.45,-56.533333,295,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.28960229552159,1175.07770901955,-1.23255931967465,-14.078042906693,10.7555940863228,1167.57626401411
43,77,10701,"Bush et al., 2020","5_Lagos_S","5_Lagos_S",16.15,-91.69,1500,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.50997949034691,7081.31900007162,19.400873972799,17.1885441882317,21.1297281104883,2384.86676251102
44,78,10702,"Bush et al., 2020","5_Lakes_B","5_Lakes_B",16.11,-91.68,1523,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51372415112097,7035.13823751319,19.2743513356526,17.0679067874594,20.9974975155162,2391.78142494649
45,79,15908,"Neotoma","51 [HFL51]","HFL51",56.65,-64.5,523,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79976365294209,830.548870285724,-6.33234207377644,-22.6497287420068,9.69884740978486,752.710547792168
46,80,15909,"Neotoma","52 [HFL52]","HFL52",56.583333,-64.5,510,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.7873140959049,846.444020900753,-6.26068624834944,-22.6551416045011,9.82195654561969,750.940750877806
47,81,15911,"Neotoma","54 [HFL54]","HFL54",56.283333,-63.95,480,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79588053265235,863.544701064307,-6.04467635912629,-22.3335970945297,9.95097809912486,761.837998311821
48,82,15912,"Neotoma","55 [HFL55]","HFL55",56.3,-64.183333,510,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79502420648578,844.40182001042,-6.20374985182735,-22.4870968538524,9.81458249651922,758.27942653946
49,83,15914,"Neotoma","57 [HFL57]","HFL57",55.033333,-62.65,559,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79630359470543,1049.54214581742,-5.25553397168917,-22.1491533508779,11.6191264188197,824.323963628901
50,84,15915,"Neotoma","58 [HFL58]","HFL58",54.866667,-62.733333,513,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.80691736141876,1067.313852381,-4.98030117439103,-21.7795717908886,11.651490421599,834.960463117959
51,85,15916,"Neotoma","59 [HFL59]","HFL59",54.9,-62.716667,565,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79388320888764,1058.71401234126,-5.23547591060331,-22.1911270547143,11.6932507418775,827.524688866041
52,86,15866,"Neotoma","6 [HFL6]","HFL06",52.55,-56.283333,57,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.98319499204926,1346.39808315777,0.221291806255497,-11.628571159372,11.4957578900228,1030.96503231255
53,87,15917,"Neotoma","60 [HFL60]","HFL60",54.766667,-63.033333,589,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.76224180148113,1071.75426384798,-5.30104031464329,-22.4765857823649,11.7869196205625,818.546807536142
54,88,15918,"Neotoma","61 [HFL61]","HFL61",54.866667,-63.25,530,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.77635980223662,1060.06997731227,-5.12226317988589,-22.0527090426146,11.5832136528268,819.754338449622
55,89,15919,"Neotoma","62 [HFL62]","HFL62",54.6,-63.116667,507,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.79155191852747,1088.51003681055,-4.91288866665619,-21.8790581082504,11.7635837203112,836.553270643931
56,90,15920,"Neotoma","63 [HFL63]","HFL63",54.883333,-63.033333,352,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.84361616220559,1080.42241296285,-4.39090683474036,-20.790042933554,11.4577695460086,849.701189390336
57,91,7232,"EMPDv2","633","Fall_b5",34.60112,32.98997,5,"5e-04","coastal, other","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.301420907552165,7175.86403428944,19.6599014638067,10.6495055270743,28.7103940455659,481.473807686305
58,92,15922,"Neotoma","65 [HFL65]","HFL65",55.133333,-63.2,545,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.76622461808907,1047.36022097111,-5.30430355339806,-22.2883879975455,11.5503150459883,807.771025887878
59,93,15926,"Neotoma","69 [HFL69]","HFL69",55.45,-62.033333,388,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.86046183804014,1008.79722738767,-4.67615710526466,-20.7281133417136,10.9356823877066,835.308103845624
60,94,15867,"Neotoma","7 [HFL7]","HFL07",52.6,-56.183333,73,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.00791373975171,1323.35284460308,0.0965406159507066,-11.7731247916119,11.3708814711772,1039.450767179
61,95,7245,"EMPDv2","706","Fall_b18",34.77707,33.0848599999999,273,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.328782458834538,6701.78341260949,18.3610504455055,9.81043401299505,27.0355992231758,503.083575695263
62,96,7250,"EMPDv2","708","Fall_b23",35.05216,33.1323599999999,428,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.357143923272129,6354.59172307111,17.4098403371811,8.68354067190355,26.2651086940127,540.494822657546
63,97,7242,"EMPDv2","76","Fall_b15",34.75408,33.08337,124,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.306420882698966,7024.46210426396,19.2451016555177,10.7832928855988,27.8095156914851,473.904224841116
64,98,15868,"Neotoma","8 [HFL8]","HFL08",52.733333,-56.383333,78,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.01182507304926,1319.8122162942,0.00430104147226164,-12.0079746157661,11.3539989996985,1037.68021069843
65,99,15869,"Neotoma","9 [HFL9]","HFL09",52.6,-56.666667,135,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",2.08069797820519,1292.20513766279,-0.28386870406689,-12.5582050181023,11.2370342857114,1073.71388029298
66,100,17661,"SMPDSv1","A Cespedosa 1","Barboni_a351",42.877778,-6.830556,1425,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.804131672511193,2899.71937257156,7.87686583186907,-0.517780621408525,17.7825672524949,864.896011153882
67,101,17662,"SMPDSv1","A Cespedosa 2","Barboni_a352",42.877778,-6.830556,1425,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.804131672511193,2899.71937257156,7.87686583186907,-0.517780621408525,17.7825672524949,864.896011153882
68,102,17663,"SMPDSv1","A Golada","Barboni_a353",42.7,-7,1225,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.826363396629948,3214.24836972739,8.80615991706134,0.846412075277519,18.1260303337096,879.357897878623
69,103,8345,"EMPDv2","A Ramallosa saltmarsh (Ria de Vigo)","MunozSobrino_a31 (A Ramallosa R1)",42.113567,-8.82445,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.55532591892891,5421.5919240107,14.8536765041389,10.4408482419125,19.6176627387508,1512.26505330695
69,104,8346,"EMPDv2","A Ramallosa saltmarsh (Ria de Vigo)","MunozSobrino_a32 (A Ramallosa R2)",42.113517,-8.824533,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.55531979544367,5421.59783525763,14.853692699336,10.4408449606358,19.6176881994654,1512.25958499627
69,105,8347,"EMPDv2","A Ramallosa saltmarsh (Ria de Vigo)","MunozSobrino_a33 (A Ramallosa R3)",42.113383,-8.824517,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.55529991876706,5421.60951352795,14.8537246945971,10.4408155493644,19.6177482443255,1512.24148547927
69,106,8348,"EMPDv2","A Ramallosa saltmarsh (Ria de Vigo)","MunozSobrino_a34 (A Ramallosa R4)",42.11435,-8.821,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.55539057271603,5421.46168863227,14.8533196948829,10.4407134947536,19.6171897775073,1512.31960585132
69,107,8349,"EMPDv2","A Ramallosa saltmarsh (Ria de Vigo)","MunozSobrino_a35 (A Ramallosa R5)",42.11415,-8.82085,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.55535909062052,5421.47690755296,14.853361390556,10.4406586675264,19.6172750447932,1512.29078500066
70,108,17664,"SMPDSv1","A096 (EMBSECBIO)","A096",48.91,24.06,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.896351145083766,3105.05270755664,7.72563026692355,-4.73681248662994,17.9459669257479,700.453313878951
71,109,17665,"SMPDSv1","A097 (EMBSECBIO)","A097",48.56,27.16,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.60735924873653,3650.55612813625,9.43562249591064,-3.79272561299967,20.8723293789363,531.461039695355
72,110,17666,"SMPDSv1","A098 (EMBSECBIO)","A098",48.25,24.33,150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.798838440069279,3424.33374597524,8.79176332948525,-4.08888157916258,19.1645383196484,650.490983268803
73,111,17667,"SMPDSv1","Aakenustunturi","FIN/SPH/A60",67.7011055555556,24.4177861111111,330,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.11898430320887,1323.32711471162,-2.26002740631846,-16.6221474485803,13.0075198660005,441.032465345173
73,112,17668,"SMPDSv1","Aakenustunturi","FIN/SPH/A61",67.6977777777778,24.4188833333333,390,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14967817784913,1208.61289850992,-3.08215225348859,-17.5278488396877,12.3456084670399,439.575068492381
73,113,17669,"SMPDSv1","Aakenustunturi","FIN/SPH/A62",67.6919444444444,24.4205611111111,482,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19947606617742,1043.69081175867,-4.34315514476743,-18.9180535718609,11.3311777299666,437.224999758168
73,114,17670,"SMPDSv1","Aakenustunturi","FIN/SPH/A63",67.6886055555556,24.4227694444444,430,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17051530656783,1135.36605486945,-3.63068929372875,-18.1335671368657,11.9053006432249,438.452677562019
74,115,17671,"SMPDSv1","Aalgastsee","Aalgastsee_ss",53.13914,13.905,34,"0.008","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804633801263024,3206.18403837163,8.6813585686737,-0.892790152949015,17.769571624638,569.756260058972
75,116,17672,"SMPDSv1","Aalkistensee","Aalkistensee_Mba3",48.994444,8.761667,227,"0.119","lake","lacustrine core top","-24","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.870913522550558,3455.7325621431,9.46771000780565,0.109205320055839,18.4775524806527,666.965825951834
76,117,10642,"Neotoma","Aansser peat bog","ANS core",35.0175,-4.992778,1342,"not recorded","terrestrial, bog/fen/swamp","core top","43","Cheddadi, R., Henrot, A.J., François, L., Boyer, F., Bush, M., Carré, M., Coissac, E., De Oliveira, P.E., Ficetola, F., Hambuckers, A. and Huang, K., Lezine, A.M., Nourelbait, M., Rhoujjati, A., Taberlet, P., Sarmiento, F., Abel-Schaad, D., Alba-Sánchez, F., Zheng, Z., 2017. Microrefugia, climate change, and conservation of Cedrus atlantica in the Rif Mountains, Morocco. Frontiers in Ecology and Evolution, 5, p.114.; 
Cheddadi, R., Nourelbait, M., Bouaissa, O., Tabel, J., Rhoujjati, A., López-Sáez, J.A., Alba-Sánchez, F., Khater, C., Ballouche, A., Dezileau, L. and Lamb, H., 2015. A history of human impact on Moroccan mountain landscapes. African Archaeological Review, 32(2), pp.233-248.","10.3389/fevo.2017.00114;
10.1007/s10437-015-9186-7",4,"warm-temperate evergreen and mixed forest",0.363107698563123,5231.31279989338,14.3323638353243,6.6908651743879,24.5613116917085,494.349366687196
77,118,12215,"Neotoma","Abalone Rocks Marsh","ABALONE",33.956389,-119.976667,0,"not known","terrestrial, marsh","core","-40","Cole, K.L., and G.-W. Liu. 1994. Holocene paleoecology of an estuary on Santa Rosa Island, California. Quaternary Research 41:326-335.",,20,"xerophytic woods/scrub",0.283057079583033,5688.23213807043,15.5841976385491,12.1465472169034,19.4948628527034,367.878932870055
77,118,12216,"Neotoma","Abalone Rocks Marsh","ABALONE",33.956389,-119.976667,0,"not known","terrestrial, marsh","core","-18","Cole, K.L., and G.-W. Liu. 1994. Holocene paleoecology of an estuary on Santa Rosa Island, California. Quaternary Research 41:326-335.",,20,"xerophytic woods/scrub",0.283057079583033,5688.23213807043,15.5841976385491,12.1465472169034,19.4948628527034,367.878932870055
77,118,12217,"Neotoma","Abalone Rocks Marsh","ABALONE",33.956389,-119.976667,0,"not known","terrestrial, marsh","core","5","Cole, K.L., and G.-W. Liu. 1994. Holocene paleoecology of an estuary on Santa Rosa Island, California. Quaternary Research 41:326-335.",,20,"xerophytic woods/scrub",0.283057079583033,5688.23213807043,15.5841976385491,12.1465472169034,19.4948628527034,367.878932870055
77,118,12218,"Neotoma","Abalone Rocks Marsh","ABALONE",33.956389,-119.976667,0,"not known","terrestrial, marsh","core","28","Cole, K.L., and G.-W. Liu. 1994. Holocene paleoecology of an estuary on Santa Rosa Island, California. Quaternary Research 41:326-335.",,20,"xerophytic woods/scrub",0.283057079583033,5688.23213807043,15.5841976385491,12.1465472169034,19.4948628527034,367.878932870055
77,118,12219,"Neotoma","Abalone Rocks Marsh","ABALONE",33.956389,-119.976667,0,"not known","terrestrial, marsh","core","49","Cole, K.L., and G.-W. Liu. 1994. Holocene paleoecology of an estuary on Santa Rosa Island, California. Quaternary Research 41:326-335.",,20,"xerophytic woods/scrub",0.283057079583033,5688.23213807043,15.5841976385491,12.1465472169034,19.4948628527034,367.878932870055
78,119,17673,"SMPDSv1","Abborrtjarnen","EPDcoretop_E1033",63.883333,14.45,387,"0.03","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17302100455585,1645.5576231084,1.59469185738848,-9.95454236302603,13.071173837643,551.147089191122
79,120,17674,"SMPDSv1","Abbortjern","Bjune_a64",61.07883202,11.6213471,284,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34166210829591,2039.80384622589,3.55446387220103,-7.69915648750968,14.6751508525782,748.899398097833
79,121,17675,"SMPDSv1","Abbortjern","Bjune_a65",61.05740686,12.62875179,331,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30534474144686,1955.20239082851,3.03421247345883,-8.33189983376468,14.3210071560839,718.73358590944
80,122,17676,"SMPDSv1","Abbortjorn","Bjune_a294",59.8466666666666,11.4316666666666,224,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29871991796022,2187.48351154778,4.47818939581183,-6.11263661332437,15.143368833976,758.114034357205
81,123,17677,"SMPDSv1","Abdersbyvatn","Bjune_a266",70.1,29.6,156,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51861134875975,1210.57197637601,-1.01479369638893,-11.9626170939189,12.0460110067793,531.120147407251
82,124,17678,"SMPDSv1","Abernethy Forest","EPDcoretop_E52",56.233333,-3.716667,221,"not known","small hollow","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.50650788049297,2667.89821369847,7.30931017451635,2.02125927913697,13.3112328597102,1314.71005859329
83,125,17679,"SMPDSv1","Abortjern","Bjune_a91",69.1685985,29.17990774,120,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39850903437146,1259.94847436627,-0.902655430695078,-12.2190870609775,12.439218396874,502.300463739849
84,126,132,"Australian pollen","Above Lake Johnston","Above Lake Johnston ss",-41.9,145.55,900,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.61197363235935,2539.79596150414,6.95834510001134,2.23222677968312,12.3601441606515,1493.85687557174
85,127,9744,"Herzschuh et al., 2019","Achit Nuur. 39A","Achit Nuur. 39A",49.45996,90.65145,1435,"290","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.279493921929787,1983.76501467548,-2.56740431695423,-25.5006568247147,16.0128431716773,237.312561098633
86,128,17549,"Neotoma","Ackley Lake","MTJBAC",46.95355,-109.939079999999,1317,"not known","lake","surface sample","Modern","Unpublished data",,22,"steppe",0.454081470156321,2833.97773594626,5.98131069421639,-8.1149086283562,19.9115850434523,402.046131695468
87,129,133,"Australian pollen","Adamson's Peak","Adamson's Peak core",-43.35,146.8167,960,"not known","terrestrial, bog/fen/swamp","core top","-22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44485723239355,2535.39917728994,6.94629911586285,1.7810971993064,12.6162343962077,1343.60688006207
87,130,134,"Australian pollen","Adamson's Peak","Adamson's Peak_ss",-43.35,146.8167,960,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44485723239355,2535.39917728994,6.94629911586285,1.7810971993064,12.6162343962077,1343.60688006207
88,131,6063,"EMBSeCBIO","Adange","Adange core_2",43.305556,41.333333,1750,"0.0025","fluvial","core","-12","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.15580333539935,1997.93537916439,2.79208089693525,-10.2239691701548,14.3149365772476,1044.21864869872
88,132,6064,"EMBSeCBIO","Adange","Adange core_5",43.305556,41.333333,1750,"0.0025","fluvial","core","19","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.15580333539935,1997.93537916439,2.79208089693525,-10.2239691701548,14.3149365772476,1044.21864869872
88,133,6065,"EMBSeCBIO","Adange","Adange core_6",43.305556,41.333333,1750,"0.0025","fluvial","core","30","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.15580333539935,1997.93537916439,2.79208089693525,-10.2239691701548,14.3149365772476,1044.21864869872
89,134,13637,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","-56","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13638,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","-47","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13639,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","-26","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13640,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","-4","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13641,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","9","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13642,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","16","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13643,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","22","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13644,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","29","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
89,134,13645,"Neotoma","Adeline Lake","ADELINE",46.30235,-91.166,418,"not known","lake","core","35","Unpublished data",,9,"cool mixed forest",0.988531799067859,2733.72413516209,4.29402398174608,-13.0525924286191,19.2710619096674,766.381693675887
90,135,7414,"EMPDv2","Adlandsvatnet","Hjelle_a3",60.2749889,5.2449389,5,"0.023","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.86710075308527,2651.61488749041,7.26469832189153,1.05816638277704,14.103770807961,2026.68588444583
91,136,7185,"EMPDv2","Adriatic Sea 108MAY90","EPDcoretop_E2358",44.75,12.75,-34,"not known","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.893137989443251,4970.21628696145,13.617030923182,3.46037279536612,23.1948427718894,929.425955219803
92,137,14012,"Neotoma","Adventure Lake","ADVENTUR",46.089,-91.939,302,"not known","lake","core","-51","Unpublished data",,9,"cool mixed forest",0.930107975350152,3021.05085126964,5.42699880400608,-12.3092042404015,20.51466034375,744.626498869712
93,138,17680,"SMPDSv1","Aegelsee","EPDcoretop_E980",46.645833,7.543333,989,"not known","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72884059329302,2611.08808649553,6.93169283833975,-1.62529143000392,15.6416845287679,1383.6430451792
94,139,11644,"Neotoma","Aermo Pond","GPPS-14",42.73046,-101.194555,930,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.461968884983226,3531.50939971873,8.41983722761297,-6.28202586982645,23.1871913715302,468.766818960448
95,140,17681,"SMPDSv1","Afstjorna","Bjune_a285",61.65,9.87833333333333,991,"0.2809","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.49840392503764,1184.29240308597,-0.292104296598563,-11.0004834754468,10.213458739444,712.731506567497
96,141,17682,"SMPDSv1","Agatjern","Bjune_a37",64.43816123,11.54701107,160,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.18946740796624,1753.76532232629,3.9359824414595,-3.71310151779355,12.4112690774621,1400.88267075562
97,142,17683,"SMPDSv1","Agerods Mosse","EPDcoretop_E2",55.833333,13.416667,58,"1.5","terrestrial, bog/fen/swamp","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.979634823539501,2821.10226078424,7.48944785779397,-1.46380786700753,16.5154955837504,652.193892100058
98,143,14374,"Neotoma","Aghnaghak","AGHNAGHA",63.656005,-171.553815,1,"not known","terrestrial, bog/fen/swamp","excavation","-41","Lozhkin, A.V., P. Anderson, W.R. Eisner, and T.B. Solomatkina. 2011. Late glacial and holocene landscapes of central Beringia. Quaternary Research 76:383-392.",,31,"tundra",1.65134634954847,816.047947256649,-3.87066725288734,-15.8552207819816,8.24624419880452,568.546919558137
99,144,17684,"SMPDSv1","Aglasun","Bakker_b12",37.628,30.5527,1221,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402864486915765,4276.69749778025,11.7169794459733,1.51382584978006,21.9546086497261,557.267960940556
99,145,17685,"SMPDSv1","Aglasun","Bakker_b24",37.62145,30.55915,1239,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401344081013978,4238.58809094604,11.6125701121809,1.38091383940387,21.8663264855996,554.370051309053
99,146,17686,"SMPDSv1","Aglasun","Bakker_b58",37.6300666666666,30.5507833333333,1246,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40056125898552,4223.60609600584,11.571523550700901,1.32889451523218,21.8312110966456,552.868651329001
99,147,17687,"SMPDSv1","Aglasun","Bakker_b59",37.6241166666666,30.5594333333333,1166,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407913961234421,4393.27650641114,12.0363739901675,1.91973073932671,22.2254325256601,566.944749778056
99,148,17688,"SMPDSv1","Aglasun","Bakker_b60",37.61925,30.5611833333333,1285,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397193189463543,4140.95757578278,11.34508924872,1.04074633329096,21.6396720174684,546.480354446423
99,149,17689,"SMPDSv1","Aglasun","Bakker_b62",37.6279,30.594,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414044525260574,4530.50813278982,12.4123510487392,2.39550471435524,22.543365450986,578.481515004514
99,150,17690,"SMPDSv1","Aglasun","Bakker_b63",37.6217,30.5645833333333,1231,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402126392168295,4255.07389848207,11.6577367081701,1.43808197429799,21.9044161220636,555.801545408219
99,151,17691,"SMPDSv1","Aglasun","Bakker_b64",37.6205,30.5641333333333,1269,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398679700811048,4174.53558315343,11.4370837894615,1.15756904307768,21.7174489077815,549.251971905475
100,152,17692,"SMPDSv1","Aglasun (Duzen Tepe)","Bakker_b46",37.6594333333333,30.5101833333333,1404,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.385268833571337,3889.78471275137,10.6569275519057,0.166621626514643,21.0549136773759,524.284490608263
101,153,17693,"SMPDSv1","Agnsjon","Seppa_b140",57.42,12.23,83,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11912810174413,2635.38527691222,6.72477709713672,-2.54693507904651,16.1667905483349,711.161271257511
102,154,17694,"SMPDSv1","Agordo, Dolomites","Sadori_a1",46.2677861111111,12.0357027777777,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.3216061488905,3190.80597249688,8.62474543377855,-0.948559556702846,17.8315425623633,1176.57589841277
102,155,17695,"SMPDSv1","Agordo, Dolomites","Sadori_a2",46.2650722222222,12.0309805555555,770,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4299309026028,2853.01663275077,7.55450586366789,-1.7730993535188,16.5881223585825,1234.26790390588
102,156,17696,"SMPDSv1","Agordo, Dolomites","Sadori_a3",46.2601611111111,12.0284111111111,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.51751104186171,2606.02400316524,6.73601141394835,-2.40331513187176,15.637039967167,1278.55810938598
103,157,7423,"EMPDv2","Agottjorna","Hjelle_a12",60.2713524,5.3557916,53,"0.016","lake","sediment sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.13203208598991,2614.31189243685,7.16249833544343,0.908144013813321,14.0268934292245,2167.34218100222
104,158,6201,"EMPDv2","Aguelman Azigza N Park, Khenifra","AlbaSanchez_a130",32.977369,-5.351986,1668,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339036196522696,4997.94128294041,13.6929898162751,5.05336448144842,24.4269886040909,484.30879034519
104,159,6202,"EMPDv2","Aguelman Azigza N Park, Khenifra","AlbaSanchez_a131",32.977631,-5.345176,1747,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.338750894567321,4910.29381765279,13.4528597743912,4.69447053448372,24.375572156635,484.570449874101
104,160,6146,"EMPDv2","Aguelman Azigza N Park, Khenifra","AlbaSanchez_a74",32.956078,-5.468365,1607,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339842954529017,5065.13872620746,13.8770924005684,5.33464652236403,24.4461303605952,484.893494952457
105,161,24161,"Neotoma","Aguilar","AGUILAR",-23.833333,-65.75,4000,"not known","terrestrial, bog/fen/swamp","profile or section","0","Markgraf, V. 1985. Paleoenvironemtal history of the last 10,000 years in northwestern Argentina. Zentralblatt Geologie Palaeontologie 11/12:1739-1749.",,22,"steppe",0.251092597703858,2241.00359212385,6.13973586883245,0.966266024916752,9.98424757491313,373.50918316827
106,162,17555,"Phelps et al., 2020","Ahakagyezi Swamp 1","AH1_13",-1.083333,29.9,2208,"not known","terrestrial, bog/fen/swamp","core","41","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",1.26731081940203,5553.3412799816,15.2146336437852,14.6858406171712,15.4484956870251,1474.81716252684
107,163,17697,"SMPDSv1","Ahlenmoor","EPDcoretop_E3",53.7,8.733333,2,"5","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.22872204074291,3182.82910303225,8.72007973433493,0.758908303832758,16.5844878938141,793.059740232555
108,164,6980,"EMPDv2","Ahlequellmoor","EPDcoretop_E1410",51.73,9.51,300,"0.001","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0589298373559,2960.5348751588,8.02462819871597,-0.757729833620034,16.4602072018863,708.780605555622
109,165,17698,"SMPDSv1","Aholampi","Seppa_b26",65.13,29.6,265,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29648888114584,1567.34311550577,-0.35849482382608,-14.4085547465422,14.3029843955287,567.465580229373
110,166,1672,"CMPD","Aibi Lake","Aibi Lake",45,82.8,194,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.198382263204331,4007.60664873131,7.98938909018897,-13.4402180126335,24.930292589717,199.680965313575
110,167,1673,"CMPD","Aibi Lake","Aibi Lake ZK00B",44.65,82.9333,195,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182064095750786,4059.04574114588,8.11178915242239,-13.7224069477343,25.031338920231,183.963210055103
111,168,17699,"SMPDSv1","Aiguilettes des Houches","Barboni_a375",47,3,198.578,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.824813283487829,3958.47324380416,10.8451321748059,3.02882755971305,19.0607235286288,697.047299373129
112,169,6147,"EMPDv2","Ain Leuh, Ifrane","AlbaSanchez_a75",33.1899,-5.337213,1799,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.340920970483373,4843.83004660334,13.270767250968,4.45635821164626,24.3176854754533,486.702118920173
112,170,6148,"EMPDv2","Ain Leuh, Ifrane","AlbaSanchez_a76",33.172825,-5.339239,1786,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.340830669800423,4858.70329390885,13.3115158737229,4.51531808746434,24.3266054013415,486.559712325659
113,171,13509,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","-37","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13510,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","-24","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13511,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","-12","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13512,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","1","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13513,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","13","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13514,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","26","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
113,171,13515,"Neotoma","Aino Pond","AINOPOND",42.679722,-71.926667,354,"not known","lake","core","38","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.3427215242096,3089.8236939513,6.83861242404582,-7.68557033176415,20.0333269369669,1093.23961768544
114,172,9745,"Herzschuh et al., 2019","Airag Nuur. 20A","Airag Nuur. 20A",48.91845,93.36395,1034,"143.3","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.243437064434437,2539.57622561838,-0.633493213407518,-25.4972783032178,19.0970895171438,217.051040420954
115,173,135,"Australian pollen","Aire Crossing","Aire Crossing",-38.7333,143.45,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.778118909961881,4898.44896326864,13.4204081185442,8.71448495527055,18.41932211002,791.625109325896
116,174,136,"Australian pollen","Airport Swamp","Airport Swamp core_05",31.54,159.08,-3286,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-28","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
116,175,137,"Australian pollen","Airport Swamp","Airport Swamp core_105",31.54,159.08,-3286,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
116,176,138,"Australian pollen","Airport Swamp","Airport Swamp core_25",31.54,159.08,-3286,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
116,177,139,"Australian pollen","Airport Swamp","Airport Swamp core_50",31.54,159.08,-3286,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
116,178,140,"Australian pollen","Airport Swamp","Airport Swamp core_75",31.54,159.08,-3286,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
117,179,141,"Australian pollen","Airstrip","Airstrip",-31.753,128.083,65,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.180366964362518,6405.74985203028,17.5499995946035,11.7450574840701,22.7803235639227,256.497288148746
118,180,24162,"Neotoma","Ajata","AJATA",-18.25,-69.2,4700,"not known","terrestrial, bog/fen/swamp","core","0","Unpublished data",,22,"steppe",0.187603128703196,2012.62327981304,5.51403638304943,1.39640360733922,8.01620278621459,272.500205985943
119,181,142,"Australian pollen","Ajax Bog","Ajax Bog X77/50",-46.4192,169.2922,680,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",7,"cool-temperate rainforest",1.37014957173423,2716.10018589331,7.44137037231045,1.24973553941333,12.9392828445102,1069.43881617093
120,182,143,"Australian pollen","Ajkwa","Ajkwa 1",-4.8672,136.9675,1.3,"not known","coastal, other","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.43641969247979,9889.31592463453,27.0940162318754,26.3688956065259,27.5786074991261,3448.5080952155
120,183,144,"Australian pollen","Ajkwa","Ajkwa 2",-4.8672,136.9675,1.3,"not known","coastal, other","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.43641969247979,9889.31592463453,27.0940162318754,26.3688956065259,27.5786074991261,3448.5080952155
120,184,145,"Australian pollen","Ajkwa","Ajkwa 3",-4.8672,136.9675,1.3,"not known","coastal, other","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.43641969247979,9889.31592463453,27.0940162318754,26.3688956065259,27.5786074991261,3448.5080952155
120,185,146,"Australian pollen","Ajkwa","Ajkwa 4",-4.8672,136.9675,1.3,"not known","coastal, other","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.43641969247979,9889.31592463453,27.0940162318754,26.3688956065259,27.5786074991261,3448.5080952155
120,186,147,"Australian pollen","Ajkwa","Ajkwa 5",-4.8672,136.9675,1.3,"not known","coastal, other","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.43641969247979,9889.31592463453,27.0940162318754,26.3688956065259,27.5786074991261,3448.5080952155
121,187,10604,"BIOME6000 Japan","Akaiyachi","AkiycC0",37.48,140.02,520,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.74501094177196,3727.66079288207,9.92421112435342,-1.8573111487122,22.7763876485879,1492.22122556424
122,188,9585,"Gaillard et al., 1992","Akert","Akert",55.722412,13.523678,61,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.977181304935934,2830.80354311938,7.52300624101867,-1.43565897813291,16.5428517344427,651.979542015461
123,189,17700,"SMPDSv1","Akgol Adabag","Barboni_a376",37.5,33.81666667,1000,"3150","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.317618050356505,4564.17869627433,12.5045991678749,1.76034314969397,22.7345792754762,445.107614064521
123,190,17701,"SMPDSv1","Akgol Adabag","EPDcoretop_E981",37.5,33.733333,999,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.312860272027008,4543.92378000323,12.4491062465842,1.73948768650864,22.7162220305083,438.733096902122
124,191,17702,"SMPDSv1","Akhaltsikhe transect","N167",41.8333333333333,42.9166666666667,2410,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.685594740571415,1658.27350978577,0.19691383026261,-15.1966271040256,13.2530570742376,662.10625600501
124,192,17703,"SMPDSv1","Akhaltsikhe transect","N168",41.8333333333333,42.9166666666667,2400,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.688380097271734,1668.04673436877,0.257326770408837,-15.1134030510822,13.2961243582737,664.97974976375
124,193,17704,"SMPDSv1","Akhaltsikhe transect","N169",41.8333333333333,42.8166666666667,2100,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.770758948960649,1968.95934092499,2.05037216586243,-12.606650831681,14.5444912657955,749.786310231243
124,194,17705,"SMPDSv1","Akhaltsikhe transect","N170",41.8333333333333,42.8166666666667,2100,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.770758948960649,1968.95934092499,2.05037216586243,-12.606650831681,14.5444912657955,749.786310231243
124,195,17706,"SMPDSv1","Akhaltsikhe transect","N171",41.8333333333333,42.8333333333333,2040,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.788152642116463,2034.98548454726,2.417536752985,-12.1058153504674,14.8102412038824,767.939399693951
124,196,17707,"SMPDSv1","Akhaltsikhe transect","N172",41.8166666666667,42.8333333333333,1960,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.807849119434589,2125.88570706201,2.91306242921712,-11.4294816578672,15.1666290561604,789.373604855818
124,197,17708,"SMPDSv1","Akhaltsikhe transect","N173",41.8,42.8333333333333,1630,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.900666552916904,2514.61263280136,4.92038466341229,-8.66071815444989,16.5934084735778,886.891434756959
124,198,17709,"SMPDSv1","Akhaltsikhe transect","N174",41.7833333333333,42.8333333333333,1430,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.956814163842789,2769.65162966847,6.13704574074451,-6.98176350485917,17.4573375346961,946.136524304297
124,199,17710,"SMPDSv1","Akhaltsikhe transect","N175",41.7833333333333,42.85,1420,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.958379882782785,2783.40162115824,6.19728765729194,-6.9071375490573,17.5070779049002,947.911196298029
124,200,17711,"SMPDSv1","Akhaltsikhe transect","N176",41.7666666666667,42.85,1325,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.984307636425018,2911.209214257,6.77652210748322,-6.10879620353331,17.9186481843181,975.560611749998
124,201,17712,"SMPDSv1","Akhaltsikhe transect","N177",41.7666666666667,42.85,1330,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.982839938435796,2904.4571706376,6.74636006328348,-6.15057042273222,17.8973094129754,974.036507467692
124,202,17713,"SMPDSv1","Akhaltsikhe transect","N178",41.75,42.8333333333333,1210,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01535971031181,3096.52743543354,7.5855940330709,-5.00002095923277,18.4676301956883,1012.93894599488
124,203,17714,"SMPDSv1","Akhaltsikhe transect","N179",41.75,42.8333333333333,1230,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.00743255436928,3069.92424437501,7.46973782886942,-5.16745004432735,18.3905665209193,1005.08866213106
124,204,17715,"SMPDSv1","Akhaltsikhe transect","N180",41.75,42.8333333333333,1225,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.00941385204229,3076.54833473982,7.49870187991979,-5.12559277305371,18.4098324396115,1007.05123309702
124,205,17716,"SMPDSv1","Akhaltsikhe transect","N181",41.7,42.85,1150,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.00699420329345,3202.94550315051,8.01354413482053,-4.46317077186466,18.8407021361192,1012.96073301837
124,206,17717,"SMPDSv1","Akhaltsikhe transect","N182",41.7,42.85,1170,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.998826563222504,3176.05420922354,7.9000470716578,-4.62581835150263,18.7653569737546,1004.95558504025
124,207,17718,"SMPDSv1","Akhaltsikhe transect","N183",41.7,42.9333333333333,1345,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.921846714945731,2951.67782538929,6.90162221352541,-6.10200133639652,18.1361929138593,929.30850421605
124,208,17719,"SMPDSv1","Akhaltsikhe transect","N184",41.7,42.9333333333333,1350,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.919890697980487,2945.42108887949,6.87329376440881,-6.14248148724451,18.1172982971577,927.373687987254
124,209,17720,"SMPDSv1","Akhaltsikhe transect","N185",41.65,42.95,1000,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.05117292685843,3416.16096125761,8.8609818067648,-3.32322083175418,19.4586812981224,1057.76507078328
124,210,17721,"SMPDSv1","Akhaltsikhe transect","N186",41.65,42.9166666666667,1325,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.925694054626102,2979.59861398569,7.02732569655419,-5.92224604903158,18.2207803962321,934.643053728562
124,211,17722,"SMPDSv1","Akhaltsikhe transect","N187",41.6166666666667,42.9666666666667,1490,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.854204356297989,2781.40372358927,6.10180752433009,-7.27765091256936,17.6291901700793,864.934767240385
124,212,17723,"SMPDSv1","Akhaltsikhe transect","N188",41.6,42.95,1820,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.725059703113462,2408.07021023358,4.24824582335072,-9.91737069245259,16.3886031298448,736.254198788504
124,213,17724,"SMPDSv1","Akhaltsikhe transect","N189",41.5833333333333,42.95,1960,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.668964769781654,2261.13296171682,3.46664711465357,-11.0354341441076,15.8699365230747,680.268357560212
124,214,17725,"SMPDSv1","Akhaltsikhe transect","N190",41.5666666666667,42.95,2210,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.570675430502694,2011.3812866883,2.06794800084084,-13.0335967127288,14.9395626592894,581.271278628481
124,215,17726,"SMPDSv1","Akhaltsikhe transect","N191",41.55,42.95,2460,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.472636705214518,1778.64991776392,0.671774212563228,-15.0274057464002,14.0108900155886,482.007640137745
125,216,6223,"EMPDv2","Akkol","Binney2017_E2172",50.27,89.61,2204,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.478709809415291,1119.55888699327,-6.65427099313319,-26.6228561665769,10.8549819515838,362.703746470292
126,217,7231,"EMPDv2","Akr-1","Fall_b4",34.60166,32.97896,0,"5e-04","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.301072766032052,7182.91288542033,19.6792133847132,10.6524548067874,28.7459728836922,481.432390418507
127,218,7230,"EMPDv2","Akr-2","Fall_b3",34.6036,32.9786199999999,0,"5e-04","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.301072582441878,7182.93415756181,19.6792716645529,10.6524278353641,28.7461585086531,481.422751836075
128,219,7229,"EMPDv2","Akr-3","Fall_b2",34.6047,32.9783899999999,-5,"5e-04","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.300944195532687,7190.47879852756,19.6999419137741,10.6568967964267,28.7813292917475,481.706880178761
129,220,7228,"EMPDv2","Akr-4","Fall_b1",34.6076389999999,32.976061,-5,"5e-04","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.300905614630371,7190.42822234366,19.6998033488867,10.6565957315225,28.781694233519,481.634734321048
130,221,17727,"SMPDSv1","Akuvaara","EPDcoretop_E4",69.125,27.683333,170,"0.04","lake","lacustrine core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.24292900375921,1337.63109582188,-1.42632491830203,-14.6443812808716,13.1334753342,450.105868493257
131,222,10646,"Neotoma","Al Jourd","Al Jourd core top",34.35,36.2,2111,"not known","terrestrial, marsh","core top","modern","Cheddadi, R. and Khater, C., 2016. Climate change since the last glacial period in Lebanon and the persistence of Mediterranean species. Quaternary Science Reviews, 150, pp.146-157.","10.1016/j.quascirev.2016.08.010",4,"warm-temperate evergreen and mixed forest",0.309426313210654,3211.34027412708,8.59018565511123,-1.31789680903551,17.6345267484708,465.710099677438
131,223,6076,"EMBSeCBIO","Al Jourd","Aljourd",34.35,36.2,2100,"not known","terrestrial, marsh","core","-70","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.309517171032972,3228.33395544098,8.64899483691083,-1.25705474749698,17.6924586815118,466.063454624082
132,224,17728,"SMPDSv1","Alainen Liesjarvi","Seppa_b87",61.83,25.23,135,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02342173454585,2126.78047667441,3.31929253181189,-9.35846838804542,16.0813997124873,555.304018698011
133,225,17729,"SMPDSv1","Alajarvi","Seppa_b32",64.17,28.75,178,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07468824048752,1923.86810130275,1.64639667104495,-12.5955693515279,15.8756242796054,523.921524902349
134,226,17730,"SMPDSv1","Alanen Laanijarvi","Bjune_a177",67.9666666666666,20.45,370,"0.1048","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15077049607441,1282.74667472278,-2.03372439959242,-16.0278369431568,12.3586001774212,468.699591910715
135,227,1674,"CMPD","Alashan","Alashan-00-02",41.718,100.583,910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0732882014204953,3784.50064658741,7.71170065573043,-11.5343694727497,24.5759320633813,83.5413236689035
135,228,1675,"CMPD","Alashan","Alashan-00-04",42.34,101.034,910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0733372260808777,3771.65525820923,7.66996724782252,-11.5348371227265,24.5204228302369,82.9993043594208
135,229,1676,"CMPD","Alashan","Alashan-00-05",42.352,100.965,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0728996043769251,3781.66077966579,7.71317534812228,-11.4899909561921,24.5538089911055,82.4739629478076
135,230,1677,"CMPD","Alashan","Alashan-00-06",42.166,100.85,930,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0747986166868383,3781.64901250479,7.75730492447328,-11.3539200835779,24.4968055669513,84.6650834086207
135,231,1678,"CMPD","Alashan","Alashan-00-07",42.108,102.9,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0835185982243242,3807.78416968146,7.80232676010742,-11.4327999868151,24.8749435635783,96.2330855783717
135,232,1679,"CMPD","Alashan","Alashan-00-09",41.942,102.513,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0847854114759724,3676.48798582866,7.27579070065779,-11.8877129984728,24.2676602647556,97.7133531884526
135,233,1680,"CMPD","Alashan","Alashan-00-12",42.108,101.567,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0787328961702618,3725.79326112028,7.47886102513497,-11.7235010051015,24.3888276891545,89.5785106864136
135,234,1681,"CMPD","Alashan","Alashan-00-15",41.792,100.42,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0744601029981573,3752.68971203258,7.71099766074932,-11.2120861599464,24.2669245520495,84.5757277876869
135,235,1682,"CMPD","Alashan","Alashan-00-16",41.78,100.212,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0735257916154065,3748.51177697472,7.72087517711905,-11.1281534597209,24.2014427564005,83.5486499056133
135,236,1683,"CMPD","Alashan","Alashan-00-17",41.885,99.847,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0732191369093288,3702.91716564562,7.57768394582526,-11.1372652663792,23.9630617428379,83.1572171393978
135,237,1684,"CMPD","Alashan","Alashan-00-18",41.863,99.992,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0729151949426562,3745.23498743632,7.71667037382044,-11.1016227744067,24.1760293512835,82.8380578273996
135,238,1685,"CMPD","Alashan","Alashan-00-19",42.352,100.963,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0728959819453249,3781.61958723365,7.71315160923294,-11.48963869127,24.5533656079958,82.4696286345424
135,239,1686,"CMPD","Alashan","Alashan-00-22",42.157,100.299,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0732762032794122,3747.45200753862,7.68821697646656,-11.2243635425164,24.2436989882597,82.9421619611782
135,240,1687,"CMPD","Alashan","Alashan-00-23",41.87,100.621,910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0735464229864798,3806.54025511504,7.89614870387038,-11.1329608407151,24.5288914976887,83.4439455506434
135,241,1688,"CMPD","Alashan","Alashan-00-24",41.762,100.205,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0733932181701853,3759.62685471738,7.75957135078638,-11.1101008160741,24.2541721743717,83.4226024169315
135,242,1689,"CMPD","Alashan","Alashan-00-24.132",41.883,99.633,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0717849871287838,3734.60336130008,7.70025335002607,-11.0326613187888,24.0961858153884,81.6575837506211
135,243,1690,"CMPD","Alashan","Alashan-00-25",41.545,99.833,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0748421254358086,3766.52055625196,7.76254744569196,-11.1744968805593,24.3160625539267,85.5182067004174
135,244,1691,"CMPD","Alashan","Alashan-00-26",41.275,99.474,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0758699698582948,3776.39610143938,7.86060873936604,-10.9381946708938,24.2656552049901,86.9268335285779
135,245,1692,"CMPD","Alashan","Alashan-00-27",40.87,99.412,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0864352569985756,3467.99163063132,7.2067792418836,-10.0896348772185,22.1574751622376,97.2855849539604
135,246,1693,"CMPD","Alashan","Alashan-00-28",40.84,99.412,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0878772875885222,3420.26756201333,7.0843157639253604,-10.0323637275721,21.8602562603881,98.6101320889448
135,247,1694,"CMPD","Alashan","Alashan-00-31",39.803,98.797,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0930585252390498,3546.94329516392,7.66278866034729,-9.34844931281017,22.1663892578357,105.653496785658
135,248,1695,"CMPD","Alashan","Alashan-00-32",39.469,98.98,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.10154508701744,3260.76504023707,6.64143536278446,-10.0287637776895,20.8546368862951,113.492232573025
135,249,1696,"CMPD","Alashan","Alashan-00-33",39.296,99.266,1670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.109910862824989,3001.46696641736,5.65486798582839,-10.7967687292049,19.7595478334889,120.792608231028
135,250,1697,"CMPD","Alashan","Alashan-01-03.97",38.403,101.604,2377,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179062429316912,2091.1765620991,2.46002118585295,-12.1246741365571,15.3026942775629,183.079863420708
135,251,1698,"CMPD","Alashan","Alashan-01-05.99",39.278,99.597,1530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.109419063494598,3196.23413382645,6.39690731744354,-10.2615152181444,20.6385910902654,121.46557591798
135,252,1699,"CMPD","Alashan","Alashan-01-06",40.35,99.195,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0885611354250216,3558.68746026271,7.59340138320172,-9.68890040569142,22.4465986338686,100.416477776109
135,253,1700,"CMPD","Alashan","Alashan-01-07",40.433,99.383,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0910813649112144,3485.88904331934,7.27264395548061,-10.079599426662,22.2237221002047,102.693623363002
135,254,1701,"CMPD","Alashan","Alashan-01-11",40.528,99.485,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0908446702537333,3481.28175163701,7.23758254889661,-10.1524316980841,22.2351841033741,102.310079791567
135,255,1702,"CMPD","Alashan","Alashan-01-12",40.833,99.4,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.088100858345727,3410.28486627807,7.05780866197369,-10.0229936145394,21.7992826596277,98.8041857904318
135,256,1703,"CMPD","Alashan","Alashan-01-13",41.217,99.45,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0832212793026528,3512.19049078972,7.2964245112508,-10.2102333816654,22.4809393033448,93.7515380270903
135,257,1704,"CMPD","Alashan","Alashan-01-15",41.5,99.783,1010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0759027625881046,3724.55462605265,7.66964063093383,-11.0659804151053,24.0406052876141,86.5664425925039
135,258,1705,"CMPD","Alashan","Alashan-01-16",41.55,99.833,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0748274435022089,3766.34097717191,7.76157843460043,-11.1758637603649,24.315643880431,85.4976523496945
135,259,1706,"CMPD","Alashan","Alashan-01-18",41.733,100.8,979,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0763011544570077,3735.89203166204,7.58862044021143,-11.468278549603,24.2890298058834,86.759656281323
135,260,1707,"CMPD","Alashan","Alashan-01-23",41.85,99.667,970,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0720314958005104,3726.70020305973,7.67599971992575,-11.035911611286,24.0541646780679,81.9388629046601
135,261,1708,"CMPD","Alashan","Alashan-01-24.131",41.883,99.633,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0717849871287838,3734.60336130008,7.70025335002607,-11.0326613187888,24.0961858153884,81.6575837506211
135,262,1709,"CMPD","Alashan","Alashan-01-25",41.933,99.633,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0720925632301495,3695.15666745147,7.57391620882751,-11.0568501586625,23.894552394357,81.9025836983562
135,263,1710,"CMPD","Alashan","Alashan-01-27",41.667,100.983,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0726607502996652,3783.21884610023,7.69970701558228,-11.5695734991417,24.5857044132103,82.6357120236651
136,264,7994,"EMPDv2","Alba (Tym River)","Mikishin-Gvozdeva_a54",51.3194444444444,142.706666666667,25,"not known","fluvial","sediment sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18866509750403,1900.95386912174,-0.433614202402923,-18.8381506918669,15.559866745416,653.226617084443
137,265,10703,"Bush et al., 2020","Alberca","Alberca",19.21,-101.46,1531,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.6181024609791,7576.42651677774,20.7573329226787,17.7038770548801,23.8278807048158,965.119149752555
138,266,13606,"Neotoma","Albert Lea Lake","ALBERTL3",43.65255,-93.2839999999999,369,"not known","lake","core","9","Unpublished data",,13,"temperate deciduous broadleaf forest",0.883312195443897,3528.28330555209,7.40693338284691,-10.4472014691426,22.5664210963583,789.744440252897
138,266,13607,"Neotoma","Albert Lea Lake","ALBERTL3",43.65255,-93.2839999999999,369,"not known","lake","core","31","Unpublished data",,13,"temperate deciduous broadleaf forest",0.883312195443897,3528.28330555209,7.40693338284691,-10.4472014691426,22.5664210963583,789.744440252897
138,266,13608,"Neotoma","Albert Lea Lake","ALBERTL3",43.65255,-93.2839999999999,369,"not known","lake","core","42","Unpublished data",,13,"temperate deciduous broadleaf forest",0.883312195443897,3528.28330555209,7.40693338284691,-10.4472014691426,22.5664210963583,789.744440252897
138,267,13609,"Neotoma","Albert Lea Lake","MNFRAL",43.65255,-93.2839999999999,369,"not known","lake","core","-27","Unpublished data",,13,"temperate deciduous broadleaf forest",0.883312195443897,3528.28330555209,7.40693338284691,-10.4472014691426,22.5664210963583,789.744440252897
138,267,13610,"Neotoma","Albert Lea Lake","MNFRAL",43.65255,-93.2839999999999,369,"not known","lake","core","14","Unpublished data",,13,"temperate deciduous broadleaf forest",0.883312195443897,3528.28330555209,7.40693338284691,-10.4472014691426,22.5664210963583,789.744440252897
139,268,17731,"SMPDSv1","Albi Flue","EPDcoretop_E1055",46.597194,7.976306,1850,"0.001","terrestrial, bog/fen/swamp","peat core top","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.5473813633332,1407.5304740744,2.44736257063428,-5.05323475233387,10.4675605154983,1902.02305703072
140,269,17556,"Phelps et al., 2020","Albitrunca Cliff 1","ALBITR1_0",-23.65,16.266667,1784,"not applicable","terrestrial","midden sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.156650395185312,7154.1111363113,19.6003044830446,12.411698592372,25.2184505814844,308.574566396418
141,270,17557,"Phelps et al., 2020","Albitrunca Cliff 2","ALBITR2_0",-23.650278,16.266667,1786,"not applicable","terrestrial","midden sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.156878714362065,7153.30784449175,19.598103683539,12.4043852077901,25.2191736060261,309.058576663294
142,271,10542,"IBERIA","Albufera Alcudia","ALCUDIA_2.55",39.79277778,3.119166667,0,"not known","terrestrial, bog/fen/swamp","core","17","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.502630000390847,6224.20881882078,17.0526269008788,10.0862946837167,25.382906346322,619.211313486864
142,272,10543,"IBERIA","Albufera Alcudia","ALCUDIA_2.65",39.79277778,3.119166667,0,"not known","terrestrial, bog/fen/swamp","core","42","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.502630000390847,6224.20881882078,17.0526269008788,10.0862946837167,25.382906346322,619.211313486864
142,273,17732,"SMPDSv1","Albufera Alcudia","EPDcoretop_E891",39.792778,3.119167,0,"not applicable","coastal, estuarine","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.502630007753829,6224.20879011773,17.0526268222404,10.0862946033318,25.3829062615706,619.211319636274
143,274,10704,"Bush et al., 2020","Alchichica","Alchichica",19.41,-97.4,2304,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.621975837321223,5749.65290049743,15.752473699993,12.7460105991592,18.1081253457069,897.237016887226
144,275,17733,"SMPDSv1","Alderhill Bottom","Grant_a8",50.923301,-1.715302,83,"0.044","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.16986885712377,3545.87185177426,9.71471740212126,3.9861881992854,16.2608912866638,793.042728558939
145,276,11818,"Neotoma","Alderwick Pond, RI","SJNE4",41.407619,-71.5395775,27,"not known","lake","surface sample","-37","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,13,"temperate deciduous broadleaf forest",1.30970975795957,3888.42679422178,10.3383306641934,-2.21495699943937,22.3771419325502,1187.61828131262
146,277,7996,"EMPDv2","Aleksandrovsk","Mikishin-Gvozdeva_a56",50.8833333333333,142.135277777778,60,"not applicable","terrestrial","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18082788447325,1916.10946349132,-0.434732302808018,-19.0583778812359,15.6218051532034,659.295572144781
147,278,17734,"SMPDSv1","Alekseevskoe boloto","Alekseevskoe boloto_SS (Novenko_c270)",55.105556,40.8494,123,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.832585264608504,2753.38749269289,4.75756620401793,-10.9880852929523,18.9086669027308,581.341775891746
148,279,9586,"Gaillard et al., 1992","Alestad","Alestad A",55.719898,13.719322,107,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.03398755640066,2706.0097485529,7.09268415357852,-1.82141460889102,16.1328036060878,684.56121936667
148,280,9587,"Gaillard et al., 1992","Alestad","Alestad B",55.719898,13.719322,107,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.03398755640066,2706.0097485529,7.09268415357852,-1.82141460889102,16.1328036060878,684.56121936667
149,281,17753,"SMPDSv1","Aletschwald","CH/WVDK/A0",46.388614,8.024551,2017,"not applicable","terrestrial","pollen trap","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68137106503487,1217.62108044462,1.60176693634825,-5.66994400480078,9.48166008126034,1980.33685406861
149,282,17754,"SMPDSv1","Aletschwald","CH/WVDK/A1",46.390719,8.026264,2000,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66551276737179,1237.05040191914,1.69063470975812,-5.60458850135412,9.5854586440716,1971.81521128294
149,283,17755,"SMPDSv1","Aletschwald","CH/WVDK/A2",46.390265,8.027104,2010,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.67549762278065,1225.37349711555,1.63728269018285,-5.64384176795078,9.52285944654228,1977.11531776652
149,284,17756,"SMPDSv1","Aletschwald","CH/WVDK/A3",46.388714,8.030404,2165,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83184039868413,1049.78284179283,0.812985296019093,-6.25061119008257,8.55671722704045,2058.5865552943
149,285,17757,"SMPDSv1","Aletschwald","CH/WVDK/A4",46.387766,8.031109,2215,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.88331905510227,995.073665176408,0.547271596736939,-6.44614611970164,8.2452937883693,2084.77411942049
149,286,17758,"SMPDSv1","Aletschwald","CH/WVDK/A5",46.390698,8.029516,2020,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68612151254038,1213.46923619749,1.58293998318916,-5.68384551520381,9.45884936799993,1982.67950179513
149,287,17751,"SMPDSv1","Aletschwald","EPDcoretop_E1056",46.388611,8.02455,2017,"0.001","terrestrial, bog/fen/swamp","peat core top","-21","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68137017362993,1217.62136572361,1.60176822675411,-5.66994291484939,9.48166182182995,1980.33647645932
149,288,17752,"SMPDSv1","Aletschwald","EPDcoretop_E1059",46.388611,8.02455,2017,"0.001","lake","peat core top","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68137017362993,1217.62136572361,1.60176822675411,-5.66994291484939,9.48166182182995,1980.33647645932
149,289,17735,"SMPDSv1","Aletschwald","Knaap_a1",46.390714,8.026266,2000,"0.005","terrestrial, blanket bog","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66551228137052,1237.05048259476,1.6906351716003,-5.60458789390834,9.58545907192844,1971.81502501353
149,290,17736,"SMPDSv1","Aletschwald","Knaap_a10",46.388714,8.030404,2165,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83184039868413,1049.78284179283,0.812985296019093,-6.25061119008257,8.55671722704045,2058.5865552943
149,291,17737,"SMPDSv1","Aletschwald","Knaap_a11",46.387766,8.031109,2215,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.88331905510227,995.073665176408,0.547271596736939,-6.44614611970164,8.2452937883693,2084.77411942049
149,292,17738,"SMPDSv1","Aletschwald","Knaap_a12",46.387766,8.031109,2215,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.88331905510227,995.073665176408,0.547271596736939,-6.44614611970164,8.2452937883693,2084.77411942049
149,293,17739,"SMPDSv1","Aletschwald","Knaap_a13",46.387766,8.031109,2215,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.88331905510227,995.073665176408,0.547271596736939,-6.44614611970164,8.2452937883693,2084.77411942049
149,294,17740,"SMPDSv1","Aletschwald","Knaap_a14",46.390698,8.029516,2020,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68612151254038,1213.46923619749,1.58293998318916,-5.68384551520381,9.45884936799993,1982.67950179513
149,295,17741,"SMPDSv1","Aletschwald","Knaap_a15",46.390698,8.029516,2020,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68612151254038,1213.46923619749,1.58293998318916,-5.68384551520381,9.45884936799993,1982.67950179513
149,296,17742,"SMPDSv1","Aletschwald","Knaap_a16",46.390698,8.029516,2020,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68612151254038,1213.46923619749,1.58293998318916,-5.68384551520381,9.45884936799993,1982.67950179513
149,297,17743,"SMPDSv1","Aletschwald","Knaap_a2",46.390714,8.026266,2000,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66551228137052,1237.05048259476,1.6906351716003,-5.60458789390834,9.58545907192844,1971.81502501353
149,298,17744,"SMPDSv1","Aletschwald","Knaap_a3",46.390714,8.026266,2000,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66551228137052,1237.05048259476,1.6906351716003,-5.60458789390834,9.58545907192844,1971.81502501353
149,299,17745,"SMPDSv1","Aletschwald","Knaap_a4",46.390714,8.026266,2000,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66551228137052,1237.05048259476,1.6906351716003,-5.60458789390834,9.58545907192844,1971.81502501353
149,300,17746,"SMPDSv1","Aletschwald","Knaap_a5",46.39026,8.027106,2010,"5e-04","terrestrial, blanket bog","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.67549713674446,1225.37357287942,1.6372831338396,-5.64384116499244,9.52285984329855,1977.11512736094
149,301,17747,"SMPDSv1","Aletschwald","Knaap_a6",46.39026,8.027106,2010,"5e-04","terrestrial, blanket bog","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.67549713674446,1225.37357287942,1.6372831338396,-5.64384116499244,9.52285984329855,1977.11512736094
149,302,17748,"SMPDSv1","Aletschwald","Knaap_a7",46.39026,8.027106,2010,"5e-04","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.67549713674446,1225.37357287942,1.6372831338396,-5.64384116499244,9.52285984329855,1977.11512736094
149,303,17749,"SMPDSv1","Aletschwald","Knaap_a8",46.388714,8.030404,2165,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83184039868413,1049.78284179283,0.812985296019093,-6.25061119008257,8.55671722704045,2058.5865552943
149,304,17750,"SMPDSv1","Aletschwald","Knaap_a9",46.388714,8.030404,2165,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83184039868413,1049.78284179283,0.812985296019093,-6.25061119008257,8.55671722704045,2058.5865552943
150,305,12220,"Neotoma","Alexis Lake","ALEXISLK",52.516667,-57.033333,200,"not known","lake","core","30","Lamb, H.F. 1978. Post-glacial vegetation change in southeastern Labrador. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,15,"cold evergreen needleleaf forest",2.14600827455554,1268.47233439768,-0.652710516867456,-13.3751516412797,11.2714839392918,1106.73688500342
151,306,11901,"Neotoma","Alfies Lake","BU1647",47.88154,-84.86725,288,"not known","lake","surface sample","-22","Saarnisto, M. 1974. The deglaciation history of the Lake Superior region and its climatic implications. Quaternary Research 4(3):316-339. Saarnisto, M. 1975. Stratigraphical studies on the shoreline displacement of Lake Superior. Canadian Journal of Earth Sciences 12(2):300-319.","10.1016/0033-5894(74)90019-2;
10.1139/e75-026",9,"cool mixed forest",1.26287764679066,2312.90168700395,2.48703816307421,-14.4157329266369,16.8376495327367,892.377333003721
152,307,17759,"SMPDSv1","ALG1","Barboni_a382",36.967222,-4.868889,450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413459294363946,5944.49285925563,16.2862818061798,8.97455737765448,25.125166684983,548.959376404607
153,308,17760,"SMPDSv1","ALG2","Barboni_a383",36.818889,-5.067222,1051,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.382013688276335,5157.46408264032,14.1300385825762,5.84283840303528,24.7995077508681,502.171943520607
154,309,17761,"SMPDSv1","ALG3","Barboni_a384",36.517222,-5.35,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.437256325013204,5556.15733181822,15.2223488542965,8.30371982034822,23.896503000317,575.539362748252
155,310,17762,"SMPDSv1","ALG4","Barboni_a385",36.467222,-5.368889,100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.43185568073695,6401.00004371175,17.5369864211281,11.0628401544701,25.1974385368165,576.946730295365
156,311,17763,"SMPDSv1","ALG5","Barboni_a386",36.318889,-5.417222,100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432435779878948,6396.62679243364,17.5250049107771,11.1097536821823,25.1209023988741,577.380285854049
157,312,1711,"CMPD","Ali","Ali 1",31.96,90.62,4450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.453534664716306,1367.00875178402,0.496274564958984,-10.7828823756977,10.5879313659439,512.330985080735
157,313,1712,"CMPD","Ali","Ali 2",31.95,90.66,4585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.431507909080935,1174.742231584,-0.592399201764787,-11.8707306149885,9.61747371631798,478.095319603447
157,314,1713,"CMPD","Ali","Ali 3",31.96,90.62,4450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.453534664716306,1367.00875178402,0.496274564958984,-10.7828823756977,10.5879313659439,512.330985080735
157,315,1714,"CMPD","Ali","Ali 4",31.98,90.46,4520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.446265433688894,1261.58309676852,-0.0829690236671369,-11.3371437096733,10.0768178204865,498.880705506358
157,316,1715,"CMPD","Ali","Ali 5",31.96,90.73,4570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.432424942509107,1195.75817031111,-0.472737967282812,-11.7613921259003,9.72257482856071,480.053612013457
158,317,6066,"EMBSeCBIO","Aligol lake","Aligol core_0",41.63,44.02,1550,"0.03","terrestrial, bog/fen/swamp","core","-7","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.709609984882829,2792.06021703247,5.84783494104259,-8.40060548370835,18.2912336246542,727.267907465889
158,318,6067,"EMBSeCBIO","Aligol lake","Aligol core_4",41.63,44.02,1550,"0.03","terrestrial, bog/fen/swamp","core","21","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.709609984882829,2792.06021703247,5.84783494104259,-8.40060548370835,18.2912336246542,727.267907465889
158,319,6068,"EMBSeCBIO","Aligol lake","Aligol core_8",41.63,44.02,1550,"0.03","terrestrial, bog/fen/swamp","core","49","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.709609984882829,2792.06021703247,5.84783494104259,-8.40060548370835,18.2912336246542,727.267907465889
158,320,17764,"SMPDSv1","Aligol lake","Connor_a1 (AL1)",41.64,44.021,1550,"0.03","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.711053976020886,2790.73623901918,5.84301100443273,-8.40291187612661,18.2849858187947,728.386419449759
158,321,17765,"SMPDSv1","Aligol lake","Connor_a2 (AL2)",41.641,44.021,1550,"0.03","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.711200683653226,2790.59962965003,5.84251519665954,-8.40314812049952,18.2843198238814,728.500147146355
158,322,17766,"SMPDSv1","Aligol lake","Connor_a3 (AL3)",41.641,44.021,1550,"0.03","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.711200683653226,2790.59962965003,5.84251519665954,-8.40314812049952,18.2843198238814,728.500147146355
159,323,17767,"SMPDSv1","Alimmainen Aittojarvi","Seppa_b5",68.48,27.9,160,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19392135687266,1372.715073871,-1.19331900433722,-14.4105791408909,13.3172901885734,442.745990393591
160,324,17768,"SMPDSv1","Alinenjarvi","Seppa_b83",61.495292,23.45427,149,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00767619877465,2120.42228159775,3.3911479834793,-8.99086334410126,15.8699042073718,532.662459535484
161,325,10705,"Bush et al., 2020","Aljojuca","Aljojuca",19.09,-97.54,2448,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.509896265875092,5603.08164678433,15.3509086213269,12.4994938551566,17.6419280260767,738.994797534597
162,326,11552,"Neotoma","Alkali Lake","NDSAAL",46.025635,-97.38487,343,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.610893075300145,3170.55387083738,5.33336843732516,-13.849644202841,21.6963991691135,516.444288387441
163,327,11467,"Neotoma","Alkaline Lake","NDKIAL",46.66275,-99.5673,562,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.522995389708808,3040.93307114827,5.00573170241555,-13.486237546065,21.3430729642333,444.396832368949
164,328,7156,"EMPDv2","All Saints Bog","EPDcoretop_E2230",53.15,-7.98,42,"3.45","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.65288358111921,3478.52011664962,9.53019210040992,4.9278895275909,14.973186195036,1018.15738854991
165,329,17769,"SMPDSv1","Allijarvi","Seppa_b2",68.28,24.75,373,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29854389342368,1191.17807954251,-3.01371147908614,-17.1404389624191,12.2358900795558,490.57798258666
166,330,17770,"SMPDSv1","Allos","Ortu_d49",44.245,6.636,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26322932675454,2617.07320446867,7.12991671620114,-0.409580319693267,15.7003828360074,1236.83351492888
166,331,17771,"SMPDSv1","Allos","Ortu_d50",44.245,6.636,1250,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18185352712454,2901.28646620282,7.94873004439128,0.384112411654885,16.5291320472436,1178.56990921347
166,332,17772,"SMPDSv1","Allos","Ortu_d51",44.243,6.655,1720,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44716235092171,2109.46619730504,5.38838396036252,-2.09702487829202,13.9367092716001,1361.01296774524
166,333,17773,"SMPDSv1","Allos","Ortu_d52",44.246,6.659,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49578355164782,1995.9768154582,4.95231237715081,-2.51935138163065,13.4950406506462,1392.12906114359
166,334,17774,"SMPDSv1","Allos","Ortu_d53",44.245,6.675,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49542323616609,1997.00427357866,4.95660326337295,-2.51448157667197,13.4985169202905,1392.02509917084
166,335,17775,"SMPDSv1","Allos","Ortu_d54",44.248,6.686,1920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.56994676818549,1835.49493409909,4.30406392668941,-3.14541207489337,12.8371153480944,1438.54837742805
166,336,17776,"SMPDSv1","Allos","Ortu_d55",44.249,6.693,2050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65327077135587,1670.39528216226,3.59620768283258,-3.82965701792749,12.1198610835335,1488.85942958517
166,337,17777,"SMPDSv1","Allos","Ortu_d56",44.249,6.693,2150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71946994713347,1549.50272484094,3.05040515933502,-4.3576309361349,11.5671715550757,1527.57350716591
166,338,17778,"SMPDSv1","Allos","Ortu_d57",44.249,6.693,2120,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69941932984559,1585.23600838289,3.21414591638429,-4.19923876067268,11.7329784136131,1515.95928389169
166,339,17779,"SMPDSv1","Allos","Ortu_d58",44.249,6.693,2120,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69941932984559,1585.23600838289,3.21414591638429,-4.19923876067268,11.7329784136131,1515.95928389169
167,340,17780,"SMPDSv1","Allt na Feithe Sheilich","EPDcoretop_E67",57.316667,-3.9,595,"not known","terrestrial, blanket bog","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.10611686481761,1738.63537270798,4.57435724917467,-1.19056733483742,11.051307826888,1932.7280187627
168,341,16702,"Neotoma","Almanac Pond","PWD10",41.283333,-70.008333,9,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40151015139125,3952.66789860488,10.5980667189157,-1.74940419225916,22.400682167536,1274.40392358761
169,342,17781,"SMPDSv1","Almatjern","Bjune_a110",60.7952305,6.12798446,480,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.96993122248681,1969.77050464095,4.9927246419807,-2.10618325041818,12.6520035170997,2033.32020692687
170,343,7017,"EMPDv2","Almenara de Adaja","EPDcoretop_E1560",41.19,-4.67,784,"2e-04","coastal, lagoon","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.399185808577543,4521.97110154999,12.3889619220548,4.47047854773157,21.8781530329016,484.246940989118
171,344,10706,"Bush et al., 2020","AlmondHill","AlmondHill",17.46,-88.31,0,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.09986256495639,9478.74494267925,25.9691642265185,23.3370500489867,27.7385243022373,1738.20443162355
172,345,17782,"SMPDSv1","Aloppi","Seppa_b132",57.95,26.58,154,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01565775871238,2477.68649041805,5.06365926362596,-7.18735488009121,16.4367696381075,630.334161196743
173,346,17783,"SMPDSv1","Alp Lusga Belalp 1","EPDcoretop_E1064",46.38468056,7.9833,2330,"not known","terrestrial, bog/fen/swamp","peat core top","-6","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.98617980679716,879.080822414825,-0.0336258269691434,-6.8753910372806,7.5737108997603,2138.1651524602
174,347,17784,"SMPDSv1","Alp Lusga Belalp 2","EPDcoretop_E1065",46.383476,7.971589,2290,"not known","terrestrial, bog/fen/swamp","core top","-6","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.94009770626664,922.576267271869,0.185127518107414,-6.71449777257617,7.83182809012278,2115.63634963911
175,348,17785,"SMPDSv1","ALP1","Barboni_a387",37.018889,-3.617222,965,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.370280433918466,5124.59274628536,14.0399801268092,6.2147482173896504,24.1528015109443,479.458219763436
176,349,17786,"SMPDSv1","ALP2","Barboni_a388",36.917222,-3.517222,660,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.358927326448863,5650.93102020016,15.4820027950689,7.97816925342454,24.8958289061564,469.892782135622
177,350,17787,"SMPDSv1","ALP3","Barboni_a389",36.95,-3.35,1590,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.395859961020529,4030.70523396193,11.0430280382519,2.60055426994806,22.5163991880869,501.061795805441
178,351,17788,"SMPDSv1","ALP4","Barboni_a390",36.918889,-3.35,1273,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.381236561930183,4583.53121983064,12.5576197803579,4.44182639640495,23.3216903122496,488.406117516507
179,352,17789,"SMPDSv1","ALP5","Barboni_a391",36.95,-3.268889,1280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.382346871614569,4565.83440825239,12.509135365075,4.38028207785853,23.297852732891698,489.342005534793
180,353,17790,"SMPDSv1","ALP6","Barboni_a392",36.95,-3.218889,1430,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.406060132275734,4315.24718357759,11.8225950235003,3.48590279114314,23.0256914154432,518.893510334198
181,354,17791,"SMPDSv1","ALP7","Barboni_a393",37.018889,-3.017222,1430,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.406392918617268,4308.35873728977,11.8037225679172,3.45186613912987,23.0368831771085,518.691069944962
182,355,17792,"SMPDSv1","ALP8","Barboni_a394",37.1,-3.017222,2030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467217051146764,3287.6625174602,8.9924640723042,-0.0667470966428777,21.6948059062961,586.548060736031
183,356,17793,"SMPDSv1","ALP9","Barboni_a395",37.117222,-3.018889,2350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.500408604510001,2870.92114160478,7.49553837396595,-1.93502828444043,20.9715498919153,622.580391536531
184,357,17794,"SMPDSv1","ALPA","Barboni_a396",37.15,-3.05,1660,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428650487173437,3913.13327313903,10.7209130770932,2.10284540864444,22.5083943664198,542.942549509186
185,358,17795,"SMPDSv1","ALPB","Barboni_a397",37.167222,-2.917222,1280,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39079390250898,4557.3280567259,12.4858302923997,4.29960097773021,23.3716610778133,499.519869219977
186,359,17796,"SMPDSv1","ALPC","Barboni_a398",37.168889,-3.117222,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.395207925739094,4495.06079356665,12.3152350508675,4.09067695089714,23.2813107250494,504.902378340951
187,360,17797,"SMPDSv1","Alpi di Robiei, Val Bavona","EPDcoretop_E1146",46.44401111,8.517211111,1892,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.77025142801532,1267.22180713501,1.83876641250831,-5.51898273034321,9.66470769460186,2004.45466357799
188,361,9746,"Herzschuh et al., 2019","Alpine Khar Nuur. 33A","Alpine Khar Nuur. 33A",48.38331,90.04732,2510,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.284541697000415,1085.97430451042,-6.60593369124352,-26.467909426819,10.4331745678513,239.786659765022
189,362,13777,"Neotoma","Alpine Pond","ALPINE11",37.63632,-112.824459999999,3200,"not known","lake","core","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.389171805651433,1475.23088086767,1.29586923839251,-8.742494882579,13.002494345803,409.564147850035
190,363,17798,"SMPDSv1","Alsa","Barboni_a377",43.117886,-4.016667,820,"100","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.758203276530265,3866.83414227266,10.5940661432128,3.77801252674169,18.408598960556,773.082076922012
191,364,6975,"EMPDv2","Alsopahok","EPDcoretop_E1398",46.77,17.17,126,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.755731392039291,3882.21450683178,10.5252072764557,-1.15202460935305,20.4126538028187,669.921090894285
192,365,17799,"SMPDSv1","Altai","Kunes_a1",49.9613888888888,88.0361111111111,1992,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.548987605891869,1247.415238012,-5.42878838475334,-24.257601855998,11.6985731524876,419.915178369439
192,366,17800,"SMPDSv1","Altai","Kunes_a16",50.1449999999999,88.3383333333333,2123,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.525337386250301,1151.44571790243,-6.10886440297191,-25.1611699408941,11.0724071161694,398.89104790022
192,367,17801,"SMPDSv1","Altai","Kunes_a17",50.1758333333333,87.8975,1567,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.61044006126147,1569.27917945563,-3.63631442046338,-22.7189229779538,13.7822685125558,466.077647869342
192,368,17802,"SMPDSv1","Altai","Kunes_a18",50.1763888888888,87.8972222222222,1560,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.611303311215779,1574.83550968104,-3.60640253524003,-22.693665947034,13.8170418776766,466.750943743581
192,369,17803,"SMPDSv1","Altai","Kunes_a19",49.9502777777777,88.0422222222222,2405,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.500395483025967,951.066678715781,-7.18401872524547,-25.7262547402547,9.65021040118829,381.007550754824
192,370,17804,"SMPDSv1","Altai","Kunes_a2",49.9605555555555,88.0383333333333,2010,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.54679536167681,1234.0242141457,-5.50545809291767,-24.3224911258941,11.6094314172417,418.174373629634
192,371,17805,"SMPDSv1","Altai","Kunes_a20",50.1747222222222,87.8963888888889,1534,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.614340990650762,1595.65350241914,-3.49460252406031,-22.5991753705656,13.9467327462439,469.167322782872
192,372,17806,"SMPDSv1","Altai","Kunes_a21",50.1636111111111,88.3180555555555,1805,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.573207720865164,1375.16203479248,-4.83603764122594,-24.0968079785668,12.5761292784594,434.347443369653
192,373,17807,"SMPDSv1","Altai","Kunes_a23",50.1447222222222,88.3455555555555,2373,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.488910430127713,983.341071791999,-7.10893896957696,-25.9942735964801,9.88997647896709,371.457594178415
192,374,17808,"SMPDSv1","Altai","Kunes_a27",49.9486111111111,88.0391666666666,2490,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.490656601598893,892.892494543719,-7.54533255912809,-26.0269425343184,9.22794018144408,373.138606768647
192,375,17809,"SMPDSv1","Altai","Kunes_a28",50.1741666666666,87.8988888888888,1512,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.61693746353395,1613.22266765418,-3.40085360659815,-22.5210737819683,14.0561692425449,471.206665283164
192,376,17810,"SMPDSv1","Altai","Kunes_a29",49.9488888888888,88.0388888888888,2492,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.490443996239863,891.525381299657,-7.55389624571596,-26.0340415397514,9.21794407761823,372.962440138433
192,377,17811,"SMPDSv1","Altai","Kunes_a3",49.9580555555555,88.0388888888888,2077,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.53885585250808,1184.62037653875,-5.79003453904247,-24.5604153970224,11.2771940355862,411.85316273283
192,378,17812,"SMPDSv1","Altai","Kunes_a30",49.9488888888888,88.0386111111111,2493,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.490340136288899,890.840845531037,-7.55815489906668,-26.0374988778306,9.21293524509445,372.877117579347
192,379,17813,"SMPDSv1","Altai","Kunes_a31",50.1441666666666,88.3325,1873,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.561990478485634,1326.71419369282,-5.1081479881579,-24.3289442823874,12.2559837823672,426.219935568562
192,380,17814,"SMPDSv1","Altai","Kunes_a32",49.9449999999999,88.0369444444444,2570,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.481455420506781,839.091252181974,-7.88515400582312,-26.3378872708364,8.83064547322059,365.711803498478
192,381,17815,"SMPDSv1","Altai","Kunes_a33",49.9444444444444,88.0341666666666,2588,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.479497892483909,827.070139063121,-7.9617674223744,-26.4102753966842,8.74080551691846,364.115256631606
192,382,17816,"SMPDSv1","Altai","Kunes_a36",50.2422222222222,87.8838888888888,1593,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.610313015962937,1546.81955984455,-3.75751523054023,-22.819251295796,13.64431104073,465.139107797329
192,383,17817,"SMPDSv1","Altai","Kunes_a37",50.245,87.8847222222222,1586,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.611268601370071,1552.27978606576,-3.72820300996342,-22.7948871344592,13.6787272327456,465.85231290274
192,384,17818,"SMPDSv1","Altai","Kunes_a38",50.2438888888888,87.8841666666666,1611,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.608216163904015,1532.55804555083,-3.83495809577822,-22.8847801391631,13.5545314349515,463.464840945598
192,385,17819,"SMPDSv1","Altai","Kunes_a39",50.2447222222222,87.8841666666666,1607,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.608732543791737,1535.69183926938,-3.81797949327538,-22.8704808697534,13.5743197439655,463.860786722304
192,386,17820,"SMPDSv1","Altai","Kunes_a4",50.1544444444444,88.3083333333333,1740,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.582463513810009,1422.65099293944,-4.57295212020415,-23.8769168176824,12.8859746062356,441.286666646013
192,387,17821,"SMPDSv1","Altai","Kunes_a40",50.2486111111111,87.8902777777777,1568,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.613560387839304,1566.38409542857,-3.65286219968926,-22.733234754155,13.7675245314775,467.589301560129
192,388,17822,"SMPDSv1","Altai","Kunes_a41",50.2486111111111,87.8883333333333,1585,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.61151947445476,1552.92223900809,-3.72526935216282,-22.7937328429461,13.6830648555119,465.990958188159
192,389,17823,"SMPDSv1","Altai","Kunes_a43",50.1147222222222,87.8047222222222,2013,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.557673878301988,1226.805885499,-5.52440285847776,-24.2687291481526,11.5643100795375,424.856263314216
192,390,17824,"SMPDSv1","Altai","Kunes_a44",50.1277777777777,87.8022222222222,1942,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.566203731007058,1279.92950534717,-5.22113854071018,-24.0146076697175,11.9178636494577,431.586586629656
192,391,17825,"SMPDSv1","Altai","Kunes_a45",50.0941666666666,87.7897222222222,2094,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.548291172810117,1166.9703105125,-5.86784061994023,-24.5491546290272,11.1601860517434,417.479969318346
192,392,17826,"SMPDSv1","Altai","Kunes_a46",50.1058333333333,87.8013888888888,2066,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.55149943749281,1187.54309721262,-5.7504927365392,-24.4563005958327,11.2999124617678,419.958712211626
192,393,17827,"SMPDSv1","Altai","Kunes_a47",50.1063888888888,87.7938888888888,2266,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.529411483017767,1041.71611760382,-6.61128663565245,-25.1762460649114,10.2982706390195,401.955603643088
192,394,17828,"SMPDSv1","Altai","Kunes_a48",50.1080555555555,87.7933333333333,2260,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.5301453279483,1045.96612372465,-6.5857285165049,-25.1548198916562,10.328093748034,402.533428552812
192,395,17829,"SMPDSv1","Altai","Kunes_a49",50.1058333333333,87.8,2085,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.549407670310206,1173.43041413943,-5.83217304063484,-24.5243677733756,11.2047422226599,418.258469630908
192,396,17830,"SMPDSv1","Altai","Kunes_a5",49.9558333333333,88.0408333333333,2135,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.531957514181441,1142.33246655859,-6.03649283367389,-24.7669945851991,10.9896949239346,406.352337651355
192,397,17831,"SMPDSv1","Altai","Kunes_a50",50.1083333333333,87.7927777777777,2271,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.528948033840503,1038.09106285027,-6.63313100842801,-25.1944482941125,10.2729480334948,401.551257686589
192,398,17832,"SMPDSv1","Altai","Kunes_a57",50.3083333333333,87.6519444444444,1395,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.637766462201274,1699.71977898536,-2.86088099351094,-21.8593199616604,14.5653921372602,485.945512327816
192,399,17833,"SMPDSv1","Altai","Kunes_a58",50.3077777777777,87.6502777777777,1382,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.638885089563945,1710.61930052133,-2.80290714929298,-21.8095009843795,14.6312470805248,486.890111743099
192,400,17834,"SMPDSv1","Altai","Kunes_a59",50.3075,87.6461111111111,1342,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.642353343238873,1744.18352384116,-2.62489139909824,-21.6568637233725,14.8336428477732,489.795344862064
192,401,17835,"SMPDSv1","Altai","Kunes_a6",49.9538888888888,88.0380555555555,2199,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.524527125614489,1096.07544177717,-6.30817282182005,-24.9928700482477,10.6719787617493,400.403021469618
192,402,17836,"SMPDSv1","Altai","Kunes_a60",50.3008333333333,87.65,1397,"not applicable","terrestrial","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.63743330769967,1698.30478481673,-2.86812811920694,-21.8646649392819,14.5566267832353,485.767951148509
192,403,17837,"SMPDSv1","Altai","Kunes_a63",50.3069444444444,87.6486111111111,1354,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.641297172894374,1734.09876786785,-2.6783542795296,-21.7030888361428,14.7730361261709,488.916323030353
192,404,17838,"SMPDSv1","Altai","Kunes_a65",50.3022222222222,87.6516666666666,1375,"not applicable","terrestrial","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.63936541306492,1716.65491883813,-2.77103416049011,-21.7827231734708,14.6676765656842,487.35931098409
192,405,17839,"SMPDSv1","Altai","Kunes_a7",50.1613888888888,88.3069444444444,1777,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.577378255211675,1395.55721501734,-4.72171998041941,-23.9989863132683,12.7097149693834,437.471895312449
192,406,17840,"SMPDSv1","Altai","Kunes_a8",50.1447222222222,88.3372222222222,2079,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.531760812812969,1181.77615331087,-5.9327450980751,-25.0146024999101,11.2806648777037,403.703760533772
192,407,17841,"SMPDSv1","Altai","Kunes_a81",50.2888888888888,87.8986111111111,2020,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.572391124941208,1205.66158579786,-5.69106500582351,-24.5013860254524,11.4437951426918,431.397239194107
192,408,17842,"SMPDSv1","Altai","Kunes_a82",50.2955555555555,87.8902777777777,2216,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.551992617742428,1061.76153168272,-6.54847744386452,-25.2334688343348,10.4646804960199,414.650352620758
192,409,17843,"SMPDSv1","Altai","Kunes_a83",50.2961111111111,87.8916666666666,2236,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.549851563692787,1047.43311109759,-6.6361054715021,-25.3090983921359,10.3649761988039,412.894285709008
192,410,17844,"SMPDSv1","Altai","Kunes_a87",50.3041666666666,87.8902777777777,2319,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.541321474343191,988.305962093134,-6.99998977981381,-25.6215252375659,9.9505008855582,405.812560580058
192,411,17845,"SMPDSv1","Altai","Kunes_a89",50.9847222222222,85.6813888888888,1325,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.695653071854421,1734.90263348586,-2.42834194452256,-20.6875038917782,14.7745462144335,524.527734496443
192,412,17846,"SMPDSv1","Altai","Kunes_a9",50.1669444444444,88.3213888888888,1920,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.556351522910864,1292.69994728521,-5.29754973018899,-24.4810464326275,12.0308296740832,421.825436970895
192,413,17847,"SMPDSv1","Altai","Kunes_a90",50.3058333333333,87.8886111111111,2499,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.522488106469542,863.764142535533,-7.78746351096283,-26.3130278724997,9.05219975153994,390.306168117607
192,414,17848,"SMPDSv1","Altai","Kunes_a92",50.9858333333333,85.6816666666666,1328,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.695717377069421,1732.33232169644,-2.4420096300287,-20.6992829271788,14.7592007505255,524.544234342719
192,415,17849,"SMPDSv1","Altai","Kunes_a93",50.9908333333333,85.6761111111111,1370,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.696539877256274,1696.85191157777,-2.63104748268212,-20.8605057112189,14.5462967082869,524.843448682096
192,416,17850,"SMPDSv1","Altai","Kunes_a94",50.9919444444444,85.6719444444444,1397,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.697040157166319,1674.23797804607,-2.75221404513922,-20.9637115717997,14.4097484412246,525.03410791348006
192,417,17851,"SMPDSv1","Altai","Kunes_a95",50.9858333333333,85.6775,1330,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.695818868740455,1730.67071281284,-2.45068228597692,-20.7060751259026,14.7493061077688,524.612033166461
192,418,17852,"SMPDSv1","Altai","Kunes_a97",50.985,85.6755555555555,1382,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.696576817315593,1686.96149406718,-2.68398727510997,-20.9056041700904,14.4864048782169,524.861124009045
192,419,17853,"SMPDSv1","Altai","Kunes_a98",50.985,85.675,1349,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.696111925841179,1714.65107844995,-2.53571293416776,-20.77850854996,14.6534149321666,524.724982061034
192,420,17854,"SMPDSv1","Altai","Kunes_a99",50.9855555555555,85.6752777777777,1340,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.695992735364667,1722.23256776948,-2.4953928797155,-20.744027673974,14.6988641746069,524.685502482038
193,421,1716,"CMPD","Altai Mt","Altai Mt ATM01",44.15975,88.7011944444444,621,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104107001744885,4250.57608373185,8.72868632176311,-12.6720782464767,26.2566530242045,114.913446580964
193,422,1717,"CMPD","Altai Mt","Altai Mt ATM02",44.3830555555556,88.7590833333333,533,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0983241971418527,4264.10101398394,8.57592531049147,-13.2464963958935,26.4185220616485,109.477888304171
193,423,1718,"CMPD","Altai Mt","Altai Mt ATM03",44.6063611111111,88.8273333333333,526,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0974065511650007,4259.78667987356,8.54348353618307,-13.3057448389516,26.4098053617937,108.401900577506
193,424,1719,"CMPD","Altai Mt","Altai Mt ATM04",44.9747777777778,89.0815555555556,681,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101131803817994,3945.20803302024,7.37252260666035,-14.0462681864068,25.0207607078901,111.333122497801
193,425,1720,"CMPD","Altai Mt","Altai Mt ATM05",45.4105277777778,89.4206388888889,1024,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105653146678505,3263.10189054846,4.74768659117839,-15.6569956701926,21.9221189088885,114.319082157631
193,426,1721,"CMPD","Altai Mt","Altai Mt ATM06",45.5694166666667,89.5193055555556,979,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104530034441438,3329.301679789,4.98177678032805,-15.5886944610952,22.2317349718835,113.073877941671
193,427,1722,"CMPD","Altai Mt","Altai Mt ATM07",45.8572777777778,89.5000555555556,1045,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11013897497272,3161.12599317538,4.18883199554889,-16.403752753951,21.4611391531043,117.920920760513
193,428,1723,"CMPD","Altai Mt","Altai Mt ATM08",46.2434444444444,89.5531944444444,932,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.105924112479462,3292.06261720544,4.67247974341688,-16.1810236224093,22.0712123559895,113.548877729327
193,429,1724,"CMPD","Altai Mt","Altai Mt ATM09",46.5849444444444,89.5743611111111,939,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.1088607461828,3193.08787305105,4.19489325184393,-16.6693062934456,21.6085491493262,115.775265143844
193,430,1725,"CMPD","Altai Mt","Altai Mt ATM10",46.8895,89.2090833333333,993,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.124664902759138,3054.28959459295,3.51479860999209,-17.3979081979214,20.976255767592,130.309159137474
193,431,1726,"CMPD","Altai Mt","Altai Mt ATM11",47.0475555555556,88.9168611111111,819,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.118326743966539,3290.14627157748,4.53831001767375,-16.5161662810064,22.0822505576912,124.967949996407
193,432,1727,"CMPD","Altai Mt","Altai Mt ATM12",47.2036944444444,88.5865555555555,704,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.123163972988168,3452.11422789305,5.28610768054389,-15.7203865046364,22.8481501506495,130.158239085643
193,433,1728,"CMPD","Altai Mt","Altai Mt ATM13",47.2502777777778,88.2252222222222,582,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.128193653094682,3579.54700950088,5.91515053263163,-14.9107880932413,23.4417095171778,135.473914950514
193,434,1729,"CMPD","Altai Mt","Altai Mt ATM14",47.3773055555556,87.8058611111111,504,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.130375966733359,3689.97236793093,6.44510534690263,-14.2667715019094,23.9474874081739,137.703468375089
193,435,1730,"CMPD","Altai Mt","Altai Mt ATM15",47.4685833333333,87.8496111111111,505,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.130999904306051,3680.2567137803,6.40039992563155,-14.3116131865678,23.9025677026292,138.197119645559
193,436,1731,"CMPD","Altai Mt","Altai Mt ATM16",47.6351944444444,87.9921944444445,709,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.148385108490488,3354.096404898,5.01629913260268,-15.4972599880551,22.4247903526481,153.468868382451
193,437,1732,"CMPD","Altai Mt","Altai Mt ATM17",47.5603333333333,87.9044444444445,533,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.133750435863051,3628.49804415198,6.180363162488,-14.5058112181467,23.6699410636353,140.606899124408
193,438,1733,"CMPD","Altai Mt","Altai Mt ATM18",47.4321944444444,87.5899444444444,493,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.140029988274113,3697.90725241197,6.56982568192795,-13.9111948331351,24.0042033859041,146.53646363443
193,439,1734,"CMPD","Altai Mt","Altai Mt ATM19",47.4148055555556,87.5059166666667,484,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.140159883544306,3714.49304584354,6.6498421436019,-13.8143707832663,24.0804056741895,146.659011071447
193,440,1735,"CMPD","Altai Mt","Altai Mt ATM20",47.4300277777778,87.5284166666667,504,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.142025283920585,3680.59271259886,6.50843784127988,-13.9351786822292,23.9293072608183,148.342546225732
193,441,1736,"CMPD","Altai Mt","Altai Mt ATM21",47.4445555555556,87.4009722222222,482,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.142115436027287,3714.84506009747,6.66772599223855,-13.7529088992996,24.0853227574738,148.398889752633
193,442,1737,"CMPD","Altai Mt","Altai Mt ATM22",47.4880277777778,87.3424166666667,498,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145434001673637,3684.27787644444,6.55281933102078,-13.8152171479579,23.9517340864979,151.358958389665
193,443,1738,"CMPD","Altai Mt","Altai Mt ATM23",47.0217777777778,87.2659722222222,482,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.135330407041292,3828.85290489809,7.10848609836464,-13.534481317121,24.6058629272516,142.247162325367
193,444,1739,"CMPD","Altai Mt","Altai Mt ATM24",47.0608055555556,87.2038055555556,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.142089370744918,3809.51448087352,7.04445144491616,-13.550878058517,24.5459083544489,148.15661744723
193,445,1740,"CMPD","Altai Mt","Altai Mt ATM25",47.1203611111111,87.1723055555556,479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.143652963821913,3801.23324654794,7.01462434681088,-13.5583761551744,24.5115031589689,149.526550210631
193,446,1741,"CMPD","Altai Mt","Altai Mt ATM26",47.168,87.0895277777778,494,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.14740208385517,3766.96960388685,6.88735510905846,-13.6248104465276,24.3642197050591,152.837383189224
193,447,1742,"CMPD","Altai Mt","Altai Mt ATM27",47.0540833333333,87.2054444444444,483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.142231595812921,3805.54726502954,7.02909245719685,-13.562026231474,24.5281263923412,148.290759691299
193,448,1743,"CMPD","Altai Mt","Altai Mt ATM28",46.9614722222222,87.3783611111111,484,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133139014128788,3833.21791848175,7.11264018539443,-13.5708677269201,24.6211259402855,140.298557184384
193,449,1744,"CMPD","Altai Mt","Altai Mt ATM29",46.9945833333333,87.3196111111111,483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134309356347471,3830.64558694577,7.1094286656528896,-13.5521880363784,24.6118478338089,141.340499688722
193,450,1745,"CMPD","Altai Mt","Altai Mt ATM30",48.1208611111111,88.3575833333333,2446,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.338469971944233,1085.76115887452,-6.2593834848467,-25.0672162841218,10.4012487644697,283.855751175222
193,451,1746,"CMPD","Altai Mt","Altai Mt ATM31",47.7052777777778,87.6729166666667,621,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.156067201533157,3467.69234249101,5.61223578796987,-14.682932412106,22.9692222911837,160.648803129508
193,452,1747,"CMPD","Altai Mt","Altai Mt ATM32",47.7448333333333,87.6761944444444,512,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.146415642672451,3633.39792345324,6.3015929723044,-14.1174336656649,23.7148873613902,152.096635977278
193,453,1748,"CMPD","Altai Mt","Altai Mt ATM33",48.6885277777778,86.7563611111111,1358,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.336294006195893,2189.361284708,-0.00277297350977938,-18.7582564046679,16.8547388403631,300.524635637941
193,454,1749,"CMPD","Altai Mt","Altai Mt ATM34",48.8096944444444,86.9124722222222,1760,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.421210625262817,1641.98716309924,-2.8456227387191,-21.232694135705,13.890742061205,354.999962163336
193,455,1750,"CMPD","Altai Mt","Altai Mt ATM35",48.8071111111111,86.9241388888889,1761,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.420658714845444,1641.5939103322,-2.84824803248671,-21.2372015010443,13.8879298410862,354.608935939081
193,456,1751,"CMPD","Altai Mt","Altai Mt ATM36",48.8031388888889,86.9193888888889,1795,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.426402561305377,1600.66993995186,-3.06908296711735,-21.4256211589231,13.6530081842773,357.945699999668
193,457,1752,"CMPD","Altai Mt","Altai Mt ATM37",48.8279166666667,86.89975,1816,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.432137829132946,1573.35696633208,-3.21711421526495,-21.5483029389451,13.496990601391,361.387933545627
193,458,1753,"CMPD","Altai Mt","Altai Mt ATM38",48.8082777777778,86.9180555555556,1770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.422525159616668,1630.3224953936,-2.90859304541142,-21.2877404894959,13.8238167727992,355.726697656291
193,459,1754,"CMPD","Altai Mt","Altai Mt ATM39",48.8103333333333,86.9125555555556,1774,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.423573321513547,1625.07463600088,-2.93658561297541,-21.310642445246,13.7941332860981,356.367825284935
193,460,1755,"CMPD","Altai Mt","Altai Mt ATM40",48.8084722222222,86.9336222222222,1768,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.421400405859697,1633.66352339293,-2.8913676166649,-21.2759214881941,13.842308516322,354.986258416939
193,461,1756,"CMPD","Altai Mt","Altai Mt ATM41",48.8075833333333,86.9291666666667,1792,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.425595780488951,1604.65104716419,-3.04798184661007,-21.4093330461397,13.6758229029924,357.430768507158
193,462,1757,"CMPD","Altai Mt","Altai Mt ATM42",48.7212777777778,86.9620555555556,1650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.377152189059992,1814.86682793696,-1.90258330596246,-20.4039322395218,14.8360556936237,326.299163140142
193,463,1758,"CMPD","Altai Mt","Altai Mt ATM43",48.7179722222222,87.0186388888889,1373,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.32884186556224,2181.99141339505,-0.0563158013989911,-18.8618198107014,16.8049120602081,294.895681657693
193,464,1759,"CMPD","Altai Mt","Altai Mt ATM44",48.5719444444444,87.5521944444444,1390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.284595791128393,2222.90402758275,0.0551580873449755,-19.0643581658218,16.9732651174501,261.559061658917
193,465,1760,"CMPD","Altai Mt","Altai Mt ATM45",48.5715277777778,87.5529444444444,1396,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.285390636483398,2214.97832977683,0.0163116068424015,-19.0976004993177,16.9321360414398,262.104838118766
193,466,1761,"CMPD","Altai Mt","Altai Mt ATM47",47.9509722222222,88.1603888888889,1127,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.193032000533378,2702.76563152332,2.13679866066015,-17.8840743659744,19.3362317337721,190.434927685264
193,467,1762,"CMPD","Altai Mt","Altai Mt ATM48",47.9925277777778,88.23175,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.232858911355845,2197.03718652635,-0.245640532337182,-19.8805118241375,16.7874923220872,220.177584626982
193,468,1763,"CMPD","Altai Mt","Altai Mt ATM49",48.0118611111111,88.2918083333333,1838,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.25711811496553,1781.44511615361,-2.38966936441598,-21.8634995889168,14.5491148063529,234.715327709086
193,469,1764,"CMPD","Altai Mt","Altai Mt ATM50",48.0131388888889,88.3086111111111,1987,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.275065637200494,1602.0243568516,-3.33332809248472,-22.647368208986,13.5373570793327,246.327172269288
193,470,1765,"CMPD","Altai Mt","Altai Mt ATM51",48.0342222222222,88.3511388888889,2122,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.29146909653487,1445.07650776256,-4.18947337232432,-23.3678389385163,12.6229195893854,256.353826747374
193,471,1766,"CMPD","Altai Mt","Altai Mt ATM52",48.0866944444444,88.3664722222222,2361,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.32488322557811,1177.65329101835,-5.71277790862354,-24.6236437857718,10.988910510592,276.094546583526
193,472,1767,"CMPD","Altai Mt","Altai Mt ATM53",47.6444722222222,87.4486666666667,484,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145620044327915,3688.6940347242,6.5602096810061,-13.8271069096735,23.9683032406651,151.451214731709
193,473,1768,"CMPD","Altai Mt","Altai Mt ATM54",46.6741944444444,89.8157777777778,1093,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.109774860454656,2967.4401512039,3.25236895215374,-17.3811094505606,20.5432162974213,115.769207326152
193,474,1769,"CMPD","Altai Mt","Altai Mt ATM55",46.7814444444444,90.8736666666667,2662,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.224749589243146,1156.44401023831,-5.90344926824407,-25.4436096582074,10.8592024162863,204.505489744156
193,475,1770,"CMPD","Altai Mt","Altai Mt ATM56",46.81925,90.8543055555556,2650,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.224103206576318,1166.38150192978,-5.84742497395297,-25.4037859003283,10.9230574825704,203.980631596052
193,476,1771,"CMPD","Altai Mt","Altai Mt ATM57",46.7318666666667,90.8679666666667,2554,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.206400229635856,1294.251149282,-5.00321591526157,-24.4742765267541,11.7228947699631,192.164347229073
193,477,1772,"CMPD","Altai Mt","Altai Mt ATM58",46.7265277777778,90.8352777777778,2337,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.185145612279299,1518.46210208575,-3.70788422326875,-23.2857907343046,13.0720012317229,176.693785042984
193,478,1773,"CMPD","Altai Mt","Altai Mt ATM59",46.6725333333333,90.8114166666667,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.136607780303057,2125.12034358832,-0.482201672287055,-20.306041677142,16.4227189747369,138.199069316382
193,479,1774,"CMPD","Altai Mt","Altai Mt ATM60",46.66155,90.7954166666667,1712,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.129372318097528,2230.2449826453,0.0445509788427068,-19.8156380219434,16.9681866418059,132.050545996814
193,480,1775,"CMPD","Altai Mt","Altai Mt ATM61",46.64945,90.7637666666667,1606,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.121031315946557,2358.41640965616,0.675283045321918,-19.227119747135,17.6207150676978,124.820307057047
193,481,1776,"CMPD","Altai Mt","Altai Mt ATM63",46.6470833333333,90.7764,1565,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.117550983769781,2409.95064127197,0.925327180717677,-18.9976001032227,17.881128516085,121.743962219429
193,482,1777,"CMPD","Altai Mt","Altai Mt ATM64",46.6242833333333,90.79785,1519,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.113505937075224,2469.26668375285,1.21537218296144,-18.7213411308579,18.1787914152587,118.168579561455
193,483,1778,"CMPD","Altai Mt","Altai Mt ATM65",46.5995333333333,90.7719333333333,1438,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.107386264431998,2570.75079115682,1.70306133583396,-18.2567735037511,18.6791206716403,112.683929807177
193,484,1779,"CMPD","Altai Mt","Altai Mt ATM66",46.4290833333333,90.6481666666667,1233,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.101386036194556,2809.85341798038,2.77791006675421,-17.2907296229484,19.8079747871915,107.727560014924
193,485,1780,"CMPD","Altai Mt","Altai Mt ATM67",46.3123666666667,90.4067833333333,1126,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0968495452539648,2952.82636695328,3.40505888848184,-16.7550678006281,20.4763124741296,103.745132108321
193,486,1781,"CMPD","Altai Mt","Altai Mt ATM68",46.5589333333333,90.2594,1181,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.103539494499552,2858.56371643291,2.91476542175029,-17.3492070971102,20.0281290523825,109.609313002823
193,487,1782,"CMPD","Altai Mt","Altai Mt ATM69",46.8985,90.836,2396,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.198341973753591,1418.87158123954,-4.38593183903684,-24.1695931134168,12.4909836271384,185.590494113992
193,488,1783,"CMPD","Altai Mt","Altai Mt ATM70",46.8530166666667,90.843,2491,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207617937631501,1323.00642891392,-4.9270519470619,-24.6197274112669,11.9074243990089,192.38283635634
193,489,1784,"CMPD","Altai Mt","Altai Mt ATM71",47.6962222222222,87.5405,483,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145076057348991,3684.32222268804,6.53023292563534,-13.8811406492317,23.9459967574969,150.937869009639
193,490,1785,"CMPD","Altai Mt","Altai Mt ATM72",47.6959722222222,87.5404444444444,483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145071733609373,3684.35124302421,6.53035158176875,-13.8810620780068,23.946126678115,150.934123822091
194,491,17855,"SMPDSv1","Altai, Kosh-Agach distr.","Kunes_a151",49.9455555555555,88.0113888888888,2570,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.482593500078614,838.446710266278,-7.88614132903826,-26.3335914461815,8.82608777497327,366.494435869753
195,492,17856,"SMPDSv1","Altai, Ulagan distr.","Kunes_a140",50.2491666666666,87.6922222222222,1472,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.62274895089187,1655.18196983572,-3.08504748460838,-21.9993691831185,14.2850976939926,477.622080520991
196,493,17857,"SMPDSv1","Alter Spittel","CH/WVDK/S1",46.234656,8.013679,1845,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.45376701684002,1448.80902432633,2.62848076872384,-4.89173480255072,10.699919380373,1865.92103279719
197,494,17304,"Neotoma","Altoona","TW009",44.819444,-91.443333,244,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.872733189066179,3586.85141851543,7.61676965115387,-10.5407368787648,22.8201502141251,758.689596453739
198,495,148,"Australian pollen","Aluaipugua","Aluaipugua (core 2)",-5.9722,143.1556,2750,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.07104456287257,6777.5498726293,18.5686297880255,17.6496680310393,19.0971511415063,2870.98347036945
199,496,9588,"Gaillard et al., 1992","Alvena","Alvena",57.610221,18.643962,24,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.900977379281376,2567.03182147077,6.6385939187742,-2.33148782261046,16.1948614594371,564.783724281865
200,497,17312,"Neotoma","Amacoy Lake","TW017",45.3980899999999,-91.31399,324,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.933814361326754,3105.0733998374,5.77393975297604,-11.9060602218189,20.8795388074143,763.320471837939
201,498,24163,"Neotoma","Amarete","AMARETE",-15.233333,-68.983333,4000,"not known","terrestrial, bog/fen/swamp","core","0","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,22,"steppe",0.510528942052005,3070.7314566504,8.41296289493259,5.96457038919553,10.0992850256754,752.635460033233
202,499,10707,"Bush et al., 2020","Amatitlan","Amatitlan",14.43,-90.55,1197,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54482295538285,7575.57097286207,20.7549889667454,19.00146989404,22.2084737015754,2695.52135581298
203,500,8239,"EMPDv2","Amba","Mikishin-Gvozdeva_b70",43.2511111111111,131.766666666667,10,"not applicable","terrestrial","soil sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.933408270247612,3187.2239194679,5.93588018631412,-12.1383967316759,21.4894122895429,737.983524225118
204,501,6541,"EMPDv2","Ambarchik","Binney2017_E3205",69.68,163.8,38,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.544320538620536,650.047522065834,-12.9630849356907,-30.8402713303053,8.00694457642968,158.88150262254
205,502,149,"Australian pollen","Ambathala","Ambathala chute 19_a",-25.967,145.33,329,"not applicable","terrestrial","midden sample","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,503,150,"Australian pollen","Ambathala","Ambathala chute 19_b",-25.967,145.33,329,"not applicable","terrestrial","midden sample","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,504,151,"Australian pollen","Ambathala","Ambathala chute 19_c",-25.967,145.33,329,"not applicable","terrestrial","midden sample","4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,505,152,"Australian pollen","Ambathala","Ambathala chute 19_d",-25.967,145.33,329,"not applicable","terrestrial","midden sample","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,506,153,"Australian pollen","Ambathala","Ambathala chute 19_e",-25.967,145.33,329,"not applicable","terrestrial","midden sample","10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,507,154,"Australian pollen","Ambathala","Ambathala chute 19_f",-25.967,145.33,329,"not applicable","terrestrial","midden sample","21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,508,155,"Australian pollen","Ambathala","Ambathala profile 2_a",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,509,156,"Australian pollen","Ambathala","Ambathala profile 2_b",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,510,157,"Australian pollen","Ambathala","Ambathala profile 2_c",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,511,158,"Australian pollen","Ambathala","Ambathala profile 2_d",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,512,159,"Australian pollen","Ambathala","Ambathala profile 2_e",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,513,160,"Australian pollen","Ambathala","Ambathala profile 2_f",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,514,161,"Australian pollen","Ambathala","Ambathala profile 2_g",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-7","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,515,162,"Australian pollen","Ambathala","Ambathala profile 2_h",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,516,163,"Australian pollen","Ambathala","Ambathala profile 2_i",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,517,164,"Australian pollen","Ambathala","Ambathala profile 2_j",-25.967,145.33,329,"not applicable","terrestrial","midden sample","-2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,518,165,"Australian pollen","Ambathala","Ambathala profile 2_k",-25.967,145.33,329,"not applicable","terrestrial","midden sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,519,166,"Australian pollen","Ambathala","Ambathala profile 2_l",-25.967,145.33,329,"not applicable","terrestrial","midden sample","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,520,167,"Australian pollen","Ambathala","Ambathala profile 2_m",-25.967,145.33,329,"not applicable","terrestrial","midden sample","3","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,521,168,"Australian pollen","Ambathala","Ambathala profile 2_n",-25.967,145.33,329,"not applicable","terrestrial","midden sample","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,522,169,"Australian pollen","Ambathala","Ambathala profile 2_o",-25.967,145.33,329,"not applicable","terrestrial","midden sample","7","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,523,170,"Australian pollen","Ambathala","Ambathala profile 2_p",-25.967,145.33,329,"not applicable","terrestrial","midden sample","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,524,171,"Australian pollen","Ambathala","Ambathala profile 2_q",-25.967,145.33,329,"not applicable","terrestrial","midden sample","10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
205,525,172,"Australian pollen","Ambathala","Ambathala profile 2_s",-25.967,145.33,329,"not applicable","terrestrial","midden sample","12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.24671368254193,7703.84146980433,21.1064149857653,12.1701787625436,28.4835401571065,449.66832953408
206,526,13787,"Neotoma","Amber Lake","AMBER",43.60715,-94.473645,351,"not known","lake","core","40","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",22,"steppe",0.830460687379673,3560.69032971909,7.47562304975663,-10.5450196687231,22.8370116154738,748.320293832103
206,526,13788,"Neotoma","Amber Lake","AMBER",43.60715,-94.473645,351,"not known","lake","core","47","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",22,"steppe",0.830460687379673,3560.69032971909,7.47562304975663,-10.5450196687231,22.8370116154738,748.320293832103
207,527,8296,"EMPDv2","Amborzasco","Montanari_b10",44.5141166666667,9.45704722222222,889,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.300841385163,2950.59579746656,8.03846266133283,-0.500409024758985,16.9305851986362,1183.40708407741
208,528,17858,"SMPDSv1","Amburnex-1","CH/WVDK/M2",46.540161,6.232464,1375,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75830591408834,2145.13914175281,5.38693234555848,-2.6475362351166,13.9345331770513,1434.81409466543
209,529,17859,"SMPDSv1","Amburnex-2","CH/WVDK/M3",46.539891,6.23247,1375,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75827168005533,2145.16153664882,5.38701890678404,-2.64744256506381,13.9346324857236,1434.80193850028
210,530,17860,"SMPDSv1","Amdalstjonn","Bjune_a227",58.325,8.00333333333333,70,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.1163231142899,2513.56610054481,6.40638827207526,-2.66285843805498,15.4946225146278,1278.0827802554
211,531,6183,"EMPDv2","Amenzi, Khenifra","AlbaSanchez_a112",32.28702,-5.306836,2386,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.343290210425674,4150.40934169987,11.3709844978079,1.79750374268628,23.594308230273,495.328771951542
211,532,6184,"EMPDv2","Amenzi, Khenifra","AlbaSanchez_a113",32.3011,-5.410342,1858,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.321167446420079,4871.97296935188,13.3478711489092,4.26647572984046,24.6231351978242,466.83183571267
212,533,11986,"Neotoma","American Lake","SM-AML",39.05639,-106.829785,3450,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.627718371709453,893.273163736657,-2.64816697008661,-13.7378504267567,8.7803099497942,570.879750617556
213,534,17861,"SMPDSv1","Amirkola Lagoon","HCGL02 core",37.352,50.19,-6,"medium (1.1-50 km2)","coastal, lagoon","core","198","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.163631416318526,6655.5597378492,18.2344102406827,5.51228559375225,30.3816858461801,215.602197500677
213,535,17862,"SMPDSv1","Amirkola Lagoon","HCgl02.2",37.3569444,50.195,-23,"12.3","coastal, lagoon","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.16246390174042,6686.03400915823,18.317901394954,5.61299806746435,30.4548966116457,214.111023616534
213,536,17863,"SMPDSv1","Amirkola Lagoon","Leroy_c1",37.33611,50.185324,-22,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.162404593356672,6683.39287906665,18.3106654221004,5.60297089742064,30.4494472774223,214.079712785262
213,537,17864,"SMPDSv1","Amirkola Lagoon","Leroy_c2",37.335514,50.181795,-23,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.162411768029834,6684.47412178192,18.3136277309094,5.60709361013862,30.45171176241,214.082126663821
213,538,17865,"SMPDSv1","Amirkola Lagoon","Leroy_c3",37.332161,50.180522,-25,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.1622516249909,6687.88053913986,18.3229603812051,5.61811406701187,30.4600606329478,213.885797485598
213,539,17866,"SMPDSv1","Amirkola Lagoon","Leroy_c4",37.330446,50.17882,-25,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.162262886730716,6687.62722891432,18.3222663805872,5.6173315812174,30.4594269605436,213.901558600883
213,540,17867,"SMPDSv1","Amirkola Lagoon","Leroy_c5",37.330927,50.188376,-23,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.162177017358518,6685.99124485239,18.3177842324723,5.610281693145,30.4565003966377,213.813983326194
213,541,17868,"SMPDSv1","Amirkola Lagoon","Leroy_c6",37.340748,50.199098,-25,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.161955149962631,6691.1392150372,18.3318882603759,5.62682203731172,30.4691157962554,213.525597638296
213,542,17869,"SMPDSv1","Amirkola Lagoon","Leroy_c7",37.340737,50.195503,-25,"not applicable","coastal, other","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.162040858139304,6690.42677165474,18.3299363606979,5.62510530454354,30.4670115611314,213.626032238414
214,543,17870,"SMPDSv1","Amposta (Ebro Delta)","Barboni_a378",40.76,0.55,10,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.364371161074762,6168.29869156562,16.8994484700428,9.38928820448711,25.3985063173941,460.76965701526
215,544,17871,"SMPDSv1","Amtkel","EPDcoretop_E5",43.268056,41.308333,1830,"0.003","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1585631361039,1898.47951624697,2.27817225488604,-10.8563019104531,13.8823309359397,1040.86577988817
216,545,17872,"SMPDSv1","Amtkel 1","EPDcoretop_E64",43.283333,41.291667,1860,"0.001","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15972008666191,1860.78292627307,2.08046772949604,-11.0982218549489,13.7159524818773,1039.24991359454
217,546,17873,"SMPDSv1","Amtkel 2","EPDcoretop_E65",43.291667,41.284167,1850,"0.001","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15980913946074,1872.47479610576,2.14376000290572,-11.0172452719335,13.7669608462164,1040.02917347999
218,547,17874,"SMPDSv1","Amtkel 3","EPDcoretop_E66",43.266667,41.291667,1860,"0.002","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15966962103714,1861.16541321939,2.08264565831578,-11.0955634459405,13.7172835404626,1039.46395081908
219,548,17875,"SMPDSv1","AMUR","AMUR1",51.02,138.38,14,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03546476693779,2239.41501798554,-0.774376301560467,-23.0595997163243,17.7652151002099,591.343572195853
219,549,17884,"SMPDSv1","AMUR","AMUR10",50.88,138.22,59,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05381336514037,2242.41020317297,-0.884516949236578,-23.4226320474274,17.7992266004078,602.694706344729
219,550,17885,"SMPDSv1","AMUR","AMUR11",51.12,138.98,233,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13758920229462,1907.84239368718,-1.79668375205652,-22.6316669292176,15.6420847785496,632.1169360173
219,551,17886,"SMPDSv1","AMUR","AMUR12",51.1,138.8,220,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13021389264387,1928.79516169132,-1.75220732069981,-22.7175404143462,15.7882366989613,629.026518438285
219,552,17887,"SMPDSv1","AMUR","AMUR13",51.37,140.12,87,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13117749965543,1957.18704253153,-1.21999587215315,-21.4840931820086,15.8738279503542,630.382731634562
219,553,17888,"SMPDSv1","AMUR","AMUR14",50.93,138.28,82,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06241434970494,2171.38361607437,-1.03002158057666,-23.1144859706502,17.3367644559814,604.21671425525
219,554,17889,"SMPDSv1","AMUR","AMUR15",52.73,140.17,16,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13847321595623,1952.5866772469,-1.42740641606385,-21.8265045034607,16.0599986225997,617.422907956047
219,555,17890,"SMPDSv1","AMUR","AMUR16",52.58,140.33,26,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14025988249216,1940.18026319054,-1.34803233342918,-21.5399297090907,15.8725039957425,618.635507619722
219,556,17891,"SMPDSv1","AMUR","AMUR17",52.93,140.33,48,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15333847606077,1916.09733133266,-1.51362165185989,-21.733184984645,15.7648492846083,620.302995035761
219,557,17892,"SMPDSv1","AMUR","AMUR18",53.15,140.67,7,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15839441782668,1932.04279369664,-1.30062688490356,-21.3105571209467,15.7775078911083,620.565217636653
219,558,17893,"SMPDSv1","AMUR","AMUR19",52.08,140.5,2,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
219,559,17876,"SMPDSv1","AMUR","AMUR2",50.3,137.52,24,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07198606034671,2362.14506213027,-0.25778033779944,-22.7993860719432,18.4075425570877,628.039636024446
219,560,17894,"SMPDSv1","AMUR","AMUR20",52.88,140.23,51,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
219,561,17895,"SMPDSv1","AMUR","AMUR21",51.45,140.65,40,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
219,562,17896,"SMPDSv1","AMUR","AMUR22",53.5,140.28,18,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
219,563,17897,"SMPDSv1","AMUR","AMUR23",53.02,140.55,91,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16167974773217,1877.59404451142,-1.73995737067735,-21.9519097835145,15.5777324717436,621.952595652521
219,564,17898,"SMPDSv1","AMUR","AMUR24",53.08,140.77,1,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1629659452974,1924.66423790377,-1.17101956244757,-20.8958664416388,15.738448784446,622.327246650966
219,565,17899,"SMPDSv1","AMUR","AMUR25",53,140.77,16,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1617812181161,1917.27241271963,-1.23251507408045,-20.9929939349075,15.6957140127928,622.616818881849
219,566,17900,"SMPDSv1","AMUR","AMUR26",50.07,137.08,73,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11641054819945,2361.99092773414,-0.076324749161319,-22.2516661171948,18.3325144676207,661.028694937406
219,567,17901,"SMPDSv1","AMUR","AMUR27",51.63,140.78,39,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1362135478559101,1964.1225358334,-0.869858690205395,-20.6024883222856,15.8879699458496,630.656040346554
219,568,17902,"SMPDSv1","AMUR","AMUR28",52.93,140.95,0,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16081759362678,1926.65430675165,-1.0879589689428,-20.7031192941912,15.7479205697097,622.970004900328
219,569,17903,"SMPDSv1","AMUR","AMUR29",52.43,140.43,8,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13508658036892,1954.86519261395,-1.21336361990265,-21.3282759581422,15.9164100170179,618.217765436597
219,570,17877,"SMPDSv1","AMUR","AMUR3",49.6,137.1,30,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12118182073903,2456.78686935537,0.460354441078967,-21.6095472276986,18.8057787710799,677.803791263056
219,571,17904,"SMPDSv1","AMUR","AMUR31",52.67,140.55,43,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14646215299122,1923.54707970788,-1.39916450192092,-21.516888191667,15.7622801909128,620.254966370686
219,572,17905,"SMPDSv1","AMUR","AMUR32",51.87,140.7,10,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.11769001694862,1979.99564941256,-1.0196632652651,-21.0888933170438,16.0199516611482,617.896911774301
219,573,17906,"SMPDSv1","AMUR","AMUR33",51.38,139.65,63,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10930612797639,1991.54626440472,-1.20482377276951,-21.7725179694903,16.1411313947786,619.445203595242
219,574,17907,"SMPDSv1","AMUR","AMUR34",51.4,139.48,34,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09680003213989,2018.68907398759,-1.11777969839329,-21.7896164058434,16.3267069043129,613.549364989086
219,575,17908,"SMPDSv1","AMUR","AMUR35",50.6,137.88,49,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06318436884665,2285.30738957354,-0.625085319437896,-23.1070336027578,17.9926231132642,614.23419844154
219,576,17909,"SMPDSv1","AMUR","AMUR36",50.27,137.5,86,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09517871370106,2288.58860591075,-0.512765660431552,-22.8019263051693,17.9586334728812,638.442743375988
219,577,17910,"SMPDSv1","AMUR","AMUR37",53.73,140.08,75,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18052686796144,1859.8949366279,-2.04235030726069,-22.4933888704868,15.6295412334176,621.401256645263
219,578,17911,"SMPDSv1","AMUR","AMUR38",51.45,140.73,0,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12090973232633,2007.58518615095,-0.777821510351086,-20.7552161822345,16.1130180992549,626.414216743079
219,579,17912,"SMPDSv1","AMUR","AMUR39",51.17,139.87,233,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17539393751199,1853.32136895534,-1.62743594186336,-21.6319864238559,15.2606702494404,651.917682884989
219,580,17878,"SMPDSv1","AMUR","AMUR4",49.6,137.1,30,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12118182073903,2456.78686935537,0.460354441078967,-21.6095472276986,18.8057787710799,677.803791263056
219,581,17913,"SMPDSv1","AMUR","AMUR40",51.22,139.8,155,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14913974981763,1917.1929498434,-1.35757777005072,-21.5078835492677,15.6024414936774,640.269996848199
219,582,17914,"SMPDSv1","AMUR","AMUR43",51.35,140.43,64,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13311036105647,1964.71924250849,-1.04534670039071,-21.0831515328898,15.8792240361822,632.235109789917
219,583,17915,"SMPDSv1","AMUR","AMUR44",51.2,140.28,89,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14360238970934,1955.16034584146,-1.02922387773939,-20.9776331385604,15.819680625018,639.741890393602
219,584,17916,"SMPDSv1","AMUR","AMUR45",51.35,139.28,21,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08857035243534,2033.9675204041,-1.08621505953769,-21.8499391350038,16.4342757494225,609.951619437133
219,585,17917,"SMPDSv1","AMUR","AMUR46",53.28,140.27,39,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16333247378696,1898.2980366,-1.68236753543601,-21.9529539377549,15.7362267741595,619.249762220073
219,586,17918,"SMPDSv1","AMUR","AMUR47",48.48,137.07,420,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29267272987131,2093.99093597222,-0.309386265483404,-20.176506289117,16.3331981366611,787.013592035729
219,587,17919,"SMPDSv1","AMUR","AMUR48",48.32,136.98,340,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26001620483594,2201.58608068065,0.0761633983441872,-20.1355210358199,16.9677877924245,776.651803416676
219,588,17920,"SMPDSv1","AMUR","AMUR49",47.73,136.62,222,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18259556243428,2480.6409592085,1.25290513599427,-19.4448311725375,18.5569828983678,765.855744848118
219,589,17879,"SMPDSv1","AMUR","AMUR5",50.05,137.08,33,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10354580157306,2408.66479731491,0.113809017752992,-22.1639005976906,18.6007086613079,656.103143740444
219,590,17921,"SMPDSv1","AMUR","AMUR50",48.1,136.88,300,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.24707943750923,2284.00496785702,0.518637243307134,-19.6590595840316,17.3842321573204,781.589702319498
219,591,17922,"SMPDSv1","AMUR","AMUR51",47.7,136.33,204,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17034901515346,2513.84693580481,1.34799003745077,-19.4916731466506,18.7730246733999,760.845546136096
219,592,17923,"SMPDSv1","AMUR","AMUR52",47.63,135.83,290,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17877441536706,2428.31043938022,1.03559041328027,-19.563792536728698,18.2712664875086,764.775302160313
219,593,17924,"SMPDSv1","AMUR","AMUR53",50.77,138.08,122,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07983521070801,2175.19684902692,-1.1073379693179,-23.3881406796929,17.370806214936,615.618431905858
219,594,17925,"SMPDSv1","AMUR","AMUR54",50.18,137.93,35,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06959842218602,2314.83130364577,-0.370662926448171,-22.6659883446874,18.0961273152757,624.93886482806
219,595,17926,"SMPDSv1","AMUR","AMUR55",51.15,139.1,190,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12265360690026,1940.78999561065,-1.62988680662569,-22.490341996845,15.8431367825028,625.592041132891
219,596,17927,"SMPDSv1","AMUR","AMUR56",51.18,139.18,203,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12891290721588,1924.98499179999,-1.67973468049493,-22.4715564427297,15.7386983527257,628.041794259983
219,597,17928,"SMPDSv1","AMUR","AMUR57",51.18,140.13,128,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15073532379776,1930.68222605642,-1.22601923701464,-21.2798373410689,15.6819954786067,642.342676161323
219,598,17880,"SMPDSv1","AMUR","AMUR6",49.8,137.12,24,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10516336612236,2430.55450288187,0.240895592851318,-22.0047081195883,18.7100549891217,661.66229684618
219,599,17881,"SMPDSv1","AMUR","AMUR7",48.2,134.25,70,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03675163184264,2828.11580026944,1.8166200139598,-21.1805544072177,21.1432296871217,687.257938320982
219,600,17882,"SMPDSv1","AMUR","AMUR8",48.03,134.15,70,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01838761280568,2842.04415569977,1.90156605794998,-21.0664001036325,21.1931885284812,679.1436042259
219,601,17883,"SMPDSv1","AMUR","AMUR9",48.03,134.82,70,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07108693903868,2775.47561223183,1.73642282990412,-20.9071976554548,20.7584678129179,706.337663477908
220,602,8041,"EMPDv2","Amur_1","Mikishin-Gvozdeva_a103",53.1166666666667,140.720277777778,-15,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15583622738166,1948.51181556683,-1.16077689962918,-21.0995328239359,15.8612497683225,620.22123591328
221,603,8042,"EMPDv2","Amur_2","Mikishin-Gvozdeva_a104",53.1238888888889,140.704444444444,-10,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15636690021062,1944.8588105054,-1.19352165177527,-21.1509727861307,15.8414392176794,620.284845968424
222,604,8043,"EMPDv2","Amur_damba","Mikishin-Gvozdeva_a105",53.1341666666667,140.6975,-1,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15742021180951,1938.03169008906,-1.24716456062149,-21.227100459136,15.8048763782456,620.461734971815
223,605,8067,"EMPDv2","Amur_mouth","Mikishin-Gvozdeva_a127",53.0475,140.935833333333,-5,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16357148480615,1925.93783346318,-1.09557911268974,-20.7093309170839,15.7480130748102,622.777415926181
224,606,8044,"EMPDv2","Amur_Sofyiskoye","Mikishin-Gvozdeva_a106",51.5786111111111,139.838055555556,-4,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09670771827103,2035.47663218612,-0.94822798274263,-21.4696641408183,16.4135383774533,613.088707908917
225,607,8052,"EMPDv2","AmurLiman_1","Mikishin-Gvozdeva_a114",52.7061111111111,141.838055555556,-1,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20653435825672,1873.40175721969,-0.809288907654128,-19.4435556939353,15.4781054891519,640.941200862177
226,608,8061,"EMPDv2","AmurLiman_10","Mikishin-Gvozdeva_a124",52.7,141.284166666667,-2,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17764767386155,1901.65613476768,-0.918837817627343,-20.0272623323259,15.6234556871649,631.057641460942
227,609,8062,"EMPDv2","AmurLiman_11","Mikishin-Gvozdeva_a125",52.8552777777778,141.231666666667,-5,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16153033980188,1926.42594665866,-0.986747241829573,-20.4356942826471,15.7486332385343,623.807821994027
228,610,8063,"EMPDv2","AmurLiman_12","Mikishin-Gvozdeva_a126",52.9002777777778,141.554722222222,-6,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",1.18892190768106,1887.79738128295,-0.920444371148612,-19.8754878906281,15.5622792560265,632.131714092219
229,611,8064,"EMPDv2","AmurLiman_13","Mikishin-Gvozdeva_a128",53.2241666666667,141.600833333333,-1,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19974672989017,1873.00066344798,-1.01975788462215,-19.974124582011,15.4943050197058,632.411249284515
230,612,8065,"EMPDv2","AmurLiman_14","Mikishin-Gvozdeva_a129",53.3458333333333,141.570277777778,-6,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20490214009164,1863.64623915287,-1.09971346152613,-20.0579748754177,15.4605753397446,631.615528659735
231,613,8053,"EMPDv2","AmurLiman_2","Mikishin-Gvozdeva_a115",52.8522222222222,141.819444444444,-4,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20994670726759,1869.265446002,-0.830453917097089,-19.4464485819429,15.4634193947241,640.168126608124
232,614,8054,"EMPDv2","AmurLiman_3","Mikishin-Gvozdeva_a116",52.9733333333333,141.716666666667,-3,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19455215613208,1879.58209737233,-0.936507535990873,-19.8339411265406,15.5220245417914,633.19922816568
233,615,8055,"EMPDv2","AmurLiman_4","Mikishin-Gvozdeva_a117",53.0572222222222,141.905277777778,-2,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21799590055286,1859.49821584718,-0.882291067776644,-19.4758206266649,15.4175337800069,640.659588573394
234,616,8056,"EMPDv2","AmurLiman_5","Mikishin-Gvozdeva_a118",53.3827777777778,141.655277777778,-16,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20881218957473,1865.89381876881,-1.03553981944081,-19.9061030720208,15.4757461649028,632.614008539744
235,617,8057,"EMPDv2","AmurLiman_6","Mikishin-Gvozdeva_a120",52.5,141.382222222222,-2,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17354546049205,1905.38141727902,-0.853974190343287,-19.9048524797307,15.6374773538037,631.541552857154
236,618,8058,"EMPDv2","AmurLiman_7","Mikishin-Gvozdeva_a121",52.5697222222222,141.418611111111,-4,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17626049150616,1903.51404848594,-0.856397131480569,-19.887343198525,15.6306500697964,631.766344027981
237,619,8059,"EMPDv2","AmurLiman_8","Mikishin-Gvozdeva_a122",52.555,141.585,-6,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",1.17897794272017,1900.66521702233,-0.824969214393508,-19.7753795999649,15.6171768779883,632.694036872338
238,620,8060,"EMPDv2","AmurLiman_9","Mikishin-Gvozdeva_a123",52.6813888888889,141.298333333333,-3,"not applicable","coastal, estuarine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17734968359399,1902.46424372258,-0.906434245682196,-20.0029935761852,15.6274611899498,631.127323567228
239,621,17929,"SMPDSv1","Andenes","N/CJ/AR1",69.256944,16.063889,30,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.96713139032737,1382.43177367815,2.18581970121811,-5.18178785314721,11.2753798293324,1088.85551780667
239,622,17930,"SMPDSv1","Andenes","N/CJ/AR2",69.258333,16.058333,36,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.97163567283049,1379.25628363322,2.1595350674422,-5.22712808243354,11.2736337890045,1090.31660505551
239,623,17931,"SMPDSv1","Andenes","N/CJ/AR3",69.258333,16.066667,40,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.9730491195557,1377.35259009056,2.14193397270684,-5.26094112517548,11.2744866833727,1090.77195693787
239,624,17932,"SMPDSv1","Andenes","N/CJ/AR4",69.259722,16.063889,41,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.97387384097332,1376.77255752326,2.13740439740915,-5.26829682975024,11.2737607628129,1090.99900305356
240,625,11978,"Neotoma","Anderson Lake","SM-AND",39.02034,-106.62762,3584,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.631914592129654,781.44428677969,-3.42783858283588,-14.6957709404316,8.057543630246,568.284105692659
241,626,12234,"Neotoma","Anderson Pond","ANDERS07",36.03015,-85.5013199999999,303,"not known","lake","core","-42","Liu, Y., J.J. Anderson, J.W. Williams, and S.T. Jackson. 2013. Vegetation history in central Kentucky and Tennessee (USA) during the last glacial and deglacial periods. Quaternary Research 79(2):189-198.","10.1016/j.yqres.2012.12.005",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,626,12235,"Neotoma","Anderson Pond","ANDERS07",36.03015,-85.5013199999999,303,"not known","lake","core","-22","Liu, Y., J.J. Anderson, J.W. Williams, and S.T. Jackson. 2013. Vegetation history in central Kentucky and Tennessee (USA) during the last glacial and deglacial periods. Quaternary Research 79(2):189-198.","10.1016/j.yqres.2012.12.005",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,626,12236,"Neotoma","Anderson Pond","ANDERS07",36.03015,-85.5013199999999,303,"not known","lake","core","-2","Liu, Y., J.J. Anderson, J.W. Williams, and S.T. Jackson. 2013. Vegetation history in central Kentucky and Tennessee (USA) during the last glacial and deglacial periods. Quaternary Research 79(2):189-198.","10.1016/j.yqres.2012.12.005",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,626,12237,"Neotoma","Anderson Pond","ANDERS07",36.03015,-85.5013199999999,303,"not known","lake","core","18","Liu, Y., J.J. Anderson, J.W. Williams, and S.T. Jackson. 2013. Vegetation history in central Kentucky and Tennessee (USA) during the last glacial and deglacial periods. Quaternary Research 79(2):189-198.","10.1016/j.yqres.2012.12.005",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,626,12238,"Neotoma","Anderson Pond","ANDERS07",36.03015,-85.5013199999999,303,"not known","lake","core","38","Liu, Y., J.J. Anderson, J.W. Williams, and S.T. Jackson. 2013. Vegetation history in central Kentucky and Tennessee (USA) during the last glacial and deglacial periods. Quaternary Research 79(2):189-198.","10.1016/j.yqres.2012.12.005",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,627,12231,"Neotoma","Anderson Pond","ANDERSON",36.03015,-85.5013199999999,303,"not known","lake","core","0","Delcourt, H.R. 1979. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Ecological Monographs 49(3):255-280.","10.2307/1942485",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,627,12232,"Neotoma","Anderson Pond","ANDERSON",36.03015,-85.5013199999999,303,"not known","lake","core","25","Delcourt, H.R. 1979. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Ecological Monographs 49(3):255-280.","10.2307/1942485",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,627,12233,"Neotoma","Anderson Pond","ANDERSON",36.03015,-85.5013199999999,303,"not known","lake","core","50","Delcourt, H.R. 1979. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Ecological Monographs 49(3):255-280.","10.2307/1942485",13,"temperate deciduous broadleaf forest",1.21979849338616,5143.47996266653,14.0917259251138,1.62717294627859,24.9706076804487,1352.33527145278
241,628,11876,"Neotoma","Anderson Pond","BU414",46.755035,-87.97224,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06308540912356,2601.49967427474,4.00307309034856,-12.2025228982368,18.6010565374271,800.846587883211
242,629,17933,"SMPDSv1","Andolvatn","Bjune_a41",62.93338025,11.63212399,153,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.8736925261229,1805.91449616644,4.16657951111758,-3.50727548713517,12.6638690288626,1322.09734090922
243,630,16601,"Neotoma","Andrews Pond","MGW005",41.7,-70.08,9,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.40494440941765,3934.49303359643,10.5309074973559,-1.84725906092893,22.3742593886483,1268.77792975389
244,631,11801,"Neotoma","Andrews Pond SE","LMSJ12",37.72564,-107.70627,3292,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.640654000122136,1096.23890751469,-1.62902182733069,-13.4968533337655,10.0990660989013,620.960876792504
245,632,12239,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","-24","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12240,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","-19","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12241,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","-6","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12242,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","30","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12243,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","33","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12244,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","36","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12245,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","38","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
245,632,12246,"Neotoma","Andrus Lake","ANDRUSC2",46.701685,-85.0390449999999,190,"not known","lake","core","41","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Charles, D.F., and D.R. Whitehead. 1986. The PIRLA project: paleoecological investigations of recent lake acidification. Hydrobiologia 143:13-20. Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00026639;
10.1007/BF00226322",9,"cool mixed forest",1.09353448436543,2684.19989903937,4.66981820574614,-10.8429896889303,18.4217418252144,824.594438064517
246,633,12247,"Neotoma","Andy Lake","ANDYLAKE",64.65,-128.083333,1360,"not known","lake","core","0","Szeicz, J.M., G.M. MacDonald, and A. Duk-Rodkin. 1995. Late Quaternary vegetation history of the central Mackenzie Mountains, Northwest Territories, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology 113:351-371.",,15,"cold evergreen needleleaf forest",0.872315294611577,890.9940509592,-9.35398698563066,-28.0442636154229,10.4396173673085,352.848609480223
247,634,7004,"EMPDv2","Anenske udoli","EPDcoretop_E1509",50.59,16.12,696,"0.001","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22281116739281,2572.71747297108,6.25577420460444,-4.29640632745209,15.5549935420826,864.020619715205
248,635,12248,"Neotoma","Angal Lake","ANGAL",67.133333,-153.9,820,"not known","lake","core","0","Brubaker, L.B., H.L. Garfinkel, and M.E. Edwards. 1983. A late Wisconsin and Holocene vegetation history from the central Brooks Range: implications for Alaskan palaeoecology. Quaternary Research 20:194-214.",,31,"tundra",0.660301603763353,730.352780262299,-10.1799275091914,-26.2796362467721,8.77006299663789,208.270442547151
249,636,11590,"Neotoma","Angelo","ANG-1C",43.970095,-90.769255,276,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.899706024922037,3521.6895380045,7.6074605359544,-9.86113187096189,22.3445044847073,792.542873565162
249,637,11589,"Neotoma","Angelo","ANG-1M",43.970095,-90.769255,276,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.899706024922037,3521.6895380045,7.6074605359544,-9.86113187096189,22.3445044847073,792.542873565162
250,638,173,"Australian pollen","Anggi Lake","Anggi Lake 4",-1.4031,133.9022,1945,"not known","lake","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.88624109803406,6934.86096583285,18.9996190844736,18.5716658116932,19.291353001181,3895.70312671506
251,639,11831,"Neotoma","Angmagssalik","GRE1018",65.61042,-37.62201,10,"not known","terrestrial, bog/fen/swamp","surface sample","-19","Bick, H. 1978. A postglacial pollen diagram from Angmagssalik, East Greenland. Meddelelser om Grønland 204(1):1-22.",,30,"tundra",2.49019205365429,685.660233364878,-1.6582795754971,-8.34454897291735,6.71350494659345,944.206625123874
252,640,1786,"CMPD","Angren","Angren",29.2,87.4,4300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.949229800885908,1323.27246992874,1.15551484092191,-8.60636319377924,9.94015656058647,1073.66267642374
253,641,8210,"EMPDv2","Anisimovka","Mikishin-Gvozdeva_b41",43.1416666666667,132.788611111111,350,"not applicable","terrestrial","soil sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.07374153508494,2661.69828435339,3.68340546261055,-14.1634674366783,19.2402063967214,804.947937282722
254,642,174,"Australian pollen","Anouwe","Anouwe 2",-20.2339,169.7828,4,"not known","lacustrine, drained lake","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.55131875467268,8506.92840825688,23.3066531733065,20.9784228199605,25.7253510100623,2140.25841578638
255,643,17934,"SMPDSv1","Anstadvatnet","Bjune_a179",68.7166666666666,15.3666666666666,55,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.24908829604933,1433.47676981114,2.59671225676487,-4.3463653402031,11.5395880157545,1222.65451691293
256,644,8284,"EMPDv2","Antagnod","Montanari_a10",45.8169194444444,7.69094722222222,1700,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.09779163477021,1747.61312514432,3.86449345001164,-3.91446031463594,12.2148349854656,1690.81446037133
257,645,12250,"Neotoma","Antelope Playa","ANTELOPE",43.5,-105.45,1450,"not known","lake","core","0","Markgraf, V., and T. Lennon. 1986. Paleoenvironmental history of the last 13,000 years of the eastern Powder River Basin, Wyoming, and its implications for prehistoric cultural patterns. Plains Anthropologist 31:1-12.",,22,"steppe",0.376711643045035,3112.12360926213,7.37887234545144,-5.56909599168792,21.353438802787,372.178482630241
258,646,15077,"Neotoma","Anthony Lake","ANTHONY",44.959675,-118.231425,2174,"not known","lake","core","-18","Long, C.J., J.J. Shinker, T.A. Minckley, M.J. Power, and P.J. Bartlein. 2019. A 7600 year vegetation and fire history from Anthony Lake, northeastern Oregon, USA, with linkages to modern synoptic climate patterns. Quaternary Research 91(2):705-713.",,17,"temperate evergreen needleleaf open woodland",0.541668589319024,1984.88076365248,3.99290705000697,-5.33383896092532,15.7945295046588,492.540485152947
259,647,15031,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-44","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15032,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-41","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15033,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-38","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15034,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-34","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15035,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-30","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15036,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-27","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15037,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-23","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15038,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-20","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15039,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-16","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15040,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-13","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15041,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-10","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15042,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-7","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15043,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-4","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15044,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","-1","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15045,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","2","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15046,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","4","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15047,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","7","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15048,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","10","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15049,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","13","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15050,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","15","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15051,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","18","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15052,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","21","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15053,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","24","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15054,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","27","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15055,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","29","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15056,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","32","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15057,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","35","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15058,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","38","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15059,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","42","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
259,647,15060,"Neotoma","Antler Pond","ANTLER",40.0230899999999,-107.119374999999,3128,"not known","lake","core","48","Anderson, R.S., S.J. Smith, A.M. Lynch, and B.W. Geils. 2010. The pollen record of a 20th century spruce beetle (Dendroctonus rufipennis) outbreak in a Colorado subalpine forest, USA. Forest Ecology and Management 260(4):448-455.","10.1016/j.foreco.2010.05.001",17,"temperate evergreen needleleaf open woodland",0.585119856792225,1210.59836976404,-0.813030607907357,-12.0086244069102,10.8873205266219,540.488933784098
260,648,175,"Australian pollen","Anumon Swamp","Anumon Swamp_a",-20.1628,169.8275,45,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.53510877414654,8441.97948534323,23.1287109187486,20.7688465014311,25.5766152742552,2120.51958467191
260,649,176,"Australian pollen","Anumon Swamp","Anumon Swamp_b",-20.1628,169.8275,45,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.53510877414654,8441.97948534323,23.1287109187486,20.7688465014311,25.5766152742552,2120.51958467191
260,650,177,"Australian pollen","Anumon Swamp","Anumon Swamp_c",-20.1628,169.8275,45,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.53510877414654,8441.97948534323,23.1287109187486,20.7688465014311,25.5766152742552,2120.51958467191
261,651,5935,"EMBSeCBIO","Anzali lagoon","HCGA05-core_11",37.46944,47.3525,-27,"160","lake","core","-11","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.231931052538333,6001.5590269129,16.4426274709942,3.83941690807319,28.8328908592442,291.083010946409
261,652,5936,"EMBSeCBIO","Anzali lagoon","HCGA05-core_17",37.46944,47.3525,-27,"160","lake","core","1","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.231931052538333,6001.5590269129,16.4426274709942,3.83941690807319,28.8328908592442,291.083010946409
261,653,5937,"EMBSeCBIO","Anzali lagoon","HCGA05-core_23",37.46944,47.3525,-27,"160","lake","core","15","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.231931052538333,6001.5590269129,16.4426274709942,3.83941690807319,28.8328908592442,291.083010946409
261,654,5938,"EMBSeCBIO","Anzali lagoon","HCGA05-core_29",37.46944,47.3525,-27,"160","lake","core","28","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.231931052538333,6001.5590269129,16.4426274709942,3.83941690807319,28.8328908592442,291.083010946409
261,655,5939,"EMBSeCBIO","Anzali lagoon","HCGA05-core_35",37.46944,47.3525,-27,"160","lake","core","41","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.231931052538333,6001.5590269129,16.4426274709942,3.83941690807319,28.8328908592442,291.083010946409
262,656,20274,"SMPDSv1","Anzali Lagoon","Leroy_a1 (Anzali Lagoon 1)",37.412732,49.481713,-25,"150","lake","sediment sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.181524288890046,6542.8560681524,17.9256330634312,5.27844542195185,30.0391634883746,236.256967145728
262,657,20275,"SMPDSv1","Anzali Lagoon","Leroy_a2 (Anzali Lagoon 12)",37.453562,49.381977,-25,"150","lake","sediment sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.18386684579626,6527.40550705231,17.8833027590474,5.24553917957465,29.992939120614,238.877010277802
262,658,20276,"SMPDSv1","Anzali Lagoon","Leroy_a3 (Anzali Lagoon 15)",37.478366,49.318084,-25,"150","lake","sediment sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.185346895010218,6517.328138909,17.8556935312575,5.22378931116197,29.963170447529,240.528179760878
262,659,20277,"SMPDSv1","Anzali Lagoon","Leroy_a4 (Anzali Lagoon 6)",37.41366,49.45363,-25,"150","lake","sediment sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.18200897351671,6539.0838078498,17.9152981036981,5.26955332008077,30.0284742441096,236.815296668448
262,660,20278,"SMPDSv1","Anzali Lagoon","Leroy_a5 (Anzali Lagoon 8)",37.411032,49.397777,-25,"150","lake","sediment sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.182898495810151,6531.75213119996,17.8952113183561,5.25180068213054,30.0080903025178,237.847797252359
263,661,17935,"SMPDSv1","Aosta Valley","Ortu_b1",45.56,7.209,1728,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.87760561538973,1833.38396766724,4.2474247413457,-3.43684437420941,12.6657254914654,1582.37739944842
263,662,17936,"SMPDSv1","Aosta Valley","Ortu_b10",45.546,7.214,1980,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.05310872002424,1515.76304934319,2.95409673415966,-4.41614560918185,11.1846987654711,1690.87088075559
263,663,17937,"SMPDSv1","Aosta Valley","Ortu_b11",45.546,7.216,2080,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.12690210131455,1397.11176597743,2.43687656534845,-4.80891568634195,10.5923956197444,1734.52532261724
263,664,17938,"SMPDSv1","Aosta Valley","Ortu_b12",45.546,7.216,2117,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.15450259233919,1354.33855540478,2.24571037860359,-4.95402995405276,10.3735109961302,1750.61996606081
263,665,17939,"SMPDSv1","Aosta Valley","Ortu_b13",45.545,7.219,2167,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19236468980526,1297.3047296483,1.98692819394648,-5.15040476478128,10.0770047779819,1772.46951114518
263,666,17940,"SMPDSv1","Aosta Valley","Ortu_b14",45.547,7.221,2190,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21080005615826,1271.04024879812,1.8659915761879,-5.24278135007726,9.93840788193777,1782.9095367534
263,667,17941,"SMPDSv1","Aosta Valley","Ortu_b15",45.544,7.222,2309,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.3018867400512,1140.68803218122,1.25239927301833,-5.70782459511313,9.23567865271442,1834.3250797017
263,668,17942,"SMPDSv1","Aosta Valley","Ortu_b16",45.544,7.225,2405,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.37840320870445,1038.56098675653,0.75466915303414,-6.08568880536902,8.6654464769429609,1876.3180828303
263,669,17943,"SMPDSv1","Aosta Valley","Ortu_b17",45.543,7.227,2461,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.4235546784287,980.424600874021,0.464725754904274,-6.30553944303968,8.33320858062516,1900.67899731366
263,670,17944,"SMPDSv1","Aosta Valley","Ortu_b18",45.543,7.23,2533,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.48305311386682,906.926490452407,0.0907060332084373,-6.58943766418978,7.90455955718548,1932.23545100284
263,671,17945,"SMPDSv1","Aosta Valley","Ortu_b19",45.542,7.239,2680,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.60820986390513,761.711641478892,-0.674675876793999,-7.23740580074472,7.02689348757084,1996.74154829883
263,672,17946,"SMPDSv1","Aosta Valley","Ortu_b2",45.56,7.209,1728,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.87760561538973,1833.38396766724,4.2474247413457,-3.43684437420941,12.6657254914654,1582.37739944842
263,673,17947,"SMPDSv1","Aosta Valley","Ortu_b20",45.543,7.233,2631,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.5654876586068,809.621609729042,-0.418070055903695,-7.00214274724922,7.32152027021481,1975.10310382502
263,674,17948,"SMPDSv1","Aosta Valley","Ortu_b21",45.574,7.209,1680,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84800328503532,1895.62198702137,4.48606078948941,-3.25858619669379,12.9390663599645,1562.90642060733
263,675,17949,"SMPDSv1","Aosta Valley","Ortu_b22",45.645,7.198,1260,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.58438018635099,2497.80694685657,6.60674549031331,-1.6595903338927,15.3671304785915,1383.92270854414
263,676,17950,"SMPDSv1","Aosta Valley","Ortu_b23",45.665,7.203,1177,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53576684480856,2626.16241137086,7.02200940794488,-1.348123747852,15.8427763000908,1349.00597112195
263,677,17951,"SMPDSv1","Aosta Valley","Ortu_b3",45.569,7.21,1794,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.92593702612253,1745.30788007321,3.90056747982629,-3.70227189397434,12.2686832733964,1612.22647932589
263,678,17952,"SMPDSv1","Aosta Valley","Ortu_b4",45.569,7.21,1794,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.92593702612253,1745.30788007321,3.90056747982629,-3.70227189397434,12.2686832733964,1612.22647932589
263,679,17953,"SMPDSv1","Aosta Valley","Ortu_b5",45.61,7.198,1499,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.73293602681704,2143.37978320236,5.39737057533022,-2.57231858910782,13.9826070999978,1486.29259575827
263,680,17954,"SMPDSv1","Aosta Valley","Ortu_b6",45.61,7.198,1499,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.73293602681704,2143.37978320236,5.39737057533022,-2.57231858910782,13.9826070999978,1486.29259575827
263,681,17955,"SMPDSv1","Aosta Valley","Ortu_b7",45.623,7.197,1391,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66449359972353,2300.4774701115,5.94575503532397,-2.15788842659938,14.6103820286835,1439.86680995417
263,682,17956,"SMPDSv1","Aosta Valley","Ortu_b8",45.623,7.197,1392,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66514602775085,2298.97405111718,5.94059872235052,-2.16180808303182,14.604479979806,1440.3069021149
263,683,17957,"SMPDSv1","Aosta Valley","Ortu_b9",45.546,7.213,1885,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.98461476850434,1632.62725060616,3.44506745561266,-4.0433482622364,11.7468711916246,1649.47115032085
264,684,17958,"SMPDSv1","Apukka","FIN/SPH/A5",66.5805805555556,25.9800027777778,95,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0757312227991,1791.03702898428,1.00396553477588,-12.7226461916585,15.348348212037,494.795494215354
265,685,1787,"CMPD","Aqikekule","Aqikekule",36.67,89,4680,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.16486971932883,429.148264372928,-6.57945993096321,-18.8122383777361,5.31716455574569,153.9346457731
266,686,10708,"Bush et al., 2020","Aquihui","Aquihui",-16.089383,-68.885,3841,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.443950546079987,3275.47026189754,8.9738911284864,6.18508030168311,10.8250515547766,656.290646725197
267,687,17959,"SMPDSv1","ARA1","Barboni_a399",37.618889,-6.15,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432551697002752,6254.78155492759,17.1363878217194,10.1049117514967,25.4524135291204,573.699454500106
268,688,17960,"SMPDSv1","ARA2","Barboni_a400",37.767222,-6.368889,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.445022674058559,5623.2593346067,15.4061899578266,7.53550533321982,25.0251861601773,573.368153342181
269,689,17961,"SMPDSv1","ARA3","Barboni_a401",37.917222,-6.618889,810,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.446728346646168,5164.46241841131,14.1492121052365,5.51042243338625,25.0186780871737,567.60375070826
270,690,17962,"SMPDSv1","ARA4","Barboni_a402",38.018889,-6.718889,580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.450224782035755,5542.50215302315,15.1849374055429,7.1744741893034,25.0195104118332,575.070295806856
271,691,7067,"EMPDv2","Arakamchechen Island","EPDcoretop_E1810",64.75,-172.08,7,"not known","terrestrial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.8626627022101,800.416051718801,-4.51043242326261,-16.7114261014445,8.38073545336201,619.463817438034
272,692,17963,"SMPDSv1","Aral Sea","Aral Sea I",46.52,60.7,36,"not applicable","marine","marine core","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
273,693,9747,"Herzschuh et al., 2019","Aral2 Nuur. 30A","Aral2 Nuur. 30A",48.50601,90.62551,2375,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.267403839968611,1209.90013508829,-6.04800262493607,-26.5396506172764,11.2578182795394,227.285865947343
274,694,15710,"Neotoma","Arbutus Lake","ARBU_C90",43.9879899999999,-74.24115,513,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.358309475674,2705.91842828485,5.1029618016635,-9.71859809870492,18.4418366693889,1047.93293979444
275,695,8279,"EMPDv2","Arcesaz","Montanari_a5",45.7398138888889,7.74677222222222,1250,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.7064128134669,2481.9429985551,6.52884062842946,-1.84899676695314,15.2953299620687,1475.14404879263
276,696,15264,"Neotoma","Arena15","AMD031",43.08,-89.88,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892511134340306,3247.84963988414,6.55029342345438,-10.6939035528049,21.3038913496274,771.597442818733
277,697,15259,"Neotoma","Arena16","AMD026",43.08,-89.92,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892323752540322,3250.289733853,6.55867244145928,-10.6914741625816,21.3125702320248,771.738328950562
278,698,15258,"Neotoma","Arena8","AMD025",43.1,-89.92,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892437569683055,3250.15788075568,6.55712718106159,-10.6954118526712,21.3123546313762,771.613562885032
279,699,9556,"EMPDv2","Argayash lake","Novenko_c82",55.5817,60.8933,250,"not known","lake","surface sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.726882607098973,2509.97896177283,2.38172488220207,-15.7416517743131,19.3712915101847,481.450664950047
279,700,9557,"EMPDv2","Argayash lake","Novenko_c83",55.5817,60.8933,250,"not known","lake","surface sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.726882607098973,2509.97896177283,2.38172488220207,-15.7416517743131,19.3712915101847,481.450664950047
280,701,17968,"SMPDSv1","Argive plain, field near Monastiraki","Jahns_h4",37.705,22.7502777777777,95,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387868975510868,6390.09625476712,17.5071130267592,9.8619217256456,25.9020483809433,558.197543676969
281,702,17969,"SMPDSv1","Argive plain, Mykene archeological site","Jahns_h1",37.7302777777777,22.7558333333333,240,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418073912499783,6021.37915314304,16.4969291866933,8.69665679498338,25.0131158687805,591.701209917427
282,703,17970,"SMPDSv1","Argive plain, near Mili village","Jahns_h9",37.5527777777777,22.7161111111111,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393446764884658,6563.17280687365,17.9812953612977,10.607201301453,26.1140861299784,569.530196895602
283,704,17971,"SMPDSv1","Argive plain, near Monastiraki","Jahns_h3",37.705,22.7502777777777,95,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387868975510868,6390.09625476712,17.5071130267592,9.8619217256456,25.9020483809433,558.197543676969
284,705,17972,"SMPDSv1","Argive plain, near Mykinas village","Jahns_h2",37.7191666666666,22.7455555555555,110,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409661126611308,6314.25474308316,17.2993280632415,9.73670426669714,25.5957677083673,585.40608652125
285,706,17973,"SMPDSv1","Argive plain, near Neo Iraio (Honikas) village","Jahns_h5",37.6713888888888,22.7724999999999,30,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374340651680042,6559.0748892796,17.9700681898071,10.3974443174269,26.3100194797126,543.034860143016
286,707,17974,"SMPDSv1","Argive plain, swamp near Mili","Jahns_h6",37.5527777777777,22.7161111111111,20,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393446764884658,6563.17280687365,17.9812953612977,10.607201301453,26.1140861299784,569.530196895602
286,708,17975,"SMPDSv1","Argive plain, swamp near Mili","Jahns_h7",37.5527777777777,22.7161111111111,20,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393446764884658,6563.17280687365,17.9812953612977,10.607201301453,26.1140861299784,569.530196895602
287,709,17976,"SMPDSv1","Argive plain, swamp near Mili village","Jahns_h8",37.5527777777777,22.7161111111111,20,"not applicable","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393446764884658,6563.17280687365,17.9812953612977,10.607201301453,26.1140861299784,569.530196895602
288,710,17977,"SMPDSv1","Argive plain, west of Mili village","Jahns_h10",37.5536111111111,22.6794444444444,150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417462158196891,6239.9675284741,17.0958014478742,9.56388488415329,25.355873158628,596.147174947664
289,711,178,"Australian pollen","Arkaroola-Mount Painter Sanctuary","5km west of Haematite Hill_1995",-30.278341,139.236946,550,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160465913721546,6406.07900570021,17.55090138548,9.12225751877047,25.7425291017821,269.075642056788
289,712,179,"Australian pollen","Arkaroola-Mount Painter Sanctuary","5km west of Haematite Hill_1996",-30.278341,139.236946,550,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160465913721546,6406.07900570021,17.55090138548,9.12225751877047,25.7425291017821,269.075642056788
289,713,180,"Australian pollen","Arkaroola-Mount Painter Sanctuary","Echo Creek Water Hole_1996",-30.336139,139.371872,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134793271876752,6967.56479490536,19.0892186161791,10.5973654962085,27.2384176092714,228.227240912768
289,714,181,"Australian pollen","Arkaroola-Mount Painter Sanctuary","Junction of North Well Creek & Haematite Hill_1995",-30.278786,139.265442,500,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155735650818529,6510.61864690191,17.8373113613751,9.37123687925221,26.0424076710272,261.978157986064
289,715,182,"Australian pollen","Arkaroola-Mount Painter Sanctuary","Junction of North Well Creek & Haematite Hill_1996",-30.278786,139.265442,500,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155735650818529,6510.61864690191,17.8373113613751,9.37123687925221,26.0424076710272,261.978157986064
289,716,183,"Australian pollen","Arkaroola-Mount Painter Sanctuary","Nooldoonooldoona Water Hole-1995",-30.275079,139.28793,550,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.161096072762882,6395.01352098908,17.5205849890112,9.06254153406978,25.7383871140345,270.489457995188
289,717,184,"Australian pollen","Arkaroola-Mount Painter Sanctuary","Paralana Springs Road_1995",-30.287087,139.346809,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134295790507845,6975.19083140444,19.1101118668615,10.6079445468159,27.2667487090944,227.646992842701
290,718,185,"Australian pollen","Arkaroola, Devils Arch, ARK1","ARK1 in_1995",-30.3166666666667,139.352333333333,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.13989380094592,6855.20857136135,18.7813933461955,10.2935991735049,26.9463346428026,236.535513368946
290,719,186,"Australian pollen","Arkaroola, Devils Arch, ARK1","ARK1 in_1996",-30.3166666666667,139.352333333333,350,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.13989380094592,6855.20857136135,18.7813933461955,10.2935991735049,26.9463346428026,236.535513368946
290,720,187,"Australian pollen","Arkaroola, Devils Arch, ARK1","ARK1 out_1995",-30.3166666666667,139.352333333333,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.13989380094592,6855.20857136135,18.7813933461955,10.2935991735049,26.9463346428026,236.535513368946
290,721,188,"Australian pollen","Arkaroola, Devils Arch, ARK1","ARK1 out_1996",-30.3166666666667,139.352333333333,350,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.13989380094592,6855.20857136135,18.7813933461955,10.2935991735049,26.9463346428026,236.535513368946
291,722,189,"Australian pollen","Arkaroola, Waterfall, WF1","WF out_1996",-30.267,139.284,350,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.139376994237433,6862.82047212284,18.8022478688297,10.3048348676041,26.9744056817528,235.906780310307
291,723,190,"Australian pollen","Arkaroola, Waterfall, WF1","WF1",-30.267,139.284,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.139376994237433,6862.82047212284,18.8022478688297,10.3048348676041,26.9744056817528,235.906780310307
291,724,191,"Australian pollen","Arkaroola, Waterfall, WF1","WF1 out_1995",-30.267,139.284,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.139376994237433,6862.82047212284,18.8022478688297,10.3048348676041,26.9744056817528,235.906780310307
292,725,17980,"SMPDSv1","Arkutino Lake","Arkutino lake",42.3172222222222,27.7180555555556,23,"0.001","lake","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564140920141187,4924.52550335211,13.4918506941154,3.46618144752361,22.9036202713368,600.538866416333
292,726,17978,"SMPDSv1","Arkutino Lake","EPDcoretop_E70",42.366667,27.733333,23,"0.001","lake","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564290691535292,4915.2376647974,13.4664045610888,3.41784410410637,22.8880550620502,598.809137457694
292,727,17979,"SMPDSv1","Arkutino Lake","EPDcoretop_E71",42.366667,27.733333,23,"0.001","lake","peat core top","-32","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564290691535292,4915.2376647974,13.4664045610888,3.41784410410637,22.8880550620502,598.809137457694
293,728,10304,"IBERIA","Armacao de Pera Ribeira de Alcantarilha","ADP 01/06",37.110107,-8.34459,2.4,"not applicable","coastal, estuarine","core top","8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.6093363873411,6322.74682608785,17.3225940440763,11.9565702776672,23.4343237077894,725.904394389291
294,729,9589,"Gaillard et al., 1992","Arno","Arno",58.975792,17.131513,36,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.902459641829086,2417.45678599861,5.77844042719116,-3.81174282185783,16.0037993315939,544.532902432229
295,730,192,"Australian pollen","Arona, Eastern Highlands","Norikori",-6.2,146.02,1420,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.65042809777694,8272.09898053359,22.6632848781742,21.7647264975775,23.1752589071117,2353.94412546123
296,731,9131,"EMPDv2","Arpasu","Tantau_a1",45.7166666666667,24.6519444444444,540,"0.035","terrestrial, bog/fen/swamp","peat","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.768814526421345,3279.82054026336,8.3634170714074,-4.23770191676272,18.4258483691894,669.360320985158
297,732,17981,"SMPDSv1","Arpujavri","Bjune_a151",68.85,20.9333333333333,487,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.77122296289718,1022.42032294675,-2.95127475376031,-15.215678227132999,10.784475136512,651.369876428725
298,733,14022,"Neotoma","Arrepentimientos","ARREPENT",19.028,-70.924,2455,"not known","terrestrial","core","-50","Crausbay, S.D., P.H. Martin, and E.F. Kelly. in press. Tropical montane vegetation dynamics near the upper cloud belt strongly associated with a shifting ITCZ and fire. Journal of Ecology.",,4,"warm-temperate evergreen and mixed forest",0.983317145028148,4167.55042638242,11.4179463736505,9.274282871627,13.2015708673835,1377.51331155171
298,733,14023,"Neotoma","Arrepentimientos","ARREPENT",19.028,-70.924,2455,"not known","terrestrial","core","-29","Crausbay, S.D., P.H. Martin, and E.F. Kelly. in press. Tropical montane vegetation dynamics near the upper cloud belt strongly associated with a shifting ITCZ and fire. Journal of Ecology.",,4,"warm-temperate evergreen and mixed forest",0.983317145028148,4167.55042638242,11.4179463736505,9.274282871627,13.2015708673835,1377.51331155171
298,733,14024,"Neotoma","Arrepentimientos","ARREPENT",19.028,-70.924,2455,"not known","terrestrial","core","16","Crausbay, S.D., P.H. Martin, and E.F. Kelly. in press. Tropical montane vegetation dynamics near the upper cloud belt strongly associated with a shifting ITCZ and fire. Journal of Ecology.",,4,"warm-temperate evergreen and mixed forest",0.983317145028148,4167.55042638242,11.4179463736505,9.274282871627,13.2015708673835,1377.51331155171
299,734,17982,"SMPDSv1","Arreskov So","Nielsen_a2",55.158,10.309,32,"3.17","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06591726291458,2954.10085881363,8.07396663875744,-0.0561860143922412,16.1899935986168,698.346938202797
300,735,17983,"SMPDSv1","Arroya de Ramblaverde","Barboni_a1372",40.05,-1.9166,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.4713223382595,3513.36886511343,9.62566812359844,1.72359471093782,19.5449832154991,553.96770650746
301,736,10305,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.01",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,737,10306,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.02",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-36","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,738,10307,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.03",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-31","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,739,10308,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.04",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-26","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,740,10309,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.05",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-21","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,741,10310,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.06",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,742,10311,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.07",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,743,10312,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.08",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,744,10313,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.09",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","-1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,745,10314,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.10",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,746,10315,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.11",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","9","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,747,10316,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.12",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,748,10317,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.13",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,749,10318,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.14",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","24","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,750,10319,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.15",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","29","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,751,10320,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.16",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","33","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,752,10321,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.17",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","38","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,753,10322,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.18",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","43","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
301,754,10323,"IBERIA","Arroyo de Aguas Frias","AGUASFRIAS_0.19",40.2667,-5.1167,1120,"not known","terrestrial, bog/fen/swamp","core","48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.429633635791209,3712.24654192042,10.1705384710149,2.38925758985765,19.708518979617,516.254242830679
302,755,9584,"EMPDv2","Arroyo de la Vinuela","Morales_a9",39.374444,-4.488333,750,"3e-04","small hollow","peat","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.388822643708997,4940.57217333362,13.5358141735168,5.33307392332498,23.7634597925462,485.822568816078
303,756,10409,"IBERIA","Arroyo de las Carcavas","CARCAVAS_0.01",40.8419,-4.0314,1300,"not applicable","small hollow","core","-57","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.554262227934075,3211.20569735537,8.79782382837088,1.44479409407119,18.0689098385962,621.340706564544
303,757,10410,"IBERIA","Arroyo de las Carcavas","CARCAVAS_0.04",40.8419,-4.0314,1300,"not applicable","small hollow","core","-39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.554262227934075,3211.20569735537,8.79782382837088,1.44479409407119,18.0689098385962,621.340706564544
303,758,10411,"IBERIA","Arroyo de las Carcavas","CARCAVAS_0.08",40.8419,-4.0314,1300,"not applicable","small hollow","core","-15","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.554262227934075,3211.20569735537,8.79782382837088,1.44479409407119,18.0689098385962,621.340706564544
303,759,10412,"IBERIA","Arroyo de las Carcavas","CARCAVAS_0.12",40.8419,-4.0314,1300,"not applicable","small hollow","core","11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.554262227934075,3211.20569735537,8.79782382837088,1.44479409407119,18.0689098385962,621.340706564544
303,760,10413,"IBERIA","Arroyo de las Carcavas","CARCAVAS_0.16",40.8419,-4.0314,1300,"not applicable","small hollow","core","42","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.554262227934075,3211.20569735537,8.79782382837088,1.44479409407119,18.0689098385962,621.340706564544
304,761,17984,"SMPDSv1","Arroyo de las Ciervas","Barboni_a379",41.966667,-6.233333,790,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.659942625108079,4164.13372175719,11.4085855390608,4.03724622261126,19.9158798940357,730.493602909426
305,762,10529,"IBERIA","Arroyo de Navalacarreta","NAVALACA_01",40.85222222,-4.031111111,1250,"not applicable","small hollow","core","-60","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.537440171409512,3349.6886227501,9.17722910342494,1.76181402423946,18.4986480526921,607.479583208787
305,763,10530,"IBERIA","Arroyo de Navalacarreta","NAVALACA_04",40.85222222,-4.031111111,1250,"not applicable","small hollow","core","-43","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.537440171409512,3349.6886227501,9.17722910342494,1.76181402423946,18.4986480526921,607.479583208787
305,764,10531,"IBERIA","Arroyo de Navalacarreta","NAVALACA_08",40.85222222,-4.031111111,1250,"not applicable","small hollow","core","-19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.537440171409512,3349.6886227501,9.17722910342494,1.76181402423946,18.4986480526921,607.479583208787
305,765,10532,"IBERIA","Arroyo de Navalacarreta","NAVALACA_12",40.85222222,-4.031111111,1250,"not applicable","small hollow","core","8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.537440171409512,3349.6886227501,9.17722910342494,1.76181402423946,18.4986480526921,607.479583208787
305,766,10533,"IBERIA","Arroyo de Navalacarreta","NAVALACA_16",40.85222222,-4.031111111,1250,"not applicable","small hollow","core","39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.537440171409512,3349.6886227501,9.17722910342494,1.76181402423946,18.4986480526921,607.479583208787
306,767,10324,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.01",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-56","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,768,10325,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.04",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-49","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,769,10326,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.08",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,770,10327,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.12",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-29","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,771,10328,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.16",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-17","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,772,10329,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.20",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,773,10330,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.24",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,774,10331,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.28",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,775,10332,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.32",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","29","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
306,776,10333,"IBERIA","Arroyo de Valdeconejos","VALDECON_0.36",40.8622,-4.0597,1380,"0.00126","terrestrial, bog/fen/swamp","core","41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.582138387343548,2991.46027610245,8.19578157836287,0.940840294457873,17.3888384818222,643.593464087475
307,777,9583,"EMPDv2","Arroyo del Brezoso","Morales_a8",39.348611,-4.361944,730,"0.015","terrestrial, bog/fen/swamp","peat","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.386279528461236,5007.17602886447,13.7182904900396,5.48756361017269,23.9858308565498,483.512987097431
308,778,17985,"SMPDSv1","Ars","Miras_a1",45.5921805555555,2.01712777777777,812,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09717857464494,3148.23224553514,8.62529382338394,0.956494579427391,17.1037855664175,962.915494954228
308,779,17986,"SMPDSv1","Ars","Miras_a10",45.6023277777777,2.00955,797,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0917221847867,3173.69184144645,8.69504614094919,1.02937182421003,17.1639118044771,958.214993749725
308,780,17987,"SMPDSv1","Ars","Miras_a11",45.6029777777777,2.00930277777777,800,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09294679199652,3168.40953886893,8.68057407909295,1.01430952350964,17.1511302933457,959.187122010593
308,781,17988,"SMPDSv1","Ars","Miras_a12",45.6027222222222,2.01044444444444,795,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09093126895861,3177.16777296703,8.70456924100557,1.03929704429625,17.1722657120864,957.570607703686
308,782,17989,"SMPDSv1","Ars","Miras_a13",45.604025,2.00813611111111,813,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09818456981033,3145.63319943144,8.61817314912723,0.949325641508044,17.0961789965015,963.384569596594
308,783,17990,"SMPDSv1","Ars","Miras_a2",45.5934361111111,2.01618611111111,802,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09326046730465,3165.60739260823,8.67289696604995,1.00609991657992,17.145462250682,959.714150366446
308,784,17991,"SMPDSv1","Ars","Miras_a3",45.5942722222222,2.01580277777777,802,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09330007328052,3165.54923925141,8.67273764178468,1.00595201610813,17.145233692797,959.723330219271
308,785,17992,"SMPDSv1","Ars","Miras_a4",45.5945416666666,2.01575833333333,800,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09251569604931,3169.02438761247,8.68225859619855,1.01587384048028,17.1535716160881,959.082512222839
308,786,17993,"SMPDSv1","Ars","Miras_a5",45.5949305555555,2.0158,799,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09213333099119,3170.74621246772,8.68697592456908,1.02079476528757,17.1576806725345,958.764027385931
308,787,17994,"SMPDSv1","Ars","Miras_a6",45.5949,2.01464722222222,801,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09294243886059,3167.24204743231,8.67737547241728,1.01079871460036,17.1492180173341,959.412526150773
308,788,17995,"SMPDSv1","Ars","Miras_a7",45.5989638888888,2.01161666666666,804,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09434388764233,3161.70777068048,8.66221307035749,0.995095889798183,17.1354358767788,960.427668598016
308,789,17996,"SMPDSv1","Ars","Miras_a8",45.5998027777777,2.01067777777777,803,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0939922341098,3163.38968503728,8.66682105489666,0.999915222728764,17.1393804997814,960.117741910963
308,790,17997,"SMPDSv1","Ars","Miras_a9",45.60065,2.01019166666666,797,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09164453178403,3173.80706934356,8.69536183381797,1.02966463418672,17.1643626177647,958.197254974787
309,791,17998,"SMPDSv1","Arsenala Varna Lake","Barboni_a380",43.187222,27.831944,20,"1566","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.545462333027092,4418.6620023163,12.1059232940172,0.565513749906241,22.3044633747235,532.336774348607
310,792,17999,"SMPDSv1","Arsetveatn","Bjune_a46",62.71067268,7.53958917,185,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.20914194727059,1921.76245929793,4.68108147122382,-2.77581645662656,12.7073714824108,1490.21326783504
311,793,18000,"SMPDSv1","Arstol","Bjune_a229",58.1366666666666,7.72,195,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.22609528327436,2375.45137339718,6.02655525060886,-2.6142822817601,14.7332545342894,1328.78282759222
312,794,18001,"SMPDSv1","Arterwald","CH/WVDK/Z1",46.005375,7.775239,2240,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.70717163390974,1024.6634864982,0.684937416848493,-6.2989140355137,8.45956928398247,2000.63325612155
313,795,18002,"SMPDSv1","Arts Lough","EPDcoretop_E6",52.95,-6.433333,490,"0.03","terrestrial, blanket bog","peat core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.165003630626738,2503.08207714718,6.85775911547173,1.96649248910886,13.1619659199972,93.4681296179784
314,796,8178,"EMPDv2","Arzamazovka","Mikishin-Gvozdeva_b8",43.7597222222222,135.156111111111,6,"not applicable","coastal, other","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15433104388748,2878.59175121202,5.21087051841521,-11.1457873986618,20.2184781678393,861.868048959516
315,797,18003,"SMPDSv1","Ashyagar","Ashyagar",43.58,51.66,-125,"medium (1.1-50 km2)","fluvial","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.188446747232254,4703.66308901891,12.6416232070659,-1.73752470390356,26.6133017634002,207.606739151119
316,798,5998,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_0",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-34","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,799,6000,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_10",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-5","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,800,6001,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_15",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","8","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,801,6002,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_20",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","23","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,802,6003,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_25",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","37","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,803,5999,"EMBSeCBIO","Asi Gonia","Asi Gonia 1_5",35.248611,24.277778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-20","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909028770954,6297.2434179357,17.2527216929745,10.9298507787135,24.2739259946405,734.688125037944
316,804,6004,"EMBSeCBIO","Asi Gonia","Asi Gonia 2_1",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-31","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
316,805,6006,"EMBSeCBIO","Asi Gonia","Asi Gonia 2_11",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","33","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
316,806,6005,"EMBSeCBIO","Asi Gonia","Asi Gonia 2_6",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","1","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
316,807,18004,"SMPDSv1","Asi Gonia","Asi Gonia moss polster",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
316,808,18005,"SMPDSv1","Asi Gonia","Asi Gonia Pollen Trap 1",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
316,809,18006,"SMPDSv1","Asi Gonia","Asi Gonia Pollen Trap 2",35.248611,24.2778,780,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.473909130116776,6297.24233582623,17.252718728291,10.929851219201,24.2739176221531,734.688140435452
317,810,10709,"Bush et al., 2020","Asiruni","Asiruni",-16.385467,-70.370517,4508,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.374724938910657,1960.53798586797,5.37133694758347,2.50955598647665,7.15171479326696,536.229503859604
318,811,18007,"SMPDSv1","Askasund","Barboni_a364",58.8,15,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07564569523266,2233.32305650213,4.83358369444216,-5.1418460443042,15.1768650291444,641.260620268646
319,812,7949,"EMPDv2","Astokh","Mikishin-Gvozdeva_a9",52.73277778,143.3127778,-1,"6.83","coastal, lagoon","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.28533619977311,1788.06036837665,-0.924215959435569,-18.7648073157572,15.0408665623717,663.9599160108
320,813,18008,"SMPDSv1","Asyv-vozh","Asyv-vozh_SS (Novenko_c184)",61.7833,54.3,206,"0.01","not known","moss polster or moss","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.32669425231683,1850.90130337605,-0.17498901123862,-17.8785992866908,16.9619018356135,627.242772676063
321,814,18009,"SMPDSv1","Ataruz plateau","Jordan-15",31.58,35.67,708,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.111615077208221,6527.513552046,17.8835987727288,8.72072879370429,25.6550736235749,200.322180789565
322,815,10710,"Bush et al., 2020","Atescatempa","Atescatempa",14.22,-89.69,688,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.23254296514684,8518.45527315175,23.3382336250733,21.8518546864113,24.7352340241052,2237.20044057218
323,816,10711,"Bush et al., 2020","Atezca","Atezca",20.81,-98.75,1373,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.773954170976406,7045.49660299242,19.3027304191573,14.9470357419379,22.3948208841601,1147.88009318791
324,817,5940,"EMBSeCBIO","Athos Basin","GeoTuSL152",40.1,24.36,-978,"not applicable","marine","marine core","16","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
325,818,10712,"Bush et al., 2020","Atitlan","Atitlan",14.73,-91.16,1555,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.61121192444727,6901.44954855875,18.9080809549555,16.9626181805511,20.4430011893086,2699.897510732
326,819,10713,"Bush et al., 2020","Atlangatepec","Atlangatepec",19.55,-98.16,2495,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.541755826428791,5460.94256535748,14.9614864804314,12.0496852737307,17.278418602939,795.919271156627
327,820,10714,"Bush et al., 2020","Atotonilco2","Atotonilco2",21.22,-103.67,1357,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.583106351130887,7510.24063766848,20.5760017470369,16.6000602016571,23.7418935642045,957.473448433451
328,821,18010,"SMPDSv1","A̴tsfjord","FIN/SPH/B65",70.5585388888889,29.5478805555556,250,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.85044849422397,1120.15566713251,-1.33780508481525,-11.6749677890535,11.5284174550392,620.50261741759
329,822,23180,"SMPDSv1","Attgloyma","Bjune_a275",61.59,7.94833333333333,1221,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.86338225239321,1169.76358487327,0.134345335669115,-9.50726773951559,9.90094571920688,917.87807225172
330,823,18011,"SMPDSv1","Attika, near Anavyssos","Jahns_g1",37.7197222222222,23.9463888888888,30,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.400553654146247,6648.54351035336,18.2151876995983,10.2940756075702,26.8784493426007,592.878732651943
330,824,18012,"SMPDSv1","Attika, near Anavyssos","Jahns_g2",37.7197222222222,23.9463888888888,30,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.400553654146247,6648.54351035336,18.2151876995983,10.2940756075702,26.8784493426007,592.878732651943
330,825,18013,"SMPDSv1","Attika, near Anavyssos","Jahns_g3",37.7197222222222,23.9463888888888,30,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.400553654146247,6648.54351035336,18.2151876995983,10.2940756075702,26.8784493426007,592.878732651943
330,826,18014,"SMPDSv1","Attika, near Anavyssos","Jahns_g4",37.7197222222222,23.9463888888888,30,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.400553654146247,6648.54351035336,18.2151876995983,10.2940756075702,26.8784493426007,592.878732651943
331,827,18015,"SMPDSv1","Atxuri","EPDcoretop_E80",43.25,-1.55,500,"not known","not known","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.969073640612911,4225.57003312526,11.5769042003432,4.43100439052236,19.4705477361375,955.582435481927
332,828,12088,"Neotoma","Aubrey Clovis Site (Surface sample A)","AUBSSA",33.323215,-97.028685,193,"not known","terrestrial","surface sample","-39","Hall, S.A. 2019. Late glacial aster prairie at the Aubrey Clovis site, North Texas, USA. Quaternary International 530-531:25-34.",,4,"warm-temperate evergreen and mixed forest",0.740596631547532,6477.52046309943,17.7466314057519,5.29635761804328,28.8160658996127,972.185318514655
333,829,12089,"Neotoma","Aubrey Clovis Site (Surface sample B)","AUBSSB",33.32429,-96.9973599999999,211,"not known","terrestrial","surface sample","-39","Hall, S.A. 2019. Late glacial aster prairie at the Aubrey Clovis site, North Texas, USA. Quaternary International 530-531:25-34.",,4,"warm-temperate evergreen and mixed forest",0.722527674598857,6452.91901167507,17.6792301689728,5.16424950529228,28.8371516233902,950.723615526751
334,830,18016,"SMPDSv1","Auretjern","Bjune_a308",61.52,9.7,814,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.49457399303374,1395.45885471259,0.77643282775855,-10.1366487029091,11.387751362061,742.773636569339
335,831,8604,"EMPDv2","Austerbotbreen","Pardoe_c52",61.35,7.49,1480,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.4790974456163,1102.69965791758,-0.442459801156314,-10.4318328611528,9.60385903899037,756.074276574602
335,832,8605,"EMPDv2","Austerbotbreen","Pardoe_c53",61.35,7.49,1440,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.55289358294703,1124.41206325485,-0.267873060182762,-10.1636311419626,9.70467654095559,792.352306874512
335,833,8606,"EMPDv2","Austerbotbreen","Pardoe_c54",61.35,7.49,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62696699662031,1146.38336506085,-0.09328631920921,-9.89542942277251,9.80549404292082,828.630337174423
335,834,8607,"EMPDv2","Austerbotbreen","Pardoe_c55",61.35,7.49,1380,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.66410862051373,1157.48939352245,-0.00599294872243404,-9.76132856317744,9.85590279390343,846.769352324378
335,835,8608,"EMPDv2","Austerbotbreen","Pardoe_c56",61.35,7.49,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62696699662031,1146.38336506085,-0.09328631920921,-9.89542942277251,9.80549404292082,828.630337174423
336,836,8567,"EMPDv2","Austerdalsbreen","Pardoe_c15",61.35,7,400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.0161782842974,1906.24458392446,4.72200800819476,-2.38364439121294,12.4945869192486,1963.39850886357
336,837,8568,"EMPDv2","Austerdalsbreen","Pardoe_c16",61.35,7,400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.0161782842974,1906.24458392446,4.72200800819476,-2.38364439121294,12.4945869192486,1963.39850886357
336,838,8569,"EMPDv2","Austerdalsbreen","Pardoe_c17",61.35,7,370,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.08897610927742,1934.88611979969,4.8538360226633,-2.18405916656793,12.5682687217931,1995.85498036118
336,839,8570,"EMPDv2","Austerdalsbreen","Pardoe_c18",61.35,7,370,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.08897610927742,1934.88611979969,4.8538360226633,-2.18405916656793,12.5682687217931,1995.85498036118
336,840,8571,"EMPDv2","Austerdalsbreen","Pardoe_c19",61.35,7,360,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.11329549520212,1944.56888704479,4.89777869415281,-2.11753075835293,12.5928293226412,2006.67380419372
336,841,8572,"EMPDv2","Austerdalsbreen","Pardoe_c20",61.35,7,360,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.11329549520212,1944.56888704479,4.89777869415281,-2.11753075835293,12.5928293226412,2006.67380419372
336,842,8573,"EMPDv2","Austerdalsbreen","Pardoe_c21",61.35,7,330,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.18641495791822,1974.06709753961,5.02960670862135,-1.91794553370792,12.6665111251858,2039.13027569132
336,843,8574,"EMPDv2","Austerdalsbreen","Pardoe_c22",61.35,7,330,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.18641495791822,1974.06709753961,5.02960670862135,-1.91794553370792,12.6665111251858,2039.13027569132
336,844,8575,"EMPDv2","Austerdalsbreen","Pardoe_c23",61.35,7,320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.21084198958009,1984.03703811179,5.07354938011087,-1.85141712549291,12.6910717260339,2049.94909952386
336,845,8576,"EMPDv2","Austerdalsbreen","Pardoe_c24",61.35,7,320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.21084198958009,1984.03703811179,5.07354938011087,-1.85141712549291,12.6910717260339,2049.94909952386
336,846,8577,"EMPDv2","Austerdalsbreen","Pardoe_c25",61.35,7,320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.21084198958009,1984.03703811179,5.07354938011087,-1.85141712549291,12.6910717260339,2049.94909952386
336,847,8578,"EMPDv2","Austerdalsbreen","Pardoe_c26",61.35,7,320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.21084198958009,1984.03703811179,5.07354938011087,-1.85141712549291,12.6910717260339,2049.94909952386
336,848,8579,"EMPDv2","Austerdalsbreen","Pardoe_c27",61.35,7,310,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.23529620470571,1994.10191443328,5.11749205160038,-1.78488871727791,12.7156323268821,2060.76792335639
336,849,8580,"EMPDv2","Austerdalsbreen","Pardoe_c28",61.35,7,310,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.23529620470571,1994.10191443328,5.11749205160038,-1.78488871727791,12.7156323268821,2060.76792335639
336,850,8581,"EMPDv2","Austerdalsbreen","Pardoe_c29",61.35,7,300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.25977751736747,2004.229132129,5.16143472308989,-1.71836030906291,12.7401929277303,2071.58674718893
336,851,8582,"EMPDv2","Austerdalsbreen","Pardoe_c30",61.35,7,300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.25977751736747,2004.229132129,5.16143472308989,-1.71836030906291,12.7401929277303,2071.58674718893
336,852,8583,"EMPDv2","Austerdalsbreen","Pardoe_c31",61.35,7,300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.25977751736747,2004.229132129,5.16143472308989,-1.71836030906291,12.7401929277303,2071.58674718893
336,853,8584,"EMPDv2","Austerdalsbreen","Pardoe_c32",61.35,7,300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.25977751736747,2004.229132129,5.16143472308989,-1.71836030906291,12.7401929277303,2071.58674718893
337,854,18017,"SMPDSv1","Austerkjosen","Bjune_a185",68.533333,17.266667,135,"0.0475","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.71615603428372,1357.86465532161,1.59869208339756,-6.73838322988703,11.7995830176151,1008.92662191534
338,855,15711,"Neotoma","Avalanche Lake","AVAL_C90",44.132965,-73.96714,873,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.50886960849945,2337.66743210285,3.81310832671505,-10.2337647504136,16.5405844156581,1111.13322828745
339,856,18018,"SMPDSv1","Avchalagol wetland","Connor_a42 (Avchalagol-1)",41.333333,43.7,2050,"0.55","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.657991845306788,2218.30931235759,3.11123357705875,-11.8513678696366,15.9008008975134,677.262829836489
339,857,18019,"SMPDSv1","Avchalagol wetland","Connor_a43 (Avchalagol-2)",41.333333,43.7,2050,"0.55","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.657991845306788,2218.30931235759,3.11123357705875,-11.8513678696366,15.9008008975134,677.262829836489
339,858,18020,"SMPDSv1","Avchalagol wetland","Connor_a44 (Avchalagol-3)",41.333333,43.7,2050,"0.55","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.657991845306788,2218.30931235759,3.11123357705875,-11.8513678696366,15.9008008975134,677.262829836489
339,859,18021,"SMPDSv1","Avchalagol wetland","Connor_a45 (Avchalagol-4)",41.333333,43.7,2050,"0.55","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.657991845306788,2218.30931235759,3.11123357705875,-11.8513678696366,15.9008008975134,677.262829836489
340,860,9464,"EMPDv2","Avdeevo-1","Novenko_c214",51.6872,35.8072,167,"0.01","terrestrial, soil","soil sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.721238968809661,3225.81153758365,7.32690524008174,-7.29578509533577,19.9575946415385,559.139345721462
341,861,9465,"EMPDv2","Avdeevo-2","Novenko_c215",51.6792,35.7819,160,"0.01","terrestrial, soil","soil sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.712557728666277,3266.84458431047,7.51072470134648,-7.08756946555357,20.0958529561135,553.399106743492
342,862,18022,"SMPDSv1","Avlan Golu","Barboni_a381",36.58333333,29.95,1043,"840","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430584613570051,4842.7582954323,13.2678309463899,3.57841441559173,23.3450360436406,629.905674123519
343,863,18023,"SMPDSv1","Avnso","Nielsen_a1",55.565,11.888,69.2,"0.048","lake","lacustrine core top","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02290912020054,2822.24361151557,7.54627048401849,-1.16654045151995,16.334506315944,680.01871748818
344,864,18024,"SMPDSv1","Avrig","EPDcoretop_E18",45.716667,24.383333,400,"0.1","fluvial","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.695703845938017,3555.96154458349,9.27248624455421,-3.57493310129405,19.5206942870365,625.992958241369
344,865,18025,"SMPDSv1","Avrig","EPDcoretop_E28",45.716667,24.383333,400,"0.1","fluvial","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.695703845938017,3555.96154458349,9.27248624455421,-3.57493310129405,19.5206942870365,625.992958241369
345,866,8360,"EMPDv2","AW","Nakagawa_a1",35.2997161111111,133.654587777778,523,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.94545538655545,4154.42301036387,11.3669460352811,-0.0134806304446357,23.813058712717,1789.76239462913
345,867,8369,"EMPDv2","AW","Nakagawa_a10",37.0073188888889,138.382242777778,835,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.80390835459828,3511.89183992425,9.07496851218388,-3.1233400221702,22.001763686621,1556.09451713513
345,868,8370,"EMPDv2","AW","Nakagawa_a11",39.3885188888889,141.610365,328.5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.77457980253199,3480.94124811912,9.03337453164533,-2.85094778577497,22.0486765795027,1434.63754521294
345,869,8371,"EMPDv2","AW","Nakagawa_a12",34.5156083333333,134.946722222222,256,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.76406016877062,5125.33200514518,14.0420054935484,3.12730304652194,25.7828300416617,1773.66614328104
345,870,8372,"EMPDv2","AW","Nakagawa_a13",34.1845222222222,133.808683333333,257,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.73059040597219,5215.20106257857,14.2882220892563,3.52977529918041,25.8142590950682,1777.47137019636
345,871,8373,"EMPDv2","AW","Nakagawa_a14",33.8731361111111,134.077072222222,1449.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.80159321750887,2685.02892387913,5.98449811103634,-6.06130823730501,18.2413588326996,2472.39718875444
345,872,8374,"EMPDv2","AW","Nakagawa_a15",33.7052555555556,134.508308333333,115.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.68729891661934,5704.20615006313,15.6279620549675,5.20689079131905,26.7944888108392,1782.57923392087
345,873,8375,"EMPDv2","AW","Nakagawa_a16",33.2862888888889,134.185838888889,6.6,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.67441753579067,6010.20894117142,16.4663258662231,6.22791575264702,27.4196261187616,1796.25889798136
345,874,8376,"EMPDv2","AW","Nakagawa_a17",33.5448444444444,133.751041666667,37.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.66450644827264,5915.21847147922,16.2060780040527,5.88237337019664,27.2505901267812,1779.59715427314
345,875,8377,"EMPDv2","AW","Nakagawa_a18",33.8777722222222,133.839033333333,386.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.85096948350704,4936.87793799059,13.5256929807961,2.69360972607779,25.0188198645761,1887.00671279495
345,876,8378,"EMPDv2","AW","Nakagawa_a19",33.8095666666667,133.443152777778,453.3,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.89171106840805,4761.22787815788,13.0444599401586,2.14788878568379,24.5832655799489,1916.73246580543
345,877,8361,"EMPDv2","AW","Nakagawa_a2",34.8065997222222,133.687260277778,376.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.79437386549212,4710.09455971401,12.9043686567507,1.80783885814389,24.8624598430749,1767.01923620128
345,878,8379,"EMPDv2","AW","Nakagawa_a20",33.1711972222222,132.517830555556,3.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.82318625367433,6084.94906938205,16.6710933407727,6.34466186600984,27.4220999067994,1993.47332131656
345,879,8380,"EMPDv2","AW","Nakagawa_a21",33.7897555555556,133.128083333333,1406,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.28701088399817,2706.59597345488,6.06792061979962,-5.73121136209826,18.7101670410875,2013.33801259554
345,880,8381,"EMPDv2","AW","Nakagawa_a22",33.8420277777778,133.149075,131.6,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.76539081571762,5606.72887956121,15.3609010398937,4.77919789173351,26.5535092505113,1865.83850191756
345,881,8382,"EMPDv2","AW","Nakagawa_a23",33.8692333333333,132.830972222222,113.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.7828544907351,5650.20705109999,15.4800193180822,4.898854128753,26.6427690718545,1889.09988899241
345,882,8383,"EMPDv2","AW","Nakagawa_a24",34.2480055555556,133.004205555556,9.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.67982406640669,5853.16212918315,16.036060627899,5.4713214222777,27.2518455582608,1791.99282238313
345,883,8384,"EMPDv2","AW","Nakagawa_a25",35.3365472222222,135.303727777778,75.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.54422918704898,5364.82034537535,14.6981379325352,3.58510949062723,26.8467593800803,1551.45363024243
345,884,8385,"EMPDv2","AW","Nakagawa_a26",35.5266222222222,135.504058333333,21,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.5382933542009,5477.47101213014,15.006769896247,3.93137183930341,27.1521410310176,1551.04019258341
345,885,8386,"EMPDv2","AW","Nakagawa_a27",35.7408583333333,136.092086111111,3,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.73572037779228,5498.36025464822,15.0640006976663,4.01889946359015,27.1562979527092,1733.03693214344
345,886,8387,"EMPDv2","AW","Nakagawa_a28",35.6996944444444,136.082002777778,16.4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.73256502723568,5471.87908298251,14.9914495424178,3.9317133845898,27.0859048263379,1728.39234932399
345,887,8388,"EMPDv2","AW","Nakagawa_a29",44.6166972222222,142.783872222222,40,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63455071387536,2721.35082932406,5.72291644574927,-7.43762689744726,19.0269230287196,1118.17032822701
345,888,8362,"EMPDv2","AW","Nakagawa_a3",35.5434633333333,136.819833333333,69.5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.91472207370506,5368.77877008095,14.7089829317286,3.57038330577984,26.6784071779513,1893.64932373423
345,889,8389,"EMPDv2","AW","Nakagawa_a30",36.1168833333333,136.049544444444,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.77685433773371,5329.88848788933,14.6024342133954,3.28844673222565,26.9831924534648,1741.09734544943
345,890,8363,"EMPDv2","AW","Nakagawa_a4",35.7542169444444,137.105388611111,345.8,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.91241204603711,4599.13886742415,12.6003804586963,0.907272460408547,25.0126230340372,1806.68222112486
345,891,8364,"EMPDv2","AW","Nakagawa_a5",35.7282972222222,137.126105,306,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.95702347417059,4779.8408914608,13.0954544971529,1.62676505250618,25.2783301893947,1870.51465210076
345,892,8365,"EMPDv2","AW","Nakagawa_a6",35.7811322222222,137.226758611111,329,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.91256832265627,4632.59161803684,12.6920318302379,1.01588853429155,25.0934081664583,1810.3940094136
345,893,8366,"EMPDv2","AW","Nakagawa_a7",36.1615811111111,137.236450833333,559.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.94493859911258,4101.40670588073,11.1244702519314,-0.88905559333822,23.7823661252908,1770.23741699583
345,894,8367,"EMPDv2","AW","Nakagawa_a8",36.3872941666667,137.1807725,327.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.97953786537356,4409.46162230306,12.0642327708422,0.0181677426551634,24.9249211256021,1815.68344743541
345,895,8368,"EMPDv2","AW","Nakagawa_a9",37.0184775,137.773355277778,45,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.83135358526585,4698.77733868165,12.8733625717305,0.779169458212819,26.0847019799614,1680.61034250151
346,896,8176,"EMPDv2","Awakumovka","Mikishin-Gvozdeva_b6",43.75,135.165833333333,3,"not known","fluvial","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.16600124177448,2870.14723379301,5.27272851158278,-10.8367468334979,20.1807157897037,870.45975434492
347,897,12252,"Neotoma","Axe Lake","AXELAKE",45.38,-79.51,323,"not known","lake","core","-17","Unpublished data",,9,"cool mixed forest",1.19651684740753,2733.1759364122,4.71641183951999,-11.3793608984702,18.8930318719934,965.268077977552
348,898,10715,"Bush et al., 2020","Ayauchi120","Ayauchi120",-3.0439301,-78.0334015,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.1156028495364,9141.45191952797,25.0450737521314,24.0347979242407,25.4933498421874,2808.90290236622
349,899,10716,"Bush et al., 2020","Ayauchi121","Ayauchi121",-3.0434501,-78.0335999,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11569438288122,9141.43609379416,25.0450303939566,24.0347202110891,25.4933006420242,2809.00469888071
350,900,10717,"Bush et al., 2020","Ayauchi121Moss","Ayauchi121Moss",-3.0434501,-78.0335999,324,"not known","terrestrial","moss polster or moss","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11569438288122,9141.43609379416,25.0450303939566,24.0347202110891,25.4933006420242,2809.00469888071
351,901,10718,"Bush et al., 2020","Ayauchi122","Ayauchi122",-3.04319,-78.0343018,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11568774661142,9141.39918672965,25.0449292787114,24.0346087157131,25.4931874411283,2808.98896702844
352,902,10719,"Bush et al., 2020","Ayauchi123","Ayauchi123",-3.0438399,-78.0363007,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.1153490730836,9141.31245049854,25.0446916452015,24.0344490242664,25.4929236770165,2808.5804259762
353,903,10720,"Bush et al., 2020","Ayauchi124","Ayauchi124",-3.0460401,-78.0363998,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11483428536111,9141.33699400954,25.0447588876974,24.0346878020978,25.4930028230499,2807.99379362445
354,904,10721,"Bush et al., 2020","Ayauchi125","Ayauchi125",-3.0462999,-78.0362015,324,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11479342323821,9141.34992178232,25.0447943062529,24.0347405605035,25.4930427977199,2807.94963687758
355,905,10722,"Bush et al., 2020","Ayauchi126","Ayauchi126",-3.0511,-78.0343018,316,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.11830187554026,9155.87138277683,25.0845791308954,24.0735403965984,25.5345669526703,2812.92536198479
356,906,10414,"IBERIA","Ayoo de Vidriales","AYOO_0.01",42.12611111,-6.070277778,780,"0.02","terrestrial, bog/fen/swamp","core","-26","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.658022728047912,4167.66200777046,11.4182520760834,4.08313460348756,19.8684762624796,725.953626648308
356,907,10415,"IBERIA","Ayoo de Vidriales","AYOO_0.04",42.12611111,-6.070277778,780,"0.02","terrestrial, bog/fen/swamp","core","33","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.658022728047912,4167.66200777046,11.4182520760834,4.08313460348756,19.8684762624796,725.953626648308
357,908,18037,"SMPDSv1","Azov sea","Azov, core 133",46.5516,36.755,0,"large (50.1-500 km2)","marine","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
357,909,18039,"SMPDSv1","Azov sea","Azov, core 185",45.6858,37.3213,0,"large (50.1-500 km2)","marine","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
357,910,18038,"SMPDSv1","Azov sea","Azov, core 87",46.8319,38.0094,0,"large (50.1-500 km2)","marine","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
358,911,18026,"SMPDSv1","Azov sea coast, site 1","ASC_1",46.3728,37.97361,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.60496223769953394,4278.85497816976,11.5699185365906,-1.29039242594037,23.5797348054197,608.921910254123
359,912,18027,"SMPDSv1","Azov sea coast, site 10","ASC_10",46.2593,38.29004,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.615380140568502,4323.18243025641,11.7134065844149,-1.12441745598345,23.7070661696995,621.842624625928
360,913,18028,"SMPDSv1","Azov sea coast, site 11","ASC_11",45.44601,36.82801,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.528502159375475,4148.44912832498,11.2043201108327,-1.34151503605061,23.0567995785094,535.520631414128
361,914,18029,"SMPDSv1","Azov sea coast, site 2","ASC_2",46.72997,38.39834,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.607812019642948,4289.96670850114,11.5727628034718,-1.49313654697105,23.712748438232,608.801509578696
362,915,18030,"SMPDSv1","Azov sea coast, site 3","ASC_3",46.6844,37.7336,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.591427882819361,4216.32045253468,11.358258228286,-1.58079648962564,23.408085029797,590.390447581751
363,916,18031,"SMPDSv1","Azov sea coast, site 4","ASC_4",45.23435,36.7719,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.53442826338854,4229.66370880122,11.5103341775218,-0.658920828684707,23.1582155094912,546.817405261169
364,917,18032,"SMPDSv1","Azov sea coast, site 5","ASC_5",46.86432,38.47795,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58736245774556,4244.57431041428,11.3703603538725,-2.02015813104028,23.706494260522,585.667909785584
365,918,18033,"SMPDSv1","Azov sea coast, site 6","ASC_6",45.30955,36.79867,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.52588094761638,4158.20583206855,11.245255384976,-1.23500167953593,23.0640812933371,534.366026240643
366,919,18034,"SMPDSv1","Azov sea coast, site 7","ASC_7",45.2025,36.6105,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.518971388924653,4195.19819270106,11.4182299821593,-0.639064974017319,23.0095031326878,529.565733078629
367,920,18035,"SMPDSv1","Azov sea coast, site 8","ASC_8",45.36737,36.77222,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.525340020883457,4151.45934534859,11.2205127118309,-1.28224424178454,23.051444651874,533.069063843168
368,921,18036,"SMPDSv1","Azov sea coast, site 9","ASC_9",46.8647,38.47707,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.587359805710288,4244.50382991401,11.3701276435502,-2.0204027101992,23.7062485386155,585.658911085019
369,922,18040,"SMPDSv1","Azovskoe sea","Azovskoe sea_SS",46.8319,28.0094,-7,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.516119492148495,4004.70319574847,10.6513790675433,-2.55226361321621,21.9836879300163,495.668639359524
370,923,18042,"SMPDSv1","Azraq Basin","Jordan-8",31.83,36.82,506,"not applicable","terrestrial, soil","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0949401869478723,6910.26198562073,18.932224618139,9.27613126033651,27.1792756855996,171.355242504605
370,924,18041,"SMPDSv1","Azraq Basin","Jordan-9",31.8,36.58,506,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.136004268737748,6794.31375024781,18.614558219857,9.44716979542007,26.489747074912,240.405670926104
371,925,6178,"EMPDv2","Azrou, Ifrane","AlbaSanchez_a106",33.224912,-4.958171,2176,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.323849772512406,4468.6501497564,12.2428771226203,2.7980048089714,24.2888536590782,468.478386823674
372,926,6196,"EMPDv2","Azrou/Ain Leuh, Ifrane","AlbaSanchez_a125",33.253437,-5.239618,1934,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.332953517596866,4716.05756037174,12.9207056448541,3.88036142735825,24.4025783548758,478.010253716518
372,927,6197,"EMPDv2","Azrou/Ain Leuh, Ifrane","AlbaSanchez_a126",33.238472,-5.29099,1897,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.340268232597443,4735.93947227121,12.9751766363595,4.0135352257458,24.2666546641506,486.502746848449
372,928,6199,"EMPDv2","Azrou/Ain Leuh, Ifrane","AlbaSanchez_a128",33.213928,-5.233222,2076,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.330350109900827,4562.48475136625,12.4999582229212,3.22225399316988,24.2722561276866,475.690685516044
372,929,6200,"EMPDv2","Azrou/Ain Leuh, Ifrane","AlbaSanchez_a129",33.232016,-5.201924,2052,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.330011223529809,4591.03655588613,12.5781823448935,3.33367204310375,24.3033091999675,475.071706166548
373,930,18043,"SMPDSv1","B219 (EMBSECBIO)","B219",48.41,21.36,680,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10797077859026,2447.83959252901,5.58149747834121,-5.65217169895797,15.10844426167,829.343014085967
374,931,18044,"SMPDSv1","B221 (EMBSECBIO)","B221",46.78,20.01,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.584673177936094,3936.95677047144,10.6102795283115,-1.74168180095527,20.6736840920313,525.326056184774
375,932,18045,"SMPDSv1","B473 (EMBSECBIO)","B473",48.41,21.36,240,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.77083876574036,3406.16226728945,8.87594783141394,-3.38831039310528,18.846383500861702,644.398714227233
376,933,6547,"EMPDv2","B48","Binney2017_E3211",67.72,48.72,160,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3403687210062,1362.21842395096,-2.78646638163054,-19.6296645928799,14.4452047936394,489.90826380617
377,934,18046,"SMPDSv1","B697 (EMBSECBIO)","B697",36.96,21.66,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.436441049120217,6656.23998228815,18.2362739240771,11.4709308056566,25.9147996232594,632.294359632817
378,935,18047,"SMPDSv1","B698 (EMBSECBIO)","B698",37.51,21.56,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.470493909141994,6563.9264888552,17.9833602434389,11.0382812096542,25.8473024843325,671.108700632425
379,936,18048,"SMPDSv1","B700 (EMBSECBIO)","B700",41.16,24.31,40,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.48478607337503,5303.0138096712,14.5288049580033,4.44644365294724,24.5515244174762,574.485800580084
380,937,18049,"SMPDSv1","B702 (EMBSECBIO)","B702",39.53,21.51,1275,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.730431472735294,3258.05713694394,8.8036381066441,-1.10153418299387,18.6389405910273,846.586261880944
381,938,18050,"SMPDSv1","B703 (EMBSECBIO)","B703",40.08,22.5,25,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414707444569597,5684.87576364815,15.5750020921867,5.80464827479284,25.4263382255703,523.3803794917
382,939,18051,"SMPDSv1","B704 (EMBSECBIO)","B704",40.81,21.93,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.508693091526826,4400.72660211914,12.0567852112853,1.51143444149603,22.0922172816941,584.35338354551
383,940,18052,"SMPDSv1","B706 (EMBSECBIO)","B706",43.11,23.13,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.773941323723499,2697.40607086817,6.7283980759995,-3.68959516921946,16.3123877146507,715.115950581053
384,941,18053,"SMPDSv1","B707 (EMBSECBIO)","B707",43.13,23.01,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.779370672024491,2648.70707758829,6.5675567932157,-3.76426064412509,16.1159850958922,719.117264118828
385,942,18054,"SMPDSv1","B708 (EMBSECBIO)","B708",42.61,24.31,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.786790697950163,2707.55934353283,6.73454647684851,-3.7577510730666,16.5681965259459,737.039309027693
386,943,18055,"SMPDSv1","B709 (EMBSECBIO)","B709",42.56,24.46,1550,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.817306083175748,2536.29486267674,6.14371850192285,-4.12219862789514,15.868331709687,760.470743098004
387,944,18056,"SMPDSv1","B710 (EMBSECBIO)","B710",42.06,23.58,1900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.928302135157326,2017.89306390293,3.81365177712417,-7.2353284201878,13.6048084296634,806.182211547737
388,945,18057,"SMPDSv1","B711 (EMBSECBIO)","B711",41.76,23.43,1850,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.924110212816381,2045.53022743731,3.85874122519146,-7.40293859787393,13.7257193891715,799.168021933972
389,946,18058,"SMPDSv1","B716 (EMBSECBIO)","B716",43.25,23.06,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.807479630098188,2637.00638466151,6.50363947563698,-3.95748467666959,16.034314848594,728.068718207845
390,947,18059,"SMPDSv1","B717 (EMBSECBIO)","B717",43.25,23.06,1550,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.825227036056498,2529.97528717038,6.14169076994198,-4.14619973616054,15.6112874865474,738.838028877637
391,948,18060,"SMPDSv1","B718 (EMBSECBIO)","B718",43.25,23.06,1650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.843238352252182,2424.1714782406402,5.77974206424699,-4.33491479565149,15.1882601245008,749.607339547428
392,949,18061,"SMPDSv1","B719 (EMBSECBIO)","B719",42.75,24.18,1750,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.860758366447992,2307.38595359393,5.35199032798592,-4.59693110568533,14.8836172600123,781.658848423326
393,950,18062,"SMPDSv1","B720 (EMBSECBIO)","B720",41.66,23.41,1890,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.952774869007878,1911.70854135879,3.09330688062311,-8.62487385975852,13.1594267939547,791.136736340361
394,951,18063,"SMPDSv1","B721 (EMBSECBIO)","B721",41.66,23.41,1630,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.8570877851313,2265.55536112657,4.69402203802291,-6.82820525762641,14.7095632420433,751.314959339171
395,952,18064,"SMPDSv1","B722 (EMBSECBIO)","B722",41.71,23.33,2100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04073379866189,1642.39882227312,1.79620233704322,-10.0759401748658,11.8827078062076,824.387088792008
396,953,18065,"SMPDSv1","B730 (EMBSECBIO)","B730",35.08,24.66,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390481819370251,6609.25903198557,18.1075589917413,10.9057130079367,25.9055354368532,607.113493610617
397,954,18066,"SMPDSv1","B731 (EMBSECBIO)","B731",35.08,24.66,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390481819370251,6609.25903198557,18.1075589917413,10.9057130079367,25.9055354368532,607.113493610617
398,955,18067,"SMPDSv1","B732 (EMBSECBIO)","B732",35.08,24.66,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390481819370251,6609.25903198557,18.1075589917413,10.9057130079367,25.9055354368532,607.113493610617
399,956,18068,"SMPDSv1","Baasee","Baasee_ss",52.74333,14.0262,69,"0.22","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787269578583227,3280.44110699194,8.88572943654802,-0.941720670190934,18.0358170532409,559.97406587778
400,957,6161,"EMPDv2","Bab Bered, Chefchaouen","AlbaSanchez_a89",35.013695,-4.918195,2047,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.326575828674626,4578.94029860366,12.5450419139826,3.79260045958526,24.957851759103,454.7427828913
400,958,6162,"EMPDv2","Bab Bered, Chefchaouen","AlbaSanchez_a90",35.016676,-4.902107,1698,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.343480782736274,4904.70908609271,13.43755913998,5.22662461127247,24.7784245068568,473.315790862002
401,959,10608,"BIOME6000 Japan","Babayachi","BbycC0",37.75,140.13,1450,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.16830587478707,2560.14020712875,5.21636768710188,-7.27905803661893,18.3265312954643,1665.97360766514
402,960,10723,"Bush et al., 2020","Bacab","Bacab",17.56,-88.36,14,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.08860500554718,9452.85236665323,25.8982256620636,23.2349574442419,27.6904639026634,1717.32378651855
403,961,10724,"Bush et al., 2020","Bacalar","Bacalar",18.67,-88.39,7,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.913411087007436,9444.31203544029,25.874827494357,23.1933788498988,27.6759079575339,1411.52671835737
404,962,18069,"SMPDSv1","Bachalpsee","EPDcoretop_E1061",46.669389,8.021456,2265,"0.08","lake","lacustrine core top","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.9967829754074,932.492499555461,0.230750752242806,-6.70422349007937,7.87804934600384,2141.91594091138
405,963,9590,"Gaillard et al., 1992","Backakra","Backakra",55.445596,14.13438,30,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.924205355277966,2930.35225792261,7.82548720411485,-1.3247360240147,16.9486637644547,624.285518584585
406,964,11856,"Neotoma","Backyard pond","KKMFA04",39.373805,-82.95548,257,"not known","lake","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.06350443457173,4315.06235283325,11.585949442608,-1.98938636089224,23.3668609351739,1023.05313366805
407,965,6130,"EMPDv2","Bad Berred, Chefchaouen","AlbaSanchez_a58",34.976196,-4.761091,1521,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.349114344072528,5080.56746742899,13.919362924463,5.94622402941204,24.7573372017069,479.750572736879
407,966,6131,"EMPDv2","Bad Berred, Chefchaouen","AlbaSanchez_a59",34.992855,-4.820689,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.359223302177459,5235.06326410252,14.3426390797329,6.65523589827428,24.6336979844539,490.309155461154
407,967,6132,"EMPDv2","Bad Berred, Chefchaouen","AlbaSanchez_a60",34.996671,-4.871389,1255,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.365047780399662,5320.56612531335,14.5768934940092,7.04731107266026,24.5647185685641,496.423393746774
408,968,12253,"Neotoma","Bad Medicine Lake","BADMED",47.123935,-95.397205,487,"not known","lake","core","-11","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.852196821197737,2928.8946833043,4.41614124799075,-14.7487760799207,20.2614952663653,683.47173268457
408,968,12254,"Neotoma","Bad Medicine Lake","BADMED",47.123935,-95.397205,487,"not known","lake","core","19","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.852196821197737,2928.8946833043,4.41614124799075,-14.7487760799207,20.2614952663653,683.47173268457
409,969,18070,"SMPDSv1","Badentarbat","EPDcoretop_E84",58.035833,-5.366111,23,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.30537809285643,3051.30982066917,8.35975293334018,4.25276234995145,13.114435447884,1644.83139866722
410,970,193,"Australian pollen","Badgingarra NP","Badgingarra NP",-30.483,115.433,240,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.282502339479948,6751.24105149654,18.4965508260179,12.3556199283323,25.4024402756138,446.639058395799
411,971,17558,"Phelps et al., 2020","Badsfontein","BADSFONT_0",-30.766667,25.816667,1333,"not applicable","terrestrial","surface sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.284992439996778,5792.35333602289,15.8694611945833,8.73143735079951,22.6342426329308,462.929664397759
412,972,18071,"SMPDSv1","Baervannet","Bjune_a225",58.3366666666666,7.785,315,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.20281033148735,2169.34944106465,5.11230128436948,-3.95871805734852,14.2384303787978,1296.4287399838
413,973,9748,"Herzschuh et al., 2019","Baga Nuur IV. 53A","Baga Nuur IV. 53A",49.92132,93.84221,983,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.402786052852355,2416.06898517457,-1.57869177964729,-26.7604964964778,18.5572542684549,333.308986522205
414,974,9749,"Herzschuh et al., 2019","Baga Nuur. 41A","Baga Nuur. 41A",49.50642,90.80414,1543,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.296211049138997,1885.56545108028,-3.08645280091976,-25.8896817484929,15.4670823896295,249.723600453093
415,975,9750,"Herzschuh et al., 2019","Baga Nuur. 50A","Baga Nuur. 50A",50.01905,92.89125,762,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.38542670146563,2648.12072237384,-0.390511386215793,-25.6642832676228,19.791310736043,323.520390370558
416,976,9751,"Herzschuh et al., 2019","Baga Nuur. 9A","Baga Nuur. 9A",48.43189,95.97118,1988,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.295903360525288,1489.26396910009,-5.18354271042778,-26.8947767604245,13.1256559193625,250.609609554524
417,977,17559,"Phelps et al., 2020","Baie de Bouéni","BOUENI_0",-12.876389,45.090278,0,"not known","not known","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.983058864490652,9560.58350249899,26.1933794589013,24.2133036147078,27.4615665146758,1687.05607893435
418,978,18072,"SMPDSv1","Baie de Seine estuary","EPDcoretop_E1287",49.416667,-0.033333,0,"40","coastal, estuarine","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04019285171066,3926.3224324689,10.7570477601888,5.02626150480136,17.0345572807178,784.234225149863
418,979,18073,"SMPDSv1","Baie de Seine estuary","EPDcoretop_E1289",49.416667,-0.033333,0,"40","coastal, estuarine","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04019285171066,3926.3224324689,10.7570477601888,5.02626150480136,17.0345572807178,784.234225149863
419,980,1788,"CMPD","Baihe","Baihe",40.87,115.85,865,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.436914314850579,3268.78913520001,6.3751575834158,-11.0070618079675,21.4316691261567,445.401698411187
420,981,1789,"CMPD","Baihua Mt","Baihua Mt 01",39.9,115.6,1980,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.405653023441658,1891.7328721902,-0.328782824782687,-18.3403086589868,15.3491020271704,386.448078010979
420,982,1790,"CMPD","Baihua Mt","Baihua Mt 02",39.9,115.6,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.40846075957364403,1986.62314265062,0.194559238942924,-17.7479562073845,15.8042793433791,391.840068464883
420,983,1791,"CMPD","Baihua Mt","Baihua Mt 03",39.9,115.6,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.40846075957364403,1986.62314265062,0.194559238942924,-17.7479562073845,15.8042793433791,391.840068464883
420,984,1792,"CMPD","Baihua Mt","Baihua Mt 04",39.9,115.6,1820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.411258548845584,2083.28877774135,0.717901302668534,-17.1556037557823,16.2594566595877,397.232058918786
420,985,1793,"CMPD","Baihua Mt","Baihua Mt 05",39.9,115.6,1720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.414743969886501,2206.63928939171,1.37207888232555,-16.4151631912795,16.8284283048485,403.972046986165
420,986,1794,"CMPD","Baihua Mt","Baihua Mt 06",39.9,115.6,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.418912554474638,2358.26865661907,2.15709197791396,-15.5266345138762,17.5111942791615,412.060032667019
420,987,1795,"CMPD","Baihua Mt","Baihua Mt 07",39.9,115.6,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.422377757494626,2487.61147149291,2.81126955757098,-14.7861939493734,18.0801659244223,418.800020734398
420,988,1796,"CMPD","Baihua Mt","Baihua Mt 08",39.9,115.6,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.425146116404808,2593.07090860225,3.33461162129659,-14.1938414977712,18.5353432406309,424.192011188301
420,989,1797,"CMPD","Baihua Mt","Baihua Mt 09",39.9,115.6,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.425837845594519,2619.72857269304,3.46544713722799,-14.0457533848706,18.6491375696831,425.540008801777
420,990,1798,"CMPD","Baihua Mt","Baihua Mt 10",39.9,115.6,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.427912417640361,2700.31823334835,3.8579536850222,-13.6014890461689,18.9905205568395,429.584001642205
421,991,7180,"EMPDv2","Baika","EPDcoretop_E2337",61.27,46.73,44,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.08350953890582,2111.77183553191,1.67815370980671,-15.2160877327541,17.3703506085431,562.34887921359
422,992,5916,"Dugerdil et al., 2021","Baikal area","MRUT1M01",52.0497,104.1132,565,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.945009289736127,2174.1270954315,-0.28622149269813,-20.5491314808477,17.8771147370007,538.216866484067
422,993,5917,"Dugerdil et al., 2021","Baikal area","MRUT1M02",52.0498,104.1137,574,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.947985022107016,2166.31677091074,-0.323875191646742,-20.5785512440655,17.8316833728068,540.363983813704
422,994,5918,"Dugerdil et al., 2021","Baikal area","MRUT1M03",52.0493,104.1132,582,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.950644751570193,2159.38959941734,-0.357227475761903,-20.6043857549308,17.7912337945022,542.296842609746
422,995,5919,"Dugerdil et al., 2021","Baikal area","MRUT1M04",52.05,104.114,557,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.942343327826141,2181.09698695718,-0.252836335534474,-20.5233052435006,17.9176209798012,536.285061032096
422,996,5920,"Dugerdil et al., 2021","Baikal area","MRUT1M05",52.0328,104.2263,640,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.968835625450588,2111.26071665251,-0.598121639379861,-20.8107679061881,17.5143254831299,555.205957453433
422,997,5921,"Dugerdil et al., 2021","Baikal area","MRUT1M06",52.0148,104.2612,554,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.929949316827873,2190.24465484648,-0.260480529442444,-20.6553280359501,18.0013893944166,526.979863649419
422,998,5922,"Dugerdil et al., 2021","Baikal area","MRUT1M07",52.0046,104.3738,476,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.89606871737612,2261.40783658926,0.0668752125344128,-20.435772621689,18.4182733375314,504.319973435294
422,999,5923,"Dugerdil et al., 2021","Baikal area","MRUT1M08",51.9952,104.4023,471,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.892974189586534,2266.62161745922,0.0883963814692146,-20.4278253898686,18.4494135805646,502.469776875793
422,1000,5924,"Dugerdil et al., 2021","Baikal area","MRUT1M09",51.99,104.4025,473,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.89372711825825,2265.02802755296,0.0810084898927376,-20.4332310847969,18.4399288626101,503.065277806296
422,1001,5925,"Dugerdil et al., 2021","Baikal area","MRUT1M10",51.9392,104.4636,538,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.914759147232705,2210.33379093349,-0.186167843183287,-20.6560879217489,18.125574781035,518.5675098112
422,1002,5926,"Dugerdil et al., 2021","Baikal area","MRUT1M11",51.9119,104.5331,725,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.978081633898049,2049.8953820976,-0.971767028289487,-21.279977684966,17.1897986847176,563.444291168869
422,1003,5927,"Dugerdil et al., 2021","Baikal area","MRUT1M12",51.8797,104.6266,772,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.989190075667396,2012.58366794919,-1.16545040511577,-21.4534478927779,16.9714929714671,572.38101338117
423,1004,9752,"Herzschuh et al., 2019","Baikel Lake","Baikel Lake",52.08,105.87,449,"31722","lake","lake surface sample","43.3","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",,"not applicable",0.675781869391454,2313.15568929411,-0.252471979275334,-22.1934426905758,18.9339699559534,401.875173570299
424,1005,12255,"Neotoma","Baird Inlet [Rock Basin Lake]","BAIRDIN",78.491667,-76.78,295,"not known","lake","core","-29","Hyvärinen, H. 1985. Holocene pollen stratigraphy of Baird Inlet, east-central Ellesmere Island, arctic Canada. Boreas 14:19-32.",,28,"tundra",0.693545512699509,131.457787395217,-18.5053896308029,-35.1939824154236,2.74207716605073,147.236349438822
425,1006,7149,"EMPDv2","Baissescure","EPDcoretop_E2174",43.55,2.8,1000,"0.03","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.975568335281823,3270.82210624867,8.96115645547582,1.38258609643558,17.7176274885756,941.93120287496
426,1007,1799,"CMPD","Baiyangdian","Baiyangdian 1",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
426,1008,1800,"CMPD","Baiyangdian","Baiyangdian 2",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
426,1009,1801,"CMPD","Baiyangdian","Baiyangdian 3",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
426,1010,1802,"CMPD","Baiyangdian","Baiyangdian 4",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
426,1011,1803,"CMPD","Baiyangdian","Baiyangdian 5",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
426,1012,1804,"CMPD","Baiyangdian","Baiyangdian 6",38.87,116.03,20,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.479429054708669,4915.79009952103,13.0148849052447,-3.20609337453999,26.8149936593845,536.585624327395
427,1013,18074,"SMPDSv1","Bajdarackaya-guba (boloto)","Bajdarackaya-guba (boloto)_SS",60.5022,29.5169,30,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06475607369792,2348.16605262938,4.11285482888872,-9.3079704484905,17.1537775696554,605.410272357684
428,1014,9161,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a28",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
428,1015,9162,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a29",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
428,1016,9163,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a30",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
428,1017,9164,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a31",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
428,1018,9165,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a32",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
428,1019,9166,"EMPDv2","Bakaly lake; N-S transect through mixed forests","Tinner_a33",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1020,9167,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a34",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1021,9168,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a35",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1022,9169,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a36",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1023,9170,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a37",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1024,9171,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a38",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1025,9172,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a39",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1026,9173,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a40",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1027,9174,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a41",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1028,9175,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a42",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
429,1029,9176,"EMPDv2","Bakaly lake; W-E transect through mixed forests","Tinner_a43",41.8666666666667,71.9666666666667,1880,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.39850199683068,2602.90754000619,4.63294494833791,-10.1531207602975,18.2860299610219,451.904333731533
430,1030,13809,"Neotoma","Baker Lake","BAKER",45.891725,-114.263205,2300,"not known","lake","core","-42","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",17,"temperate evergreen needleleaf open woodland",0.334892195143619,1956.04674430562,3.51378337332311,-6.62285220104434,15.2344847086637,290.624826091267
430,1030,13810,"Neotoma","Baker Lake","BAKER",45.891725,-114.263205,2300,"not known","lake","core","22","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",17,"temperate evergreen needleleaf open woodland",0.334892195143619,1956.04674430562,3.51378337332311,-6.62285220104434,15.2344847086637,290.624826091267
431,1031,11345,"Neotoma","Baker Lake (Cole 1969)","HC001",64.32433,-96.00572,12,"not known","lake","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,31,"tundra",0.773226157711957,836.893232836654,-11.817961320671,-32.3215215900357,10.9586690269328,265.850762063069
432,1032,11357,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL1",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1033,11356,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL10",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1034,11362,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL3",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1035,11359,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL4",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1036,11358,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL5",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1037,11360,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL6",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1038,11363,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL8",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
432,1039,11361,"Neotoma","Baker Lake (Nichols Site 17)","S17T1POL9",64.315026,-96.009323,14,"not known","lake","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408. Nichols, H., and S. Stolze. 2017. Data Descriptor: Modern pollen data from the Canadian Arctic, 1972–1973. Scientific Data 4:170065.","10.1080/00040851.1981.12004259;
10.1038/sdata.2017.65",31,"tundra",0.773034509596109,834.776927415008,-11.837061321699,-32.3342560444787,10.9412140313181,265.640420835581
433,1040,17286,"Neotoma","Baker Lake (Ritchie &  Lichti-Federovich Station 10)","RLF67010",64.31986,-96.02887,2,"not known","lake","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",31,"tundra",0.773951066456809,847.2042623444,-11.7278359001816,-32.2619978561069,11.0445938752448,267.008214705604
434,1041,16366,"Neotoma","Baker Lake Site 2","JTA189",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
434,1042,16371,"Neotoma","Baker Lake Site 2","JTA190",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
434,1043,16368,"Neotoma","Baker Lake Site 2","JTA191",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
434,1044,16369,"Neotoma","Baker Lake Site 2","JTA192",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
434,1045,16367,"Neotoma","Baker Lake Site 2","JTA193",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
434,1046,16370,"Neotoma","Baker Lake Site 2","JTA194",64.7,-95.37,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.771344451168933,678.493763850968,-13.2677587456665,-33.251541482788,9.565864271219,248.909850752418
435,1047,16375,"Neotoma","Baker Lake Site 3","JTA195",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
435,1048,16372,"Neotoma","Baker Lake Site 3","JTA196",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
435,1049,16373,"Neotoma","Baker Lake Site 3","JTA197",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
435,1050,16374,"Neotoma","Baker Lake Site 3","JTA198",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
435,1051,16377,"Neotoma","Baker Lake Site 3","JTA199",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
435,1052,16376,"Neotoma","Baker Lake Site 3","JTA200",65.28,-95,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.779622686101893,553.559500398573,-14.5197429911373,-34.287816209193,8.3737797902088,236.563757250653
436,1053,15483,"Neotoma","Baker Prairie","CJH062",47.2,-124.04,91,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.76086651864469,3574.18953158915,9.79230008654562,4.33667743317765,15.8956794519543,2102.45254238514
437,1054,1805,"CMPD","Bakeyao","Bakeyao",42.95,122.35,249,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.484735931235767,3460.31125913339,6.33573884354887,-13.0551961438423,23.1589376316659,462.368726106881
438,1055,18075,"SMPDSv1","Bakkan","N/CJ/BA1_BA2",69.030556,15.541667,43,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.13804955600882,1409.20461925431,2.44300425265091,-4.61421613611596,11.3980869932748,1164.06693983498
439,1056,18076,"SMPDSv1","Bakuriani transect","P193",41.76666667,43.46666667,1900,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.80524434479914,2243.82986743515,3.39125790919232,-11.1103348749744,15.8240766810001,794.153538760493
439,1057,18077,"SMPDSv1","Bakuriani transect","P194",41.76666667,43.46666667,1650,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.821731260705196,2537.9719283606,4.83708573944248,-9.2470911801251,16.9775452821218,814.835639754406
440,1058,17560,"Phelps et al., 2020","Bal Lake","BAL_1",13.306944,10.949444,334,"not known","lake","core","33","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.180206122785483,10144.4426492431,27.7929935595702,21.5096570500215,32.8729757040251,390.663618822091
441,1059,18078,"SMPDSv1","Baldeggersee","EPDcoretop_E1062",47.200039,8.256881,463,"52","lake","lacustrine core top","-43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.31160491440294,3402.99431147825,9.32183018876909,0.0806894124442429,18.3623039823947,1038.30256500401
442,1060,9591,"Gaillard et al., 1992","Baldringe","Baldringe",55.531873,13.839669,50,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.951226928032207,2868.27555703136,7.63181866950099,-1.4231565127586,16.7146073279849,639.118200694249
443,1061,23192,"SMPDSv1","Balestrand Municipality","Bjune_a51",61.2417647,6.49185109,423,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.34684393976462,2009.4299874964,5.1858149641797,-1.75180617933041,12.735454360774,2179.78134258354
444,1062,1806,"CMPD","Balikun Lake","Balikun Lake",43.7,92.8,2027,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0888290550341401,2206.58582590327,1.52340581505941,-15.2454988842098,16.6291426280724,91.712640757603907
445,1063,12057,"Neotoma","Ballard's pond ""Fak5 pond""","FSPSP5",26.02875,-81.3972,2,"not known","lake","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.881432667301676,8853.71250497555,24.2567465889741,19.0811979556313,28.4589706550505,1293.1939417199
446,1064,7157,"EMPDv2","Ballinderry","EPDcoretop_E2231",53.38,-7.68,80,"0.013","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.64104551487553,3386.43252594948,9.27789733136843,4.59198434507627,14.8894172539875,993.97203259773
447,1065,7158,"EMPDv2","Ballyduff","EPDcoretop_E2232",53.09,-7.99,60,"0.986","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.66515321411344,3447.87778928572,9.446240518591,4.83931427706657,14.9257745116152,1024.2525784427
448,1066,7159,"EMPDv2","Ballygisheen Bog","EPDcoretop_E2233",51.97,-9.9,150,"5.65","terrestrial, blanket bog","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.03887247606991,3486.29414011017,9.5514907948224,5.30686372046337,14.5766351321964,1298.24709746619
449,1067,18079,"SMPDSv1","Balsa Salada","Barboni_a1376",41.333,-0.1666,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421964808088106,5177.48808555275,14.1848988645281,6.13357275980098,23.4590977004975,515.15358424902
450,1068,13975,"Neotoma","Balsam Lake","BALSAM",42.028785,-74.604205,762,"not known","lake","core","-28","Ibe, R.A. 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York. Dissertation. New York University, New York, New York, USA..",,9,"cool mixed forest",1.38480648899865,2595.47336047176,4.83230010110409,-9.4685085695124709,17.776875471547,1063.37526974678
450,1068,13976,"Neotoma","Balsam Lake","BALSAM",42.028785,-74.604205,762,"not known","lake","core","46","Ibe, R.A. 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York. Dissertation. New York University, New York, New York, USA..",,9,"cool mixed forest",1.38480648899865,2595.47336047176,4.83230010110409,-9.4685085695124709,17.776875471547,1063.37526974678
451,1069,12256,"Neotoma","Balsam Meadow","BALSAMMD",37.16024,-119.25188,2015,"not known","terrestrial","core","0","Anderson, R.S., O.K. Davis, and P.L. Fall. 1985. Late glacial and Holocene vegetation and climate in the Sierra Nevada of California, with particular reference to the Balsam Meadow site. Pages 127-140 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary vegetation and climates of the American Southwest. AASP Contributions Series 16. American Association of Stratigraphic Palynologists Foundation, Dallas, Texas, USA.; Anderson, R.S., O.K. Davis, R.S. Thompson, P.L. Fall, and M.K. O'Rourke. 1984. Pollen and macrofossil analysis from Balsam Meadow, Southern Sierra Nevada Mountains, California. Pages 3 in American Quaternary Association, Eighth Biennial Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder.; Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Davis, O.K., R.S. Anderson, P.L. Fall, M.K. O'Rourke, and R.S. Thompson. 1985. Palynological evidence for early Holocene aridity in the southern Sierra Nevada, California. Quaternary Research 24(3):322-332.","10.1016/0033-5894(85)90054-7",8,"cool evergreen needleleaf forest",0.528464552547612,3093.80201774706,8.47616991163579,0.386128484187166,18.5820581679148,671.01405436425
452,1070,16782,"Neotoma","Bamaji Lake","RJM044",51.122035,-91.452615,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.03597929430643,2216.9791081545,0.169700539117544,-20.4993877370265,17.9921112540081,700.220192473333
453,1071,11525,"Neotoma","Banker Pond","FH-10",38.399265,-96.46875,368,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.784098921364301,4877.27346212018,13.1475873541208,-1.94073604754393,26.7425767972429,888.408797208377
454,1072,12300,"Neotoma","Banks Island 74MS11","BI74MS11",71.75,-124.266667,30,"not known","lake","core","-50","Gajewski, K., R.J. Mott, J.C. Ritchie, and K. Hadden. 2000. Holocene vegetation history of Banks Island, Northwest Territories, Canada. Canadian Journal of Botany 78:430-436.",,30,"tundra",0.43861646931815,376.263755862658,-13.8502232976709,-30.6442244074347,5.96582652509619,115.609700139821
455,1073,12301,"Neotoma","Banks Island 74MS15","BI74MS15",73.533333,-120.216667,120,"not known","lake","core","14","Gajewski, K., R.J. Mott, J.C. Ritchie, and K. Hadden. 2000. Holocene vegetation history of Banks Island, Northwest Territories, Canada. Canadian Journal of Botany 78:430-436.",,31,"tundra",0.486604251882023,240.262999180314,-15.6319013975102,-32.1270784670813,4.27914953645337,115.883839421636
456,1074,7419,"EMPDv2","Banntjorna","Hjelle_a8",60.4780056,5.3338278,92,"0.023","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.15655096063075,2537.31039614816,6.95153533191277,0.652496233112785,13.8627989072322,2164.65412053469
457,1075,18080,"SMPDSv1","Banyoles","Barboni_a765",42.13,-2.75,173,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.21720413517622,4589.18653238788,12.5731137873641,6.33870842944487,19.0158509284691,1073.3095252561
458,1076,1807,"CMPD","Bao Qing","Bao Qing 1",45.95,132.07,272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.779613636352514,2899.69354908776,3.0754639814368,-18.0849465640902,21.0038870879734,579.748518397257
458,1077,1808,"CMPD","Bao Qing","Bao Qing 2",45.95,132.07,272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.779613636352514,2899.69354908776,3.0754639814368,-18.0849465640902,21.0038870879734,579.748518397257
458,1078,1809,"CMPD","Bao Qing","Bao Qing 3",45.95,132.07,272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.779613636352514,2899.69354908776,3.0754639814368,-18.0849465640902,21.0038870879734,579.748518397257
458,1079,1810,"CMPD","Bao Qing","Bao Qing 4",45.95,132.07,272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.779613636352514,2899.69354908776,3.0754639814368,-18.0849465640902,21.0038870879734,579.748518397257
458,1080,1811,"CMPD","Bao Qing","Bao Qing 5",45.58,131.73,388,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.75984233381201,2776.76636615811,2.69904293113168,-17.984328226552,20.3322781265427,572.942258085022
458,1081,1812,"CMPD","Bao Qing","Bao Qing 6",45.58,131.73,388,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.75984233381201,2776.76636615811,2.69904293113168,-17.984328226552,20.3322781265427,572.942258085022
458,1082,1813,"CMPD","Bao Qing","Bao Qing 7",46.68,132.08,190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.798618003318714,2965.66092793956,3.05480341155515,-18.7987731325684,21.5279571032236,579.209562574733
458,1083,1814,"CMPD","Bao Qing","Bao Qing 8",46.68,132.08,190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.798618003318714,2965.66092793956,3.05480341155515,-18.7987731325684,21.5279571032236,579.209562574733
459,1084,1815,"CMPD","Baohua Mt","Baohua Mt",32.05,119.266666666667,87,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08352171998918,5613.38144286663,15.3791272407305,2.58862643545918,27.6485208510958,1193.03284894563
460,1085,194,"Australian pollen","Bar20","Swamp Bar20_a",-10.1333,142.2333,18,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","not known","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
460,1086,195,"Australian pollen","Bar20","Swamp Bar20_b",-10.1333,142.2333,18,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","not known","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
461,1087,18081,"SMPDSv1","Barbora","EPDcoretop_E311",48.941667,14.933333,460,"not known","not known","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.868206241863777,3088.06472412211,8.10921564465454,-2.50139203711745,17.5835332590865,674.813372899483
462,1088,12257,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","-32","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12258,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","-16","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12259,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","0","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12260,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","16","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12261,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","22","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12262,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","32","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
462,1088,12263,"Neotoma","Barchampe Lake","BARCHAMP",30.622222,-83.253889,34,"not known","lake","core","42","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.03095534277948,7282.90156466995,19.9531549716985,10.9956671974711,27.4029210724647,1365.06617126666
463,1089,9072,"EMPDv2","Bardarlaug","Stivrins_a10",64.75871,-23.679776,119,"0.01","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.98166383474157,1196.14713896693,2.60952179524825,-2.31389010968741,8.84256307203594,766.079839028901
464,1090,18082,"SMPDSv1","Bareti lake","Connor_a16",41.6603333333333,44.1702166666666,1630,"1.2","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.718416476160601,2689.43967236512,5.37522122239492,-8.99933581200869,17.9261349922165,733.864373110443
464,1091,18083,"SMPDSv1","Bareti lake","Connor_a39 (Bareti-1)",41.657,44.168,1630,"1.2","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.717913100651916,2689.8654242853,5.3768845516555,-8.99839680052687,17.92772685478,733.474583638996
464,1092,18084,"SMPDSv1","Bareti lake","Connor_a40 (Bareti-2)",41.656,44.168,1630,"1.2","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.717757477850794,2690.01213662921,5.37743917825589,-8.99809974971186,17.9284314979248,733.354490818597
464,1093,18085,"SMPDSv1","Bareti lake","Connor_a41 (Bareti-3)",41.655,44.168,1630,"1.2","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.717601870948696,2690.15885540718,5.37799382394717,-8.99780267619297,17.9291362233171,733.234400471068
465,1094,18086,"SMPDSv1","Barheivatn","EPDcoretop_E37",69.7,19.85,317,"0.117","lake","lacustrine core top","79","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.43250675320466,1065.55716749883,-1.13983805201803,-10.6590300633964,10.7762669050421,852.0390589184
466,1095,196,"Australian pollen","Barker Swamp","Barker Swamp_1",-32.002,115.503,1,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.478946780374396,6702.46602259433,18.3629206098475,13.396336232483,24.4665623529971,697.300201832335
466,1096,197,"Australian pollen","Barker Swamp","Barker Swamp_2",-32.002,115.503,1,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.478946780374396,6702.46602259433,18.3629206098475,13.396336232483,24.4665623529971,697.300201832335
466,1097,198,"Australian pollen","Barker Swamp","Barker Swamp_3",-32.002,115.503,1,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.478946780374396,6702.46602259433,18.3629206098475,13.396336232483,24.4665623529971,697.300201832335
467,1098,18087,"SMPDSv1","Barranco do Velho","Connor_b3",37.241292,-7.934192,490,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403936810931424,5627.79831609477,15.4186255235473,7.78887272888815,24.4911151886883,526.869833725633
468,1099,12264,"Neotoma","Barrett Lake","BARRETT",37.595833,-119.008333,2816,"not known","lake","core","0","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Anderson, R.S. 1990. Holocene forest development and paleoclimates within the central Sierra Nevada, California. Journal of Ecology 78:470-489.",,17,"temperate evergreen needleleaf open woodland",0.626927647808983,2015.74569645576,4.66877626862624,-3.23664541968421,15.4371781209354,737.774126823338
469,1100,199,"Australian pollen","Barrington Tops","Barrington Tops 1",-31.98,151.91,300,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.833011754026086,6022.64310126023,16.5003920582472,10.2514398571303,21.8985417823779,1128.88640583546
469,1101,200,"Australian pollen","Barrington Tops","Barrington Tops 10",-31.98,151.92,500,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.755380647045396,5669.39697780517,15.5325944597402,8.90151069390727,21.3409413544311,1043.27238003666
469,1102,201,"Australian pollen","Barrington Tops","Barrington Tops 11",-31.71,151.66,1260,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.511786409924711,4477.34340753314,12.2666942672141,4.28564091508633,19.4949226587766,762.184017440511
469,1103,202,"Australian pollen","Barrington Tops","Barrington Tops 12",-31.94,151.8,1220,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.496816999212983,4417.7246832114,12.1033552964696,4.08210977180908,19.4054319112872,731.573409340072
469,1104,203,"Australian pollen","Barrington Tops","Barrington Tops 13",-31.96,151.79,1275,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.479123984150953,4323.46335688813,11.8451050873647,3.71915367432227,19.2601672978353,708.655247054355
469,1105,204,"Australian pollen","Barrington Tops","Barrington Tops 14",-31.83,151.47,1460,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.441272909421828,4104.37573128475,11.2448650172185,2.81548654935532,19.0263714407136,667.467915583346
469,1106,205,"Australian pollen","Barrington Tops","Barrington Tops 15",-31.82,151.4,1400,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.456931805498511,4212.54504469191,11.5412193005258,3.20890476314399,19.2175335569293,688.195528915296
469,1107,206,"Australian pollen","Barrington Tops","Barrington Tops 16",-31.87,151.42,1475,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.436951645877325,4085.32054300746,11.1926590219383,2.72780098636767,19.0159253691159,661.865559850836
469,1108,207,"Australian pollen","Barrington Tops","Barrington Tops 17",-31.86,151.43,1435,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.446710931999577,4150.41065390479,11.3709880928898,2.97390217381672,19.1190789006361,674.458815697512
469,1109,208,"Australian pollen","Barrington Tops","Barrington Tops 18",-31.73,151.48,1500,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.456792041263477,4100.05092487982,11.2330162325474,2.86890212733103,18.8697775388028,693.858889695163
469,1110,209,"Australian pollen","Barrington Tops","Barrington Tops 19",-31.81,151.43,1400,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.456925986761461,4209.08229518076,11.5317323155637,3.20282971886418,19.2032207061548,688.074949572657
469,1111,210,"Australian pollen","Barrington Tops","Barrington Tops 2",-31.99,151.93,240,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.858635173922286,6128.50014711408,16.7904113619564,10.6612552038832,22.060359012954,1156.6172905339
469,1112,211,"Australian pollen","Barrington Tops","Barrington Tops 20",-32.17,150.52,200,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.608020392865987,6261.97400823912,17.1560931732579,10.1217868358229,23.3825864140366,834.555550356174
469,1113,212,"Australian pollen","Barrington Tops","Barrington Tops 21",-31.58,151.89,600,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.736466697483803,5551.07658440207,15.2084289983618,8.45563707325052,21.1250020782193,1033.81847087601
469,1114,213,"Australian pollen","Barrington Tops","Barrington Tops 22",-32.07,150.65,200,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.607920060823182,6262.84049087278,17.1584670982816,10.1260004774906,23.3852524762317,835.367462014843
469,1115,214,"Australian pollen","Barrington Tops","Barrington Tops 23",-31.83,151.03,930,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.564013954727672,5014.07828240403,13.7372007737097,6.06751723018507,20.7254195709448,819.784286065823
469,1116,215,"Australian pollen","Barrington Tops","Barrington Tops 24",-31.84,151,940,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.560696107636038,4998.02055479794,13.6932069994464,6.00138397185316,20.7088295242076,815.70057871975
469,1117,216,"Australian pollen","Barrington Tops","Barrington Tops 25",-31.68,151.06,500,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.615882574509681,5792.67145397631,15.87033275062,8.68203732379578,22.2734290719296,870.70081749188
469,1118,217,"Australian pollen","Barrington Tops","Barrington Tops 3",-31.99,151.86,1180,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.510301406929822,4477.46926822722,12.2670390910335,4.32417388218282,19.4842056358079,748.178097661292
469,1119,218,"Australian pollen","Barrington Tops","Barrington Tops 4",-31.99,151.85,1290,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.474181779873461,4286.29843437204,11.7432833818412,3.59028825181437,19.1864105729631,701.53848065867
469,1120,219,"Australian pollen","Barrington Tops","Barrington Tops 5",-31.78,151.69,1350,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.469305162102904,4261.20247137478,11.674527318835,3.45079362113168,19.2241229303545,702.614974181994
469,1121,220,"Australian pollen","Barrington Tops","Barrington Tops 6",-31.91,151.54,1440,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.442658404715788,4127.1790383139,11.307339830997,2.89692594145975,19.0686346814691,667.919316573257
469,1122,221,"Australian pollen","Barrington Tops","Barrington Tops 7",-31.88,151.1,1310,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.508651755516292,4378.68368681966,11.9963936625196,3.83974527124125,19.5445306498366,761.152038544188
469,1123,222,"Australian pollen","Barrington Tops","Barrington Tops 8",-31.88,151.14,1430,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.492418560690963,4178.93169040303,11.4491279189124,3.14269214675497,19.1659193257422,743.498760886186
469,1124,223,"Australian pollen","Barrington Tops","Barrington Tops 9",-31.84,151.06,1250,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.520027829929993,4479.91678401083,12.2737446137283,4.20698589690323,19.7185301814337,774.677092198837
470,1125,224,"Australian pollen","Barron River","B1A",-16.86,145.75,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.2768628124932,9014.8818739691,24.6983065040249,20.9657001699366,27.276818600574,2136.3678427278
470,1126,225,"Australian pollen","Barron River","B1B",-16.86,145.75,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.2768628124932,9014.8818739691,24.6983065040249,20.9657001699366,27.276818600574,2136.3678427278
470,1127,226,"Australian pollen","Barron River","B1C",-16.86,145.75,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.2768628124932,9014.8818739691,24.6983065040249,20.9657001699366,27.276818600574,2136.3678427278
470,1128,227,"Australian pollen","Barron River","B2A",-16.86,145.74,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.23098282544093,9069.33742531412,24.8474997953811,21.1014722302707,27.4620846073451,2065.37706565201
470,1129,228,"Australian pollen","Barron River","B2B",-16.86,145.74,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.23098282544093,9069.33742531412,24.8474997953811,21.1014722302707,27.4620846073451,2065.37706565201
470,1130,229,"Australian pollen","Barron River","B2C",-16.86,145.74,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.23098282544093,9069.33742531412,24.8474997953811,21.1014722302707,27.4620846073451,2065.37706565201
470,1131,230,"Australian pollen","Barron River","B3A",-16.86,145.74,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.23098282544093,9069.33742531412,24.8474997953811,21.1014722302707,27.4620846073451,2065.37706565201
470,1132,231,"Australian pollen","Barron River","B3B",-16.86,145.74,3,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.23098282544093,9069.33742531412,24.8474997953811,21.1014722302707,27.4620846073451,2065.37706565201
471,1133,18088,"SMPDSv1","Barrow Moor","Grant_a7",50.864885,-1.645818,55,"0.005","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20094044750434,3648.56325342315,9.99606370800862,4.37127247350002,16.3762187307456,838.91704354147
472,1134,12265,"Neotoma","Barry Lake","BARRY",44.3,-77.916667,167,"not known","lake","core","-17","McAndrews, J.H. 1984. Late Quaternary vegetation history of Rice Lake, Ontario, and the McIntyre Archaeological Site. Archaeological Survey of Canada Paper 126:161-189..",,9,"cool mixed forest",1.04901780445875,3157.34184532221,6.9045917987793,-7.99515076720249,20.5205780625552,877.891595594526
472,1134,12266,"Neotoma","Barry Lake","BARRY",44.3,-77.916667,167,"not known","lake","core","13","McAndrews, J.H. 1984. Late Quaternary vegetation history of Rice Lake, Ontario, and the McIntyre Archaeological Site. Archaeological Survey of Canada Paper 126:161-189..",,9,"cool mixed forest",1.04901780445875,3157.34184532221,6.9045917987793,-7.99515076720249,20.5205780625552,877.891595594526
472,1134,12267,"Neotoma","Barry Lake","BARRY",44.3,-77.916667,167,"not known","lake","core","47","McAndrews, J.H. 1984. Late Quaternary vegetation history of Rice Lake, Ontario, and the McIntyre Archaeological Site. Archaeological Survey of Canada Paper 126:161-189..",,9,"cool mixed forest",1.04901780445875,3157.34184532221,6.9045917987793,-7.99515076720249,20.5205780625552,877.891595594526
473,1135,8262,"EMPDv2","Barsovyi","Mikishin-Gvozdeva_b93",43.1575,131.628055555556,17,"not applicable","terrestrial, soil","litter","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.938223249372229,3183.78233036467,6.00251951923457,-11.888717430448,21.4750008850222,744.330622917811
474,1136,18090,"SMPDSv1","Basa de la Mora","58-1 BSM10-T1 (Om)",42.5472222222222,0.325833333333333,1917,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08423972851263,2094.10171913842,5.20147753231986,-2.70628192049843,14.6269112007935,1073.88805839394
474,1137,18091,"SMPDSv1","Basa de la Mora","58-2 BSM10-T3 (20m)",42.5472222222222,0.325555555555555,1910,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08182842263459,2103.38450287378,5.23760394579117,-2.67032461865455,14.6604929840339,1072.14906539908
474,1138,18092,"SMPDSv1","Basa de la Mora","58-3 BSM10-T4 (40m)",42.5475,0.325833333333333,1911,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08215195101253,2102.10215130398,5.23261156545672,-2.67528245270618,14.6558671510566,1072.3816529353
474,1139,18093,"SMPDSv1","Basa de la Mora","58-4 BSM10-T7 (60m)",42.5477777777777,0.325555555555555,1908,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08110191117615,2106.0959579904,5.24813702360352,-2.65988279360712,14.6703750750588,1071.62445831449
474,1140,18094,"SMPDSv1","Basa de la Mora","58-5 BSM10-T9 (80m)",42.5477777777777,0.325277777777777,1930,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08869460893631,2076.93345768325,5.13424207181167,-2.77343450454441,14.5646867288342,1077.09933042542
474,1141,18095,"SMPDSv1","Basa de la Mora","58-6 BSM10-T11 (100m)",42.5480555555555,0.325277777777777,1917,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08418627156038,2094.14435926006,5.20158700772213,-2.70634720783438,14.627257432602,1073.85195171779
474,1142,18096,"SMPDSv1","Basa de la Mora","58-7 BSM10-T13 (300m)",42.5491666666666,0.323611111111111,1911,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08205545801483,2102.10729613427,5.23247496726064,-2.67594606098666,14.656398295442,1072.32098243609
474,1143,18089,"SMPDSv1","Basa de la Mora","Basa de la Mora",42.54527,0.3255,1906,"not known","not known","core top","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0805823623070001,2108.51527262048,5.25762821909507,-2.65018508151925,14.6787291154373,1071.24892185741
475,1144,16698,"Neotoma","Base","PJHR059",46.79,-71.33,16,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.49214825836734,2651.61128945036,4.09208281517616,-12.690398985675,18.8651855930523,1090.60380575372
476,1145,12268,"Neotoma","Baseball Bog","BASEBALL",47.23,-79.78,292,"not known","terrestrial, bog/fen/swamp","core","-21","Unpublished data",,9,"cool mixed forest",1.15921053596406,2539.86176961802,3.17813003874482,-14.5083778129959,18.5026783404371,873.472962136897
477,1146,12269,"Neotoma","Basin Pond","BASINPND",44.47,-70.05,124,"not known","lake","core","-10","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.48516637580173,2943.69602154172,6.29858907609755,-8.07185431537299,19.6264374541207,1163.06442451203
477,1146,12270,"Neotoma","Basin Pond","BASINPND",44.47,-70.05,124,"not known","lake","core","0","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.48516637580173,2943.69602154172,6.29858907609755,-8.07185431537299,19.6264374541207,1163.06442451203
477,1146,12271,"Neotoma","Basin Pond","BASINPND",44.47,-70.05,124,"not known","lake","core","15","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.48516637580173,2943.69602154172,6.29858907609755,-8.07185431537299,19.6264374541207,1163.06442451203
477,1146,12272,"Neotoma","Basin Pond","BASINPND",44.47,-70.05,124,"not known","lake","core","31","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.48516637580173,2943.69602154172,6.29858907609755,-8.07185431537299,19.6264374541207,1163.06442451203
477,1146,12273,"Neotoma","Basin Pond","BASINPND",44.47,-70.05,124,"not known","lake","core","46","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.48516637580173,2943.69602154172,6.29858907609755,-8.07185431537299,19.6264374541207,1163.06442451203
478,1147,18097,"SMPDSv1","Baskoy","Bakker_b1",37.6600166666666,30.4739666666666,1316,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393045468108447,4079.34821897457,11.1762964903413,0.828630587877721,21.4968358160873,539.178802802298
478,1148,18098,"SMPDSv1","Baskoy","Bakker_b21",37.63625,30.4995,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390311280143692,4007.4079494167,10.9791998614156,0.57727861450218,21.3308447573011,534.067648961409
478,1149,18099,"SMPDSv1","Baskoy","Bakker_b3",37.6419166666666,30.4737,1341,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390796476061456,4028.37024418617,11.0366308059895,0.65113738454281,21.3801604627,535.205946179971
478,1150,18100,"SMPDSv1","Baskoy","Bakker_b36",37.6783666666666,30.494233333333302,1369,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.388241491327269,3963.59492099095,10.8591641670985,0.424146505813958,21.2253407337165,529.758390692551
478,1151,18101,"SMPDSv1","Baskoy","Bakker_b4",37.671017,30.51635,1164,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407385177757311,4396.09523107735,12.0440965234996,1.93055507414917,22.2304272585366,565.806306146291
478,1152,18102,"SMPDSv1","Baskoy","Bakker_b5",37.6367166666666,30.4973666666666,1214,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402880926897971,4295.26838270168,11.7678585827443,1.58100382899378,21.9989128338166,557.777914716715
478,1153,18103,"SMPDSv1","Baskoy","Bakker_b54",37.63465,30.4949833333333,1237,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400756857319669,4247.02388803281,11.6356818850214,1.41294888553297,21.8871838959715,553.788764162464
478,1154,18104,"SMPDSv1","Baskoy","Bakker_b55",37.6330166666666,30.4954,1269,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397818158860653,4179.4660356844,11.4505918785874,1.17740292470367,21.730539289965,548.240866849957
478,1155,18105,"SMPDSv1","Baskoy","Bakker_b56",37.6583666666666,30.4928833333333,1397,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.385691416493543,3906.48683251353,10.702703650722,0.225352615867043,21.0947312280633,525.294482112717
478,1156,18106,"SMPDSv1","Baskoy","Bakker_b57",37.6618,30.4759,1349,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389967293938894,4009.28513993503,10.9843428491371,0.584230420491929,21.3339287549342,533.389907983756
478,1157,18107,"SMPDSv1","Baskoy","Bakker_b6",37.6457333333333,30.4964,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408648626201958,4429.79941011573,12.1364367400431,2.04985102733488,22.3106404826777,568.723164966256
479,1158,17313,"Neotoma","Bass (WI1)","TW018",45.424722,-91.4925,397,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.957780804157106,2966.93033313744,5.19695678862302,-12.3433528292502,20.3438499656081,771.769562242252
480,1159,17363,"Neotoma","Bass (WI2)","TW068",42.885833,-89.257222,265,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.949837925052928,3541.43516594499,7.95025932566745,-8.71159453717004,22.2516739407262,845.776033993677
481,1160,16071,"Neotoma","Bass Lake","JHM024",44.6,-79.5,224,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.09043357951177,3034.92900252352,6.40212354775092,-8.48201724475145,20.0277390222217,916.385900018088
482,1161,14013,"Neotoma","Bass Pond","BASSNFLD",50.71505,-57.374385,8,"not known","lake","core","-43","Bell, T., J.B. Macpherson, and M.A.P. Renouf. 2005. Late prehistoric human impact on Bass Pond, Port au Choix. Newfoundland and Labrador Studies 20(1):107-129.; Renouf, M.A.P., T. Bell, and J. Macpherson. 2009. Hunger-gatherer impact on subarctic vegetation: Amerindian and Palaeoeskimo occupations of Port au Choix, northwestern Newfoundland. Arctic Anthropology 46(1-2):176-190.",,9,"cool mixed forest",1.82746196493001,1729.80896274264,1.810160532433,-10.4801898833949,13.7529483592922,1046.32972342547
483,1162,10416,"IBERIA","Bassa Nera","BSN6_0.01",42.63847222,0.924333333,1891,"0.02","lake","core","-55","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1163,10417,"IBERIA","Bassa Nera","BSN6_0.05",42.63847222,0.924333333,1891,"0.02","lake","core","-48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1164,10418,"IBERIA","Bassa Nera","BSN6_0.10",42.63847222,0.924333333,1891,"0.02","lake","core","-35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1165,10419,"IBERIA","Bassa Nera","BSN6_0.15",42.63847222,0.924333333,1891,"0.02","lake","core","-23","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1166,10420,"IBERIA","Bassa Nera","BSN6_0.19",42.63847222,0.924333333,1891,"0.02","lake","core","-13","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1167,10421,"IBERIA","Bassa Nera","BSN6_0.24",42.63847222,0.924333333,1891,"0.02","lake","core","-3","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
483,1168,10422,"IBERIA","Bassa Nera","BSN6_0.28",42.63847222,0.924333333,1891,"0.02","lake","core","1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.07333960533564,2177.05398297209,5.56569593697711,-2.16589826400147,14.8235179635932,1059.48933125118
484,1169,13508,"Neotoma","Basswood Road Lake/Splan Pond","BASSWOOD",45.2539699999999,-67.33173,106,"not known","lake","core","0","Levesque, A.J., F.E. Mayle, I.R. Walker, and L.C. Cwynar. 1993. A previously unrecognized late-glacial cold event in eastern North America. Nature 361:623-626. Mayle, F.E., A.J. Levesque, and L.C. Cwynar. 1993. Accelerator-Mass-Spectrometer ages for the Younger Dryas event in Atlantic Canada. Quaternary Research 39(3):355-360. Mayle, F.E., and L.C. Cwynar. 1995. A review of multi-proxy data for the Younger Dryas in Atlantic Canada. Quaternary Science Reviews 14(9):813-821. Mayle, F.E., and L.C. Cwynar. 1995. Impact of the Younger Dryas cooling event upon lowland vegetation of maritime Canada. Ecological Monographs 65(2):129-154. Mott, R.J. 1975. Palynological studies of lake sediment profiles from southwestern New Brunswick. Canadian Journal of Earth Sciences 12(2):273-288. Levesque, A.J., F.E. Mayle, I.R. Walker, and L.C. Cwynar. 1993. Erratum: A previously unrecognized late-glacial cold event in eastern North America. Nature 363:188.; Mott, R.J., D.R. Grant, R. Stea, and S. Occhietti. 1986. Late-glacial climatic oscillation in Atlantic Canada equivalent to the Allerød/Younger Dryas event. Nature 323: 247-250..","10.1038/361623a0;
10.1006/qres.1993.1042;
10.1016/0277-3791(95)00063-1;
10.2307/2937135;
10.1139/e75-024",9,"cool mixed forest",1.55121273684739,2694.90551716487,5.31658201212723,-8.9176571283072,18.4563011165043,1179.26665690011
485,1170,13782,"Neotoma","Bates Marsh","BATESON",42.342715,-81.84467,175,"not known","terrestrial, marsh","core","-12","Finkelstein, S.A., and A.M. Davis. 2005. Modern pollen rain and diatom assemblages in a Lake Erie coastal marsh. Wetlands 25:551-563.; Finkelstein, S.A., and A.M. Davis. 2006. Paleoenvironmental records of water level and climatic changes from the middle to late Holocene at a Lake Erie coastal wetland, Ontario, Canada. Quaternary Research 65:33-43.",,13,"temperate deciduous broadleaf forest",0.978122356257407,3585.01384176954,8.86413481620431,-5.17202049385931,21.7177161110255,879.976476276682
485,1170,13783,"Neotoma","Bates Marsh","BATESON",42.342715,-81.84467,175,"not known","terrestrial, marsh","core","33","Finkelstein, S.A., and A.M. Davis. 2005. Modern pollen rain and diatom assemblages in a Lake Erie coastal marsh. Wetlands 25:551-563.; Finkelstein, S.A., and A.M. Davis. 2006. Paleoenvironmental records of water level and climatic changes from the middle to late Holocene at a Lake Erie coastal wetland, Ontario, Canada. Quaternary Research 65:33-43.",,13,"temperate deciduous broadleaf forest",0.978122356257407,3585.01384176954,8.86413481620431,-5.17202049385931,21.7177161110255,879.976476276682
486,1171,12275,"Neotoma","Battle Ground Lake","BATLGRND",45.8,-122.491667,155,"not known","lake","core","-30","Barnosky, C.W. 1983. Late-Quaternary vegetational and climatic history of southwestern Washington. Dissertation. University of Washington, Seattle, Washingtion, USA.; Barnosky, C.W. 1985. Late Quaternary vegetation near Battle Ground Lake, southern Puget Trough, Washington. Geological Society of America Bulletin 96:263-271.; Whitlock, C. 1992. Vegetational and climatic history of the Pacific Northwest during the last 20,000 years: implications for understanding present-day biodiversity. The Northwest Environmental Journal 8:5-28.",,8,"cool evergreen needleleaf forest",1.80745357587914,3790.13977591164,10.3839445915387,3.79118792498332,17.6722382282433,1488.75201924074
486,1171,12276,"Neotoma","Battle Ground Lake","BATLGRND",45.8,-122.491667,155,"not known","lake","core","2","Barnosky, C.W. 1983. Late-Quaternary vegetational and climatic history of southwestern Washington. Dissertation. University of Washington, Seattle, Washingtion, USA.; Barnosky, C.W. 1985. Late Quaternary vegetation near Battle Ground Lake, southern Puget Trough, Washington. Geological Society of America Bulletin 96:263-271.; Whitlock, C. 1992. Vegetational and climatic history of the Pacific Northwest during the last 20,000 years: implications for understanding present-day biodiversity. The Northwest Environmental Journal 8:5-28.",,8,"cool evergreen needleleaf forest",1.80745357587914,3790.13977591164,10.3839445915387,3.79118792498332,17.6722382282433,1488.75201924074
487,1172,18108,"SMPDSv1","Bauges Massif","Ortu_b76",45.621,6.088,1024,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32344024724253,2807.92955600883,7.63972761990887,-0.540561938609198,16.4554472586722,1184.28857857958
487,1173,18109,"SMPDSv1","Bauges Massif","Ortu_b77",45.621,6.089,1049,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33707495031879,2771.28120817342,7.52757053385844,-0.633279559381513,16.3318919977149,1195.0364913763501
487,1174,18110,"SMPDSv1","Bauges Massif","Ortu_b78",45.621,6.089,1049,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33707495031879,2771.28120817342,7.52757053385844,-0.633279559381513,16.3318919977149,1195.0364913763501
487,1175,18111,"SMPDSv1","Bauges Massif","Ortu_b79",45.619,6.091,1136,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.38450734035559,2646.55641064458,7.1382685698582,-0.954628141662995,15.9030682047401,1232.32122358859
487,1176,18112,"SMPDSv1","Bauges Massif","Ortu_b80",45.619,6.091,1136,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.38450734035559,2646.55641064458,7.1382685698582,-0.954628141662995,15.9030682047401,1232.32122358859
487,1177,18113,"SMPDSv1","Bauges Massif","Ortu_b81",45.619,6.092,1195,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41710063719773,2563.94709901483,6.87375010340551,-1.17320539302815,15.611683942313,1257.65872628423
487,1178,18114,"SMPDSv1","Bauges Massif","Ortu_b82",45.619,6.093,1233,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43822774586497,2511.59902729267,6.70334937944795,-1.31402786393158,15.4239689285738,1273.98629687872
487,1179,18115,"SMPDSv1","Bauges Massif","Ortu_b83",45.62,6.093,1251,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44838670504704,2486.925764597,6.62225514610542,-1.38120269481147,15.3346349811568,1281.76180957864
487,1180,18116,"SMPDSv1","Bauges Massif","Ortu_b84",45.62,6.093,1251,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44838670504704,2486.925764597,6.62225514610542,-1.38120269481147,15.3346349811568,1281.76180957864
487,1181,18117,"SMPDSv1","Bauges Massif","Ortu_b85",45.621,6.093,1330,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49276836345027,2380.81865987801,6.2677728744017,-1.67421497306025,14.9441663017353,1315.72036293395
487,1182,18118,"SMPDSv1","Bauges Massif","Ortu_b86",45.621,6.093,1330,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49276836345027,2380.81865987801,6.2677728744017,-1.67421497306025,14.9441663017353,1315.72036293395
487,1183,18119,"SMPDSv1","Bauges Massif","Ortu_b87",45.622,6.096,1354,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.50657234309358,2348.97793571299,6.1594907185391,-1.76399184959005,14.8248256263727,1326.14700613407
487,1184,18120,"SMPDSv1","Bauges Massif","Ortu_b88",45.627,6.102,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.50531588778592,2353.50470161684,6.17466406871656,-1.75265483877355,14.8413808552632,1324.84912932651
487,1185,18121,"SMPDSv1","Bauges Massif","Ortu_b89",45.632,6.104,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.50613945491238,2352.87013093247,6.17228963731183,-1.75561412231847,14.8386886109777,1325.1760124615
487,1186,18122,"SMPDSv1","Bauges Massif","Ortu_b90",45.638,6.114,1460,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.57009181964354,2210.03639495924,5.67564427938796,-2.16728744054462,14.2913881538066,1373.07123621405
487,1187,18123,"SMPDSv1","Bauges Massif","Ortu_b91",45.64,6.115,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.5934363032649,2159.55090504026,5.49535941380866,-2.31654708497132,14.0927728630606,1390.43114362817
487,1188,18124,"SMPDSv1","Bauges Massif","Ortu_b92",45.641,6.115,1619,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66267126850698,2014.20847001004,4.96148988305274,-2.75753925164617,13.5047170659642,1441.70738108361
487,1189,18125,"SMPDSv1","Bauges Massif","Ortu_b93",45.642,6.113,1722,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72338724928112,1893.39637488463,4.49948331092122,-3.13911905820011,12.995871369223,1486.05165493517
487,1190,18126,"SMPDSv1","Bauges Massif","Ortu_b94",45.642,6.116,1685,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.70165296008073,1936.20029276597,4.66509311803283,-3.00247801143958,13.1782127582399,1470.21017546293
487,1191,18127,"SMPDSv1","Bauges Massif","Ortu_b95",45.641,6.115,1658,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68553599884557,1967.96132357078,4.78667218643491,-2.90188681389338,13.3121575071337,1458.49156718563
487,1192,18128,"SMPDSv1","Bauges Massif","Ortu_b96",45.639,6.115,1584,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.64191670006461,2056.49483766342,5.11929552427182,-2.6268958894374,13.6785454553195,1426.51127135435
487,1193,18129,"SMPDSv1","Bauges Massif","Ortu_b97",45.639,6.115,1584,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.64191670006461,2056.49483766342,5.11929552427182,-2.6268958894374,13.6785454553195,1426.51127135435
487,1194,18130,"SMPDSv1","Bauges Massif","Ortu_b98",45.638,6.115,1515,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.60176566734389,2141.12531440264,5.4290285800369,-2.37096960265225,14.0197195536534,1396.75871991936
487,1195,18131,"SMPDSv1","Bauges Massif","Ortu_b99",45.635,6.116,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53546906902003,2287.0499639709,5.94571695012272,-1.94383988974214,14.5888493972004,1347.13094815902
488,1196,232,"Australian pollen","Baw Baw","Baw Baw Track",-37.833,146.283,1524,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.33045397464805,2364.24904623105,6.16896921077832,-2.08971698042007,14.9141305232538,1587.90452924507
488,1197,233,"Australian pollen","Baw Baw","Baw Baw Village",-37.85,146.267,1524,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.33226488090232,2363.97229173283,6.1662554820489,-2.09962972759337,14.9206979986444,1589.89886927177
489,1198,1816,"CMPD","Baxi","Baxi 1",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1199,1817,"CMPD","Baxi","Baxi 2",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1200,1818,"CMPD","Baxi","Baxi 3",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1201,1819,"CMPD","Baxi","Baxi 4",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1202,1820,"CMPD","Baxi","Baxi 5",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1203,1821,"CMPD","Baxi","Baxi 6",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
489,1204,1822,"CMPD","Baxi","Baxi 7",33.55,103.02,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.566046520123167,1946.22082953867,3.6980425205456,-7.27480367260992,12.856764502683,579.856595698904
490,1205,9753,"Herzschuh et al., 2019","Bayan Nuur II. 36B","Bayan Nuur II. 36B",48.8449,90.91627,1576,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.22639022560333,1955.45117744429,-2.66307271509207,-25.5896708889434,15.811351410645,198.724573429563
491,1206,9754,"Herzschuh et al., 2019","Bayan Nuur III. 52A","Bayan Nuur III. 52A",49.98291,93.95314,930,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.412479080199787,2467.55952193669,-1.34312690468035,-26.5970290210335,18.8406324664651,340.719835202041
492,1207,9755,"Herzschuh et al., 2019","Bayan Nuur. 12B","Bayan Nuur. 12B",48.46182,95.17352,1518,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.227545841440659,2078.16065540932,-2.49890302216963,-25.8139901849723,16.5333534829151,202.779469658052
493,1208,18132,"SMPDSv1","Bazax","Barboni_a739",37.57,-2.72,560,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.311899271354052,5686.91545672725,15.5805902924034,8.10759381746407,24.856920915152,400.197566950929
493,1209,18133,"SMPDSv1","Bazax","Barboni_a740",37.62,-2.7,842,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.341913466724592,5223.89069742763,14.3120293080209,6.49143057031575,24.3028437094149,436.715760778494
493,1210,18134,"SMPDSv1","Bazax","Barboni_a741",37.67,-2.67,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.342803476553029,5205.90782532717,14.2627611652799,6.42229472699892,24.2856272870116,437.401470700024
493,1211,18135,"SMPDSv1","Bazax","Barboni_a742",37.67,-2.67,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.342803476553029,5205.90782532717,14.2627611652799,6.42229472699892,24.2856272870116,437.401470700024
493,1212,18136,"SMPDSv1","Bazax","Barboni_a743",37.73,-2.62,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.353242205658336,5037.76761705361,13.8021030604208,5.83107327214558,24.084855042101,449.624438914895
493,1213,18137,"SMPDSv1","Bazax","Barboni_a744",37.72,-2.58,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.347591094179706,5116.57448216285,14.0180122798982,6.11021891871254,24.1699986023345,442.641159054633
493,1214,18138,"SMPDSv1","Bazax","Barboni_a745",37.92,-2.55,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390598124045131,4443.80813759956,12.1748168153413,3.70110848771689,23.4033287938072,493.526783979223
493,1215,18139,"SMPDSv1","Bazax","Barboni_a746",37.87,-2.58,1280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.388661497197041,4479.39474940607,12.2723143819344,3.83293872283276,23.4419280475085,491.554665153647
493,1216,18140,"SMPDSv1","Bazax","Barboni_a747",37.82,-2.57,1190,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.37905950729239,4624.98823485814,12.671200643447,4.34453046685811,23.6135260361837,480.218602590113
493,1217,18141,"SMPDSv1","Bazax","Barboni_a748",37.52,-2.48,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.383082854347879,4556.60386903122,12.4838462165239,4.1878679921348,23.4714358152122,486.843682923993
493,1218,18142,"SMPDSv1","Bazax","Barboni_a749",37.5,-2.45,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.390227988175292,4442.96811413858,12.1725153812016,3.79177378142041,23.3377120421778,495.570616073085
493,1219,18143,"SMPDSv1","Bazax","Barboni_a750",37.58,-2.45,1210,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.378706444682632,4617.18750575755,12.6498287828974,4.39161380069602,23.5477258122231,481.078807885304
493,1220,18144,"SMPDSv1","Bazax","Barboni_a751",37.63,-2.52,1048,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.362293615673866,4879.55881815544,13.3686542963163,5.30159371750507,23.8648343029341,460.9598508469
494,1221,14998,"Neotoma","BC2","LAKEBC2",58.455925,-124.467245,1625,"not known","lake","core","-48","Pisaric, M.F.J. 2001. Holocene environmental change at the subarctic alpine treeline in northern British Columbia and the southern Yukon Territory, Canada. Doctoral dissertation. Queen's University, Kingston, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.05535497927743,1004.47375487597,-3.34849182936474,-16.5638948354965,9.51197298108139,532.692203909935
495,1222,10725,"Bush et al., 2020","BCI92-94_1_10","BCI92-94_1_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
495,1222,10726,"Bush et al., 2020","BCI92-94_1_10","BCI92-94_1_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
496,1223,10727,"Bush et al., 2020","BCI92-94_1_15","BCI92-94_1_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
497,1224,10728,"Bush et al., 2020","BCI92-94_10_10","BCI92-94_10_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
498,1225,10729,"Bush et al., 2020","BCI92-94_10_15","BCI92-94_10_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
499,1226,10730,"Bush et al., 2020","BCI92-94_14_15","BCI92-94_14_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
500,1227,10731,"Bush et al., 2020","BCI92-94_15_10","BCI92-94_15_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
501,1228,10732,"Bush et al., 2020","BCI92-94_20_10","BCI92-94_20_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
502,1229,10733,"Bush et al., 2020","BCI92-94_20_15","BCI92-94_20_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
503,1230,10734,"Bush et al., 2020","BCI92-94_25_10","BCI92-94_25_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
504,1231,10735,"Bush et al., 2020","BCI92-94_25-15","BCI92-94_25-15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
505,1232,10736,"Bush et al., 2020","BCI92-94_30_15","BCI92-94_30_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
505,1232,10737,"Bush et al., 2020","BCI92-94_30_15","BCI92-94_30_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
506,1233,10738,"Bush et al., 2020","BCI92-94_35_10","BCI92-94_35_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
507,1234,10739,"Bush et al., 2020","BCI92-94_35_15","BCI92-94_35_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
508,1235,10740,"Bush et al., 2020","BCI92-94_40_10","BCI92-94_40_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
509,1236,10741,"Bush et al., 2020","BCI92-94_40_15","BCI92-94_40_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
510,1237,10742,"Bush et al., 2020","BCI92-94_45_10","BCI92-94_45_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
511,1238,10743,"Bush et al., 2020","BCI92-94_45_15","BCI92-94_45_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
512,1239,10744,"Bush et al., 2020","BCI92-94_5_10","BCI92-94_5_10",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
513,1240,10745,"Bush et al., 2020","BCI92-94_5_15","BCI92-94_5_15",9.154342,-79.851649,161,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.53334610523852,9345.8679295097,25.6051176150951,24.706654226926,26.7978394783054,2548.61099783281
514,1241,16609,"Neotoma","Beach Forest Trail","MGW012",42.07,-70.18,1,"not known","terrestrial","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.39946409478125,3928.72647239194,10.4882868594062,-1.99002303327223,22.4557760220703,1257.19590512605
515,1242,12279,"Neotoma","Beach Lake","BEACH",65.216667,-127.05,129,"not known","lake","core","5","Rowe, J.S., D. Spittlehouse, E. Johnson, and M. Jasieniuk. 1975. Fire studies in the Upper Mackenzie Valley and adjacent precambrian uplands. Department of Indian and Northern Affairs, Ottawa, Canada. INA Publication No. QS-8045-000-EE-A1.",,15,"cold evergreen needleleaf forest",0.665087598867651,1582.41850028742,-6.8198140991508,-28.4984143456295,15.6903223367224,293.576960572838
516,1243,6850,"EMPDv2","Beacon Hill, North York Moors","Bunting_c10",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1244,6851,"EMPDv2","Beacon Hill, North York Moors","Bunting_c11",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1245,6852,"EMPDv2","Beacon Hill, North York Moors","Bunting_c12",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1246,6853,"EMPDv2","Beacon Hill, North York Moors","Bunting_c13",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1247,6854,"EMPDv2","Beacon Hill, North York Moors","Bunting_c14",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1248,6855,"EMPDv2","Beacon Hill, North York Moors","Bunting_c15",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1249,6856,"EMPDv2","Beacon Hill, North York Moors","Bunting_c16",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1250,6857,"EMPDv2","Beacon Hill, North York Moors","Bunting_c17",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
516,1251,6858,"EMPDv2","Beacon Hill, North York Moors","Bunting_c18",54.47463,-0.86575,290,"not applicable","terrestrial, blanket bog","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.048112761635,2747.26544670975,7.52675464851986,1.98112952093259,13.7711707436264,1128.87827094074
517,1252,17547,"Neotoma","Bean Lake","MTLCBE",47.3058,-112.429615,1388,"not known","lake","surface sample","Modern","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.419926889854504,2633.28352303877,5.72319868501503,-7.00477636039895,18.3194036433831,361.251958953679
518,1253,11499,"Neotoma","Bear Butte Lake","SDMEBB",44.45566,-103.444455,966,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.415678299433886,3358.72303558328,7.83694541945999,-6.69455735926169,22.496638467432,401.52606068635
519,1254,14021,"Neotoma","Bear Lake","BEARIDUT",41.98435,-111.33339,1810,"not known","lake","core","0","Colman, S.M., D.S. Kaufman, J. Bright, C. Heil, J.W. King, W.E. Dean, J.G. Rosenbaum, R.M. Forester, J.L. Bischoff, M. Perkins, and J.P. McGeehin. 2006. Age model for a continuous, ca 250-ka Quaternary lacustrine record from Bear Lake, Utah-Idaho. Quaternary Science Reviews 25:2271-2282.; Jimenez-Moreno, G., R.S. Anderson, and P.J. Fawcett. 2007. Orbital- and millennial-scale vegetation and climate changes of the past 225 ka from Bear Lake, Utah-Idaho (USA). Quaternary Science Reviews 26:1713-1724.",,17,"temperate evergreen needleleaf open woodland",0.393656516673975,2775.67129620983,6.3100352248395,-5.99763446817014,19.4538738047328,403.457933120248
519,1255,11571,"Neotoma","Bear Lake","BEARP1",36.371125,-112.147175,2778,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.414150210103182,2092.7866484306,4.5593774918098,-4.6523628876508,15.6811722609664,495.401528748642
519,1256,11572,"Neotoma","Bear Lake","BEARP3",36.371125,-112.147175,2778,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.414150210103182,2092.7866484306,4.5593774918098,-4.6523628876508,15.6811722609664,495.401528748642
519,1257,11991,"Neotoma","Bear Lake","SM-BRL",39.296405,-106.415235,3351,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.555058794911302,1027.76069524367,-1.91658773452402,-13.2657171214923,9.69871042063118,511.579829932335
520,1258,15712,"Neotoma","Bear Pond","BEAR_C90",44.399245,-74.286935,499,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.33496131697327,2693.313584017,4.97712092123163,-10.0075132520194,18.437243359368,1028.17529326042
521,1259,12210,"Neotoma","Bear Wallow ravine","HMCMBW",32.42251,-110.73313,2370,"not known","terrestrial","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",20,"xerophytic woods/scrub",0.37460329925918,3202.98473337872,8.77530063939375,0.295380595399522,18.2475520441347,495.731543069881
522,1260,234,"Australian pollen","Beattie's Tarn","Beattie's Tarn",-42.6667,146.6333,990,"not known","lake","not known","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.40177629930911,2515.5386248979,6.89188664355589,1.79513550014157,12.6320395046876,1315.04711383684
522,1261,235,"Australian pollen","Beattie's Tarn","Beattie's Tarn core",-42.6667,146.6333,990,"not known","lake","core top","-22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.40177629930911,2515.5386248979,6.89188664355589,1.79513550014157,12.6320395046876,1315.04711383684
523,1262,18145,"SMPDSv1","Beaufort Birkenbach","EPDcoretop_E407",49.847222,6.125833,360,"0.01","terrestrial, blanket bog","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.23974380371279,3261.73525226084,8.93626096509819,0.528752055285843,17.2451281274776,920.898407743897
524,1263,15174,"Neotoma","Beauty Lake","BEAUTY",44.96856,-109.572015,2878,"not known","lake","core","-47","Spaulding, S.A., J.R. Stone, S.A. Norton, A. Nurse, and J.E. Saros. 2019. Paleoenvironmental context for the Late Pleistocene appearance of Didymosphenia in a North American alpine lake. Aquatic Sciences 82(10):1-15.",,17,"temperate evergreen needleleaf open woodland",0.585034478184522,1487.35950621533,0.829365426679694,-9.70951882132139,13.0302885609989,495.689595108545
524,1263,15175,"Neotoma","Beauty Lake","BEAUTY",44.96856,-109.572015,2878,"not known","lake","core","-37","Spaulding, S.A., J.R. Stone, S.A. Norton, A. Nurse, and J.E. Saros. 2019. Paleoenvironmental context for the Late Pleistocene appearance of Didymosphenia in a North American alpine lake. Aquatic Sciences 82(10):1-15.",,17,"temperate evergreen needleleaf open woodland",0.585034478184522,1487.35950621533,0.829365426679694,-9.70951882132139,13.0302885609989,495.689595108545
524,1263,15176,"Neotoma","Beauty Lake","BEAUTY",44.96856,-109.572015,2878,"not known","lake","core","-16","Spaulding, S.A., J.R. Stone, S.A. Norton, A. Nurse, and J.E. Saros. 2019. Paleoenvironmental context for the Late Pleistocene appearance of Didymosphenia in a North American alpine lake. Aquatic Sciences 82(10):1-15.",,17,"temperate evergreen needleleaf open woodland",0.585034478184522,1487.35950621533,0.829365426679694,-9.70951882132139,13.0302885609989,495.689595108545
525,1264,15837,"Neotoma","Beaver Dam Lake","GMP08",39.22,-89.97,168,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.946705932982841,4635.32113596302,12.3406083041843,-2.83392964943193,25.3090052816347,987.113504829506
526,1265,12280,"Neotoma","Beaver Lake","BEAVER2",44.178611,-107.259722,2561,"not known","lake","core","-23","Burkart, M.R. 1976. Pollen biostratigraphy and late Quaternary vegetation history of the Bighorn Mountains, Wyoming. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137.","10.1017/S0033822200003404",17,"temperate evergreen needleleaf open woodland",0.344308042863565,2070.10619850723,3.30010380708262,-8.13690530502971,16.5310902678949,317.981889819119
526,1266,17376,"Neotoma","Beaver Lake","TW082",44.93,-83.8,232,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.983901611697036,2951.50097403524,6.06047291795799,-8.63545187144558,19.631488939489,796.138434423025
527,1267,15516,"Neotoma","Beaver Lake (US:Washington)","CJH095",47.9,-123.2,1737,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",13,"temperate deciduous broadleaf forest",3.16980776217768,1986.47039065757,5.25942090881503,-1.09666126867168,13.0834788762718,2474.92672311384
528,1268,15026,"Neotoma","Beaverhouse Lake","BEAVRHS",46.147135,-85.493955,193,"not known","lake","core","-38","Rivers, W.P. 1999. Landscape-level control of population dynamics: Late-Quaternary paleoecology of beech in upper Michigan. Doctoral dissertation. University of Tennessee, Knoxville, Tennessee, USA.",,9,"cool mixed forest",1.06156004198008,2777.7495075052,5.11784617482944,-10.2724260564913,18.8883303632131,817.244098622216
528,1269,12572,"Neotoma","Beaverhouse Lake","FLINFLON",54.742222,-101.681667,305,"not known","lake","core","-26","Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818. Ritchie, J.C. 1980. Towards a late-Quaternary palaeoecology of the ice-free corridor. N.W. Rutter and C.E. Schweger, editors. The ice-free corridor and peopling the New World, Proceedings of the 5th Biennial Meeting of the American Quaternary Association, Sept. 2-4, 1978, Edmonton, Alberta, Canada. Canadian Journal of Anthropology 1:15-28.; Ritchie, J.C. 1985. Quaternary pollen records from the western interior and the Arctic of Canada. Pages 327-352 in V.M Bryant and R.G. Holloway, editors. Pollen records of late-Quaternary North American sediments. American Association of Stratigraphic Palynologists Foundation, Dallas, Texas, USA.; Ritchie, J.C., and G.A. Yarranton. 1978. The late-Quaternary history of the boreal forest of central Canada, based on standard pollen stratigraphy and principal components analysis. Journal of Ecology 66:199-212.","10.1139/b76-194",15,"cold evergreen needleleaf forest",0.759568597182029,2135.64423640255,-0.807167602196547,-22.2793990566865,17.3158958247093,483.00037486797
529,1270,236,"Australian pollen","Becher Point","Wetland 1-N",-32.377,115.7242,3,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529843544365384,6569.32292615216,17.9981450031566,13.1656035187395,23.9750314305889,752.292639597846
529,1271,237,"Australian pollen","Becher Point","Wetland 135",-32.3845,115.7598,6,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.539534619202101,6554.39473750333,17.9572458561735,13.1461946528174,23.9314783900872,765.967237633579
529,1272,238,"Australian pollen","Becher Point","Wetland 136",-32.6859,115.7604,7,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.564176157503187,6492.01027844345,17.786329529982,13.0594824672874,23.6791697328572,791.101893879914
529,1273,239,"Australian pollen","Becher Point","Wetland 161",-32.3782,115.7627,6,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.539108241178748,6555.52869325795,17.9603525842683,13.147907764,23.9359977604872,765.545054502534
529,1274,240,"Australian pollen","Becher Point","Wetland 162",-32.379,115.7632,6,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.539183628014787,6555.3747192086,17.9599307375578,13.1477581469925,23.9353227929312,765.627329921841
529,1275,241,"Australian pollen","Becher Point","Wetland 163",-32.3799,115.7633,6,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.539257117353018,6555.20682420159,17.9594707512372,13.1475535825625,23.9346174235265,765.704616053468
529,1276,242,"Australian pollen","Becher Point","Wetland 35",-32.3734,115.7382,4,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529580685969269,6567.72693445339,17.99377242316,13.1590589268881,23.9734486216924,751.98875923042
529,1277,243,"Australian pollen","Becher Point","Wetland 45",-32.3679,115.7346,3,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529329167034797,6570.92351026794,18.0025301651176,13.1684713834411,23.9809656120185,751.807866012118
529,1278,244,"Australian pollen","Becher Point","Wetland 72",-32.3861,115.7546,6,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.53953352050774706,6554.15902591755,17.956600071007,13.1454132788962,23.93085289026,765.927032719961
529,1279,245,"Australian pollen","Becher Point","Wetland 9-14",-32.3705,115.7353,3,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529539226357111,6570.44407857888,18.0012166536408,13.1679394450098,23.9788936594447,752.028435702839
529,1280,246,"Australian pollen","Becher Point","Wetland 9-3",-32.3713,115.7329,3,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529558837485528,6570.31253356341,18.0008562563381,13.1675707861461,23.9785257898561,752.037784139956
529,1281,247,"Australian pollen","Becher Point","Wetland 9-6",-32.3711,115.7352,3,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529583225481721,6570.3349427331,18.0009176513236,13.1677960234621,23.9784421303066,752.073505304385
529,1282,248,"Australian pollen","Becher Point","Wetland swi",-32.3816,115.7326,5,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.529881392754682,6564.08674055001,17.9837992891781,13.1483078025072,23.9647764436685,752.178573378251
529,1283,249,"Australian pollen","Becher Point","Wetland swii",-32.3829,115.7343,5,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.530009613448449,6563.83672255304,17.9831143083645,13.1481407837977,23.9635965883224,752.318697059943
529,1284,250,"Australian pollen","Becher Point","Wetland swiii",-32.3836,115.7352,4,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.530308272815167,6565.87109060942,17.9886879194779,13.1565039180892,23.9658746779294,752.727398739971
529,1285,251,"Australian pollen","Becher Point","Wetland WAWA",-32.3858,115.7648,9,"small (0.01-1 km2)","coastal, other","surface sample","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.538592360528924,6547.95756183158,17.9396097584427,13.1206249682072,23.9226098504658,764.551950140936
530,1286,12281,"Neotoma","Beckman Lake","BECKMAN",45.425,-93.183333,278,"not known","lake","core","0","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1286,12282,"Neotoma","Beckman Lake","BECKMAN",45.425,-93.183333,278,"not known","lake","core","27","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1287,12283,"Neotoma","Beckman Lake","BECKMNBG",45.425,-93.183333,278,"not known","lake","core","-29","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1287,12284,"Neotoma","Beckman Lake","BECKMNBG",45.425,-93.183333,278,"not known","lake","core","-10","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1287,12285,"Neotoma","Beckman Lake","BECKMNBG",45.425,-93.183333,278,"not known","lake","core","9","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1287,12286,"Neotoma","Beckman Lake","BECKMNBG",45.425,-93.183333,278,"not known","lake","core","28","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1287,12287,"Neotoma","Beckman Lake","BECKMNBG",45.425,-93.183333,278,"not known","lake","core","47","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
530,1288,15402,"Neotoma","Beckman Lake","KMH010",45.425,-93.183333,278,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.87547914830379,3408.98875036817,6.83145089185372,-11.4549058909568,22.2699424600684,740.994890861541
531,1289,12288,"Neotoma","Beef Pasture","BEEF2005",37.473105,-108.160375,3060,"not known","terrestrial","core","-55","Wright, A.M. 2012. Low-frequency climate in the Mesa Verde region: Beef Pasture revisited. Pages 41-57 in T.A. Kohler and M.D. Varien, editors. Emergence and collapse of early villages: models of central Mesa Verde archaeology. University of California Press, Berkeley, California, USA. Wright, A.M. 2006. A low-frequency paleoclimatic reconstruction from the La Plata Mountains, Colorado and its implications for agricultural productivity in the Mesa Verde region. Master's thesis. Washington State University, Pullman, Washington, USA.","10.1525/california/9780520270145.003.0003",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1289,12289,"Neotoma","Beef Pasture","BEEF2005",37.473105,-108.160375,3060,"not known","terrestrial","core","14","Wright, A.M. 2012. Low-frequency climate in the Mesa Verde region: Beef Pasture revisited. Pages 41-57 in T.A. Kohler and M.D. Varien, editors. Emergence and collapse of early villages: models of central Mesa Verde archaeology. University of California Press, Berkeley, California, USA. Wright, A.M. 2006. A low-frequency paleoclimatic reconstruction from the La Plata Mountains, Colorado and its implications for agricultural productivity in the Mesa Verde region. Master's thesis. Washington State University, Pullman, Washington, USA.","10.1525/california/9780520270145.003.0003",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1289,12290,"Neotoma","Beef Pasture","BEEF2005",37.473105,-108.160375,3060,"not known","terrestrial","core","45","Wright, A.M. 2012. Low-frequency climate in the Mesa Verde region: Beef Pasture revisited. Pages 41-57 in T.A. Kohler and M.D. Varien, editors. Emergence and collapse of early villages: models of central Mesa Verde archaeology. University of California Press, Berkeley, California, USA. Wright, A.M. 2006. A low-frequency paleoclimatic reconstruction from the La Plata Mountains, Colorado and its implications for agricultural productivity in the Mesa Verde region. Master's thesis. Washington State University, Pullman, Washington, USA.","10.1525/california/9780520270145.003.0003",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12291,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","0","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12292,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","3","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12293,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","14","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12294,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","23","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12295,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","34","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
531,1290,12296,"Neotoma","Beef Pasture","BEEFPAST",37.473105,-108.160375,3060,"not known","terrestrial","core","49","Petersen, K.L. 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.; Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.57916748902752,1502.26599171134,0.617879746441009,-11.4271294743625,12.5529403786298,600.85878435742
532,1291,252,"Australian pollen","Bega Swamp","Bega Swamp core_1011",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1292,253,"Australian pollen","Bega Swamp","Bega Swamp core_1063",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1293,254,"Australian pollen","Bega Swamp","Bega Swamp core_1119",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1294,255,"Australian pollen","Bega Swamp","Bega Swamp core_1180",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1295,256,"Australian pollen","Bega Swamp","Bega Swamp core_1234",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1296,257,"Australian pollen","Bega Swamp","Bega Swamp core_1285",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1297,258,"Australian pollen","Bega Swamp","Bega Swamp core_211",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1298,259,"Australian pollen","Bega Swamp","Bega Swamp core_265",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1299,260,"Australian pollen","Bega Swamp","Bega Swamp core_321",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1300,261,"Australian pollen","Bega Swamp","Bega Swamp core_378",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1301,262,"Australian pollen","Bega Swamp","Bega Swamp core_424",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1302,263,"Australian pollen","Bega Swamp","Bega Swamp core_477",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1303,264,"Australian pollen","Bega Swamp","Bega Swamp core_530",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1304,265,"Australian pollen","Bega Swamp","Bega Swamp core_587",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1305,266,"Australian pollen","Bega Swamp","Bega Swamp core_643",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-7","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1306,267,"Australian pollen","Bega Swamp","Bega Swamp core_699",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-3","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1307,268,"Australian pollen","Bega Swamp","Bega Swamp core_751",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1308,269,"Australian pollen","Bega Swamp","Bega Swamp core_803",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1309,270,"Australian pollen","Bega Swamp","Bega Swamp core_855",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1310,271,"Australian pollen","Bega Swamp","Bega Swamp core_904",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
532,1311,272,"Australian pollen","Bega Swamp","Bega Swamp core_955",-36.5167,149.5,1080,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.83197904803739,3386.96052397452,9.27934390130006,1.82552095106483,16.6064034372303,988.590311643968
533,1312,15081,"Neotoma","Begbie Lake","BEGBIE",48.5855899999999,-123.68293,188,"not known","lake","core","-76","Brown, K.J., N.J.R. Hebda, G. Schoups, N. Conder, K.A.P. Smith, and J.A. Trofymow. 2019. Long-term climate, vegetation and fire regime change in a managed municipal water supply area, British Columbia, Canada. The Holocene 29(9):1411-1424.",,8,"cool evergreen needleleaf forest",2.62447881388222,3417.31579293105,9.3625090217289,3.03238094019066,16.4103621770284,1990.16064964117
533,1312,15082,"Neotoma","Begbie Lake","BEGBIE",48.5855899999999,-123.68293,188,"not known","lake","core","-39","Brown, K.J., N.J.R. Hebda, G. Schoups, N. Conder, K.A.P. Smith, and J.A. Trofymow. 2019. Long-term climate, vegetation and fire regime change in a managed municipal water supply area, British Columbia, Canada. The Holocene 29(9):1411-1424.",,8,"cool evergreen needleleaf forest",2.62447881388222,3417.31579293105,9.3625090217289,3.03238094019066,16.4103621770284,1990.16064964117
533,1312,15083,"Neotoma","Begbie Lake","BEGBIE",48.5855899999999,-123.68293,188,"not known","lake","core","41","Brown, K.J., N.J.R. Hebda, G. Schoups, N. Conder, K.A.P. Smith, and J.A. Trofymow. 2019. Long-term climate, vegetation and fire regime change in a managed municipal water supply area, British Columbia, Canada. The Holocene 29(9):1411-1424.",,8,"cool evergreen needleleaf forest",2.62447881388222,3417.31579293105,9.3625090217289,3.03238094019066,16.4103621770284,1990.16064964117
534,1313,12059,"Neotoma","Begin boardwalk ""Fak8 beginB""","FSPSP8",25.94293,-81.4697,2,"not known","terrestrial, bog/fen/swamp","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.876884306523719,8859.35697904598,24.2722109014958,19.1071665586906,28.466765038479,1288.40229964771
535,1314,18146,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_1",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1315,18155,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_10",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1316,18156,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_11",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1317,18157,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_12",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1318,18158,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_13",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1319,18159,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_14",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1320,18160,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_15",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1321,18161,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_16",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1322,18147,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_2",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1323,18148,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_3",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1324,18149,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_4",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1325,18150,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_5",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1326,18151,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_6",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1327,18152,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_7",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1328,18153,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_8",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1329,18154,"SMPDSv1","Beglika Region W Rhodopes","Beglika moss polsters_9",41.8596,24.0651,1550,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814852540944843,2463.92164860483,5.63266052623227,-5.43252208784609,15.5944504188881,745.24227696036
535,1330,18162,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_1",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1331,18171,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_10",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1332,18172,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_11",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1333,18173,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_12",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1334,18174,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_13",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1335,18175,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_14",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1336,18176,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_15",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1337,18163,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_2",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1338,18164,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_3",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1339,18165,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_4",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1340,18166,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_5",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1341,18167,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_6",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1342,18168,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_7",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1343,18169,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_8",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
535,1344,18170,"SMPDSv1","Beglika Region W Rhodopes","Beglika traps_9",41.8525,24.09083,1550,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814566580282708,2464.34205758027,5.63410552380813,-5.42966383719219,15.6012835116864,745.278543538002
536,1345,18177,"SMPDSv1","Beglors","Barboni_a367",68.3,19.2,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.05127662329834,1109.17044597514,-1.41431363482918,-12.1483856502866,11.1225802607934,759.181551378549
536,1346,18178,"SMPDSv1","Beglors","Barboni_a368",68.3,19.2,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.05127662329834,1109.17044597514,-1.41431363482918,-12.1483856502866,11.1225802607934,759.181551378549
537,1347,1823,"CMPD","Beikan","Beikan",32.3,121.1,22,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02336630165922,5572.56136788253,15.2672914188562,2.73830960486206,27.349536340677,1123.13818978054
538,1348,1824,"CMPD","Beilikekule","Beilikekule",37.05,88.5,4250,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129526192175226,649.314401649758,-5.12810746900115,-18.0112460178195,7.12302370886923,123.856744325518
539,1349,1825,"CMPD","Beilun Estuary","Beilun Estuary *A-0",21.5347,108.0719,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28501822154834,8527.96433553691,23.3642858507861,15.4967305575771,29.0736070532044,1621.99431844858
539,1350,1826,"CMPD","Beilun Estuary","Beilun Estuary *B-0",21.5417,108.0869,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28544533064471,8524.86884350219,23.3558050506909,15.4818597400481,29.0705993202835,1621.87606484704
539,1351,1827,"CMPD","Beilun Estuary","Beilun Estuary A-0",21.535,108.0717,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28501462788925,8527.92966357376,23.3641908591062,15.496564678912,29.0735790875118,1621.98126685355
539,1352,1828,"CMPD","Beilun Estuary","Beilun Estuary A-1",21.5181,108.0717,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2849238400518,8531.19305553375,23.3731316589966,15.5122156471477,29.0765049228316,1622.60945824067
539,1353,1829,"CMPD","Beilun Estuary","Beilun Estuary A-2",21.5233,108.0717,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.284952093052,8530.18973486255,23.3703828352399,15.5074037257818,29.0756049815979,1622.41669602005
539,1354,1830,"CMPD","Beilun Estuary","Beilun Estuary A-3",21.5289,108.0719,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28498737687647,8529.08509409058,23.367356422166,15.5021055113215,29.0746115126999,1622.21042647094
539,1355,1831,"CMPD","Beilun Estuary","Beilun Estuary A-4",21.5342,108.0722,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28502334551213,8528.0260035134,23.3644548041463,15.4970256958642,29.0736576672949,1622.01575759878
539,1356,1832,"CMPD","Beilun Estuary","Beilun Estuary B-0",21.5417,108.0869,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28544533064471,8524.86884350219,23.3558050506909,15.4818597400481,29.0705993202835,1621.87606484704
539,1357,1833,"CMPD","Beilun Estuary","Beilun Estuary B-1",21.5408,108.0903,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28552942829692,8524.64946998078,23.355204027344602,15.4808015579427,29.0703502693264,1621.9428869596
539,1358,1834,"CMPD","Beilun Estuary","Beilun Estuary B-2",21.5408,108.09,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28552158228367,8524.68414576846,23.3552990295026,15.4809683486807,29.0703859930346,1621.93993843799
539,1359,1835,"CMPD","Beilun Estuary","Beilun Estuary B-3",21.5414,108.0883,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28548031964336,8524.76482126166,23.3555200582511,15.4813584087767,29.0704844418049,1621.90092236498
539,1360,1836,"CMPD","Beilun Estuary","Beilun Estuary B-4",21.5417,108.0872,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28545316633602,8524.8341252536,23.3557099322016,15.4816927470957,29.0705635430531,1621.87899175954
539,1361,1837,"CMPD","Beilun Estuary","Beilun Estuary C-0",21.5314,108.1197,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28625211433392,8523.08306185029,23.35091249822,15.4732292315539,29.0685067615122,1622.58964173321
539,1362,1838,"CMPD","Beilun Estuary","Beilun Estuary C-1",21.5478,108.12,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28634946846912,8519.89115453807,23.3421675466796,15.4579483428871,29.0656215575862,1621.98756104584
539,1363,1839,"CMPD","Beilun Estuary","Beilun Estuary C-2",21.5308,108.12,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2862567336333,8523.16419841127,23.3511347901679,15.4736168462338,29.0685757879908,1622.61485271744
539,1364,1840,"CMPD","Beilun Estuary","Beilun Estuary C-3",21.53,108.12,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28625229766951,8523.31805253464,23.3515563083141,15.4743533901328,29.0687147497072,1622.6442550762
539,1365,1841,"CMPD","Beilun Estuary","Beilun Estuary C-4",21.5275,108.1206,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28625427057662,8523.73018631328,23.3526854419542,15.4763247126824,29.0690786091189,1622.74235694934
539,1366,1842,"CMPD","Beilun Estuary","Beilun Estuary D-2",21.5169,108.1194,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28616289060866,8525.90387078189,23.3586407418682,15.4867346574735,29.0710597185709,1623.1179918429
539,1367,1843,"CMPD","Beilun Estuary","Beilun Estuary D-3",21.5142,108.1192,0,"not applicable","coastal, estuarine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2861422409292,8526.44507931876,23.3601235049829,15.489326421559,29.0715517550907,1623.21450922566
540,1368,1844,"CMPD","Beisu Lake","Beisu Lake",45.5,120.7,322,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.427237851610124,3219.67156890785,5.01223384920023,-14.6525658253485,22.514643103055,391.396139064221
541,1369,7433,"EMPDv2","Beitelsvatnet","Hjelle_a22",60.4502224,5.4081633,66,"0.047","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.18837912649036,2587.96225161153,7.09030753866171,0.840189291870616,13.9579699291687,2184.12009236852
542,1370,18179,"SMPDSv1","Belaja kevda","Belaja kevda_SS (Novenko_c208)",64.0178,52.395,224,"not applicable","terrestrial, soil","soil sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36780553441128,1656.14733176147,-1.06997549783974,-18.4014559410556,16.0601979797568,585.139082270819
543,1371,10648,"Neotoma","Belanske Luky","Belanske Luky core top",49.21496,20.387695,679,"1","terrestrial, bog/fen/swamp","core top","modern","Hájková, P., Grootjans, A.B., Lamentowicz, M., Rybníčková, E., Madaras, M., Opravilová, V., Michaelis, D., Hájek, M., Joosten, H. and Wołejko, L., 2012. How a Sphagnum fuscum‐dominated bog changed into a calcareous fen: the unique Holocene history of a Slovak spring‐fed mire. Journal of Quaternary Science, 27(3), pp.233-243.","10.1002/jqs.1534",9,"cool mixed forest",1.14987190644071,2497.76723454901,5.82334011134459,-5.2785457279495,15.2755908603308,866.625823218651
544,1372,18180,"SMPDSv1","Belasitza Mts.","Tonkov_p1",41.3357833333333,23.0042166666666,1640,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.828607383393969,2248.16226314433,4.61610353846429,-6.96362380134503,14.6296219719674,733.253034080834
544,1373,18181,"SMPDSv1","Belasitza Mts.","Tonkov_q1",41.3380194444444,22.9704388888888,1600,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.814539989578615,2305.77802761639,4.86681513547059,-6.68142179309554,14.8699386261685,727.309532587013
545,1374,7997,"EMPDv2","Belaya (Malaya Tym river)","Mikishin-Gvozdeva_a57",50.7858333333333,142.620277777778,100,"not known","fluvial","sediment sample","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22285797345796,1857.50813663511,-0.407612155384214,-18.4652858553005,15.3035202797348,677.717432446821
546,1375,8130,"EMPDv2","Belaya_Gora","Mikishin-Gvozdeva_a193",53.5855555555556,140.351111111111,90,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1780308923352,1854.83624522212,-1.95824764501782,-22.246366914657,15.5270685294369,621.619654525703
547,1376,7038,"EMPDv2","Beles Mountains","EPDcoretop_E1630",41.32,23.02,1400,"5e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.750837620683094,2606.25679142292,6.11899431912118,-5.27093340011251,16.0898540153677,698.476901464835
548,1377,18182,"SMPDSv1","Belia Kanton","Belia Kanton",41.8333,24.3,1490,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","peat surface","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793043558335558,2556.02007952275,6.00430678456784,-4.9868890978431,16.0655979318311,735.821547018476
549,1378,7368,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a1",37.266075,-7.44238,3,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.508344106795314,6415.72725657546,17.5773349495218,11.9124175626271,24.2003501381219,631.05598919031
549,1379,7377,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a10",37.265085,-7.453276,4,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.508821232089778,6412.9825516428,17.569815209980302,11.9051776611913,24.1929077658038,631.412447231085
549,1380,7378,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a11",37.265431,-7.457192,5,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.508935033027139,6410.94216971989,17.5642251225202,11.8974405689323,24.1904773307267,631.485808703417
549,1381,7379,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a12",37.263907,-7.464456,7,"not known","terrestrial","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.509070050601124,6407.04469046946,17.5535470971766,11.8819772595156,24.1866182142279,631.578562761143
549,1382,7369,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a2",37.26689,-7.442391,9,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.507675883299858,6406.12934970456,17.5510393142591,11.8644835196437,24.2038008930104,630.488452709296
549,1383,7370,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a3",37.267658,-7.442447,9,"not known","terrestrial","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.507698658679685,6406.08353039971,17.550913781917,11.8644678468289,24.2035768527429,630.500169312621
549,1384,7371,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a4",37.268111,-7.442302,9,"not known","terrestrial","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.507702139973829,6406.07606717394,17.5508933347231,11.8644468024851,24.2035791573442,630.499595501396
549,1385,7372,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a5",37.268507,-7.441821,9,"not known","terrestrial","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.507685371118924,6406.10848489885,17.5509821504078,11.8644049489454,24.2038487803317,630.48419607416
549,1386,7373,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a6",37.258774,-7.436254,3,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.5078075997025,6416.7911940362,17.5802498466745,11.9121727714408,24.2068034465762,630.704188396896
549,1387,7374,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a7",37.26072,-7.438823,2,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.508117797166151,6417.99787581504,17.5835558241508,11.9202848071283,24.203770781729,630.933642799048
549,1388,7375,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a8",37.261656,-7.443569,4,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.508182480180072,6414.2353845372,17.573247628869,11.9046133019409,24.2011232509906,630.956064345926
549,1389,7376,"EMPDv2","Beliche floodplain, near Azinhal","Fletcher_a9",37.263112,-7.447227,3,"not known","terrestrial, marsh","soil sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.50854289905178,6415.34665582723,17.5762922077458,11.9128081317222,24.1973742617184,631.226823818702
550,1390,4,"AMSS","Belinga","Belinga_30",1.12096,13.17029,925,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.29254643001576,8342.27476510722,22.8555473016636,21.9292369131956,23.8998250104732,1545.33097010883
551,1391,10746,"Bush et al., 2020","Belize1","Belize1",17.24,-88.97,71,"not known","terrestrial","soil sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.22429873841074,9399.78655060218,25.7528398646635,22.9841759993085,27.6657704423284,1963.4259531565
552,1392,10747,"Bush et al., 2020","Belize2","Belize2",17.31,-88.49,25,"not known","terrestrial","soil sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.13246317392991,9434.30012062634,25.8473975907571,23.1725786788802,27.6553739365407,1795.11854869935
553,1393,12297,"Neotoma","Bell's Lake","BELLS",65.016667,-127.483333,580,"not known","lake","core","0","Szeicz, J.M., G.M. MacDonald, and A. Duk-Rodkin. 1995. Late Quaternary vegetation history of the central Mackenzie Mountains, Northwest Territories, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology 113:351-371.",,15,"cold evergreen needleleaf forest",0.736598372786148,1333.21720377254,-7.7828700353984,-28.4934022916145,13.9155513521518,315.948462821011
554,1394,10748,"Bush et al., 2020","Bellavista","Bellavista",8.954486,-82.826244,1659,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.2419979247925,6682.79180471394,18.3090186430519,17.3640628826841,19.0313660707082,3724.69379559869
554,1394,10749,"Bush et al., 2020","Bellavista","Bellavista",8.9545,-82.8764,1379,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.14105077975357,7182.85929177376,19.6790665528048,18.8436860637832,20.4222899055687,3570.78537487712
554,1394,10750,"Bush et al., 2020","Bellavista","Bellavista",8.954531,-82.828137,1659,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.24205117271656,6683.06803449842,18.309775436982,17.3648899683129,19.0320969776807,3724.86493754174
554,1394,10751,"Bush et al., 2020","Bellavista","Bellavista",8.958632,-82.831901,1887,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.32675905475805,6281.74632780259,17.2102639117879,16.1255856873359,17.9145534256728,3853.49517274912
554,1394,10752,"Bush et al., 2020","Bellavista","Bellavista",8.96087,-82.814599,1934,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34380196049688,6196.1222771367,16.9756774716074,15.8618294591429,17.6762809245098,3878.03180872066
554,1394,10753,"Bush et al., 2020","Bellavista","Bellavista",8.976912,-82.806004,1982,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.36146052905385,6111.06454608333,16.7426425920091,15.600469527554,17.4387722754486,3903.83624535897
554,1394,10754,"Bush et al., 2020","Bellavista","Bellavista",8.981393,-82.805545,1982,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.36142049026977,6111.29897976845,16.743284876078,15.6014799272693,17.4392145051286,3903.73815168201
554,1394,10755,"Bush et al., 2020","Bellavista","Bellavista",8.985431,-82.797148000000007,2165,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.4302212598382,5787.17890088343,15.8552846599546,14.6017771301839,16.6014698947821,4004.88390812885
554,1394,10756,"Bush et al., 2020","Bellavista","Bellavista",8.987639,-82.805415,2163,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.42972692882731,5792.41535188959,15.8696311010674,14.6177269929999,16.6146282897039,4004.74932286121
554,1394,10757,"Bush et al., 2020","Bellavista","Bellavista",8.987758,-82.806316,2163,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.42975764583712,5792.59160712866,15.8701139921333,14.6182390861073,16.6150695861736,4004.85929276007
554,1394,10758,"Bush et al., 2020","Bellavista","Bellavista",8.989452,-82.795872,2165,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.4301175727681,5787.26348907025,15.8555164084116,14.602392072719,16.6014523620928,4004.62627261371
554,1394,10759,"Bush et al., 2020","Bellavista","Bellavista",8.8963081,-82.812981,1159,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.05896716957361,7562.0514714475,20.7179492368425,19.8769188742488,21.4806229178694,3439.96977120708
555,1395,273,"Australian pollen","Bellenden Ker","Bellenden Ker",-17.25,145.917,1500,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.295076323109045,6660.52453430861,18.2480124227633,12.7645730786792,22.1900934265977,564.039272197544
556,1396,18183,"SMPDSv1","Bellengreville","EPDcoretop_E1371",49.116667,-0.215,20,"not known","terrestrial, marsh","not known","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.941373467731239,4046.68271204835,11.0868019508174,4.99824919564702,17.6767453021397,734.347610988564
557,1397,13715,"Neotoma","Bellshill Lake","BELLSHIL",52.60273,-111.556055,662,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.588007617989608,2356.07296208707,2.00789625717523,-15.8567567332936,16.7739334123299,426.154354380469
557,1397,13716,"Neotoma","Bellshill Lake","BELLSHIL",52.60273,-111.556055,662,"not known","lake","core","-6","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.588007617989608,2356.07296208707,2.00789625717523,-15.8567567332936,16.7739334123299,426.154354380469
557,1397,13717,"Neotoma","Bellshill Lake","BELLSHIL",52.60273,-111.556055,662,"not known","lake","core","13","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.588007617989608,2356.07296208707,2.00789625717523,-15.8567567332936,16.7739334123299,426.154354380469
557,1397,13718,"Neotoma","Bellshill Lake","BELLSHIL",52.60273,-111.556055,662,"not known","lake","core","31","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.588007617989608,2356.07296208707,2.00789625717523,-15.8567567332936,16.7739334123299,426.154354380469
557,1397,13719,"Neotoma","Bellshill Lake","BELLSHIL",52.60273,-111.556055,662,"not known","lake","core","49","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.588007617989608,2356.07296208707,2.00789625717523,-15.8567567332936,16.7739334123299,426.154354380469
558,1398,12298,"Neotoma","Belmont Bog","BELMONT",42.25,-77.916667,497,"not known","terrestrial, bog/fen/swamp","core","0","Spear, R.W., and N.G. Miller. 1976. A radiocarbon dated pollen diagram from the Allegheny Plateau of New York State. Journal of the Arnold Arboretum 57(3):369-403.",,9,"cool mixed forest",1.17218304249243,3168.96651099826,7.45413947620125,-6.02173936128217,19.8771360335962,972.620410944728
558,1399,15403,"Neotoma","Belmont Bog","RWS024",42.25,-77.916667,497,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W. and Miller, N.G., 1976. A radiocarbon dated pollen diagram from the Allegheny Plateau of New York State. Journal of the Arnold Arboretum, 57(3), pp.369-403.","https://www.jstor.org/stable/43794515",9,"cool mixed forest",1.17218304249243,3168.96651099826,7.45413947620125,-6.02173936128217,19.8771360335962,972.620410944728
559,1400,18184,"SMPDSv1","Beloe Lake","Beloe Lake_SS",55.17088,40.17088,125,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.829214831109444,2752.15451408722,4.81699334568832,-10.7819053238356,18.8430835765233,577.33385667023
559,1401,6224,"EMPDv2","Beloe Lake","Beloe1_Binney2017_E2174",55.65,83.17,104,"not known","lake","surface sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.776537379021456,2348.62311137717,0.757646136849586,-17.8709787827777,19.3450508501828,468.895075120297
559,1402,6225,"EMPDv2","Beloe Lake","Beloe2_Binney2017_E2175",55.39,82.7,104,"not known","lake","surface sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.762964509547484,2345.44675971762,0.718146207815638,-17.9433699429268,19.3488336677352,461.704574871826
560,1403,14354,"Neotoma","Benacadie 4","MS-82-37",45.91664,-60.69363,7,"not known","fluvial","profile or section","-33","Mott, R.J., and R.R. Stea. 1993. Late-glacial (Allerod/ Younger Dryas) buried organic deposits, Nova Scotia, Canada. Quaternary Science Reviews 12:645-657.",,9,"cool mixed forest",1.9430501870233,2566.97324906096,5.89458011135064,-5.48562212740284,17.5666257918015,1376.96667316153
561,1404,14014,"Neotoma","Benach Lake","BENACH",45.9274999999999,-92.256,297,"not known","lake","core","-48","Unpublished data",,9,"cool mixed forest",0.908614500508867,3154.17341724468,5.89521205408772,-12.0779658309125,21.1201658726391,740.517223139172
562,1405,274,"Australian pollen","Bendenumbun","Bendenumbun_a",-5.7611,145.0222,3700,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.857628036067538,5500.57191888802,15.070060051748,13.8954908557576,15.8037283978562,1195.59642498807
562,1406,275,"Australian pollen","Bendenumbun","Bendenumbun_b",-5.7611,145.0222,3700,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.857628036067538,5500.57191888802,15.070060051748,13.8954908557576,15.8037283978562,1195.59642498807
563,1407,14204,"Neotoma","Benicia State Park","BENICIA",38.0734722222222,-122.193055555555,0,"not known","coastal, other","core","-38","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene C13 and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145.","10.1016/j.yqres.2004.02.011",20,"xerophytic woods/scrub",0.42900073886205,5540.47122951346,15.1793732315437,8.34946800440527,21.3323824372649,553.707820760598
563,1407,14205,"Neotoma","Benicia State Park","BENICIA",38.0734722222222,-122.193055555555,0,"not known","coastal, other","core","-1","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene C13 and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145.","10.1016/j.yqres.2004.02.011",20,"xerophytic woods/scrub",0.42900073886205,5540.47122951346,15.1793732315437,8.34946800440527,21.3323824372649,553.707820760598
564,1408,14863,"Neotoma","Benson Pond","BENSON",42.377775,-73.09478,499,"not known","lake","core","-53.922","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.38078973504732,2868.96950796455,5.82573739598251,-8.99827401379868,19.1619158818225,1096.96621363908
564,1408,14864,"Neotoma","Benson Pond","BENSON",42.377775,-73.09478,499,"not known","lake","core","4.73","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.38078973504732,2868.96950796455,5.82573739598251,-8.99827401379868,19.1619158818225,1096.96621363908
565,1409,11880,"Neotoma","Bently Lake","BU419",46.739595,-87.93967,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06029421626029,2607.55175121873,4.01097389551464,-12.2446822523755,18.6378193124289,799.34622662349
565,1410,17392,"Neotoma","Bently Lake","TW099",44,-84.18,229,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.927450996131752,3210.37212214466,7.25301704555337,-7.13557367935412,20.634873298362,782.367446775846
566,1411,11878,"Neotoma","Bently Pond I","BU417",46.75404,-87.929165,446,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06390793128653,2602.75753776868,4.01198539486779,-12.1843782351184,18.6074072257989,801.562885939441
567,1412,11877,"Neotoma","Bently Pond II","BU416",46.75396,-87.93089,446,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06387599089464,2602.70211195416,4.01160164678959,-12.1851023422948,18.607154814376,801.53658908689
568,1413,8470,"EMPDv2","Berchozimskoye peatland-1","Novenko_c33",52.9856,46.4596,307,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.7417294614447,2809.2519605205,4.30075790560544,-12.5024999351522,19.7286298998938,552.497622745694
569,1414,8471,"EMPDv2","Berchozimskoye peatland-2","Novenko_c34",52.9865,46.4651,308,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.742408501014267,2807.27340427552,4.29230068163491,-12.5101244427145,19.71907853893,552.847663995928
570,1415,8472,"EMPDv2","Berchozimskoye peatland-3","Novenko_c35",52.9925,46.4492,310,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.743616156239931,2803.4937429303,4.27693857169308,-12.5224565962982,19.6993833315228,553.475667655112
571,1416,21932,"SMPDSv1","Beregovoj kosa","Beregovoj kosa_SS",45.3673,36.7722,24,"0.01","terrestrial, soil","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.557743168507829,4154.32352816686,11.2634653679701,-1.01985521173102,22.9228494600058,565.609326970193
572,1417,18185,"SMPDSv1","Bereket Basin","Bakker_a10",37.550905,30.297804,1486,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374822600947351,3760.23594334959,10.2749148446919,-0.316308391233477,20.757119011313,509.217076023197
572,1418,18186,"SMPDSv1","Bereket Basin","Bakker_a11",37.546514,30.300453,1449,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.378572730541782,3830.82980057569,10.4875441578505,-0.0446081706564954,20.9360646439301,516.005975947174
572,1419,18188,"SMPDSv1","Bereket Basin","Bakker_a12",37.538868,30.290816,1427,"not applicable","terrestrial","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.380675191539734,3876.00872974871,10.6184372467728,0.12281316460085,21.0473958531897,520.021956643921
572,1420,5978,"EMBSeCBIO","Bereket Basin","Bakker_a13",37.5388,30.284311,1446,"medium (1.1-50 km2)","terrestrial","surface sample","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.378700020043646,3838.90893032333,10.5113342077329,-0.0140259799916714,20.9578919940906,516.520119413994
572,1421,18187,"SMPDSv1","Bereket Basin","tonkov_q1",37.5388,30.284311,1446,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.378700020043646,3838.90893032333,10.5113342077329,-0.0140259799916714,20.9578919940906,516.520119413994
573,1422,9580,"EMPDv2","Bereozovka","Mikishin-Gvozdeva_a74",47.416389,142.676667,12,"not known","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65994358617226,2136.37851462204,2.48666422748011,-12.43217069061,16.5811304520104,1003.7928844541
574,1423,7406,"EMPDv2","Berezewo, Bialowieska Forest","Galka_a1",53.0821,24.1600305555556,158,"0.02","terrestrial","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.815400596097327,2929.68972550206,7.07423421074679,-5.13671980566198,17.6618642886574,576.186276762408
575,1424,18189,"SMPDSv1","Berezovskoye Mire","Berezovskoye_core top",53.669444,38.585278,161,"0.17","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.761304611634125,2845.6494506978,5.22435546941701,-10.1662414812713,19.0436458020041,553.346136325827
576,1425,8585,"EMPDv2","Bergsetbreen","Pardoe_c33",61.38,7.05,580,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.56317762506252,1741.14180073386,3.89928674707832,-3.64673224985175,12.0347469690899,1755.13947618301
576,1426,8586,"EMPDv2","Bergsetbreen","Pardoe_c34",61.38,7.05,520,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.70426562906273,1791.58986486457,4.16279392365832,-3.23608667261705,12.1828218588209,1819.08051888274
576,1427,8587,"EMPDv2","Bergsetbreen","Pardoe_c35",61.38,7.05,480,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.79882941334697,1826.47013879026,4.33846537471165,-2.96232295446058,12.2815384519749,1861.70788068255
576,1428,8588,"EMPDv2","Bergsetbreen","Pardoe_c36",61.38,7.05,460,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.84626443744173,1844.32775376781,4.42630110023831,-2.82815959106058,12.3308967485519,1883.02156158246
576,1429,8589,"EMPDv2","Bergsetbreen","Pardoe_c37",61.38,7.05,450,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.87002032950382,1853.34495901415,4.47021896300164,-2.76182047965016,12.3555758968404,1893.67840203241
577,1430,7434,"EMPDv2","Berhovdatjorna","Hjelle_a23",60.241178,5.8435012,85,"0.109","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.28834440292206,2592.04313142881,7.10148803131182,0.695800947388913,14.0773271336741,2261.50438870875
578,1431,10334,"IBERIA","Bermu Mire","BERMU_0.02",39.4341,-4.146,783,"not known","terrestrial, bog/fen/swamp","core","-25","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.382337558344324,4908.03016471167,13.4466579855114,5.21184172062816,23.7744508721876,477.092645318687
578,1432,10335,"IBERIA","Bermu Mire","BERMU_0.04",39.4341,-4.146,783,"not known","terrestrial, bog/fen/swamp","core","-4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.382337558344324,4908.03016471167,13.4466579855114,5.21184172062816,23.7744508721876,477.092645318687
578,1433,10336,"IBERIA","Bermu Mire","BERMU_0.06",39.4341,-4.146,783,"not known","terrestrial, bog/fen/swamp","core","16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.382337558344324,4908.03016471167,13.4466579855114,5.21184172062816,23.7744508721876,477.092645318687
578,1434,10337,"IBERIA","Bermu Mire","BERMU_0.08",39.4341,-4.146,783,"not known","terrestrial, bog/fen/swamp","core","35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.382337558344324,4908.03016471167,13.4466579855114,5.21184172062816,23.7744508721876,477.092645318687
579,1435,17340,"Neotoma","Berry Lake","TW043",44.888333,-88.479444,257,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.948610105299682,3116.92351081092,6.28991458452893,-9.9445843033364,20.7545433822489,774.421050186797
580,1436,14865,"Neotoma","Berry Pond","BERRYAN",42.6200599999999,-71.086805,39,"not known","lake","core","-50.6","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34616521396027,3697.69345455205,9.57355431898963,-3.42458532969481,21.9646584993779,1176.6220763725
580,1436,14866,"Neotoma","Berry Pond","BERRYAN",42.6200599999999,-71.086805,39,"not known","lake","core","-29.6","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34616521396027,3697.69345455205,9.57355431898963,-3.42458532969481,21.9646584993779,1176.6220763725
580,1436,14867,"Neotoma","Berry Pond","BERRYAN",42.6200599999999,-71.086805,39,"not known","lake","core","-8.7","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34616521396027,3697.69345455205,9.57355431898963,-3.42458532969481,21.9646584993779,1176.6220763725
580,1436,14868,"Neotoma","Berry Pond","BERRYAN",42.6200599999999,-71.086805,39,"not known","lake","core","12.3","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34616521396027,3697.69345455205,9.57355431898963,-3.42458532969481,21.9646584993779,1176.6220763725
580,1436,14869,"Neotoma","Berry Pond","BERRYAN",42.6200599999999,-71.086805,39,"not known","lake","core","33.2","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34616521396027,3697.69345455205,9.57355431898963,-3.42458532969481,21.9646584993779,1176.6220763725
581,1437,18190,"SMPDSv1","Besbog","EPDcoretop_E113",41.75,23.666667,2240,"not known","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07721294964191,1566.253574798,1.51569792299361,-10.1244973425684,11.5291348387113,864.520441585731
582,1438,18191,"SMPDSv1","Beskavac","Bakker_a14",37.568253,30.368871,1348,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389234302909594,4030.92960202141,11.0436427452641,0.664149480809228,21.3977879250794,534.426876896559
583,1439,6511,"EMPDv2","Betenkes Section","Binney2017_E2930",67.67,134.42,135,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.492779121273112,1291.32726090071,-15.8469887092991,-47.2200893733269,14.6329767842195,186.231329754472
584,1440,7068,"EMPDv2","Betenkyos Adycha river","EPDcoretop_E1815",67.67,135.58,135,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.503096482485072,1287.05808359572,-15.7600401285693,-46.9330771857105,14.5675973000085,188.509481200448
585,1441,18192,"SMPDSv1","Beysehir Golu","EPDcoretop_E114",37.541667,31.5,1120,"0.2","terrestrial, marsh","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.408343161058955,4371.04575518356,11.9754678224207,1.67286009945902,22.1876638636665,566.586304455753
586,1442,6328,"EMPDv2","Bezrukova 1","Binney2017_E2702",53.63,108.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.578003119661355,2088.53754166001,-1.75106393233422,-24.1321183411686,18.0037815665298,343.521878784721
587,1443,6329,"EMPDv2","Bezrukova 10","Binney2017_E2703",51.63,105.25,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.775533639514186,2353.37767363975,0.310914714264975,-20.7963528148214,18.9641921864578,454.877518343218
588,1444,6330,"EMPDv2","Bezrukova 100","Binney2017_E2704",53.15,107.22,460,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.605122790271593,2215.35989404599,-0.92962381436429,-23.1691400467847,18.5150259269859,364.107555744574
589,1445,6331,"EMPDv2","Bezrukova 101","Binney2017_E2705",53.13,107.27,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.596307283810248,2172.74529326532,-1.23346345282882,-23.614272717926,18.3390164007346,358.584481573732
590,1446,6332,"EMPDv2","Bezrukova 102","Binney2017_E2706",53.12,107.13,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.610143747152272,2208.27117750817,-0.973655783515606,-23.2272970590572,18.4771436187856,366.641215635273
591,1447,6333,"EMPDv2","Bezrukova 103","Binney2017_E2707",53.12,107.2,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.615218256229233,2172.28475327691,-1.19759696276044,-23.509420743506,18.3039590303078,368.085884063567
592,1448,6334,"EMPDv2","Bezrukova 104","Binney2017_E2708",53.13,107.13,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.610203396409618,2207.88540300838,-0.975793627426919,-23.2292052360972,18.4753739821782,366.589814343019
593,1449,6335,"EMPDv2","Bezrukova 105","Binney2017_E2709",53.1,107.02,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.613572851479251,2212.78029756161,-0.944976142463447,-23.1917085580705,18.4945724138461,368.663491237305
594,1450,6336,"EMPDv2","Bezrukova 106","Binney2017_E2710",53.27,107.73,580,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.617179686676667,2021.66253606073,-2.21362200510553,-24.858508354935,17.6139499437904,364.566891532992
595,1451,6337,"EMPDv2","Bezrukova 107","Binney2017_E2711",53.03,106.78,460,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.61889271165872,2235.31647487037,-0.803370458235212,-23.0147932403501,18.592898717496,372.682510156244
596,1452,6338,"EMPDv2","Bezrukova 108","Binney2017_E2712",52.97,106.7,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.63911065646796,2255.86757121691,-0.654829627513219,-22.801121277619,18.6646323757194,384.896668681258
597,1453,6339,"EMPDv2","Bezrukova 109","Binney2017_E2713",52.55,106.03,485,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.695979884617375,2244.44961181454,-0.651071935616374,-22.647439384066,18.5905134302031,408.883153678454
598,1454,6340,"EMPDv2","Bezrukova 11","Binney2017_E2714",51.75,105.12,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.81411586322307,2328.7454183814,0.254803965890281,-20.6716825762596,18.822451833985,469.944191472737
599,1455,6341,"EMPDv2","Bezrukova 110","Binney2017_E2715",52.65,106.27,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.640534353157198,2256.14551383842,-0.705002105872305,-22.9715995723719,18.7032746314262,382.348293089813
600,1456,6342,"EMPDv2","Bezrukova 111","Binney2017_E2716",52.6,106.05,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.700100758094563,2227.88882792205,-0.738217659227791,-22.7257264312484,18.5029668735696,410.44787438583
601,1457,6343,"EMPDv2","Bezrukova 112","Binney2017_E2717",52.1,105.37,700,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.849577295109974,2082.775386852,-1.10358007360135,-22.1084399650733,17.5237445687078,490.672823153093
602,1458,6344,"EMPDv2","Bezrukova 113","Binney2017_E2718",52.1,105.33,680,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.845913744711696,2099.98263597057,-1.01364194044402,-22.0276985885361,17.6211898854245,488.074787698836
603,1459,6345,"EMPDv2","Bezrukova 114","Binney2017_E2719",52.03,105.4,565,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.798427492745059,2203.24576733912,-0.534795353869069,-21.7374498236039,18.2209227161348,461.495611995054
604,1460,6346,"EMPDv2","Bezrukova 115","Binney2017_E2720",52.02,105.38,560,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.798114566960951,2208.06825768534,-0.507304848242808,-21.7065076592027,18.2464407150994,461.240123056877
605,1461,6347,"EMPDv2","Bezrukova 116","Binney2017_E2721",52.02,105.37,570,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.802477064460232,2199.36943988319,-0.545912821112128,-21.7258550204244,18.1951934018803,463.759596349732
606,1462,6348,"EMPDv2","Bezrukova 117","Binney2017_E2722",52.27,105.35,620,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.829740591763931,2120.5244184157,-1.00068367059085,-22.2220697583466,17.8020328442654,471.849040748195
607,1463,6349,"EMPDv2","Bezrukova 118","Binney2017_E2723",52.23,105.38,640,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.830967616909,2127.17525273741,-0.90609108966259,-22.0092176182196,17.7962496990518,476.978907266322
608,1464,6350,"EMPDv2","Bezrukova 119","Binney2017_E2724",52.23,105.37,645,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.833473814537334,2122.85458715872,-0.924783169822421,-22.0166322077661,17.7703708892648,478.365698476959
609,1465,6351,"EMPDv2","Bezrukova 12","Binney2017_E2725",51.83,105.05,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.814798672624773,2303.53901195927,0.0953632757474432,-20.8715967088221,18.725433008065,464.641982638277
610,1466,6352,"EMPDv2","Bezrukova 120","Binney2017_E2726",52.15,105.27,670,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.848380953250782,2105.85983737559,-0.978524658186338,-21.9832436019516,17.6555718640924,487.924490121803
611,1467,6353,"EMPDv2","Bezrukova 121","Binney2017_E2727",52.08,104.73,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.881320434959177,2260.04622948961,0.00952863028378659,-20.6076037497991,18.4409360707017,494.5454003829
612,1468,6354,"EMPDv2","Bezrukova 122","Binney2017_E2728",52.08,104.72,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.879948890582008,2264.36134144756,0.0314147409839069,-20.5872591306783,18.4649134189765,493.57777800207
613,1469,6355,"EMPDv2","Bezrukova 123","Binney2017_E2729",52.07,104.72,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.878111350325036,2269.18800036912,0.0547619774773685,-20.5686701666811,18.4917978710971,492.509681120393
614,1470,6356,"EMPDv2","Bezrukova 124","Binney2017_E2730",52.02,104.87,472,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.841946574080079,2271.55507982979,-0.0248642185505909,-20.8715725124908,18.5419548472897,475.952255537841
615,1471,6357,"EMPDv2","Bezrukova 125","Binney2017_E2731",52.03,104.83,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.851779423145543,2254.85608026771,-0.0962867023977756,-20.9038832056408,18.443774058026,481.65253530431
616,1472,6358,"EMPDv2","Bezrukova 126","Binney2017_E2732",52.58,106.05,550,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.716542542673938,2177.37086521989,-0.993033046358895,-22.9288364147115,18.2303762555508,417.694390983285
617,1473,6359,"EMPDv2","Bezrukova 127","Binney2017_E2733",52.08,105.43,600,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.809491499365922,2170.13911714462,-0.699874605968308,-21.8704200309233,18.0358948780551,467.578502385389
618,1474,6360,"EMPDv2","Bezrukova 128","Binney2017_E2734",52.67,106.22,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.679213048302867,2258.33219025232,-0.606769627641853,-22.6745813303214,18.6723172136597,401.17890983368
619,1475,6361,"EMPDv2","Bezrukova 129","Binney2017_E2735",52.65,106.2,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.681938441890978,2253.36966861399,-0.629601288770054,-22.6879866507009,18.6454091689887,402.410664247362
620,1476,6362,"EMPDv2","Bezrukova 13","Binney2017_E2736",55.32,109.47,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.613498103644973,1909.5526972862301,-3.3118013166609,-26.4636346190589,17.4245246809472,350.125892454556
621,1477,6363,"EMPDv2","Bezrukova 130","Binney2017_E2737",52.6,105.98,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.69863459427742,2248.14238954568,-0.626015685403098,-22.6098106411489,18.6084732484664,409.790018343797
622,1478,6364,"EMPDv2","Bezrukova 131","Binney2017_E2738",52.58,105.95,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.703901683386344,2238.24816935535,-0.671085020242679,-22.634200160612,18.5538067276942,412.185414527833
623,1479,6365,"EMPDv2","Bezrukova 132","Binney2017_E2739",53.32,105,615,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.879942133467314,2039.25336718558,-1.43358570064999,-22.516797038758,17.4111134946659,477.352196554369
624,1480,6366,"EMPDv2","Bezrukova 133","Binney2017_E2740",53.32,105.03,620,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.877643494290937,2033.08529318142,-1.48493174587888,-22.60440551612,17.3853972907615,475.947680043772
625,1481,6367,"EMPDv2","Bezrukova 134","Binney2017_E2741",53.32,105.05,610,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.878622784249899,2046.2655850205,-1.39095624225341,-22.4696833102777,17.4458931539522,477.191162219699
626,1482,6368,"EMPDv2","Bezrukova 135","Binney2017_E2742",53.33,105.07,612,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.877080153681623,2043.30062321533,-1.4183186645327,-22.5199653406132,17.4346204883463,476.249891142457
627,1483,6369,"EMPDv2","Bezrukova 136","Binney2017_E2743",53.35,105.1,622,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.873403203656548,2029.45785956022,-1.52955335968166,-22.7017464812727,17.3758024201646,473.619970158919
628,1484,6370,"EMPDv2","Bezrukova 137","Binney2017_E2744",53.37,105.08,630,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.872444286614801,2017.77746573851,-1.6155448537344,-22.8278838499953,17.323055731002,472.333004424646
629,1485,6371,"EMPDv2","Bezrukova 138","Binney2017_E2745",53.35,105.03,635,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.874113723487338,2012.02453122214,-1.64632074121457,-22.853664488611,17.2924945522924,472.874031988548
630,1486,6372,"EMPDv2","Bezrukova 139","Binney2017_E2746",51.52,104,460,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.936894574686153,2295.48464915688,0.367639720546847,-19.8870192900557,18.4948141030541,539.304367488539
631,1487,6373,"EMPDv2","Bezrukova 14","Binney2017_E2747",53.72,108.33,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.579029128459265,2082.1951437306,-1.78325964862139,-24.1485503329886,17.9726431482462,343.377045510726
632,1488,6374,"EMPDv2","Bezrukova 140","Binney2017_E2748",51.5,104.07,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.943258296087418,2263.2704393081,0.206499888344845,-20.0355826967392,18.3118267019597,545.696118809617
633,1489,6375,"EMPDv2","Bezrukova 141","Binney2017_E2749",51.48,104.03,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.942041634977339,2271.40950653299,0.248681525422171,-19.9942046398256,18.3562857702025,544.764619986993
634,1490,6376,"EMPDv2","Bezrukova 142","Binney2017_E2750",51.67,103.67,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.964966758033738,2275.56772769545,0.324156049775998,-19.7955461580239,18.3512135867187,556.853313931122
635,1491,6377,"EMPDv2","Bezrukova 143","Binney2017_E2751",51.62,103.62,700,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.998805052980883,2074.27876467253,-0.656183689738631,-20.6013171317913,17.1810435779378,592.924467548965
636,1492,6378,"EMPDv2","Bezrukova 144","Binney2017_E2752",51.6,103.63,720,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00173399913996,2058.12943199598,-0.736915604595346,-20.6695540726745,17.0850661039783,596.220158934768
637,1493,6379,"EMPDv2","Bezrukova 145","Binney2017_E2753",51.42,104.58,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.876085179668529,2317.87379312255,0.357530630382656,-20.1945572234558,18.6666509953738,508.086618596861
638,1494,6380,"EMPDv2","Bezrukova 146","Binney2017_E2754",51.52,105.07,468,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.799624643592002,2332.81171830891,0.278564639613394,-20.6453137821068,18.8206815780535,468.44232848204
639,1495,6381,"EMPDv2","Bezrukova 147","Binney2017_E2755",51.43,104.47,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.892885176550632,2287.74988387004,0.230830248681844,-20.2523438848001,18.4884509373118,518.826156729716
640,1496,6382,"EMPDv2","Bezrukova 148","Binney2017_E2756",51.72,105.88,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.660812298635428,2335.71667979055,-0.0769270324194252,-21.8965048335048,18.9976215353931,401.256391410061
641,1497,6383,"EMPDv2","Bezrukova 149","Binney2017_E2757",51.53,105.05,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.801175349364682,2334.35443891607,0.289548389998801,-20.6268372962293,18.8288418422487,468.834383529618
642,1498,6384,"EMPDv2","Bezrukova 15","Binney2017_E2758",51.75,104.92,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.831544400403095,2325.35698819943,0.280149537927101,-20.5421508475973,18.786871612713,478.336827165231
643,1499,6385,"EMPDv2","Bezrukova 150","Binney2017_E2759",51.7,105.92,462,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.651049753502996,2349.0251267271,-0.0250715276948137,-21.8882264002816,19.0764840027501,396.096674362706
644,1500,6386,"EMPDv2","Bezrukova 151","Binney2017_E2760",53.23,107.68,660,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.629461857272567,1972.94955809683,-2.51058402557431,-25.2400625275574,17.3344855652142,370.807628876764
645,1501,6387,"EMPDv2","Bezrukova 152","Binney2017_E2761",53.22,107.68,595,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.61517422433926106,2035.20616527066,-2.10319006150499,-24.7093184649389,17.6567307806072,364.952756623216
646,1502,6388,"EMPDv2","Bezrukova 153","Binney2017_E2762",51.83,104.17,750,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0055761987448,2022.55881720738,-1.01841797260852,-21.1112086930045,16.9743353601419,585.668748566099
647,1503,6389,"EMPDv2","Bezrukova 154","Binney2017_E2763",51.85,104.18,740,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00234484474618,2030.59399914427,-0.980475181585941,-21.084828038922,17.0237835189204,582.881557628696
648,1504,6390,"EMPDv2","Bezrukova 155","Binney2017_E2764",55.55,109.88,550,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.630609089477062,1803.57408697616,-3.98522705978857,-27.0935190941255,16.8706656398079,357.66941347347
649,1505,6391,"EMPDv2","Bezrukova 156","Binney2017_E2765",55.6,109.95,570,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.636401022416601,1781.95046571242,-4.14656289836842,-27.2848049060326,16.7622959638221,359.746489582555
650,1506,6392,"EMPDv2","Bezrukova 157","Binney2017_E2766",55.68,109.97,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.617087705147458,1875.61254310458,-3.57240371988257,-26.7542963916486,17.2994601004753,352.086618838497
651,1507,6393,"EMPDv2","Bezrukova 158","Binney2017_E2767",55.75,109.92,468,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.628617645753316,1844.50247240429,-3.88380782170901,-27.2344053970773,17.2110637395472,355.598875953339
652,1508,6394,"EMPDv2","Bezrukova 159","Binney2017_E2768",55.73,109.95,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.617214652911124,1879.26008420234,-3.55804011329937,-26.7524827458675,17.3254195001518,351.883523973883
653,1509,6395,"EMPDv2","Bezrukova 16","Binney2017_E2769",54.92,109.22,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.605745135145497,1941.3473552975,-2.96409865061623,-25.9262240773831,17.4727833633247,348.476578110371
654,1510,6396,"EMPDv2","Bezrukova 160","Binney2017_E2770",55.82,109.73,462,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.65362205562306,1840.82662320495,-4.13146550560485,-27.7907860145481,17.307797639444,360.280572324099
655,1511,6397,"EMPDv2","Bezrukova 161","Binney2017_E2771",55.62,109.3,460,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.626912058883936,1885.74294973879,-3.54714459170479,-26.8290404324053,17.3416708068327,353.253128503042
656,1512,6398,"EMPDv2","Bezrukova 162","Binney2017_E2772",55.68,109.38,468,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.629333135598465,1876.93553973877,-3.62258580842909,-26.9363511221824,17.3062617557882,354.152779468895
657,1513,6399,"EMPDv2","Bezrukova 163","Binney2017_E2773",55.52,109.15,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.640138518000398,1865.7950828736,-3.72581812236982,-27.1049216675201,17.240952988967,356.221016496789
658,1514,6400,"EMPDv2","Bezrukova 164","Binney2017_E2774",55.52,109.87,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.614906250588444,1872.47291787325,-3.53698241940325,-26.6352119987056,17.2473812605941,351.744402655858
659,1515,6401,"EMPDv2","Bezrukova 17","Binney2017_E2775",51.65,105.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.741423655921677,2353.30711716503,0.239959232958815,-21.0308897004107,18.9998309806649,437.98772658317
660,1516,6402,"EMPDv2","Bezrukova 18","Binney2017_E2776",55.35,109.43,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.614834312994555,1907.92582942608,-3.32845217179976,-26.4894927248596,17.4190998145796,350.366406274588
661,1517,6403,"EMPDv2","Bezrukova 19","Binney2017_E2777",51.8,105.12,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.808266051516775,2306.17688099898,0.0944929117138827,-20.9091191024551,18.7437714143161,462.037395448002
662,1518,6404,"EMPDv2","Bezrukova 2","Binney2017_E2778",53.33,107.58,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.591439211348966,2162.13394257273,-1.29204777918916,-23.6364587734924,18.3085106685398,353.999830889337
663,1519,6405,"EMPDv2","Bezrukova 20","Binney2017_E2779",53.72,108.33,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.579029128459265,2082.1951437306,-1.78325964862139,-24.1485503329886,17.9726431482462,343.377045510726
664,1520,6406,"EMPDv2","Bezrukova 21","Binney2017_E2780",52.18,106.12,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.658986844430418,2310.65670453807,-0.304625766813431,-22.3365270629577,18.9345373670087,393.873519451234
665,1521,6407,"EMPDv2","Bezrukova 22","Binney2017_E2781",51.65,105.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.741423655921677,2353.30711716503,0.239959232958815,-21.0308897004107,18.9998309806649,437.98772658317
666,1522,6408,"EMPDv2","Bezrukova 23","Binney2017_E2782",52.85,107.67,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.581577907532131,2196.39091397448,-1.10095821362931,-23.472395823163,18.4709281190707,352.959163095739
667,1523,6409,"EMPDv2","Bezrukova 24","Binney2017_E2783",53.77,108.08,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.583796035962507,2077.93834694604,-1.82404661114045,-24.2201544431758,17.9493452841941,345.355417344432
668,1524,6410,"EMPDv2","Bezrukova 25","Binney2017_E2784",53.9,108.75,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.579951692774385,2035.31424694961,-2.10056588016188,-24.5248398095359,17.7785325130365,342.538366690021
669,1525,6411,"EMPDv2","Bezrukova 26","Binney2017_E2785",55.32,109.47,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.613498103644973,1909.5526972862301,-3.3118013166609,-26.4636346190589,17.4245246809472,350.125892454556
670,1526,6412,"EMPDv2","Bezrukova 27","Binney2017_E2786",51.8,105.12,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.808266051516775,2306.17688099898,0.0944929117138827,-20.9091191024551,18.7437714143161,462.037395448002
671,1527,6413,"EMPDv2","Bezrukova 28","Binney2017_E2787",51.78,105.45,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.743470073938446,2319.70299811286,0.0039374546811874,-21.3943722732872,18.8757736153437,433.389127135188
672,1528,6414,"EMPDv2","Bezrukova 29","Binney2017_E2788",52.52,106.18,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.672902026865298,2282.88096007659,-0.479599191621535,-22.5635810740668,18.8020781176676,398.876048724316
673,1529,6415,"EMPDv2","Bezrukova 3","Binney2017_E2789",53.53,108,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.580859402450868,2107.85896528064,-1.61687060760303,-23.958230156165,18.0790810141504,346.297321732817
674,1530,6416,"EMPDv2","Bezrukova 30","Binney2017_E2790",55.38,109.4,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.616069077765311,1906.42861511102,-3.34517195413984,-26.517102773473,17.414956247206,350.59927331094
675,1531,6417,"EMPDv2","Bezrukova 31","Binney2017_E2791",52.05,105.85,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.676421188522483,2314.57071118603,-0.24145772457617,-22.1746151958079,18.9395760401252,402.356251089004
676,1532,6418,"EMPDv2","Bezrukova 32","Binney2017_E2792",52.55,106.15,451,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.676112171462079,2280.03478950183,-0.489711001702494,-22.5607933219611,18.785594412634,400.178409323254
677,1533,6419,"EMPDv2","Bezrukova 33","Binney2017_E2793",54.17,108.48,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.588727690126711,2034.75221645045,-2.12617774798447,-24.5843432962408,17.7828739377528,344.210054633054
678,1534,6420,"EMPDv2","Bezrukova 34","Binney2017_E2794",55.35,109.43,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.614834312994555,1907.92582942608,-3.32845217179976,-26.4894927248596,17.4190998145796,350.366406274588
679,1535,6421,"EMPDv2","Bezrukova 35","Binney2017_E2795",52.5,106.2,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.671209345679432,2283.42040098004,-0.479553042959969,-22.5706232760659,18.8058186938352,398.206092609743
680,1536,6422,"EMPDv2","Bezrukova 36","Binney2017_E2796",52.5,106.2,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.671209345679432,2283.42040098004,-0.479553042959969,-22.5706232760659,18.8058186938352,398.206092609743
681,1537,6423,"EMPDv2","Bezrukova 37","Binney2017_E2797",53.63,108.23,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.57986269914007,2090.13768191181,-1.71416395894338,-24.0333673491973,17.9963029585373,344.948658169022
682,1538,6424,"EMPDv2","Bezrukova 38","Binney2017_E2798",53.12,108.1,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.572013988301424,2150.84051699685,-1.38211304552204,-23.7814478613963,18.283111575069,345.513117523908
683,1539,6425,"EMPDv2","Bezrukova 39","Binney2017_E2799",53.62,108.12,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.580626809466151,2096.26959734719,-1.67909081895961,-24.0028727963568,18.0242466906939,345.468764130824
684,1540,6426,"EMPDv2","Bezrukova 4","Binney2017_E2800",53.53,108,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.580859402450868,2107.85896528064,-1.61687060760303,-23.958230156165,18.0790810141504,346.297321732817
685,1541,6427,"EMPDv2","Bezrukova 40","Binney2017_E2801",53.63,108.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.578003119661355,2088.53754166001,-1.75106393233422,-24.1321183411686,18.0037815665298,343.521878784721
686,1542,6428,"EMPDv2","Bezrukova 41","Binney2017_E2802",53.33,107.58,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.591439211348966,2162.13394257273,-1.29204777918916,-23.6364587734924,18.3085106685398,353.999830889337
687,1543,6429,"EMPDv2","Bezrukova 42","Binney2017_E2803",52.08,105.25,617,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.852772316454509,2155.01474090429,-0.687109475809056,-21.6366500453562,17.9136041140277,488.254881082644
688,1544,6430,"EMPDv2","Bezrukova 43","Binney2017_E2804",51.55,104.95,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.806474171585741,2344.81781961919,0.357255195670076,-20.5256005709556,18.8830751991648,469.987171545087
689,1545,6431,"EMPDv2","Bezrukova 44","Binney2017_E2805",53.63,108.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.578003119661355,2088.53754166001,-1.75106393233422,-24.1321183411686,18.0037815665298,343.521878784721
690,1546,6432,"EMPDv2","Bezrukova 45","Binney2017_E2806",54.92,109.22,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.605745135145497,1941.3473552975,-2.96409865061623,-25.9262240773831,17.4727833633247,348.476578110371
691,1547,6433,"EMPDv2","Bezrukova 46","Binney2017_E2807",52.52,106.15,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.675006293425233,2282.68355760995,-0.476839758301511,-22.5517812218451,18.7999328334163,399.778300286718
692,1548,6434,"EMPDv2","Bezrukova 47","Binney2017_E2808",52.08,105.25,617,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.852772316454509,2155.01474090429,-0.687109475809056,-21.6366500453562,17.9136041140277,488.254881082644
693,1549,6435,"EMPDv2","Bezrukova 48","Binney2017_E2809",51.83,104.6,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.886810816185444,2267.89051288019,0.0744901339946056,-20.4956040423165,18.4582722381277,502.00631011426
694,1550,6436,"EMPDv2","Bezrukova 49","Binney2017_E2810",51.82,104.62,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.882170155006987,2277.47112302796,0.117509207113783,-20.4693648746249,18.5138274082815,499.125585178661
695,1551,6437,"EMPDv2","Bezrukova 5","Binney2017_E2811",53.83,109.13,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.577747952707876,2036.82014139936,-2.17740613530114,-24.8426545687937,17.8103541749163,343.903474190539
696,1552,6438,"EMPDv2","Bezrukova 50","Binney2017_E2812",51.83,104.58,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.891411281978267,2258.69486765292,0.0336291763135734,-20.5197192060369,18.4041921941724,505.04543783588
697,1553,6439,"EMPDv2","Bezrukova 51","Binney2017_E2813",51.83,104.42,485,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.897624353938927,2260.37331450762,0.063064198390768,-20.4420004754027,18.4029765708314,508.43371383532
698,1554,6440,"EMPDv2","Bezrukova 52","Binney2017_E2814",51.82,104.43,495,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.900730983186106,2252.04350589307,0.0225610513581275,-20.4759106461362,18.3551896947207,510.798143908845
699,1555,6441,"EMPDv2","Bezrukova 53","Binney2017_E2815",51.83,104.52,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.898031181547888,2248.81335823322,-0.00513137958175704,-20.5284943371181,18.3434670280399,509.256398751395
700,1556,6442,"EMPDv2","Bezrukova 54","Binney2017_E2816",51.82,104.48,510,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.903615450971079,2239.64871458264,-0.0430119936456365,-20.5432069573233,18.2873725507616,513.059852806966
701,1557,6443,"EMPDv2","Bezrukova 55","Binney2017_E2817",51.82,104.3,505,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.910770845376831,2240.79082201274,-0.0140900641194591,-20.4612159602657,18.2820840245117,517.062003609749
702,1558,6444,"EMPDv2","Bezrukova 56","Binney2017_E2818",51.82,104.35,525,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.915519508846696,2224.07038083291,-0.100465261839561,-20.5442084660243,18.1889571966249,520.6041687728
703,1559,6445,"EMPDv2","Bezrukova 57","Binney2017_E2819",51.85,104.33,520,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.914694391850256,2227.04629153392,-0.0848288300106051,-20.527686642464,18.2069942353716,519.424817137254
704,1560,6446,"EMPDv2","Bezrukova 58","Binney2017_E2820",51.27,104.67,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.862454473440976,2323.29627528943,0.364424600431765,-20.2414998031714,18.6932573526951,504.070723011435
705,1561,6447,"EMPDv2","Bezrukova 59","Binney2017_E2821",51.63,103.67,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.96578555832889,2276.16677550894,0.326594533184158,-19.7953317460819,18.3532267629194,557.860552341774
706,1562,6448,"EMPDv2","Bezrukova 6","Binney2017_E2822",54.17,108.48,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.588727690126711,2034.75221645045,-2.12617774798447,-24.5843432962408,17.7828739377528,344.210054633054
707,1563,6449,"EMPDv2","Bezrukova 60","Binney2017_E2823",51.5,104.98,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.807314364420871,2330.04854242464,0.282686821923554,-20.5970180187212,18.7969202629265,472.642709240539
708,1564,6450,"EMPDv2","Bezrukova 61","Binney2017_E2824",51.42,104.6,478,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.877085571288115,2311.2542038705,0.323521930939349,-20.2282485921465,18.630013558802,509.123071779269
709,1565,6451,"EMPDv2","Bezrukova 62","Binney2017_E2825",51.45,104.47,510,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.896809236549363,2278.01907167487,0.185105226826669,-20.2858679034314,18.4335511688621,521.186492631081
710,1566,6452,"EMPDv2","Bezrukova 63","Binney2017_E2826",51.53,105.1,525,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.817298653124636,2282.70995899393,0.0418160291255086,-20.8241244352861,18.5337129250884,480.784379656816
711,1567,6453,"EMPDv2","Bezrukova 64","Binney2017_E2827",51.53,105.08,530,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.820842270489186,2277.85635490272,0.0229776169109528,-20.8274087919834,18.5041977109239,482.866977287358
712,1568,6454,"EMPDv2","Bezrukova 65","Binney2017_E2828",51.52,105.05,515,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.817713281382323,2290.92561336842,0.0889102545052976,-20.767201166278,18.5771867014393,480.484367484833
713,1569,6455,"EMPDv2","Bezrukova 66","Binney2017_E2829",51.52,105.03,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.804057744196265,2330.05898469778,0.273510668094859,-20.6281641034983,18.8020069595624,470.736741643517
714,1570,6456,"EMPDv2","Bezrukova 67","Binney2017_E2830",51.5,104.98,467,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.806282836134553,2332.7051691148,0.294914731296537,-20.5883975371579,18.8121795176498,471.932220238785
715,1571,6457,"EMPDv2","Bezrukova 68","Binney2017_E2831",51.43,104.47,600,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.921817125500656,2199.60811924923,-0.190804167758022,-20.5825990968736,17.9790265589813,540.851513677057
716,1572,6458,"EMPDv2","Bezrukova 69","Binney2017_E2832",51.45,104.45,580,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.918412341188655,2215.70366361315,-0.110020831422136,-20.5105053869728,18.0727989354789,537.341380791996
717,1573,6459,"EMPDv2","Bezrukova 7","Binney2017_E2833",51.67,105.33,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.739792307105957,2352.18486103026,0.227771074516377,-21.0580824098222,18.9977434471848,436.9520760448
718,1574,6460,"EMPDv2","Bezrukova 70","Binney2017_E2834",51.48,104.92,530,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.831985666754708,2276.96066938067,0.0473019166374926,-20.7349474761033,18.4843678733838,489.236411771314
719,1575,6461,"EMPDv2","Bezrukova 71","Binney2017_E2835",51.47,104.87,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.825747728925833,2302.56178163603,0.175590492963747,-20.6194751365214,18.628572693189,484.262262811568
720,1576,6462,"EMPDv2","Bezrukova 72","Binney2017_E2836",51.47,104.83,510,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.832874463912395,2292.74384070459,0.137149729388992,-20.627407027178,18.5689125532451,488.483742744416
721,1577,6463,"EMPDv2","Bezrukova 73","Binney2017_E2837",51.43,104.78,530,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.841406012121887,2276.19568456322,0.0681051761887161,-20.6561662160921,18.4668161370582,494.800411598302
722,1578,6464,"EMPDv2","Bezrukova 74","Binney2017_E2838",51.42,104.7,550,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.891664011240054,2249.9464794652,0.0191825040092791,-20.4985784575323,18.2828982481367,521.440981780564
723,1579,6465,"EMPDv2","Bezrukova 75","Binney2017_E2839",51.43,104.65,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.871871325065176,2319.19754455059,0.354278562727249,-20.2216097574894,18.6789844249647,505.635822643677
724,1580,6466,"EMPDv2","Bezrukova 76","Binney2017_E2840",51.43,104.6,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.873776528789948,2322.38385117114,0.376338602038249,-20.1861292296751,18.6942204110239,506.34281428928
725,1581,6467,"EMPDv2","Bezrukova 77","Binney2017_E2841",51.42,104.52,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.88312514529378,2307.35891742261,0.316352906936981,-20.2046732169466,18.6030344865644,512.496251550297
726,1582,6468,"EMPDv2","Bezrukova 78","Binney2017_E2842",51.45,104.43,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.887841904201226,2312.4787581871,0.354256479468856,-20.1387618100733,18.6286992827988,513.837982234471
727,1583,6469,"EMPDv2","Bezrukova 79","Binney2017_E2843",51.45,104.6,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.882226964928844,2299.13214591966,0.267468158511435,-20.2681774908393,18.5626027219766,512.047175514498
728,1584,6470,"EMPDv2","Bezrukova 8","Binney2017_E2844",53.63,108.3,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.578003119661355,2088.53754166001,-1.75106393233422,-24.1321183411686,18.0037815665298,343.521878784721
729,1585,6471,"EMPDv2","Bezrukova 80","Binney2017_E2845",51.47,104.35,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.897092023390513,2300.47739117094,0.309261772889536,-20.1432569174332,18.5565963016479,519.097785918977
730,1586,6472,"EMPDv2","Bezrukova 81","Binney2017_E2846",51.47,104.32,475,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.897658918884622,2304.0945900807,0.330547425680564,-20.115748188024,18.575456201802,519.097958564421
731,1587,6473,"EMPDv2","Bezrukova 82","Binney2017_E2847",51.53,104.07,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.93579581396781,2292.75793722053,0.348811082726001,-19.9168996204289,18.4824745516051,538.731292177438
732,1588,6474,"EMPDv2","Bezrukova 83","Binney2017_E2848",51.45,104.3,610,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.936614203525315,2185.33689825498,-0.23715825315622,-20.5619420202658,17.8881184785404,549.309577772288
733,1589,6475,"EMPDv2","Bezrukova 84","Binney2017_E2849",51.47,104.08,690,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.984155554147517,2101.88769342243,-0.580131144439387,-20.6816203680273,17.3716493789282,581.879942168993
734,1590,6476,"EMPDv2","Bezrukova 85","Binney2017_E2850",51.47,104.33,550,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.918585033311104,2237.98451978656,0.0133345311268541,-20.3708431026997,18.1961003165143,535.209612510604
735,1591,6477,"EMPDv2","Bezrukova 86","Binney2017_E2851",51.47,104.37,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.89574873213511,2301.03352064234,0.30913645124873,-20.1504651762266,18.5609554664308,518.36561496221
736,1592,6478,"EMPDv2","Bezrukova 87","Binney2017_E2852",51.45,104.43,500,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.896581209018412,2285.77479276796,0.227648999141985,-20.2383167833783,18.4759399505171,520.444461602258
737,1593,6479,"EMPDv2","Bezrukova 88","Binney2017_E2853",51.47,104.25,510,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.938194980180199,2263.44650648699,0.192253885490699,-20.0868350440095,18.317521224425,543.513281731542
738,1594,6480,"EMPDv2","Bezrukova 89","Binney2017_E2854",51.37,104.58,800,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.968411947637758,2031.85380678113,-1.02122913678237,-21.2685047463621,16.99358261419,580.332101523317
739,1595,6481,"EMPDv2","Bezrukova 9","Binney2017_E2855",53.63,108.23,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.57986269914007,2090.13768191181,-1.71416395894338,-24.0333673491973,17.9963029585373,344.948658169022
740,1596,6482,"EMPDv2","Bezrukova 90","Binney2017_E2856",51.42,104.37,820,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.98944494284984,2007.25380548557,-1.11830123267823,-21.2830252519844,16.8399984455367,592.614621002091
741,1597,6483,"EMPDv2","Bezrukova 91","Binney2017_E2857",51.4,104.4,790,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.978188309792207,2034.4660631903,-0.987305298632656,-21.1896555861624,17.0026497349696,584.771241857444
742,1598,6484,"EMPDv2","Bezrukova 92","Binney2017_E2858",51.37,104.6,830,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.97568410375931,2006.78425687143,-1.14719912256703,-21.3714160963905,16.8443971369653,586.248223710953
743,1599,6485,"EMPDv2","Bezrukova 93","Binney2017_E2859",51.48,104.18,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.931076066873684,2297.26080386419,0.359146815639135,-19.9380055544263,18.5102248007387,536.805886402768
744,1600,6486,"EMPDv2","Bezrukova 94","Binney2017_E2860",51.5,104.13,463,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.932801811983185,2297.02605278863,0.363091749926289,-19.9214182590986,18.5078551239349,537.349935520892
745,1601,6487,"EMPDv2","Bezrukova 95","Binney2017_E2861",51.42,104.45,700,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.95105716489634,2112.40753937708,-0.610712678381412,-20.906407876147,17.4674236436154,563.478715810358
746,1602,6488,"EMPDv2","Bezrukova 96","Binney2017_E2862",53.17,107.25,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.596434702499898,2195.43143943517,-1.08043992698881,-23.414790862029,18.4335460382725,359.356035210691
747,1603,6489,"EMPDv2","Bezrukova 97","Binney2017_E2863",53.2,107.4,480,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.595569043357464,2158.79472034994,-1.3157588409349,-23.7022355983955,18.2748604785935,357.436786482289
748,1604,6490,"EMPDv2","Bezrukova 98","Binney2017_E2864",53.23,107.52,490,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.595801264594363,2142.30273961229,-1.41683896035617,-23.8211753753035,18.1965246368258,357.033798046824
749,1605,6491,"EMPDv2","Bezrukova 99","Binney2017_E2865",53.15,107.23,465,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.606025445428565,2209.36928350158,-0.966706079534086,-23.2158993232759,18.4863161861651,364.383857105632
750,1606,9503,"EMPDv2","Bezymyannoye lake area","Novenko_c151",69.3756,88.4083,31,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.70011326628049,996.01823141246,-9.77880284133436,-29.2727963749945,12.6579106612411,467.32000006108
751,1607,15404,"Neotoma","BI01","BI01",57.113333,-76.39,190,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",31,"tundra",1.32853461427057,898.726893398209,-6.31698342885437,-24.5014958329111,9.30456031207632,548.712996284197
752,1608,15406,"Neotoma","BI03","BI03",57.123333,-76.405,250,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",31,"tundra",1.38068158554681,873.568265079503,-6.48212051533551,-24.6656429337151,9.13847676957715,568.732170117749
753,1609,15407,"Neotoma","BI04","BI04",57.123333,-76.415,250,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",31,"tundra",1.38065178977151,873.486981479806,-6.48255564015428,-24.6668995124398,9.13749276787611,568.708142188967
754,1610,15408,"Neotoma","BI05","BI05",57.125,-76.408333,260,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",31,"tundra",1.38939913583736,869.390867136176,-6.50979310372547,-24.6933208497424,9.11054412312504,572.064070277445
755,1611,7142,"EMPDv2","Bialowieza Forest","EPDcoretop_E2153",52.75,23.88,165,"12.5","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.782953783286983,2984.4204852893,7.30070221111607,-4.91040141731993,17.8435560622945,561.421395272602
755,1612,7141,"EMPDv2","Bialowieza Forest","EPDcoretop_E2234",52.75,23.88,165,"12.5","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.782953783286983,2984.4204852893,7.30070221111607,-4.91040141731993,17.8435560622945,561.421395272602
756,1613,276,"Australian pollen","Bibra Lake","Bibra Lake (BL2)_1",-32.1,115.833,35,"12.6","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.485574182019061,6623.31763809024,18.1460757207952,13.1477939691624,24.3105451937388,704.997658906067
756,1614,277,"Australian pollen","Bibra Lake","Bibra Lake (BL2)_2",-32.1,115.833,35,"12.6","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.485574182019061,6623.31763809024,18.1460757207952,13.1477939691624,24.3105451937388,704.997658906067
756,1615,278,"Australian pollen","Bibra Lake","Bibra Lake (BL2)_3",-32.1,115.833,35,"12.6","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.485574182019061,6623.31763809024,18.1460757207952,13.1477939691624,24.3105451937388,704.997658906067
757,1616,18193,"SMPDSv1","Bienwald","Dambach_a251",49.009,8.1717,124,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.797053951635388,3668.13373383009,10.0496814625482,0.827132552100648,18.9732321719288,612.026457651125
757,1617,18194,"SMPDSv1","Bienwald","Dambach_a252",49.009,8.1717,124,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.797053951635388,3668.13373383009,10.0496814625482,0.827132552100648,18.9732321719288,612.026457651125
757,1618,18195,"SMPDSv1","Bienwald","Dambach_a253",49.009,8.1717,124,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.797053951635388,3668.13373383009,10.0496814625482,0.827132552100648,18.9732321719288,612.026457651125
757,1619,18196,"SMPDSv1","Bienwald","Dambach_a254",49.009,8.1717,124,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.797053951635388,3668.13373383009,10.0496814625482,0.827132552100648,18.9732321719288,612.026457651125
757,1620,18197,"SMPDSv1","Bienwald","Dambach_a255",49.0111,8.0593,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809667135741291,3656.85717651767,10.0187867849799,0.820917071982382,18.9277374853143,621.167843705326
757,1621,18198,"SMPDSv1","Bienwald","Dambach_a256",49.0111,8.0593,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809667135741291,3656.85717651767,10.0187867849799,0.820917071982382,18.9277374853143,621.167843705326
757,1622,18199,"SMPDSv1","Bienwald","Dambach_a257",49.0111,8.0593,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809667135741291,3656.85717651767,10.0187867849799,0.820917071982382,18.9277374853143,621.167843705326
757,1623,18200,"SMPDSv1","Bienwald","Dambach_a258",49.0115,8.0598,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80966460506495,3656.81823766917,10.0186801032032,0.8207211595791,18.927670878416,621.160351356115
757,1624,18201,"SMPDSv1","Bienwald","Dambach_a259",49.0115,8.0598,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80966460506495,3656.81823766917,10.0186801032032,0.8207211595791,18.927670878416,621.160351356115
757,1625,18202,"SMPDSv1","Bienwald","Dambach_a260",49.0115,8.0598,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80966460506495,3656.81823766917,10.0186801032032,0.8207211595791,18.927670878416,621.160351356115
757,1626,18203,"SMPDSv1","Bienwald","Dambach_a261",49.0115,8.0598,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80966460506495,3656.81823766917,10.0186801032032,0.8207211595791,18.927670878416,621.160351356115
757,1627,18204,"SMPDSv1","Bienwald","Dambach_a262",49.0119,8.0582,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809673909665218,3656.85773921391,10.0187883266134,0.821065648510103,18.9276146367327,621.159275493927
757,1628,18205,"SMPDSv1","Bienwald","Dambach_a263",49.0119,8.0582,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809673909665218,3656.85773921391,10.0187883266134,0.821065648510103,18.9276146367327,621.159275493927
757,1629,18206,"SMPDSv1","Bienwald","Dambach_a264",49.0119,8.0582,135,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809673909665218,3656.85773921391,10.0187883266134,0.821065648510103,18.9276146367327,621.159275493927
757,1630,18207,"SMPDSv1","Bienwald","Dambach_a265",49.0207,8.0406,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814140983707102,3651.38305952987,10.0037892041914,0.811233379119868,18.9093298944212,624.288991444774
757,1631,18208,"SMPDSv1","Bienwald","Dambach_a266",49.0207,8.0406,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814140983707102,3651.38305952987,10.0037892041914,0.811233379119868,18.9093298944212,624.288991444774
757,1632,18209,"SMPDSv1","Bienwald","Dambach_a267",49.0207,8.0406,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814140983707102,3651.38305952987,10.0037892041914,0.811233379119868,18.9093298944212,624.288991444774
757,1633,18210,"SMPDSv1","Bienwald","Dambach_a268",49.0211,8.1764,130,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803506577577737,3658.90464839495,10.0243962969725,0.804726518906735,18.9461301135074,616.600843611374
757,1634,18211,"SMPDSv1","Bienwald","Dambach_a269",49.0211,8.1764,130,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803506577577737,3658.90464839495,10.0243962969725,0.804726518906735,18.9461301135074,616.600843611374
757,1635,18212,"SMPDSv1","Bienwald","Dambach_a270",49.0211,8.1764,130,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803506577577737,3658.90464839495,10.0243962969725,0.804726518906735,18.9461301135074,616.600843611374
757,1636,18213,"SMPDSv1","Bienwald","Dambach_a271",49.0217,8.0413,144,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819596210437125,3644.20002856641,9.98410966730524,0.79479689862433,18.8879643023695,628.283308995541
757,1637,18214,"SMPDSv1","Bienwald","Dambach_a272",49.0217,8.0413,144,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819596210437125,3644.20002856641,9.98410966730524,0.79479689862433,18.8879643023695,628.283308995541
757,1638,18215,"SMPDSv1","Bienwald","Dambach_a273",49.0217,8.0413,144,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819596210437125,3644.20002856641,9.98410966730524,0.79479689862433,18.8879643023695,628.283308995541
757,1639,18216,"SMPDSv1","Bienwald","Dambach_a274",49.0217,8.0413,144,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819596210437125,3644.20002856641,9.98410966730524,0.79479689862433,18.8879643023695,628.283308995541
757,1640,18217,"SMPDSv1","Bienwald","Dambach_a275",49.0221,8.1732,130,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803532037069719,3658.97821213227,10.0245978414583,0.80539580765941,18.9460012371158,616.60083294197
757,1641,18218,"SMPDSv1","Bienwald","Dambach_a276",49.0265,8.1628,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814403279290814,3645.12691523803,9.98664908284391,0.775589715764867,18.9036119925942,624.526421046193
757,1642,18219,"SMPDSv1","Bienwald","Dambach_a277",49.0265,8.1628,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814403279290814,3645.12691523803,9.98664908284391,0.775589715764867,18.9036119925942,624.526421046193
757,1643,18220,"SMPDSv1","Bienwald","Dambach_a278",49.0265,8.1628,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814403279290814,3645.12691523803,9.98664908284391,0.775589715764867,18.9036119925942,624.526421046193
757,1644,18221,"SMPDSv1","Bienwald","Dambach_a279",49.0265,8.1628,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814403279290814,3645.12691523803,9.98664908284391,0.775589715764867,18.9036119925942,624.526421046193
757,1645,18222,"SMPDSv1","Bienwald","Dambach_a280",49.0274,8.16,132,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805794309781448,3656.41329422691,10.0175706691148,0.801593802243545,18.9369159349444,618.171625641658
757,1646,18223,"SMPDSv1","Bienwald","Dambach_a281",49.0274,8.16,132,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805794309781448,3656.41329422691,10.0175706691148,0.801593802243545,18.9369159349444,618.171625641658
757,1647,18224,"SMPDSv1","Bienwald","Dambach_a282",49.0274,8.16,132,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805794309781448,3656.41329422691,10.0175706691148,0.801593802243545,18.9369159349444,618.171625641658
757,1648,18225,"SMPDSv1","Bienwald","Dambach_a283",49.0274,8.16,132,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805794309781448,3656.41329422691,10.0175706691148,0.801593802243545,18.9369159349444,618.171625641658
757,1649,18226,"SMPDSv1","Bienwald","Dambach_a284",49.04,8.1427,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813506020915395,3646.59294790286,9.99066561069276,0.781705012115157,18.9056901779204,623.633620813034
757,1650,18227,"SMPDSv1","Bienwald","Dambach_a285",49.04,8.1427,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813506020915395,3646.59294790286,9.99066561069276,0.781705012115157,18.9056901779204,623.633620813034
757,1651,18228,"SMPDSv1","Bienwald","Dambach_a286",49.04,8.1427,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813506020915395,3646.59294790286,9.99066561069276,0.781705012115157,18.9056901779204,623.633620813034
757,1652,18229,"SMPDSv1","Bienwald","Dambach_a287",49.04,8.1427,139,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813506020915395,3646.59294790286,9.99066561069276,0.781705012115157,18.9056901779204,623.633620813034
757,1653,18230,"SMPDSv1","Bienwald","Dambach_a288",49.0403,8.1472,128,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801595287756683,3661.86027756363,10.0324939111332,0.815438652229229,18.9516639662057,614.8665310282
757,1654,18231,"SMPDSv1","Bienwald","Dambach_a289",49.0403,8.1472,128,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801595287756683,3661.86027756363,10.0324939111332,0.815438652229229,18.9516639662057,614.8665310282
757,1655,18232,"SMPDSv1","Bienwald","Dambach_a290",49.0403,8.1472,128,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801595287756683,3661.86027756363,10.0324939111332,0.815438652229229,18.9516639662057,614.8665310282
757,1656,18233,"SMPDSv1","Bienwald","Dambach_a291",49.0547,8.1983,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793775010586594,3668.84514160636,10.0516305249489,0.821542886433576,18.9776685816506,608.930046086871
757,1657,18234,"SMPDSv1","Bienwald","Dambach_a292",49.0547,8.1983,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793775010586594,3668.84514160636,10.0516305249489,0.821542886433576,18.9776685816506,608.930046086871
757,1658,18235,"SMPDSv1","Bienwald","Dambach_a293",49.0547,8.1983,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793775010586594,3668.84514160636,10.0516305249489,0.821542886433576,18.9776685816506,608.930046086871
757,1659,18236,"SMPDSv1","Bienwald","Dambach_a294",49.0547,8.1983,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793775010586594,3668.84514160636,10.0516305249489,0.821542886433576,18.9776685816506,608.930046086871
757,1660,18237,"SMPDSv1","Bienwald","Dambach_a295",49.0557,8.1977,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793782528324321,3668.8168068996,10.0515528956153,0.821525130682832,18.9775123476366,608.919666471228
757,1661,18238,"SMPDSv1","Bienwald","Dambach_a296",49.0557,8.1977,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793782528324321,3668.8168068996,10.0515528956153,0.821525130682832,18.9775123476366,608.919666471228
757,1662,18239,"SMPDSv1","Bienwald","Dambach_a297",49.0557,8.1977,121,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793782528324321,3668.8168068996,10.0515528956153,0.821525130682832,18.9775123476366,608.919666471228
757,1663,18240,"SMPDSv1","Bienwald","Dambach_a298",49.0577,8.2062,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792661445151189,3669.75532247545,10.0541241711656,0.822053591816853,18.9811697226371,608.069897616815
757,1664,18241,"SMPDSv1","Bienwald","Dambach_a299",49.0577,8.2062,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792661445151189,3669.75532247545,10.0541241711656,0.822053591816853,18.9811697226371,608.069897616815
757,1665,18242,"SMPDSv1","Bienwald","Dambach_a300",49.0577,8.2062,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792661445151189,3669.75532247545,10.0541241711656,0.822053591816853,18.9811697226371,608.069897616815
757,1666,18243,"SMPDSv1","Bienwald","Dambach_a380",52.7579,13.9802,160,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.754464472048595,3534.66323940794,9.58404892690609,-1.00111164542038,18.9269066360208,529.694120802087
758,1667,18244,"SMPDSv1","Big berezovsky","Big berezovsky_SS",53.6694,38.5847,156,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.755255726753806,2850.85106362154,5.23375927882056,-10.1834738295989,19.0819476120377,549.256150295698
759,1668,14025,"Neotoma","Big Cypress (core 03-9-16-3)","CYPRESS3",25.7045,-80.873,1,"not known","lake","core","-46","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.844318993229774,8999.17757699198,24.6552810328547,19.8458543201671,28.5943396699657,1255.14582786482
759,1668,14026,"Neotoma","Big Cypress (core 03-9-16-3)","CYPRESS3",25.7045,-80.873,1,"not known","lake","core","-31","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.844318993229774,8999.17757699198,24.6552810328547,19.8458543201671,28.5943396699657,1255.14582786482
759,1668,14027,"Neotoma","Big Cypress (core 03-9-16-3)","CYPRESS3",25.7045,-80.873,1,"not known","lake","core","-2","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.844318993229774,8999.17757699198,24.6552810328547,19.8458543201671,28.5943396699657,1255.14582786482
759,1668,14028,"Neotoma","Big Cypress (core 03-9-16-3)","CYPRESS3",25.7045,-80.873,1,"not known","lake","core","13","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.844318993229774,8999.17757699198,24.6552810328547,19.8458543201671,28.5943396699657,1255.14582786482
759,1668,14029,"Neotoma","Big Cypress (core 03-9-16-3)","CYPRESS3",25.7045,-80.873,1,"not known","lake","core","43","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.844318993229774,8999.17757699198,24.6552810328547,19.8458543201671,28.5943396699657,1255.14582786482
760,1669,14030,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","-46","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14031,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","-31","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14032,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","-16","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14033,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","-1","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14034,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","14","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14035,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","29","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
760,1669,14036,"Neotoma","Big Cypress (core 03-9-16-6)","CYPRESS6",25.695,-80.87,1,"not known","lake","core","44","Bernhardt, C.E., and D.A. Willard. 2006. Marl prairie vegetation response to 20th century hydrologic change. U.S. Geological Survey Open-File Report 2006-135, U.S.G.S., Reston, Virginia, USA.",,17,"temperate evergreen needleleaf open woodland",0.843981255752184,8999.85347905735,24.6571328193352,19.8494236643506,28.5949240597091,1254.82390673044
761,1670,14349,"Neotoma","Big Cypress Bend [End boardwalk ""Fak10 endB""]","FAKIII98",25.949,-81.46761,2,"not known","terrestrial, bog/fen/swamp","core","-35","Donders, T.H., F. Wagner, D.L. Dilcher, and H. Visscher. 2005. Mid- to late-Holocene El Nino-Southern Oscillation dynamics reflected in the subtropical terrestrial realm. Proceedings of the National Academy of Sciences of the United States of America 102(31):10904-10908.","10.1073/pnas.0505015102",4,"warm-temperate evergreen and mixed forest",0.877129396104501,8858.85030931131,24.2708227652365,19.1046479821708,28.4662348521155,1288.63830836841
761,1670,14350,"Neotoma","Big Cypress Bend [End boardwalk ""Fak10 endB""]","FAKIII98",25.949,-81.46761,2,"not known","terrestrial, bog/fen/swamp","core","-4","Donders, T.H., F. Wagner, D.L. Dilcher, and H. Visscher. 2005. Mid- to late-Holocene El Nino-Southern Oscillation dynamics reflected in the subtropical terrestrial realm. Proceedings of the National Academy of Sciences of the United States of America 102(31):10904-10908.","10.1073/pnas.0505015102",4,"warm-temperate evergreen and mixed forest",0.877129396104501,8858.85030931131,24.2708227652365,19.1046479821708,28.4662348521155,1288.63830836841
761,1670,14351,"Neotoma","Big Cypress Bend [End boardwalk ""Fak10 endB""]","FAKIII98",25.949,-81.46761,2,"not known","terrestrial, bog/fen/swamp","core","29","Donders, T.H., F. Wagner, D.L. Dilcher, and H. Visscher. 2005. Mid- to late-Holocene El Nino-Southern Oscillation dynamics reflected in the subtropical terrestrial realm. Proceedings of the National Academy of Sciences of the United States of America 102(31):10904-10908.","10.1073/pnas.0505015102",4,"warm-temperate evergreen and mixed forest",0.877129396104501,8858.85030931131,24.2708227652365,19.1046479821708,28.4662348521155,1288.63830836841
761,1671,11584,"Neotoma","Big Cypress Bend [End boardwalk ""Fak10 endB""]","FSPSP10",25.949,-81.46761,2,"not known","terrestrial, bog/fen/swamp","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.877129396104501,8858.85030931131,24.2708227652365,19.1046479821708,28.4662348521155,1288.63830836841
762,1672,279,"Australian pollen","Big Dam Marsh","Big Dam Marsh_1",-41.6833,147.6833,710,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.05951918195057,3052.88744796735,8.36407519991055,3.51519881838129,13.5517258797137,990.073346217877
762,1673,280,"Australian pollen","Big Dam Marsh","Big Dam Marsh_2",-41.6833,147.6833,710,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.05951918195057,3052.88744796735,8.36407519991055,3.51519881838129,13.5517258797137,990.073346217877
763,1674,11796,"Neotoma","Big Giant Mine Lake","LMSJ7",37.812075,-107.605215,3499,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.707312390448436,816.381077440545,-3.25214712430826,-14.8141172227019,8.25694259884393,653.232063335943
764,1675,281,"Australian pollen","Big Heathy Swamp","Big Heathy Swamp",-41.3833,145.6333,860,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.63098948541421,2606.1613164834,7.14016799036549,2.58370707952364,12.3858939525859,1516.92237668877
765,1676,12302,"Neotoma","Big John Pond","BIGJOHN",47.5591749999999,-94.970775,421,"not known","lake","core","-31","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.808592931462457,2934.62173642177,4.33484415499405,-15.033114417885,20.373171307119,645.531738560588
766,1677,13888,"Neotoma","Big Lake","BIGLAKE",51.668615,-121.454395,1029,"not known","lake","core","-30","Bennett, J.R., B.F. Cumming, P.R. Leavitt, M. Chiu, J.P. Smol, and J. Szeicz. 2001. Diatom, pollen, and chemical evidence of postglacial climatic change at Big Lake, south-central British Columbia, Canada. Quaternary Research 55:332-343.",,15,"cold evergreen needleleaf forest",0.684052992734511,2127.72339149192,3.73486143879649,-8.66249513275248,14.8641083936669,488.673144281461
767,1678,15409,"Neotoma","Big Lake (US:Arkansas)","JEK001",35.908333,-90.108333,73,"not known","lake","surface sample","Modern","King, J.E., 1978. New evidence on the history of the St. Francis Sunk Lands, northeastern Arkansas. Geological Society of America Bulletin, 89(12), pp.1719-1722.","10.1130/0016-7606(1978)89<1719:NEOTHO>2.0.CO;2",13,"temperate deciduous broadleaf forest",1.05591834212025,5787.82731728294,15.8570611432409,2.78112181688165,27.2566372509904,1269.41584509549
768,1679,16521,"Neotoma","Big Lake (US:Maine)","KG018",45.2,-67.63,62,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.5597700771915,2808.35484950377,6.00585475680182,-7.64476145508634,18.672752991947,1200.03050411281
769,1680,14818,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","-32.4","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14819,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","-26.7","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14820,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","-18.6","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14821,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","-5.3","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14822,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","1.8","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14823,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","16.2","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14824,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","28.4","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
769,1680,14825,"Neotoma","Big Moose Lake","BMOOSE_C2",43.82946,-74.848885,556,"not known","lake","core","42.9","Charles, D.F. 1984. Recent pH history of Big Moose Lake (Adirondack Mountains, New York, U.S.A.) inferred from sediment diatom assemblages. Internationale Vereinigung fur Theoretische und Angewandte Limnologie,Verhandlungen 22:559-566.",,9,"cool mixed forest",1.36027973082303,2699.99707391496,5.12224155451035,-9.5685922606329,18.3645395504001,1051.26893883126
770,1681,12303,"Neotoma","Big Pond","BIGPOND",39.766667,-78.55,634,"not known","lake","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.25496700852566,3626.07271132098,9.37926063394677,-3.50762399295483,20.9802912660395,1117.99365276587
771,1682,13784,"Neotoma","Big Reed Pond Hollow","BIGREED",46.35065,-69.0517,370,"not known","terrestrial","core","37","Schauffler, M. 1998. Paleoecology of coastal and interior Picea (spruce) stands in Maine. Doctoral dissertation. University of Maine, Orono, Maine, USA.; Schauffler, M., and G.L. Jacobson, Jr. 2002. Persistence of coastal spruce refugia during the Holocene in northern New England, USA, detected by stand-scale pollen stratigraphies. Journal of Ecology 90(2):235-250.","10.1046/j.1365-2745.2001.00656.x",9,"cool mixed forest",1.46927437564824,2390.21591661237,3.16448973238095,-12.8909568483818,17.7390908238722,1065.19651348517
772,1683,14037,"Neotoma","Big Sandy Creek","BIGSANDY",32.554915,-95.16323,80,"not known","fluvial","core","-51","Albert, B.M. 2004. Pollen analyses of Middle to Late Holocene palaeo-channel deposits from the Big Sandy Creek flood plain adjacent to 41UR77 in Upshur County, Texas. Pages 81-95 in K.L. Perttula and R.A. Ricklis, editors. Archaeological Testing at 41UR77 on Big Sandy Creek, Upshur County, Texas. Coastal Environments. Corpus Christi, Texas, USA.",,4,"warm-temperate evergreen and mixed forest",0.939596041883885,6739.36107793892,18.4640029532573,7.25137726796485,28.1312449153541,1207.55394043385
773,1684,282,"Australian pollen","Big Willum","BW ss",-12.66,141.99,40,"not applicable","terrestrial","surface sample","-62","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.971115937434282,9701.12670694744,26.5784293341026,24.1635644134323,28.4517507698895,1601.50375048413
774,1685,9130,"EMPDv2","Bila louka, Krkonose","Svobodova_c3",50.7389925,15.6979958,1440,"not known","terrestrial, bog/fen/swamp","peat","-14","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.8726143378916,1821.08290247049,3.05734815280206,-7.52681226374583,12.5090432611332,1250.64328028018
775,1686,15088,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-63","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15089,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-61","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15090,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-57","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15091,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-51","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15092,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-45","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15093,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-40","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15094,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-35","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15095,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-30","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15096,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-25","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15097,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-20","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15098,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-15","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15099,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-12","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15100,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","-4","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15101,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","1","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15102,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","5","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15103,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","10","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15104,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","15","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15105,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","20","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15106,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","23","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15107,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","26","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15108,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","37","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
775,1686,15109,"Neotoma","Billings Park","BILLING",46.71273,-92.142395,188,"not known","coastal, estuarine","core","48","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93143802301138,3093.02951427581,5.86474555146839,-11.575152697946,20.7728361350255,739.008993861239
776,1687,12304,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","-24","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12305,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","-19","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12306,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","-10","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12307,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","-5","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12308,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","7","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12309,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","15","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
776,1687,12310,"Neotoma","Billy's Lake","BILLYS",46.2705799999999,-94.551555,383,"not known","lake","core","26","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726. Jacobson, G.L., Jr., and E.C. Grimm. 1986. A numerical analysis of Holocene forest and prairie vegetation in central Minnesota. Ecology 67(4):958-966. Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168.","10.1017/S0033822200003404;
10.2307/2259121;
10.2307/1939818;
10.1017/S0033822200005348",9,"cool mixed forest",0.828722769704839,3101.2673481257,5.26008779167941,-13.6261129124937,21.0953567810561,680.61202157292
777,1688,10661,"Neotoma","Bily Karpaty 1","BK1",48.837313,17.499965,438,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.01154412882164,2903.86786966179,7.37974606243787,-3.66658520929707,16.8440621273782,769.507472010641
778,1689,10669,"Neotoma","Bily Karpaty 10","BK10",48.848009,17.429744,428,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.99495052117056,2928.43273402998,7.46647761453069,-3.58454386453285,16.9438980958876,758.260793446874
779,1690,10670,"Neotoma","Bily Karpaty 11","BK11",48.822397,17.485159,492,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.08027474788038,2774.19256591645,6.93035174857585,-4.02480938982966,16.3203227803414,809.788409050917
780,1691,10671,"Neotoma","Bily Karpaty 12","BK12",48.855315,17.402717,354,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.902233448195982,3112.1888575116,8.08743288112684,-3.08494867082198,17.6675248336142,701.617079393654
781,1692,10672,"Neotoma","Bily Karpaty 13","BK13",48.830981,17.441965,584,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.20114881453335,2557.54618403371,6.16114623437306,-4.6297963164658,15.4223347497425,876.325347989416
782,1693,10673,"Neotoma","Bily Karpaty 14","BK14",48.844981,17.446188,523,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.119414873692,2699.74830572376,6.67036561901251,-4.22297954902297,16.016061441944,830.744997682737
783,1694,10674,"Neotoma","Bily Karpaty 15","BK15",48.799899,17.392269,546,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.14361399259342,2647.17040029351,6.48502963203877,-4.36364957357053,15.7990404827874,843.94714031154
784,1695,10675,"Neotoma","Bily Karpaty 16","BK16",48.807538,17.393075,499,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.08208853839564,2758.32387748954,6.87822759770948,-4.0500185488976,16.2578438620522,809.139930973081
785,1696,10676,"Neotoma","Bily Karpaty 17","BK17",48.928199,17.604414,435,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.01676581934507,2907.11081045825,7.38933780284268,-3.66803605641011,16.8545567061311,772.542701533546
786,1697,10677,"Neotoma","Bily Karpaty 18","BK18",48.918476,17.649275,551,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.17714057795981,2632.35156506055,6.42296280922497,-4.45501822836473,15.7326677898936,866.862518819302
787,1698,10678,"Neotoma","Bily Karpaty 19","BK19",48.895423,17.546524,519,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.12394677296774,2707.48941979984,6.69463958405365,-4.21863412810046,16.0460908687699,834.630291870736
788,1699,10662,"Neotoma","Bily Karpaty 2","BK2",48.884507,17.533329,386,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.948597881540269,3029.40763550888,7.80699615084392,-3.32568577822132,17.3408150027007,731.107224106705
789,1700,10679,"Neotoma","Bily Karpaty 20","BK20",48.905005,17.59433,470,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.06168155308623,2823.64081587426,7.10058708425526,-3.90065309679446,16.5192149019009,799.458205930039
790,1701,10680,"Neotoma","Bily Karpaty 21","BK21",48.920044,17.604719,495,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.09656893084029,2763.49538675591,6.89033517848186,-4.07008982089139,16.27468199715,819.699425496632
791,1702,10681,"Neotoma","Bily Karpaty 22","BK22",48.870509,17.445217,378,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.933921441508859,3050.88778953989,7.88146276952023,-3.25416081317649,17.4272233004351,721.279708308302
792,1703,10682,"Neotoma","Bily Karpaty 23","BK23",48.882144,17.600384,441,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.02289039332032,2894.35162341162,7.34453614675096,-3.70773319290381,16.8035736065996,777.077596337449
793,1704,10683,"Neotoma","Bily Karpaty 24","BK24",48.855398,17.446633,484,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.06832756447933,2792.27861729039,6.99576942380566,-3.96243879873275,16.3952635855617,801.37674100764
794,1705,10684,"Neotoma","Bily Karpaty 25","BK25",48.891838,17.614829,559,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.18439289651173,2614.35113271602,6.35933542209958,-4.5019471619841704,15.6579128126529,870.613892906623
795,1706,10685,"Neotoma","Bily Karpaty 26","BK26",48.892922,17.591968,481,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.07578577799664,2797.76885619748,7.01020429159209,-3.9740268686604,16.4142889184222,807.923278413969
796,1707,10686,"Neotoma","Bily Karpaty 27","BK27",48.896393,17.65044,683,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.36848064298635,2334.31466481653,5.32579343612817,-5.34187206841701,14.4577082294744,971.516156876673
797,1708,10687,"Neotoma","Bily Karpaty 28","BK28",48.877618,17.546912,455,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.03785144356267,2860.86960050855,7.2307722154969,-3.79042992968654,16.6704102734375,785.098287404344
798,1709,10688,"Neotoma","Bily Karpaty 29","BK29",48.91792,17.677441,543,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.16804145072215,2651.12381192301,6.48902920084204,-4.40739486878448,15.8102437897963,862.463670053314
799,1710,10663,"Neotoma","Bily Karpaty 3","BK3",48.80854,17.322964,401,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.954168429311027,2997.7775070268,7.70497090971083,-3.38022577520308,17.221847964688,733.091547999791
800,1711,10689,"Neotoma","Bily Karpaty 30","BK30",48.892895,17.569968,466,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.05435383821874,2833.72560512222,7.13625668399733,-3.86887246402346,16.560500696961,794.933892482038
801,1712,10690,"Neotoma","Bily Karpaty 31","BK31",48.889919,17.726495,444,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.03435344853376,2886.48489114729,7.3134257891247,-3.75289973731773,16.7693358242923,785.975287794348
802,1713,10691,"Neotoma","Bily Karpaty 32","BK32",48.845733,17.345161,403,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.958868721980249,2991.05041372916,7.68215179641548,-3.39927340289177,17.1945404387212,735.509537482746
803,1714,10692,"Neotoma","Bily Karpaty 33","Bk33",48.92156,17.637664,414,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.990907608115185,2958.27066502011,7.56329980900521,-3.53393103059896,17.0573641658159,757.628561295292
804,1715,10693,"Neotoma","Bily Karpaty 34","BK34",48.841179,17.315299,313,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.849781236504141,3218.36178615977,8.44029650702843,-2.79360409219225,18.0793670997976,668.43745433088
805,1716,10694,"Neotoma","Bily Karpaty 35","BK35",48.863512,17.327106,303,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.83893229153071,3242.829546792,8.52038664771578,-2.73017382105784,18.172071759679,661.319631753804
806,1717,10695,"Neotoma","Bily Karpaty 36","BK36",48.857536,17.280429,208,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.730596046124467,3492.19793943848,9.32306386673415,-2.08935052569528,19.1093526848778,591.2318426233
807,1718,10696,"Neotoma","Bily Karpaty 38","BK38",48.90048,17.485497,309,"not applicable","terrestrial","moss polster or moss","-64","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.852141138402503,3222.73812082694,8.45184415537093,-2.80175961218694,18.090807049296,670.194448617929
808,1719,10697,"Neotoma","Bily Karpaty 39","BK39",48.873217,17.393465,306,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.844900839853256,3233.36120643229,8.48815165766245,-2.76342661439715,18.1341522763543,665.394938093287
809,1720,10664,"Neotoma","Bily Karpaty 4","BK4",48.832877,17.524576,389,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.95054597515945,3024.15738622816,7.78855540795619,-3.34353672644949,17.3208301979065,733.181274176577
810,1721,10698,"Neotoma","Bily Karpaty 40","BK40",48.875404,17.427443,349,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.897698608322558,3123.54630798856,8.12495755422217,-3.05702997356447,17.7107520405699,698.705478234283
811,1722,10649,"Neotoma","Bily Karpaty 41","Karpaty 41",48.888139,17.458989,242,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.772312415294248,3396.54347100284,9.01607358720264,-2.34898983523044,18.7486251699615,618.683665830033
812,1723,10665,"Neotoma","Bily Karpaty 5","BK5",48.81709,17.527297,460,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",1.04099730645782,2851.14512456434,7.19652336529975,-3.81989385691322,16.6314722260795,787.850485109362
813,1724,10666,"Neotoma","Bily Karpaty 6","BK6",48.87034,17.558022,405,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.973566558136093,2982.88237608746,7.64848633798108,-3.45781009734563,17.1569856513492,746.943321854159
814,1725,10667,"Neotoma","Bily Karpaty 8","BK8",48.864009,17.430106,388,"not applicable","terrestrial","moss polster or moss","-63","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.945372514096809,3026.4452484085,7.7995810015454,-3.31770630540731,17.3318423033578,728.182397588947
815,1726,10668,"Neotoma","Bily Karpaty 9","BK9",48.822758,17.502742,391,"not applicable","terrestrial","moss polster or moss","-62","Kuneš, P., Abraham, V., Werchan, B., Plesková, Z., Fajmon, K., Jamrichová, E. and Roleček, J., 2019. Relative pollen productivity estimates for vegetation reconstruction in central-eastern Europe inferred at local and regional scales. The Holocene, 29(11), pp.1708-1719.","10.1177/0959683619862026",9,"cool mixed forest",0.951686711315658,3019.84404994152,7.77440993760082,-3.35233063694108,17.3044108035796,733.781701550042
816,1727,14200,"Neotoma","Binnewater Pond","BINNEWTR",41.40935,-74.551335,256,"not known","lake","core","-41","Robinson, G.S., L.P. Burney, and D.A. Burney. 2005. Landscape paleoecology and megafaunal extinction in southeastern New York State. Ecological Monographs 75(3):295-315.",,9,"cool mixed forest",1.25535200533157,3675.33143287195,9.33603975854586,-4.29864785267158,21.8877965015836,1125.56863269783
817,1728,17331,"Neotoma","Bishop","TW034",45.488056,-89.013889,469,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02459072570384,2633.00556086494,3.95587189751048,-12.7385077950602,18.8197750949782,791.534160464448
818,1729,9132,"EMPDv2","Bisoca","Tantau_a2",45.5333333333333,26.8166666666667,890,"0.015","terrestrial, bog/fen/swamp","peat","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.901776270904778,2632.763395143,5.96149012276982,-6.43883012627834,15.9696128221903,728.17445456285
819,1730,14466,"Neotoma","Bison Lake","BISONCO",39.765005,-107.345824999999,3255,"not known","lake","core","-59","Anderson, L., A. Brunelle, and R.S. Thompson. 2015. A multi-proxy record of hydroclimate, vegetation, fire, and post-settlement impacts for a subalpine plateau, central Rocky Mountains, U.S.A. The Holocene 25(6):932-943.","10.1177/0959683615574583",17,"temperate evergreen needleleaf open woodland",0.681917070121119,1004.05459398996,-2.00350489647706,-13.1586131180444,9.55234465445699,614.745605027149
819,1730,14467,"Neotoma","Bison Lake","BISONCO",39.765005,-107.345824999999,3255,"not known","lake","core","-45","Anderson, L., A. Brunelle, and R.S. Thompson. 2015. A multi-proxy record of hydroclimate, vegetation, fire, and post-settlement impacts for a subalpine plateau, central Rocky Mountains, U.S.A. The Holocene 25(6):932-943.","10.1177/0959683615574583",17,"temperate evergreen needleleaf open woodland",0.681917070121119,1004.05459398996,-2.00350489647706,-13.1586131180444,9.55234465445699,614.745605027149
819,1730,14468,"Neotoma","Bison Lake","BISONCO",39.765005,-107.345824999999,3255,"not known","lake","core","-23","Anderson, L., A. Brunelle, and R.S. Thompson. 2015. A multi-proxy record of hydroclimate, vegetation, fire, and post-settlement impacts for a subalpine plateau, central Rocky Mountains, U.S.A. The Holocene 25(6):932-943.","10.1177/0959683615574583",17,"temperate evergreen needleleaf open woodland",0.681917070121119,1004.05459398996,-2.00350489647706,-13.1586131180444,9.55234465445699,614.745605027149
819,1730,14469,"Neotoma","Bison Lake","BISONCO",39.765005,-107.345824999999,3255,"not known","lake","core","3","Anderson, L., A. Brunelle, and R.S. Thompson. 2015. A multi-proxy record of hydroclimate, vegetation, fire, and post-settlement impacts for a subalpine plateau, central Rocky Mountains, U.S.A. The Holocene 25(6):932-943.","10.1177/0959683615574583",17,"temperate evergreen needleleaf open woodland",0.681917070121119,1004.05459398996,-2.00350489647706,-13.1586131180444,9.55234465445699,614.745605027149
819,1730,14470,"Neotoma","Bison Lake","BISONCO",39.765005,-107.345824999999,3255,"not known","lake","core","35","Anderson, L., A. Brunelle, and R.S. Thompson. 2015. A multi-proxy record of hydroclimate, vegetation, fire, and post-settlement impacts for a subalpine plateau, central Rocky Mountains, U.S.A. The Holocene 25(6):932-943.","10.1177/0959683615574583",17,"temperate evergreen needleleaf open woodland",0.681917070121119,1004.05459398996,-2.00350489647706,-13.1586131180444,9.55234465445699,614.745605027149
820,1731,11484,"Neotoma","Bitter Lake","SDDABI",45.28149,-97.30256,540,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.601694786182933,3310.68580669966,6.29819607568479,-12.0006432598107,22.4687776293648,532.795984329145
821,1732,7296,"EMPDv2","Biviere Cesaro","Finsinger_a8",37.9530590364065,14.7159016664793,1282,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.493680043360897,4485.09885594664,12.2879420710867,5.49646873685423,20.9010808742891,671.273510228207
822,1733,18245,"SMPDSv1","Bjarsjoholmssjon","EPDcoretop_E118",55.45,13.783333,50,"0.15","terrestrial, marsh","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.950328428419984,2870.74912143224,7.63976286577701,-1.41853976842256,16.7219397304752,639.443804414941
823,1734,7440,"EMPDv2","Bjordalsvatnet","Hjelle_a29",59.5416084,5.5867806,111,"0.063","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.61221467890225,2561.88497575135,7.01886294726398,0.335397419045125,14.1617231885066,1957.40311757829
824,1735,18246,"SMPDSv1","Bjorndragvatn","Bjune_a30",66.17453124,13.47579223,308,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.1051818582312,1450.46472278751,2.24471454898843,-5.94327554574024,11.4361044051533,1671.71493344035
825,1736,7421,"EMPDv2","Bjornenvatnet","Hjelle_a10",60.1430649,5.4432257,9,"0.076","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.09999669155866,2713.21340267916,7.43346137720319,1.17288416635681,14.2892917780592,2169.22576544969
826,1737,18247,"SMPDSv1","Bjornfjelltjorn","Bjune_a186",68.4333333333333,18.0666666666666,515,"0.0209","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.55624291997638,1004.85184523585,-1.55893453146166,-11.5584851667134,10.2687889241633,906.247502453362
827,1738,18248,"SMPDSv1","Bjorntjonn","Bjune_a210",59.5466666666666,8.02,520,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.05507379193971,1872.51324379804,3.69270573695935,-5.80350259751966,13.2070858614905,1152.6644689596
828,1739,18249,"SMPDSv1","Bjornvatnet","Bjune_a313",79.6695,10.8083333333333,70,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.31807949197069,202.881145153346,-7.09373770580781,-14.8051548081277,3.32450615873855,505.12049516495
829,1740,18250,"SMPDSv1","Bjortja","Bjune_a261",63.1266666666666,9.54166666666666,306,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.49400189633724,1736.17070612832,3.77707554769117,-4.11315324084514,12.2789546700554,1140.26100414242
830,1741,18251,"SMPDSv1","Bjortjern","Bjune_a123",59.0132447,8.58732378,265,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.9026750009264,2143.75259481452,4.77290525092858,-4.89515646330576,14.4460807576227,1099.84977398543
831,1742,7251,"EMPDv2","BL-1","Fall_b24",35.0499799999999,33.14941,443,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.359398349483504,6321.62102657223,17.3195096618417,8.57933809820489,26.1891399163255,543.386535532531
832,1743,12320,"Neotoma","BL-Tombigbee","BLBIGBEE",33.563333,-88.474444,49,"not known","not known","core","0","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.13223980728396,6473.77747000409,17.7363766301482,6.36636775631193,27.342148609094,1396.7882085463
833,1744,12277,"Neotoma","Black Bass Lake","BBASS",46.128056,-93.703889,394,"not known","lake","core","-10","Unpublished data",,9,"cool mixed forest",0.86055691981241,3020.39703219202,5.03002948318548,-13.6325752879535,20.6815827984635,698.203073022283
833,1744,12278,"Neotoma","Black Bass Lake","BBASS",46.128056,-93.703889,394,"not known","lake","core","26","Unpublished data",,9,"cool mixed forest",0.86055691981241,3020.39703219202,5.03002948318548,-13.6325752879535,20.6815827984635,698.203073022283
834,1745,14826,"Neotoma","Black Point Pond","BLKPNT",41.349465,-70.66915,1,"not known","lake","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36082191596671,3942.12281534384,10.5594501037147,-1.79252014626836,22.4400314150343,1237.8514805814
834,1745,14827,"Neotoma","Black Point Pond","BLKPNT",41.349465,-70.66915,1,"not known","lake","core","-22","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36082191596671,3942.12281534384,10.5594501037147,-1.79252014626836,22.4400314150343,1237.8514805814
834,1745,14828,"Neotoma","Black Point Pond","BLKPNT",41.349465,-70.66915,1,"not known","lake","core","24","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36082191596671,3942.12281534384,10.5594501037147,-1.79252014626836,22.4400314150343,1237.8514805814
835,1746,14870,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","-57.125","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14871,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","-42.415","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14872,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","-24.764","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14873,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","-7.112","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14874,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","10.539","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14875,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","28.19","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1746,14876,"Neotoma","Black Pond","BLACKMA",41.327855,-70.792695,11,"not known","lake","core","45.842","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34879256922909,3911.75867290594,10.4448309291894,-1.97351600787135,22.3854797252567,1224.77435546247
835,1747,12311,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","-24","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12312,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","-16","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12313,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","-8","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12314,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","0","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12315,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","8","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12316,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","24","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
835,1747,12317,"Neotoma","Black Pond","BLACKPND",35.620833,-84.186667,262,"not known","lake","core","40","Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.",,4,"warm-temperate evergreen and mixed forest",1.16561030993923,5378.0246573715,14.7343141297849,2.65617477402796,25.3100218047827,1308.77139305159
836,1748,6069,"EMBSeCBIO","Black Sea South-West","A-159 (Black Sea South-West)",42.184167,28.916667,1400,"436402","marine","marine core","-44","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
837,1749,283,"Australian pollen","Black Springs","BSP02_4",-15.625725,126.386425,370,"not known","spring deposit","core top","-46","Field, E., J. Tyler, P.S. Gadd, P. Moss, H. McGowan, and S. Marx. 2018. Coherent patterns of environmental change at multiple organic spring sites in northwest Australia: Evidence of Indonesian-Australian summer monsoon variability over the last 14,500 years. Quaternary Science Reviews 196:193-216. [DOI: 10.1016/j.quascirev.2018.07.018]","10.21233/DR2B-6598",18,"tropical savanna",0.49491229641823,9691.19641717972,26.5512230607664,21.0419930251883,30.3206120064932,960.930295140465
838,1750,284,"Australian pollen","Black Swamp","Black Swamp_1",-32.05,151.4667,1500,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.422526531359436,4033.36261077394,11.0503085226683,2.50195336306956,18.9707260377163,640.607951936781
838,1751,285,"Australian pollen","Black Swamp","Black Swamp_2",-32.05,151.4667,1500,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.422526531359436,4033.36261077394,11.0503085226683,2.50195336306956,18.9707260377163,640.607951936781
838,1752,286,"Australian pollen","Black Swamp","Black Swamp_3",-32.05,151.4667,1500,"not known","terrestrial, bog/fen/swamp","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.422526531359436,4033.36261077394,11.0503085226683,2.50195336306956,18.9707260377163,640.607951936781
839,1753,16565,"Neotoma","Blackhawk Lake","KLZ001",42.298455,-95.026045,372,"not known","lake","surface sample","Modern","Van Zant, K.L., Webb III, T., Peterson, G.M. and Baker, R.G., 1979. Increased Cannabis/Humulus pollen, an indicator of European agriculture in Iowa. Palynology, 3(1), pp.227-233.","10.1080/01916122.1979.9989192",22,"steppe",0.822506910392702,3776.16395304971,8.61250361407019,-8.60129688541743,23.5185491704879,783.003423055328
840,1754,12318,"Neotoma","Blacktail Pond","BLAKTAIL",44.9561099999999,-110.600709999999,2012,"not known","lake","core","-20","Gennett, J.A. 1977. Palynology and paleoecology of sediments from Blacktail Pond, northern Yellowstone Park, Wyoming. M.S. Thesis. University of Iowa, Iowa City, Iowa, USA.; Gennett, J.A., and R.G. Baker. 1986. A late Quaternary pollen sequence from Blacktail Pond, Yellowstone National Park, Wyoming, U.S.A. Palynology 10:61-71.",,17,"temperate evergreen needleleaf open woodland",0.550522400630383,2319.65639075324,4.43846528407857,-7.65859318849533,17.3610320647419,494.987635546599
841,1755,15182,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","-60","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
841,1755,15183,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","-49","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
841,1755,15184,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","-26","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
841,1755,15185,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","-3","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
841,1755,15186,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","19","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
841,1755,15187,"Neotoma","Blackwood Sinkhole","BLWD-C2",26.798715,-77.423405,0,"8e-04","coastal, lacustrine","core","42","Tamalavage, A.E., P.J. van Hengstum, P. Louchouarn, S. Molodtsov, K. Kaiser, J.P. Donnelly, N.A. Albury, and P.L. Fall. 2018. Organic matter sources and lateral sedimentation in a Bahamian karst basin (sinkhole) over the late Holocene: Influence of local vegetation and climate. Palaeogeography, Palaeoclimatology, Palaeoecology 506:70-83. van Hengstum, P.J., J.P. Donnelly, P.L. Fall, M.R. Toomey, N.A. Albury, and B. Kakuk. 2016. The intertropical convergence zone modulates intense hurricane strikes on the western North Atlantic margin. Scientific Reports 6:21728.","10.1016/j.palaeo.2018.06.014;
10.1038/srep21728",17,"temperate evergreen needleleaf open woodland",0.870470418425178,8493.87453653526,23.2708891411925,17.7034207762102,28.0762689053125,1258.61050144452
842,1756,15245,"Neotoma","Blanch Road","AMD012",42.77,-89.87,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.915516184835096,3400.45672439408,7.25291968059611,-9.80328180945571,21.8109457045164,809.080891451217
843,1757,12319,"Neotoma","Blandin Pond","BLANDIN",47.133333,-93.666667,468,"not known","lake","core","-28","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.872580663262751,2721.02408033701,3.56991934938781,-15.4679099582213,19.3775841677406,679.893567889921
844,1758,14877,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","-45.514","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14878,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","-36.966","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14879,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","-19.871","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14880,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","-2.775","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14881,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","14.32","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14882,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","31.415","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
844,1758,14883,"Neotoma","Blaney's Pond","BLANEYS",41.472,-70.76567,5,"not known","lake","core","48.511","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35324301667113,3918.26039872615,10.4706245640412,-1.92602236202459,22.4038396058979,1227.1174155534
845,1759,18252,"SMPDSv1","Blatjern","Bjune_a136",59.7831791,8.71144669,693,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.63917314510386,1688.72098117884,2.5505390163743,-7.58637677985744,12.6110432501914,906.685031391135
846,1760,9088,"EMPDv2","Blatny, Sumava","Svobodova_a6",48.9697388888889,13.4439222222222,1367.4,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.37522559691818,1714.68318423449,3.4385936973977,-4.81675907449142,11.5422820695688,1686.62560300074
847,1761,18253,"SMPDSv1","Blato","EPDcoretop_E122",49.041667,15.191667,645,"0.25","lake","lacustrine core top","-18","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05962792948308,2828.70603267127,7.24493491007965,-3.12187728884156,16.5704194449701,816.878964625721
848,1762,18254,"SMPDSv1","Blato do Lebed, Rhodope Mts.","Connor_e2",41.4725863,25.2101482,725,"0.04","lake","lacustrine core top","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.644502285464376,3646.9381284763,9.90066914951416,-0.943876790566613,20.1995501863395,663.763223051524
849,1763,18255,"SMPDSv1","Bledowo Lake","EPDcoretop_E125",52.55,20.666667,78,"0.08","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.722406956526396,3082.7377491357,7.99195775303593,-3.07350967881006,17.7758609455756,533.495615405452
850,1764,18256,"SMPDSv1","Blekkevatn","Bjune_a76",60.00225544,10.56893258,330,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39262490141365,2055.27435630519,3.91904245359788,-6.85020984583397,14.5718205370012,793.033631316421
851,1765,18257,"SMPDSv1","Blid So","Odgaard_a6",56.050226,9.666647,50,"0.06","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17552312091156,2784.50924256036,7.57089483277051,-0.375293693120809,15.5702560361681,741.992257529776
852,1766,17416,"Neotoma","Blind Lake","TW123",42.37,-83.98,280,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.950706641369686,3587.47770348662,8.71759119273617,-5.82249773428415,21.8397230538255,843.133051843925
853,1767,16524,"Neotoma","Blind Lake (CA:New Brunswick)","KG021",47.03,-66.03,396,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.548378192766,2196.16587099067,2.42308739765444,-13.4367443580253,17.0812847820701,1093.97926857719
854,1768,7125,"EMPDv2","Blizon","EPDcoretop_E2114",46.74,1.23,92,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.816293589539629,4178.35223334192,11.4475403653203,4.1521832307263304,19.2946464441636,697.031661040797
855,1769,12701,"Neotoma","Blocknic Lake [Horse Pond]","HORSE",47.181535,-95.86866,393,"not known","lake","core","-13","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.740715666049983,2996.46365667561,4.5142901614506,-14.9768449963779,20.6893240950021,600.72937226333
855,1769,12702,"Neotoma","Blocknic Lake [Horse Pond]","HORSE",47.181535,-95.86866,393,"not known","lake","core","11","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.740715666049983,2996.46365667561,4.5142901614506,-14.9768449963779,20.6893240950021,600.72937226333
855,1769,12703,"Neotoma","Blocknic Lake [Horse Pond]","HORSE",47.181535,-95.86866,393,"not known","lake","core","37","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.740715666049983,2996.46365667561,4.5142901614506,-14.9768449963779,20.6893240950021,600.72937226333
856,1770,13538,"Neotoma","Blomford Lake","BLOMFORD",45.4935,-93.1545,291,"not known","lake","core","-27","Unpublished data",,9,"cool mixed forest",0.877175089302572,3358.07932438653,6.61882373465494,-11.6669666076672,22.0552468683205,738.08970647166
856,1770,13539,"Neotoma","Blomford Lake","BLOMFORD",45.4935,-93.1545,291,"not known","lake","core","-14","Unpublished data",,9,"cool mixed forest",0.877175089302572,3358.07932438653,6.61882373465494,-11.6669666076672,22.0552468683205,738.08970647166
856,1770,13540,"Neotoma","Blomford Lake","BLOMFORD",45.4935,-93.1545,291,"not known","lake","core","-2","Unpublished data",,9,"cool mixed forest",0.877175089302572,3358.07932438653,6.61882373465494,-11.6669666076672,22.0552468683205,738.08970647166
856,1770,13541,"Neotoma","Blomford Lake","BLOMFORD",45.4935,-93.1545,291,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.877175089302572,3358.07932438653,6.61882373465494,-11.6669666076672,22.0552468683205,738.08970647166
856,1770,13542,"Neotoma","Blomford Lake","BLOMFORD",45.4935,-93.1545,291,"not known","lake","core","28","Unpublished data",,9,"cool mixed forest",0.877175089302572,3358.07932438653,6.61882373465494,-11.6669666076672,22.0552468683205,738.08970647166
857,1771,14884,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-49.033","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14885,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-46.356","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14886,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-41.001","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14887,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-35.646","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14888,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-30.291","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14889,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-24.936","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14890,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-19.581","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14891,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-14.226","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14892,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-8.871","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14893,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","-3.516","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14894,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","1.838","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14895,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","7.193","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14896,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","12.548","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14897,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","17.903","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14898,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","23.258","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14899,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","28.613","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14900,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","33.968","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14901,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","39.323","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
857,1771,14902,"Neotoma","Blood Pond","BLOODMA",42.08019,-71.96105,212,"not known","lake","core","44.677","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.3151056131379,3475.0920227034,8.57847640354179,-5.13171749165947,21.3064623350908,1131.88647162444
858,1772,16523,"Neotoma","Blue Bell Lake","KG020",46.95,-67.53,244,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.52523779192556,2397.85459404655,3.32694683134518,-12.5499646576035,17.8597070897512,1096.8798955324
859,1773,287,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_1",-36.4167,148.3167,1890,"0.16","lake","core","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1774,288,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_13",-36.4167,148.3167,1890,"0.16","lake","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1775,289,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_17",-36.4167,148.3167,1890,"0.16","lake","core","21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1776,290,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_25",-36.4167,148.3167,1890,"0.16","lake","core","31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1777,291,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_29",-36.4167,148.3167,1890,"0.16","lake","core","36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1778,292,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_33",-36.4167,148.3167,1890,"0.16","lake","core","41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1779,293,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_37",-36.4167,148.3167,1890,"0.16","lake","core","46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1780,294,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_5",-36.4167,148.3167,1890,"0.16","lake","core","6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1781,295,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1_9",-36.4167,148.3167,1890,"0.16","lake","core","11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
859,1782,296,"Australian pollen","Blue Lake (Snowy Mts)","Blue Lake (Snowy Mts) 1-21",-36.4167,148.3167,1890,"0.16","lake","core","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.10263816501091,1929.26251323862,4.59439164375471,-3.68472540250556,12.7566655232798,1326.35789402492
860,1783,13983,"Neotoma","Blue Lake Wetlands","BLUEBONN",40.49996,-114.031395,1297,"not known","terrestrial, bog/fen/swamp","core","-9","Louderback, L.A., and D.E. Rhode. 2009. 15,000 years of vegetation change in the Bonneville Basin: the Blue Lake pollen record. Quaternary Science Reviews 28(3-4):308-326. Louderback, L.A. 2007. Changes in vegetation and human adaptation from the latest Pleistocene to late Holocene in the Eastern Great Basin: The Blue Lake pollen record. Master's thesis. University of Nevada, Reno, Nevada, USA.","10.1016/j.quascirev.2008.09.027",22,"steppe",0.21035524946193,4086.80965673727,10.8495707882881,-2.35915719951758,25.2078838648879,246.809645232933
861,1784,12321,"Neotoma","Blue Mounds Creek","BLUMOUND",43.083333,-89.866667,335,"not known","not known","core","17","Davis, A.M. 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers 67(2):204-213.",,13,"temperate deciduous broadleaf forest",0.89259181762454,3247.01691066996,6.54725260573045,-10.6953629276226,21.3009747250028,771.529308162637
862,1785,15520,"Neotoma","Blue Mountain","CJH099",47.85,-122.75,91,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",1.96561909425312,3706.71785934397,10.1553913954629,3.57498773370105,17.3259437298301,1547.1450469172
863,1786,297,"Australian pollen","Blue Tea Tree","Blue Tea Tree",-37.62,140.52,150,"not known","terrestrial, bog/fen/swamp","core top","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.510525987484905,5189.95517654984,14.2190552782187,8.82134292587243,20.1497147177406,552.372302513163
864,1787,14015,"Neotoma","BlueJ Lake","BLUEJ",46.405,-91.525,355,"not known","lake","core","-52","Unpublished data",,9,"cool mixed forest",0.964470550179459,2801.55653804242,4.57681527854032,-12.9058014080742,19.5413330463816,750.910383395668
865,1788,18258,"SMPDSv1","Blumenthalsee","Blumenthalsee_ss",52.65168,13.9272,77,"0.084","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787066930312406,3290.94545225535,8.91534463411282,-0.936725279572545,18.0755069181029,559.980486202962
866,1789,298,"Australian pollen","Blundell's Flat","Blundell's Flat_125",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1790,299,"Australian pollen","Blundell's Flat","Blundell's Flat_2",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1791,300,"Australian pollen","Blundell's Flat","Blundell's Flat_225",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1792,301,"Australian pollen","Blundell's Flat","Blundell's Flat_40",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1793,302,"Australian pollen","Blundell's Flat","Blundell's Flat_50",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1794,303,"Australian pollen","Blundell's Flat","Blundell's Flat_60",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
866,1795,304,"Australian pollen","Blundell's Flat","Blundell's Flat_70",-35.19,148.49,762,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.745915477299363,4255.78056310899,11.6596727756411,4.31165779829769,18.8894342599447,924.210768646396
867,1796,18259,"SMPDSv1","Blusovie","Blusovie B6K SS",43.683333,41.158333,2884,"small (0.01-1 km2)","lake","sediment sample","86","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30623992441779,783.730732967651,-4.42446255690035,-18.7936150224577,7.99436194977962,1056.26726877935
868,1797,24506,"Blyakharchuk","Bly_1","Bly_1",51.2536111111111,94.6713888888889,881,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.65191663506154,2292.6496429999,-1.86317770493914,-26.1392624870248,17.9820507348746,493.673163965806
869,1798,24515,"Blyakharchuk","Bly_10","Bly_10",50.0647222222222,95.1330555555555,1150,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.448685407549585,2187.34076608498,-2.88015326024437,-27.9996993000335,17.3418335622467,359.378616515894
870,1799,24605,"Blyakharchuk","Bly_100","Bly_100",54.25,88.25,253,"not applicable","terrestrial","surface sample","modern","Unublished data",,9,"cool mixed forest",0.72295476479964,2536.18946053649,1.6098281844751,-17.5498593803545,19.7161618701122,483.495491807457
871,1800,24606,"Blyakharchuk","Bly_101","Bly_101",53.8188888888888,87.5269444444444,357,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.733426294059368,2459.1868525152,1.2285771165549,-17.8575978700735,19.2505578902753,497.110368568114
872,1801,24607,"Blyakharchuk","Bly_102","Bly_102",53.8188888888888,87.5269444444444,357,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.733426294059368,2459.1868525152,1.2285771165549,-17.8575978700735,19.2505578902753,497.110368568114
873,1802,24608,"Blyakharchuk","Bly_103","Bly_103",53.9597222222222,89.0641666666666,1358,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.918242339022265,1392.9261695831,-4.72432896338654,-23.8470622560763,13.1308751452616,567.771210618372
874,1803,24609,"Blyakharchuk","Bly_104","Bly_104",53.9597222222222,89.0641666666666,1358,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.918242339022265,1392.9261695831,-4.72432896338654,-23.8470622560763,13.1308751452616,567.771210618372
875,1804,24610,"Blyakharchuk","Bly_105","Bly_105",53.3608333333333,87.2952777777777,384,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.715480041527525,2485.61846797602,1.32728598940908,-17.8383417036223,19.2894836857825,497.797882929937
876,1805,24611,"Blyakharchuk","Bly_106","Bly_106",53.3608333333333,87.2952777777777,350,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.712752214377495,2523.17173157056,1.5232620778646,-17.6215715949203,19.4903009980427,496.491049810178
877,1806,24612,"Blyakharchuk","Bly_107","Bly_107",53.3563888888888,87.3655555555555,439,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.720000505245828,2423.96596266578,1.00281141205386,-18.1993610622108,18.958379596346,499.846432100509
878,1807,24613,"Blyakharchuk","Bly_108","Bly_108",53.3563888888888,87.3655555555555,439,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.720000505245828,2423.96596266578,1.00281141205386,-18.1993610622108,18.958379596346,499.846432100509
879,1808,24614,"Blyakharchuk","Bly_109","Bly_109",53.3563888888888,87.3655555555555,439,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.720000505245828,2423.96596266578,1.00281141205386,-18.1993610622108,18.958379596346,499.846432100509
880,1809,24516,"Blyakharchuk","Bly_11","Bly_11",50.0647222222222,95.1330555555555,1150,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.448685407549585,2187.34076608498,-2.88015326024437,-27.9996993000335,17.3418335622467,359.378616515894
881,1810,24615,"Blyakharchuk","Bly_110","Bly_110",53.3563888888888,87.3655555555555,439,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.720000505245828,2423.96596266578,1.00281141205386,-18.1993610622108,18.958379596346,499.846432100509
882,1811,24616,"Blyakharchuk","Bly_111","Bly_111",53.3544444444444,87.2127777777777,319,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.712942155125405,2559.13132792209,1.7252127891192,-17.3468634233075,19.6883582803037,496.69884085567
883,1812,24617,"Blyakharchuk","Bly_112","Bly_112",53.3566666666666,87.3655555555555,439,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.720009359301459,2423.94728405601,1.00272946867821,-18.1994117877211,18.9583113601678,499.84701882537
884,1813,24618,"Blyakharchuk","Bly_113","Bly_113",53.3169444444444,87.2883333333333,320,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.709319679609947,2559.12489902865,1.70835124666104,-17.4200714124026,19.6771231424582,495.396943579341
885,1814,24619,"Blyakharchuk","Bly_114","Bly_114",53.3169444444444,87.2883333333333,320,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.709319679609947,2559.12489902865,1.70835124666104,-17.4200714124026,19.6771231424582,495.396943579341
886,1815,24620,"Blyakharchuk","Bly_115","Bly_115",53.3169444444444,87.2883333333333,320,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.709319679609947,2559.12489902865,1.70835124666104,-17.4200714124026,19.6771231424582,495.396943579341
887,1816,24621,"Blyakharchuk","Bly_116","Bly_116",53.3238888888888,87.2105555555555,228,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.708259351708872,2655.2068071044,2.2312193851841,-16.7540392275694,20.2110705829192,493.645381153155
888,1817,24622,"Blyakharchuk","Bly_117","Bly_117",53.2691666666666,87.2408333333333,373,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.713039492001666,2508.59246560026,1.45055609383262,-17.6815054814412,19.3989933367434,498.446449037246
889,1818,24623,"Blyakharchuk","Bly_118","Bly_118",56.6666666666666,84.3333333333333,95,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.855654429068701,2268.60351818648,0.340953964231856,-18.3764416402473,19.095591002743,501.992988941749
890,1819,24624,"Blyakharchuk","Bly_119","Bly_119",52.7911111111111,93.4294444444444,1528,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.19045048963009,1456.81444934325,-5.7692314676789,-28.1141622749502,13.2779018744177,786.691208671584
891,1820,24517,"Blyakharchuk","Bly_12","Bly_12",50.2694444444444,95.0119444444444,1380,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.489779316404629,1903.44141443495,-4.19570858634992,-28.724746728803,15.7520653752637,381.834152503269
892,1821,24625,"Blyakharchuk","Bly_120","Bly_120",52.8030555555555,93.4261111111111,1641,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.21889349868793,1373.79299117163,-6.37413442424419,-28.8966644766499,12.7345377489853,805.284030243076
893,1822,24626,"Blyakharchuk","Bly_121","Bly_121",52.5241666666666,93.4522222222222,1370,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.06608414657626,1627.37828211413,-4.75182725788637,-27.1626004406476,14.3120046082775,722.049750965794
894,1823,24627,"Blyakharchuk","Bly_122","Bly_122",52.3666666666666,93.6666666666666,1500,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.07017224328374,1538.37707661223,-5.40959379438656,-28.0661849959444,13.7489374957541,728.050150499166
895,1824,24628,"Blyakharchuk","Bly_123","Bly_123",52.3666666666666,93.6666666666666,1500,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.07017224328374,1538.37707661223,-5.40959379438656,-28.0661849959444,13.7489374957541,728.050150499166
896,1825,24629,"Blyakharchuk","Bly_124","Bly_124",52.3666666666666,93.6666666666666,1500,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",1.07017224328374,1538.37707661223,-5.40959379438656,-28.0661849959444,13.7489374957541,728.050150499166
897,1826,24630,"Blyakharchuk","Bly_125","Bly_125",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
898,1827,24631,"Blyakharchuk","Bly_126","Bly_126",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
899,1828,24632,"Blyakharchuk","Bly_127","Bly_127",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
900,1829,24633,"Blyakharchuk","Bly_128","Bly_128",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
901,1830,24634,"Blyakharchuk","Bly_129","Bly_129",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
902,1831,24518,"Blyakharchuk","Bly_13","Bly_13",50.9486111111111,84.8202777777777,1038,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.709684248839335,1989.59526299355,-1.05516436761921,-19.3086191591825,16.2761599152202,538.38294928874
903,1832,24635,"Blyakharchuk","Bly_130","Bly_130",50.0958333333333,88.4336111111111,2200,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.509853383854614,1100.71292808187,-6.41722048197205,-25.4520296813597,10.7193816555878,387.751542394042
904,1833,24636,"Blyakharchuk","Bly_131","Bly_131",50.4697222222222,87.6638888888888,2138,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.577080278342081,1112.02855143065,-6.17028795395058,-24.6976658993712,10.8069564885712,432.782214368428
905,1834,24637,"Blyakharchuk","Bly_132","Bly_132",50.4725,87.6722222222222,2150,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.575878882748906,1103.24890512169,-6.22403663924295,-24.7465541662642,10.7472135520894,431.753847848961
906,1835,24638,"Blyakharchuk","Bly_133","Bly_133",50.4725,87.6722222222222,2150,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.575878882748906,1103.24890512169,-6.22403663924295,-24.7465541662642,10.7472135520894,431.753847848961
907,1836,24639,"Blyakharchuk","Bly_134","Bly_134",50.4725,87.6722222222222,2150,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.575878882748906,1103.24890512169,-6.22403663924295,-24.7465541662642,10.7472135520894,431.753847848961
908,1837,24640,"Blyakharchuk","Bly_135","Bly_135",50.4725,87.6722222222222,2150,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.575878882748906,1103.24890512169,-6.22403663924295,-24.7465541662642,10.7472135520894,431.753847848961
909,1838,24641,"Blyakharchuk","Bly_136","Bly_136",50.2563888888888,89.3827777777777,2712,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.448932201236888,778.951899411829,-8.62322089819559,-27.7506951958689,8.42918053170341,337.258812138775
910,1839,24642,"Blyakharchuk","Bly_137","Bly_137",50.2677777777777,89.4438888888888,2413,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.468917455324875,973.080744434744,-7.46710525482458,-27.0553093970858,9.84385257147464,353.86493412197
911,1840,24643,"Blyakharchuk","Bly_138","Bly_138",50.2688888888888,89.6074999999999,2204,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.478671675544152,1119.55696825159,-6.65394183559012,-26.6216988032666,10.8549319491772,362.685424510514
912,1841,24644,"Blyakharchuk","Bly_139","Bly_139",50.2522222222222,89.6074999999999,2208,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.477207003721925,1117.51454811783,-6.66502090044668,-26.629228327182,10.8400805660203,361.776730162555
913,1842,24519,"Blyakharchuk","Bly_14","Bly_14",49.9680555555555,88.0811111111111,2000,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.547239356369083,1241.45403116378,-5.46960170725256,-24.3097965187847,11.6600938965791,418.441168432511
914,1843,24645,"Blyakharchuk","Bly_140","Bly_140",50.2522222222222,89.6074999999999,2204,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.477392828811142,1120.33967553992,-6.649242249699,-26.6197263923036,10.8592299691598,361.945643800327
915,1844,24646,"Blyakharchuk","Bly_141","Bly_141",50.2238888888888,89.3433333333333,2748,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.435582027392352,762.623125718274,-8.6593795869789,-27.651925500343,8.28568739087848,329.352899788545
916,1845,24647,"Blyakharchuk","Bly_142","Bly_142",50.2238888888888,89.3433333333333,2748,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.435582027392352,762.623125718274,-8.6593795869789,-27.651925500343,8.28568739087848,329.352899788545
917,1846,24648,"Blyakharchuk","Bly_143","Bly_143",50.2238888888888,89.3433333333333,2748,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.435582027392352,762.623125718274,-8.6593795869789,-27.651925500343,8.28568739087848,329.352899788545
918,1847,24649,"Blyakharchuk","Bly_144","Bly_144",50.2238888888888,89.3433333333333,2748,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.435582027392352,762.623125718274,-8.6593795869789,-27.651925500343,8.28568739087848,329.352899788545
919,1848,24520,"Blyakharchuk","Bly_15","Bly_15",50.0447222222222,88.9972222222222,1941,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.484461797614172,1299.8343336201,-5.48719089147365,-25.3616497472061,12.04432485673,371.658290654194
920,1849,24521,"Blyakharchuk","Bly_16","Bly_16",50.0086111111111,88.7655555555555,1766,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.505449444942586,1425.86992405809,-4.77562524889355,-24.7460029588817,12.8705816838698,387.899439623948
921,1850,24522,"Blyakharchuk","Bly_17","Bly_17",50.0447222222222,88.9972222222222,1941,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.484461797614172,1299.8343336201,-5.48719089147365,-25.3616497472061,12.04432485673,371.658290654194
922,1851,24523,"Blyakharchuk","Bly_18","Bly_18",49.9736111111111,88.6858333333333,1758,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.563733064683931,1409.70350299127,-4.69376781991577,-24.1193513050533,12.8012097796946,428.521876269253
923,1852,24524,"Blyakharchuk","Bly_19","Bly_19",49.9736111111111,88.6858333333333,1758,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.563733064683931,1409.70350299127,-4.69376781991577,-24.1193513050533,12.8012097796946,428.521876269253
924,1853,24507,"Blyakharchuk","Bly_2","Bly_2",51.3191666666666,94.4919444444444,707,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.621905760258762,2494.12865655444,-0.893680939819201,-25.4261357811113,19.0327512995422,479.021849850175
925,1854,24525,"Blyakharchuk","Bly_20","Bly_20",50.1647222222222,88.2583333333333,1900,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.560237671205314,1307.36520779131,-5.20783434129521,-24.3867916911789,12.1271002281208,424.828283527669
926,1855,24526,"Blyakharchuk","Bly_21","Bly_21",50.1647222222222,88.2583333333333,1900,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.560237671205314,1307.36520779131,-5.20783434129521,-24.3867916911789,12.1271002281208,424.828283527669
927,1856,24527,"Blyakharchuk","Bly_22","Bly_22",50.1647222222222,88.2583333333333,1900,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.560237671205314,1307.36520779131,-5.20783434129521,-24.3867916911789,12.1271002281208,424.828283527669
928,1857,24528,"Blyakharchuk","Bly_23","Bly_23",50.0780555555555,88.4305555555555,1900,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.553016911574569,1308.6153726365,-5.22215034997266,-24.4605391510748,12.1345314074056,420.089360604468
929,1858,24529,"Blyakharchuk","Bly_24","Bly_24",50.1927777777777,87.7347222222222,1800,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.588211205582827,1390.46819089723,-4.52885642396074,-23.2362427300344,12.6250627802297,449.548411309755
930,1859,24530,"Blyakharchuk","Bly_25","Bly_25",52.6977777777777,83.6261111111111,156,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.691782921247464,2779.33414885857,2.91282720247418,-15.5061044512772,20.7413711162668,483.299907309736
931,1860,24531,"Blyakharchuk","Bly_26","Bly_26",52.6905555555555,83.6463888888889,198,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.698029961137094,2736.19842257895,2.70614391034413,-15.6950418802755,20.510324425069,489.126749355834
932,1861,24532,"Blyakharchuk","Bly_27","Bly_27",52.6905555555555,83.6463888888889,198,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.698029961137094,2736.19842257895,2.70614391034413,-15.6950418802755,20.510324425069,489.126749355834
933,1862,24533,"Blyakharchuk","Bly_28","Bly_28",52.6977777777777,83.6261111111111,156,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.691782921247464,2779.33414885857,2.91282720247418,-15.5061044512772,20.7413711162668,483.299907309736
934,1863,24534,"Blyakharchuk","Bly_29","Bly_29",52.6977777777777,83.6261111111111,151,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.691049786764055,2784.50205273732,2.93760197574441,-15.4835422176387,20.7689320462978,482.632561453984
935,1864,24508,"Blyakharchuk","Bly_3","Bly_3",51.3191666666666,94.4919444444444,707,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.621905760258762,2494.12865655444,-0.893680939819201,-25.4261357811113,19.0327512995422,479.021849850175
936,1865,24535,"Blyakharchuk","Bly_30","Bly_30",54.6133333333333,89.7741666666666,408,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.760394673393283,2253.37096999817,0.250705023878914,-18.895934764297,18.4161839775496,468.022832926874
937,1866,24536,"Blyakharchuk","Bly_31","Bly_31",54.6133333333333,89.7741666666666,408,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.760394673393283,2253.37096999817,0.250705023878914,-18.895934764297,18.4161839775496,468.022832926874
938,1867,24537,"Blyakharchuk","Bly_32","Bly_32",54.4927777777777,90.4244444444444,388,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.754602323846523,2300.4053694426,0.482016427222751,-18.7602535034725,18.6097983845727,467.500953842086
939,1868,24538,"Blyakharchuk","Bly_33","Bly_33",54.4927777777777,90.4244444444444,388,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.754602323846523,2300.4053694426,0.482016427222751,-18.7602535034725,18.6097983845727,467.500953842086
940,1869,24539,"Blyakharchuk","Bly_34","Bly_34",54.5338888888888,90.1497222222222,390,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.753267854113878,2283.38145378727,0.400534519045839,-18.7944899657521,18.5562043655397,465.283573145924
941,1870,24540,"Blyakharchuk","Bly_35","Bly_35",53.2888888888888,91.5136111111111,292,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.73611134221388,2490.90914369146,1.23822959267315,-18.6410088626269,19.3757364516027,483.195630257163
942,1871,24541,"Blyakharchuk","Bly_36","Bly_36",51.3063888888888,85.6847222222222,855,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.69821327378114,2135.26245944769,-0.355596816132496,-18.9079485377482,17.1220207575983,522.716926572666
943,1872,24542,"Blyakharchuk","Bly_37","Bly_37",54.0533333333333,81.0386111111111,180,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.624918366618053,2574.47589374128,1.74415342776959,-16.858360243223,20.0479040218581,407.297445880208
944,1873,24543,"Blyakharchuk","Bly_38","Bly_38",53.9272222222222,80.5325,180,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.603062719235058,2580.50028285774,1.73778443923837,-16.912293794797,20.0750590416015,395.00628928931
945,1874,24544,"Blyakharchuk","Bly_39","Bly_39",54.04,81.0152777777777,171,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.618765476654348,2572.33983415997,1.72220707859812,-16.9118928253245,20.0640369269606,402.906000109558
946,1875,24509,"Blyakharchuk","Bly_4","Bly_4",51.3675,94.4263888888889,709,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.622863737721428,2492.38528299665,-0.898826772972601,-25.4250608208347,19.0219765823727,479.536387513611
947,1876,24545,"Blyakharchuk","Bly_40","Bly_40",54.04,81.0152777777777,171,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.618765476654348,2572.33983415997,1.72220707859812,-16.9118928253245,20.0640369269606,402.906000109558
948,1877,24546,"Blyakharchuk","Bly_41","Bly_41",52.6833333333333,79.7666666666666,100,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.433653629002565,2757.19120229879,2.44203208398053,-16.5093662616375,20.9227420777724,303.452514224503
949,1878,24547,"Blyakharchuk","Bly_42","Bly_42",53.2886111111111,84.3191666666666,211,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.715864741746388,2673.73195853256,2.44121015197723,-15.9960150504341,20.251213883947,491.324549092971
950,1879,24548,"Blyakharchuk","Bly_43","Bly_43",52.6183333333333,85.0938888888888,211,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.70211987187286,2740.26280474205,2.69228036888743,-15.9881599393348,20.4951881887812,502.282359614539
951,1880,24549,"Blyakharchuk","Bly_44","Bly_44",52.8458333333333,84.9805555555555,289,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.716109253770718,2629.32334126144,2.17402298492369,-16.4272759841015,19.9504513448781,506.422313424714
952,1881,24550,"Blyakharchuk","Bly_45","Bly_45",52.8458333333333,84.9805555555555,289,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.716109253770718,2629.32334126144,2.17402298492369,-16.4272759841015,19.9504513448781,506.422313424714
953,1882,24551,"Blyakharchuk","Bly_46","Bly_46",55.2555555555555,89.7625,473,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.803076006824009,2130.39565163904,-0.36658863579836,-19.3240770534629,17.8545970220732,479.808308908812
954,1883,24552,"Blyakharchuk","Bly_47","Bly_47",55.0216666666666,89.4638888888888,569,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.807946023911409,2068.37949199031,-0.734038842926315,-19.7380818431049,17.4251720877093,491.487177448579
955,1884,24553,"Blyakharchuk","Bly_48","Bly_48",53.3544444444444,87.2127777777777,319,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.712942155125405,2559.13132792209,1.7252127891192,-17.3468634233075,19.6883582803037,496.69884085567
956,1885,24554,"Blyakharchuk","Bly_49","Bly_49",50.6177777777777,95.1816666666666,1506,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.507925857599386,1757.24337145432,-4.89687279363091,-29.1240752539663,14.9092565441496,388.911049081682
957,1886,24510,"Blyakharchuk","Bly_5","Bly_5",51.3676,94.4263888888889,709,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.622871434211101,2492.37848642409,-0.898844456927801,-25.4250399232636,19.0219425241641,479.540692787815
958,1887,24555,"Blyakharchuk","Bly_50","Bly_50",50.5011111111111,95.1816666666666,1600,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.489525019406023,1677.34962081178,-5.33143627585861,-29.4786590335291,14.424976575349,375.652246458826
959,1888,24556,"Blyakharchuk","Bly_51","Bly_51",50.5011111111111,95.1816666666666,1506,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.498841392274851,1764.11747293808,-4.87313761378482,-29.1331784791098,14.9447788729479,383.673032164795
960,1889,24557,"Blyakharchuk","Bly_52","Bly_52",50.5011111111111,95.1816666666666,1600,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.489525019406023,1677.34962081178,-5.33143627585861,-29.4786590335291,14.424976575349,375.652246458826
961,1890,24558,"Blyakharchuk","Bly_53","Bly_53",50.8386111111111,90.3841666666666,1183,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.610447617326103,1906.01013967241,-2.68013814589013,-24.3727382135185,15.8181884534687,457.975008977592
962,1891,24559,"Blyakharchuk","Bly_54","Bly_54",50.8383333333333,90.3847222222222,1196,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.609403468606312,1895.0280487683,-2.73517260562093,-24.4126582927056,15.7540867023407,457.141747804829
963,1892,24560,"Blyakharchuk","Bly_55","Bly_55",50.8311111111111,90.2336111111111,1766,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.571600043981933,1410.73049285026,-5.15723006974429,-25.8685666808035,12.8179214905688,423.708666096867
964,1893,24561,"Blyakharchuk","Bly_56","Bly_56",51.1244444444444,91.6041666666666,1028,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.631037423301024,2114.10909945366,-2.04410721761557,-24.8385289041109,16.9863225019401,479.828932487004
965,1894,24562,"Blyakharchuk","Bly_57","Bly_57",51.0805555555555,95.0813888888888,991,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.623676869024646,2191.50987848515,-2.49631670071629,-26.8886401422394,17.4399306134652,471.348984418979
966,1895,24563,"Blyakharchuk","Bly_58","Bly_58",51.0805555555555,95.0813888888888,991,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.623676869024646,2191.50987848515,-2.49631670071629,-26.8886401422394,17.4399306134652,471.348984418979
967,1896,24564,"Blyakharchuk","Bly_59","Bly_59",54.68,89.8408333333333,310,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.745948244378554,2341.31369490302,0.731720182435134,-18.3990644102786,18.9359211135028,456.284597344518
968,1897,24511,"Blyakharchuk","Bly_6","Bly_6",51.4044444444444,94.7194444444444,812,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.655824238689099,2355.30076639335,-1.52858594771564,-25.8198252870421,18.3176943900658,496.471689944117
969,1898,24565,"Blyakharchuk","Bly_60","Bly_60",54.1147222222222,90.3630555555555,811,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.798925450283669,1948.84084359288,-1.57468016001231,-21.0866448906273,16.4542556018314,512.485037958504
970,1899,24566,"Blyakharchuk","Bly_61","Bly_61",54.115,90.3488888888888,881,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.810075792965994,1884.28170901604,-1.94574068810803,-21.4580515116822,16.0691177977914,520.18621567897
971,1900,24567,"Blyakharchuk","Bly_62","Bly_62",54.5341666666666,90.1497222222222,390,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.75327657157096,2283.3653882427,0.400479278192499,-18.7944600629532,18.5561555263239,465.283964100406
972,1901,24568,"Blyakharchuk","Bly_63","Bly_63",51.7452777777777,85.7205555555555,272,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.686110078418774,2695.76793564722,2.38865253774345,-16.5134014057721,20.1754395656439,509.943943764258
973,1902,24569,"Blyakharchuk","Bly_64","Bly_64",51.7452777777777,85.7205555555555,272,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.686110078418774,2695.76793564722,2.38865253774345,-16.5134014057721,20.1754395656439,509.943943764258
974,1903,24570,"Blyakharchuk","Bly_65","Bly_65",51.7452777777777,85.7205555555555,272,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.686110078418774,2695.76793564722,2.38865253774345,-16.5134014057721,20.1754395656439,509.943943764258
975,1904,24571,"Blyakharchuk","Bly_66","Bly_66",51.7452777777777,85.7205555555555,272,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.686110078418774,2695.76793564722,2.38865253774345,-16.5134014057721,20.1754395656439,509.943943764258
976,1905,24572,"Blyakharchuk","Bly_67","Bly_67",51.4055555555555,86.0272222222222,550,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.686254153288703,2414.49217668543,1.00032636901345,-17.8603221434281,18.6667377929882,513.860587622475
977,1906,24573,"Blyakharchuk","Bly_68","Bly_68",51.4666666666666,85.5333333333333,700,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.698623049268831,2277.37398313135,0.364909405748703,-18.2524025424938,17.919782531296,521.385644629161
978,1907,24574,"Blyakharchuk","Bly_69","Bly_69",51.0463888888888,85.6033333333333,1717,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.705490297773167,1411.47334767295,-4.19597973624921,-22.2729642609572,12.785910513587,528.421548692313
979,1908,24512,"Blyakharchuk","Bly_7","Bly_7",51.3408333333333,94.8180555555555,752,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.677291029979152,2391.33996243523,-1.33066901308161,-25.5903011551606,18.5463851830281,508.175913460283
980,1909,24575,"Blyakharchuk","Bly_70","Bly_70",51.0463888888888,85.6033333333333,1717,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.705490297773167,1411.47334767295,-4.19597973624921,-22.2729642609572,12.785910513587,528.421548692313
981,1910,24576,"Blyakharchuk","Bly_71","Bly_71",51.0463888888888,85.6033333333333,1717,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.705490297773167,1411.47334767295,-4.19597973624921,-22.2729642609572,12.785910513587,528.421548692313
982,1911,24577,"Blyakharchuk","Bly_72","Bly_72",51.0463888888888,85.6033333333333,1717,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.705490297773167,1411.47334767295,-4.19597973624921,-22.2729642609572,12.785910513587,528.421548692313
983,1912,24578,"Blyakharchuk","Bly_73","Bly_73",50.7488888888888,86.1555555555555,756,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.700037718865586,2204.11858529447,-0.0825200686730055,-18.8132221254393,17.4889728627094,532.472163491438
984,1913,24579,"Blyakharchuk","Bly_74","Bly_74",50.4994444444444,87.6241666666666,1985,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.59157765091128,1225.80862529823,-5.49468110752978,-24.1111457962828,11.5722824376229,444.73546706787
985,1914,24580,"Blyakharchuk","Bly_75","Bly_75",50.4469444444444,87.6241666666666,1816,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.604825507486234,1356.34291720365,-4.74222550996228,-23.4619282237242,12.4241716215983,456.577878265315
986,1915,24581,"Blyakharchuk","Bly_76","Bly_76",50.4994444444444,87.6241666666666,1985,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.59157765091128,1225.80862529823,-5.49468110752978,-24.1111457962828,11.5722824376229,444.73546706787
987,1916,24582,"Blyakharchuk","Bly_77","Bly_77",50.4994444444444,87.6241666666666,1985,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.59157765091128,1225.80862529823,-5.49468110752978,-24.1111457962828,11.5722824376229,444.73546706787
988,1917,24583,"Blyakharchuk","Bly_78","Bly_78",50.4994444444444,87.6241666666666,1986,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.591493497868028,1225.05558010435,-5.49909711550269,-24.1149286054148,11.5672634986728,444.663754476507
989,1918,24584,"Blyakharchuk","Bly_79","Bly_79",50.4994444444444,87.6241666666666,1986,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.591493497868028,1225.05558010435,-5.49909711550269,-24.1149286054148,11.5672634986728,444.663754476507
990,1919,24513,"Blyakharchuk","Bly_8","Bly_8",50.2694444444444,95.0119444444444,1380,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.489779316404629,1903.44141443495,-4.19570858634992,-28.724746728803,15.7520653752637,381.834152503269
991,1920,24585,"Blyakharchuk","Bly_80","Bly_80",50.4994444444444,87.6241666666666,1986,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.591493497868028,1225.05558010435,-5.49909711550269,-24.1149286054148,11.5672634986728,444.663754476507
992,1921,24586,"Blyakharchuk","Bly_81","Bly_81",50.4994444444444,87.6241666666666,1986,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.591493497868028,1225.05558010435,-5.49909711550269,-24.1149286054148,11.5672634986728,444.663754476507
993,1922,24587,"Blyakharchuk","Bly_82","Bly_82",50.4994444444444,87.6241666666666,1985,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.59157765091128,1225.80862529823,-5.49468110752978,-24.1111457962828,11.5722824376229,444.73546706787
994,1923,24588,"Blyakharchuk","Bly_83","Bly_83",50.4466666666666,87.6241666666666,1816,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.604820106979873,1356.34696981501,-4.74219253951963,-23.4618755304431,12.4241917364605,456.576426443036
995,1924,24589,"Blyakharchuk","Bly_84","Bly_84",50.4466666666666,87.6241666666666,1816,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.604820106979873,1356.34696981501,-4.74219253951963,-23.4618755304431,12.4241917364605,456.576426443036
996,1925,24590,"Blyakharchuk","Bly_85","Bly_85",51.7427777777777,87.4419444444444,489,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.677091668073574,2491.3407674769,1.23822464506103,-18.1801697244163,19.0791243376634,505.815999256616
997,1926,24591,"Blyakharchuk","Bly_86","Bly_86",51.7427777777777,87.4419444444444,489,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.677091668073574,2491.3407674769,1.23822464506103,-18.1801697244163,19.0791243376634,505.815999256616
998,1927,24592,"Blyakharchuk","Bly_87","Bly_87",51.6911111111111,87.6416666666666,503,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.678456052352155,2475.32450356577,1.15038217449395,-18.2940433242265,18.9951252938859,506.693929036771
999,1928,24593,"Blyakharchuk","Bly_88","Bly_88",51.7058333333333,87.6836111111111,525,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.678036017158627,2454.38016613412,1.04493364710723,-18.3992880216823,18.8835474270605,506.066494639508
1000,1929,24594,"Blyakharchuk","Bly_89","Bly_89",51.7058333333333,87.6836111111111,525,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.678036017158627,2454.38016613412,1.04493364710723,-18.3992880216823,18.8835474270605,506.066494639508
1001,1930,24514,"Blyakharchuk","Bly_9","Bly_9",50.0647222222222,95.1330555555555,1150,"not applicable","terrestrial","surface sample","modern","Unublished data",,22,"steppe",0.448685407549585,2187.34076608498,-2.88015326024437,-27.9996993000335,17.3418335622467,359.378616515894
1002,1931,24595,"Blyakharchuk","Bly_90","Bly_90",51.76,87.3777777777777,437,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.676973577987561,2527.08932252167,1.4358127114497,-17.9519881175858,19.2970330718389,502.712729720748
1003,1932,24596,"Blyakharchuk","Bly_91","Bly_91",51.76,87.3777777777777,437,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.676973577987561,2527.08932252167,1.4358127114497,-17.9519881175858,19.2970330718389,502.712729720748
1004,1933,24597,"Blyakharchuk","Bly_92","Bly_92",51.76,87.3777777777777,437,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.676973577987561,2527.08932252167,1.4358127114497,-17.9519881175858,19.2970330718389,502.712729720748
1005,1934,24598,"Blyakharchuk","Bly_93","Bly_93",51.76,87.3777777777777,437,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.676973577987561,2527.08932252167,1.4358127114497,-17.9519881175858,19.2970330718389,502.712729720748
1006,1935,24599,"Blyakharchuk","Bly_94","Bly_94",52.0366666666666,86.7341666666666,363,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.67912185099915,2609.20203695769,1.90445041363091,-17.2687883819965,19.7372206725314,502.731576033915
1007,1936,24600,"Blyakharchuk","Bly_95","Bly_95",53.8558333333333,83.8530555555555,145,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.704809284180294,2638.77248385305,2.28959795484422,-16.0245451297163,20.2352662689158,463.756187533013
1008,1937,24601,"Blyakharchuk","Bly_96","Bly_96",53.2508333333333,86.5838888888888,380,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.707148062190054,2539.2388046113,1.60095659727408,-17.514445926021,19.5142113228612,499.588186348298
1009,1938,24602,"Blyakharchuk","Bly_97","Bly_97",53.2511111111111,86.5838888888888,380,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.707154805859022,2539.22598875079,1.60090119198365,-17.5144826722816,19.5141668787582,499.588361773236
1010,1939,24603,"Blyakharchuk","Bly_98","Bly_98",53.2511111111111,86.5838888888888,380,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.707154805859022,2539.22598875079,1.60090119198365,-17.5144826722816,19.5141668787582,499.588361773236
1011,1940,24604,"Blyakharchuk","Bly_99","Bly_99",53.2511111111111,86.5838888888888,380,"not applicable","terrestrial","surface sample","modern","Unublished data",,15,"cold evergreen needleleaf forest",0.707154805859022,2539.22598875079,1.60090119198365,-17.5144826722816,19.5141668787582,499.588361773236
1012,1941,78,"APD","Blydefontein Section","BSF_40",-30.1333333333333,25,1700,"not applicable","terrestrial","not known","modern","Scott, L., Bousman, C.B. and Nyakale, M., 2005. Holocene pollen from swamp, cave and hyrax dung deposits at Blydefontein (Kikvorsberge), Karoo, South Africa. Quaternary International, 129(1), pp.49-59.;
Bousman, C.B., Metcalfe, S.E., Partridge, T.C., Vogel, J.C. and Brink, J.S., 1988. Palaeoenvironmental implications of late Pleistocene and Holocene valley fills in Blydefontein basin, Noupoort, CP, South Africa. Collection Palaeoecology of Africa and the surrounding islands, (19), pp.43-67.","10.1016/j.quaint.2004.04.006;
",22,"steppe",0.335721394602395,4914.88692658557,13.465443634481,6.47598285659012,20.1991023577623,532.220829969211
1013,1942,6543,"EMPDv2","BN","Binney2017_E3207",67.72,48.72,160,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3403687210062,1362.21842395096,-2.78646638163054,-19.6296645928799,14.4452047936394,489.90826380617
1014,1943,305,"Australian pollen","Boar Pocket Rd","Boar Pocket Rd",-17.167,145.6,760,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.695686598554665,7856.07933378449,21.5235050240671,16.7405464619971,24.905519182044,1258.48262009112
1015,1944,9592,"Gaillard et al., 1992","Boarp","Boarp",56.565372000000004,12.810691,0,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.97037395751902,2916.24684460733,7.84446987465165,-0.950016983451464,16.7256470594346,641.5468076323
1016,1945,12322,"Neotoma","Bob Lake","BOBLAKE",46.633611,-92.614722,379,"not known","lake","core","-11","Unpublished data",,9,"cool mixed forest",0.92584422500202,2872.16638646394,4.6603919294814,-13.38556252878,19.9104369226901,727.357135333452
1016,1945,12323,"Neotoma","Bob Lake","BOBLAKE",46.633611,-92.614722,379,"not known","lake","core","20","Unpublished data",,9,"cool mixed forest",0.92584422500202,2872.16638646394,4.6603919294814,-13.38556252878,19.9104369226901,727.357135333452
1016,1946,11882,"Neotoma","Bob Lake","BU422",46.70421,-87.8447999999999,512,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06847559407354,2583.43501352429,3.88550819936493,-12.365412557648,18.5813835868042,804.828507788909
1017,1947,8,"AMSS","Bobiri","Bobiri_B12T11",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-62","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1948,5,"AMSS","Bobiri","Bobiri_B12T13",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-62","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1949,11,"AMSS","Bobiri","Bobiri_B12T18",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-62","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1950,9,"AMSS","Bobiri","Bobiri_B13T11",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-63","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1951,6,"AMSS","Bobiri","Bobiri_B13T13",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-63","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1952,10,"AMSS","Bobiri","Bobiri_B14T11",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1017,1953,7,"AMSS","Bobiri","Bobiri_B14T13",6.70417,-1.31833,240,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S. and Gosling, W.D., 2019. Variability in modern pollen rain from moist and wet tropical forest plots in Ghana, West Africa. Grana, 58(1), pp.45-62.","10.1080/00173134.2018.1510027",2,"tropical semi-evergreen broadleaf forest",0.927477130723685,9658.59656780748,26.461908404952,24.8180289567937,28.5787022160526,1275.36455778088
1018,1954,18260,"SMPDSv1","Bobrovichskoe lake","Bobrovichskoe lake_SS",52.6212472222222,25.7770555555555,143,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809486520567051,2988.66665680065,7.0936072020171,-5.74718334804814,17.9425577411231,586.314228926872
1019,1955,306,"Australian pollen","Bobundara Swamp","Bobundara Swamp_1",-36.5833,150.1,1,"2","terrestrial, bog/fen/swamp","core","-26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.858505451742562,5508.69473016391,15.0923143292162,10.2299033557948,19.7514900031835,947.438153510355
1019,1956,307,"Australian pollen","Bobundara Swamp","Bobundara Swamp_10",-36.5833,150.1,1,"2","terrestrial, bog/fen/swamp","core","34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.858505451742562,5508.69473016391,15.0923143292162,10.2299033557948,19.7514900031835,947.438153510355
1020,1957,24326,"Neotoma","Boca de López","BOCLOPEZ_1",10.85365,-74.33309,0,"not known","lake","core","-19","van der Hammen, T., and G.W. Noldus. 1984. Paleoecología de la Ciénaga Grande de Santa Marta/Paleoecology of the Ciénaga Grande (Great Lagoon) of Santa Marta. Pages 581-588 in T. van der Hammen and P.M. Ruiz, editors. Volume 2. La Sierra Nevada de Santa Marta (Colombia), transecto Buritica - La Cumbre. Studies on Tropical Andean Ecosystems/Estudios de Ecosistemas Tropandinos. J. Cramer, Berlin, Germany.;
Velez, M.I., J. Escobar, M. Brenner, O. Rangel, A. Betancourt, A.J. Jaramillo, J.H. Curtis, and J.L. Moreno. 2014. Middle to late Holocene relative sea level rise, climate variability and environmental change along the Colombian Caribbean coast. The Holocene 24(8):898-907.",";
10.1177/0959683614534740",4,"warm-temperate evergreen and mixed forest",0.763841358493456,10156.7882803716,27.8268172064975,27.2175568368171,28.462377553395,1348.32360020975
1020,1958,24327,"Neotoma","Boca de López","BOCLOPEZ_5",10.85365,-74.33309,0,"not known","lake","core","14","van der Hammen, T., and G.W. Noldus. 1984. Paleoecología de la Ciénaga Grande de Santa Marta/Paleoecology of the Ciénaga Grande (Great Lagoon) of Santa Marta. Pages 581-588 in T. van der Hammen and P.M. Ruiz, editors. Volume 2. La Sierra Nevada de Santa Marta (Colombia), transecto Buritica - La Cumbre. Studies on Tropical Andean Ecosystems/Estudios de Ecosistemas Tropandinos. J. Cramer, Berlin, Germany.;
Velez, M.I., J. Escobar, M. Brenner, O. Rangel, A. Betancourt, A.J. Jaramillo, J.H. Curtis, and J.L. Moreno. 2014. Middle to late Holocene relative sea level rise, climate variability and environmental change along the Colombian Caribbean coast. The Holocene 24(8):898-907.",";
10.1177/0959683614534740",4,"warm-temperate evergreen and mixed forest",0.763841358493456,10156.7882803716,27.8268172064975,27.2175568368171,28.462377553395,1348.32360020975
1021,1959,18261,"SMPDSv1","Bocksjon","Seppa_b157",61.33,16.85,91,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10081205674305,2010.66288280943,3.68027343026471,-6.9303579987059996,14.7786717975882,595.72347474911
1022,1960,308,"Australian pollen","Boco Valley","BV ss",-41.65,145.6,450,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.49157399504806,3525.86156730189,9.65989470493668,5.45313550121656,14.4035152825928,1382.61546715965
1023,1961,8562,"EMPDv2","Bodalsbreen","Pardoe_c10",61.47,7.06,700,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",3.2679512579599,1637.62478345662,3.32692218936584,-4.52793088091336,11.7050836330666,1612.80347860651
1023,1962,8563,"EMPDv2","Bodalsbreen","Pardoe_c11",61.47,7.06,600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",3.49245604078296,1715.5605191424,3.76507052468926,-3.8500238040544,11.9545634338569,1715.3473729399
1023,1963,8564,"EMPDv2","Bodalsbreen","Pardoe_c12",61.47,7.06,600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",3.49245604078296,1715.5605191424,3.76507052468926,-3.8500238040544,11.9545634338569,1715.3473729399
1023,1964,8565,"EMPDv2","Bodalsbreen","Pardoe_c13",61.47,7.06,600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",3.49245604078296,1715.5605191424,3.76507052468926,-3.8500238040544,11.9545634338569,1715.3473729399
1023,1965,8566,"EMPDv2","Bodalsbreen","Pardoe_c14",61.47,7.06,600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",3.49245604078296,1715.5605191424,3.76507052468926,-3.8500238040544,11.9545634338569,1715.3473729399
1024,1966,1845,"CMPD","Bodongquan","Bodongquan 1",35.52,93.87,4672,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172158954460875,526.59908256311,-5.27159017943512,-16.9572669432295,5.98785944150207,167.429943766978
1024,1967,1846,"CMPD","Bodongquan","Bodongquan 2",35.52,93.87,4662,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.171682105727484,533.847672855551,-5.22268920956148,-16.922315923497,6.04470609674192,167.145749799368
1025,1968,18262,"SMPDSv1","Boehnigsee Goldmoos","EPDcoretop_E133",46.259167,7.843056,2061,"not known","terrestrial, bog/fen/swamp","core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64764752507309,1194.81493220218,1.49163484844016,-5.74580666219873,9.38128544820555,1970.12812783633
1026,1969,15416,"Neotoma","Bog A Pond","JHM030",47.17548,-95.1674549999999,459,"not known","lake","surface sample","Modern","McAndrews, J.H., 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Memoirs of the Torrey Botanical Club, 22(2), pp.1-72.","https://www.jstor.org/stable/43392230",9,"cool mixed forest",0.821459960917793,2963.40213228593,4.52884904349336,-14.7030817986327,20.4800356744629,660.951586226152
1027,1970,18263,"SMPDSv1","Bog Bean Puddle","Bunting_b11",58.079835040132,-5.2493360104777,25,"0.001","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.24541845307529,3016.74844654942,8.26506423712171,4.07269452603679,13.0880077942516,1602.71644020867
1028,1971,12324,"Neotoma","Bog D Pond","BOGD",47.1774999999999,-95.162675,460,"not known","terrestrial, bog/fen/swamp","core","-6","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.822059062524316,2963.34361840301,4.53013523710926,-14.6992714025395,20.4794049926765,661.399772920347
1028,1971,12325,"Neotoma","Bog D Pond","BOGD",47.1774999999999,-95.162675,460,"not known","terrestrial, bog/fen/swamp","core","9","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.822059062524316,2963.34361840301,4.53013523710926,-14.6992714025395,20.4794049926765,661.399772920347
1028,1971,12326,"Neotoma","Bog D Pond","BOGD",47.1774999999999,-95.162675,460,"not known","terrestrial, bog/fen/swamp","core","25","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.822059062524316,2963.34361840301,4.53013523710926,-14.6992714025395,20.4794049926765,661.399772920347
1028,1971,12327,"Neotoma","Bog D Pond","BOGD",47.1774999999999,-95.162675,460,"not known","terrestrial, bog/fen/swamp","core","42","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.822059062524316,2963.34361840301,4.53013523710926,-14.6992714025395,20.4794049926765,661.399772920347
1029,1972,9242,"EMPDv2","Bog Mazais Svetinu","Stivrins_a2",56.75,27.13333,96.2,"0.001","small hollow","peat","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.950213711615526,2537.3003153058,5.19950748139704,-7.3871154430056,16.8111655972075,607.963143058058
1030,1973,17554,"Neotoma","Bog Pond","BOG_C90",44.40081,-74.2824699999999,498,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.33462767549186,2694.07341298035,4.9793314259617,-10.0079330022382,18.4414944699007,1028.00154958397
1030,1974,17343,"Neotoma","Bog Pond","TW045B",44.8,-88.9,299,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.951849688260891,3082.9546833058,6.02464099202837,-10.5457229808636,20.6835272756103,776.654274279947
1031,1975,309,"Australian pollen","Boggy Lake","Boggy Lake - forest",-35.017,116.633,100,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1976,310,"Australian pollen","Boggy Lake","Boggy Lake - heath",-35.017,116.633,100,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1977,311,"Australian pollen","Boggy Lake","Boggy Lake - scrub",-35.017,116.633,100,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1978,312,"Australian pollen","Boggy Lake","Boggy Lake 1_a",-35.017,116.633,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1979,313,"Australian pollen","Boggy Lake","Boggy Lake 1_b",-35.017,116.633,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1980,314,"Australian pollen","Boggy Lake","Boggy Lake 1_c",-35.017,116.633,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.707519611193142,5617.36282571408,15.3900351389427,11.2810254637401,20.2293759194562,843.494148330789
1031,1981,315,"Australian pollen","Boggy Lake","Boggy Lake 2_a",-35.033,116.63,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70770457713778,5617.17218260148,15.3895128290452,11.2816514082515,20.2273073782304,843.425829348267
1031,1982,316,"Australian pollen","Boggy Lake","Boggy Lake 2_b",-35.033,116.63,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70770457713778,5617.17218260148,15.3895128290452,11.2816514082515,20.2273073782304,843.425829348267
1031,1983,317,"Australian pollen","Boggy Lake","Boggy Lake 2_c",-35.033,116.63,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70770457713778,5617.17218260148,15.3895128290452,11.2816514082515,20.2273073782304,843.425829348267
1032,1984,318,"Australian pollen","Boggy Swamp","Boggy Swamp core_10",-31.8667,151.5167,1160,"not known","terrestrial, bog/fen/swamp","core","-2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.515276318305017,4596.42391699236,12.5929422383352,4.65300204559786,19.8369390879319,760.028520510903
1032,1985,319,"Australian pollen","Boggy Swamp","Boggy Swamp core_15",-31.8667,151.5167,1160,"not known","terrestrial, bog/fen/swamp","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.515276318305017,4596.42391699236,12.5929422383352,4.65300204559786,19.8369390879319,760.028520510903
1032,1986,320,"Australian pollen","Boggy Swamp","Boggy Swamp core_20",-31.8667,151.5167,1160,"not known","terrestrial, bog/fen/swamp","core","33","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.515276318305017,4596.42391699236,12.5929422383352,4.65300204559786,19.8369390879319,760.028520510903
1032,1987,321,"Australian pollen","Boggy Swamp","Boggy Swamp core_25",-31.8667,151.5167,1160,"not known","terrestrial, bog/fen/swamp","core","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.515276318305017,4596.42391699236,12.5929422383352,4.65300204559786,19.8369390879319,760.028520510903
1032,1988,322,"Australian pollen","Boggy Swamp","Boggy Swamp core_5",-31.8667,151.5167,1160,"not known","terrestrial, bog/fen/swamp","core","-19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.515276318305017,4596.42391699236,12.5929422383352,4.65300204559786,19.8369390879319,760.028520510903
1033,1989,323,"Australian pollen","Bogong Creek Swamp","Bogong Creek Swamp core_1",-35.7522,148.9567,1001,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-58","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.837176657383304,3574.63979445025,9.79353368342535,2.47932025591739,16.9923151256544,1005.87059606769
1033,1990,324,"Australian pollen","Bogong Creek Swamp","Bogong Creek Swamp core_20",-35.7522,148.9567,1001,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-27","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.837176657383304,3574.63979445025,9.79353368342535,2.47932025591739,16.9923151256544,1005.87059606769
1033,1991,325,"Australian pollen","Bogong Creek Swamp","Bogong Creek Swamp core_40",-35.7522,148.9567,1001,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.837176657383304,3574.63979445025,9.79353368342535,2.47932025591739,16.9923151256544,1005.87059606769
1034,1992,8738,"EMPDv2","Bohringer See","Roesch_b1",47.763154,8.938237,406,"0.056","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.05918348387609,3393.03628103991,9.28506138045392,-0.11320164484932,18.3862712361016,833.040117068279
1035,1993,326,"Australian pollen","Boigu Gawat","Boigu Gawat 1_0",-10.0167,142.2333,10,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
1035,1994,327,"Australian pollen","Boigu Gawat","Boigu Gawat 1_4",-10.0167,142.2333,10,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","33","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
1035,1995,328,"Australian pollen","Boigu Gawat","Boigu Gawat 2_0",-10.0167,142.2333,10,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
1035,1996,329,"Australian pollen","Boigu Gawat","Boigu Gawat 2_4",-10.0167,142.2333,10,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-62","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
1036,1997,18264,"SMPDSv1","Bois de la Masse","Barboni_a150",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,1998,18265,"SMPDSv1","Bois de la Masse","Barboni_a151",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,1999,18266,"SMPDSv1","Bois de la Masse","Barboni_a152",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,2000,18267,"SMPDSv1","Bois de la Masse","Barboni_a153",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,2001,18268,"SMPDSv1","Bois de la Masse","Barboni_a154",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,2002,18270,"SMPDSv1","Bois de la Masse","Barboni_a155",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2003,18271,"SMPDSv1","Bois de la Masse","Barboni_a156",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2004,18272,"SMPDSv1","Bois de la Masse","Barboni_a157",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2005,18273,"SMPDSv1","Bois de la Masse","Barboni_a158",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2006,18274,"SMPDSv1","Bois de la Masse","Barboni_a159",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2007,18275,"SMPDSv1","Bois de la Masse","Barboni_a160",45.5,2.73,1180,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.2405611150381,2588.54720587442,7.00267273674801,-0.732508543111649,15.7827355196892,1105.54794007486
1036,2008,18269,"SMPDSv1","Bois de la Masse","Barboni_a186",45.5,2.733333,1140,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22385819424712,2643.91183897518,7.18215876411379,-0.550466255164989,15.9378176584105,1090.53158204948
1036,2009,18276,"SMPDSv1","Bois de la Masse","Barboni_a187",45.5,2.73,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.236391062976,2602.2271185461,7.04742831093085,-0.687107823293387,15.8213311821396,1101.78445199689
1036,2010,18277,"SMPDSv1","Bois de la Masse","Barboni_a188",45.48,2.76,1170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.24196970076741,2621.7019286962,7.11282093560011,-0.609236914818417,15.8933102419337,1113.63650546208
1037,2011,18278,"SMPDSv1","Bois des Amerois","EPDcoretop_E101",49.743889,5.129167,415,"0.01","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.37843026200875,3189.99329570247,8.73970765945881,0.316590016798157,17.1027915692143,1042.07291692935
1038,2012,18279,"SMPDSv1","Bois des Gardes","Barboni_a138",45.43,2.68,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13859623187414,2949.79557101094,8.08163170139984,0.36266077399781,16.7163458458964,1014.79592921408
1038,2013,18280,"SMPDSv1","Bois des Gardes","Barboni_a139",45.43,2.68,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13859623187414,2949.79557101094,8.08163170139984,0.36266077399781,16.7163458458964,1014.79592921408
1038,2014,18281,"SMPDSv1","Bois des Gardes","Barboni_a140",45.43,2.68,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13859623187414,2949.79557101094,8.08163170139984,0.36266077399781,16.7163458458964,1014.79592921408
1039,2015,18282,"SMPDSv1","Bois du Marcheiruz","CH/WVDK/M1",46.539911,6.235076,1410,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.78258349309223,2101.13876276818,5.22593141645781,-2.78213239849765,13.7606262190979,1452.08493314159
1040,2016,7112,"EMPDv2","Bois-Jesus","EPDcoretop_E2088",47.41,0.64,53,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.773528225721377,4171.62007256978,11.4290960892323,4.3292789695921,19.0684875179501,649.380368677628
1041,2017,8229,"EMPDv2","Boisman_St1","Mikishin-Gvozdeva_b60",42.79,131.276666666667,2,"3e-04","lake","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.930748474428561,3237.97053124992,6.26475530595368,-11.5530538318931,21.6837690687338,748.664306556588
1042,2018,8230,"EMPDv2","Boisman_St2","Mikishin-Gvozdeva_b61",42.7875,131.2775,2,"3e-04","lake","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.930768022406287,3238.0714171096,6.26533933200578,-11.5520870968661,21.6841391838668,748.716218798567
1043,2019,8231,"EMPDv2","Boisman_St30","Mikishin-Gvozdeva_b62",42.7886111111111,131.276111111111,2,"0.0014","lake","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.930727448215458,3238.07661506252,6.26525893318626,-11.5524089512361,21.6841571384961,748.678660129849
1044,2020,9593,"Gaillard et al., 1992","Bokesjon","Bokesjon",55.575661,13.437382,64,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.97874401344662,2826.73515645377,7.50974206023181,-1.44618807163417,16.5266906835623,654.480421355604
1045,2021,7505,"EMPDv2","Bol shoi Lyakhovsky","Klemm_a60",73.3365,141.3232,31,"2e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.547532702186954,720.096289232133,-16.7208902477198,-41.0087758952116,9.5210660497794,150.586977459765
1045,2022,7506,"EMPDv2","Bol shoi Lyakhovsky","Klemm_a61",73.2816,141.8379,8,"0.002","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.595548506680507,459.540366439863,-16.1207505176526,-36.7395227751083,6.40303054326102,150.104509647627
1045,2023,7507,"EMPDv2","Bol shoi Lyakhovsky","Klemm_a62",73.2816,141.8379,8,"2e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.595548506680507,459.540366439863,-16.1207505176526,-36.7395227751083,6.40303054326102,150.104509647627
1045,2024,7508,"EMPDv2","Bol shoi Lyakhovsky","Klemm_a63",72.6801,143.4385,26,"not known","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.559648346237501,811.145915324123,-16.8364846097684,-41.9838314599719,10.6219361926899,157.468818672413
1046,2025,14543,"Neotoma","Bolan Lake","BOLAN",42.022,-123.459,1639,"not known","lake","core","-49","Briles, C.E., C. Whitlock, and P.J. Bartlein. 2005. Postglacial vegetation, fire, and climate history of the Siskiyou Mountains, Oregon, USA. Quaternary Research 64:44-56.; Briles, C.E., C. Whitlock, P.J. Bartlein, and P. Higuera. 2008. Regional and local controls on postglacial vegetation and fire in the Siskiyou Mountains, northern California, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 265:159-169.; Briles, C.E. 2003. Postglacial vegetation and fire history near Bolan Lake in the northern Siskiyou Mountains of Oregon. Master's thesis. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.723442800091395,2804.55541700678,7.43121561454484,-1.58718569800849,18.2711843393188,756.301759201474
1046,2025,14544,"Neotoma","Bolan Lake","BOLAN",42.022,-123.459,1639,"not known","lake","core","-1","Briles, C.E., C. Whitlock, and P.J. Bartlein. 2005. Postglacial vegetation, fire, and climate history of the Siskiyou Mountains, Oregon, USA. Quaternary Research 64:44-56.; Briles, C.E., C. Whitlock, P.J. Bartlein, and P. Higuera. 2008. Regional and local controls on postglacial vegetation and fire in the Siskiyou Mountains, northern California, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 265:159-169.; Briles, C.E. 2003. Postglacial vegetation and fire history near Bolan Lake in the northern Siskiyou Mountains of Oregon. Master's thesis. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.723442800091395,2804.55541700678,7.43121561454484,-1.58718569800849,18.2711843393188,756.301759201474
1047,2026,18283,"SMPDSv1","Bolata dere","Bolata dere/MFBG02S",43.3833333333333,28.4669444444444,117,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.553805225206951,4291.97459173131,11.758834497894,0.337975807609119,22.0077804733458,533.878532417185
1048,2027,9526,"EMPDv2","Bolchaj Laptuga","Novenko_c112",63.3614,49.1433,102,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31099437560512,1875.72770373948,0.240945569197926,-17.241766088573,16.7946061193893,592.95000580885
1048,2028,9527,"EMPDv2","Bolchaj Laptuga","Novenko_c113",63.3664,49.1447,104,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31155673679656,1871.49760785928,0.218644338019592,-17.2612678851401,16.7776657864613,592.674748373352
1048,2029,9528,"EMPDv2","Bolchaj Laptuga","Novenko_c114",63.3589,49.14,104,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31131973568846,1871.59788969387,0.219237735019759,-17.260287687648,16.7778643332522,592.665235190921
1048,2030,9529,"EMPDv2","Bolchaj Laptuga","Novenko_c115",63.3628,49.1369,108,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31227869367752,1863.10666794471,0.174419690561064,-17.2990899896949,16.7434501380376,592.110479442132
1049,2031,330,"Australian pollen","Bolobek Peatland","Bolobek Peatland",-37.433,144.6,440,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.67671943161045,4650.44973782942,12.740958185834,6.37623323123417,19.4052261321618,761.048923655663
1050,2032,8138,"EMPDv2","Bolon_1","Mikishin-Gvozdeva_a201",49.9369444444444,136.535277777778,16,"336","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.12205102615733,2487.34967473914,0.577240987318981,-21.5712763218188,18.9860695318213,677.095613698422
1051,2033,8139,"EMPDv2","Bolon_2","Mikishin-Gvozdeva_a202",49.9113888888889,136.556666666667,16,"336","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.12203629752539,2487.58842906407,0.580698838688829,-21.5630873988721,18.9861831868267,677.40431535948
1052,2034,18284,"SMPDSv1","Boloto Nashe","Boloto Nashe_SS",53.4515,46.676,300,"0.07","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.721724921134499,2890.75912601882,4.62382812194512,-12.2165171807714,20.1435328875937,541.238550421776
1053,2035,9429,"EMPDv2","Bolshay Shadata","Novenko_c238",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2036,9430,"EMPDv2","Bolshay Shadata","Novenko_c239",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2037,9431,"EMPDv2","Bolshay Shadata","Novenko_c240",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2038,9432,"EMPDv2","Bolshay Shadata","Novenko_c241",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2039,9433,"EMPDv2","Bolshay Shadata","Novenko_c242",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2040,9434,"EMPDv2","Bolshay Shadata","Novenko_c243",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2041,9435,"EMPDv2","Bolshay Shadata","Novenko_c244",67.62,66,60,"not known","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2042,9436,"EMPDv2","Bolshay Shadata","Novenko_c245",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2043,9437,"EMPDv2","Bolshay Shadata","Novenko_c246",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2044,9438,"EMPDv2","Bolshay Shadata","Novenko_c247",67.62,66,60,"0.01","terrestrial","moss polster or moss","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2045,9439,"EMPDv2","Bolshay Shadata","Novenko_c248",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2046,9440,"EMPDv2","Bolshay Shadata","Novenko_c249",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1053,2047,9441,"EMPDv2","Bolshay Shadata","Novenko_c250",67.62,66,60,"0.01","terrestrial, soil","soil sample","-19","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10806727169206,1119.84779425051,-6.35705530481601,-24.2039843683339,13.4319101614651,395.005071441661
1054,2048,9576,"EMPDv2","Bolshaya","Mikishin-Gvozdeva_a132",52.896389,140.9575,50,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16318514378387,1893.0620557065,-1.36768377960381,-21.1264211306431,15.5635017670021,623.776623545759
1055,2049,18285,"SMPDSv1","Bonage Sleppe","Barboni_a361",50.4,5.9,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2651066376165,3312.86464285329,9.07634148726928,0.869041129152723,17.210234104382,915.474758141247
1056,2050,331,"Australian pollen","Bonatoa, Rewa Delta","Bonatoa Bog_a",-18.0667,178.5333,4,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.75341577059602,9003.9360593156,24.6683179707277,22.6375410105727,26.5535049818302,2424.57820433627
1056,2051,332,"Australian pollen","Bonatoa, Rewa Delta","Bonatoa Bog_b",-18.0667,178.5333,4,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.75341577059602,9003.9360593156,24.6683179707277,22.6375410105727,26.5535049818302,2424.57820433627
1056,2052,333,"Australian pollen","Bonatoa, Rewa Delta","Bonatoa Bog_c",-18.0667,178.5333,4,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.75341577059602,9003.9360593156,24.6683179707277,22.6375410105727,26.5535049818302,2424.57820433627
1057,2053,334,"Australian pollen","Bondi Lake","Bondi Lake centre_0",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","-43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2054,335,"Australian pollen","Bondi Lake","Bondi Lake centre_1",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2055,336,"Australian pollen","Bondi Lake","Bondi Lake centre_2",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","-17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2056,337,"Australian pollen","Bondi Lake","Bondi Lake centre_3",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","-4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2057,338,"Australian pollen","Bondi Lake","Bondi Lake centre_4",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2058,339,"Australian pollen","Bondi Lake","Bondi Lake centre_5",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2059,340,"Australian pollen","Bondi Lake","Bondi Lake centre_6",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2060,341,"Australian pollen","Bondi Lake","Bondi Lake centre_7",-36.8167,149.9167,1,"0.25","coastal, lacustrine","core","48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.848744335808271,5437.71804414589,14.8978576551942,10.1125394609245,19.549010475045,924.694832422989
1057,2061,342,"Australian pollen","Bondi Lake","Bondi Lake South core",-36.81,149.94,1,"0.25","coastal, lacustrine","core","-43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.849249588217867,5438.74373120784,14.9006677567338,10.1142106035087,19.5508003894619,925.473920835876
1058,2062,343,"Australian pollen","Boomer Swamp","BM1",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2063,344,"Australian pollen","Boomer Swamp","BM10",-38.206,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.708975241349501,5188.04626259992,14.2138253769861,10.0371210187794,18.7400490587661,723.736033825581
1058,2064,345,"Australian pollen","Boomer Swamp","BM11",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2065,346,"Australian pollen","Boomer Swamp","BM12",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2066,347,"Australian pollen","Boomer Swamp","BM13",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2067,348,"Australian pollen","Boomer Swamp","BM14",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2068,349,"Australian pollen","Boomer Swamp","BM15",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2069,350,"Australian pollen","Boomer Swamp","BM16",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2070,351,"Australian pollen","Boomer Swamp","BM17",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2071,352,"Australian pollen","Boomer Swamp","BM18",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1058,2072,353,"Australian pollen","Boomer Swamp","BM19",-38.206,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.708975241349501,5188.04626259992,14.2138253769861,10.0371210187794,18.7400490587661,723.736033825581
1058,2073,354,"Australian pollen","Boomer Swamp","BM2",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2074,355,"Australian pollen","Boomer Swamp","BM3",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2075,356,"Australian pollen","Boomer Swamp","BM4",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2076,357,"Australian pollen","Boomer Swamp","BM5",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2077,358,"Australian pollen","Boomer Swamp","BM6",-38.206,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70885686728063,5187.97859879159,14.2136399966893,10.0379273530958,18.7390320844633,723.625252857128
1058,2078,359,"Australian pollen","Boomer Swamp","BM7",-38.207,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70890717007115,5187.91019108333,14.2134525783105,10.0378500854161,18.73870178158,723.661991264075
1058,2079,360,"Australian pollen","Boomer Swamp","BM8",-38.207,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70890717007115,5187.91019108333,14.2134525783105,10.0378500854161,18.73870178158,723.661991264075
1058,2080,361,"Australian pollen","Boomer Swamp","BM9",-38.207,141.3,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.70890717007115,5187.91019108333,14.2134525783105,10.0378500854161,18.73870178158,723.661991264075
1058,2081,362,"Australian pollen","Boomer Swamp","Boomer Swamp, core 12",-38.207,141.31,9,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709025655159787,5187.97771375833,14.2136375719406,10.0370437633135,18.7397180087946,723.772870692933
1059,2082,12328,"Neotoma","Boone Lake","BOONE",55.575,-119.433333,872,"not known","lake","core","-28","White, J.M., and R.W. Mathewes. 1986. Postglacial vegetation and climatic change in the upper Peace River district, Alberta. Canadian Journal of Botany 64:2305-2318.; White, J.M., R.W. Mathewes, and W.H. Mathews. 1979. Radiocarbon dates from Boone Lake and their relation to the 'ice-free corridor' in the Peace River district of Alberta, Canada. Canadian Journal of Earth Sciences 16:1870-1874.; White, J.M., R.W. Mathewes, and W.H. Mathews. 1985. Late Pleistocene chronology and environment of the ""ice-free corridor"" of northwestern Alberta. Quaternary Research 24:173-186.",,15,"cold evergreen needleleaf forest",0.813410876599304,1924.7469732927,0.899651269442886,-14.9563673230828,14.2776662973767,515.869571019991
1060,2083,11592,"Neotoma","Boot","BOO-1C",43.683994999999904,-95.0827449999999,498,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.746366299035061,3435.36934357566,7.07380931418909,-10.501314404269,22.5367541080095,680.64396979989
1060,2084,11591,"Neotoma","Boot","BOO-1M",43.683994999999904,-95.0827449999999,498,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.746366299035061,3435.36934357566,7.07380931418909,-10.501314404269,22.5367541080095,680.64396979989
1061,2085,12329,"Neotoma","Border Beacon","BORDER",55.333333,-63.2,470,"not known","lake","core","0","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.; Lamb, H.F. 1985. Palynological evidence for postglacial change in the position of tree limit in Labrador. Ecological Monographs 55:241-258.",,15,"cold evergreen needleleaf forest",1.78724899527718,993.659999286463,-5.28415182084277,-21.8319499761074,11.0100446083871,800.537529115044
1062,2086,9594,"Gaillard et al., 1992","Borgahage","Borgahage",56.85344,16.627282,32,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.861884095843212,2646.71446556782,6.91857652373102,-1.89264855157791,16.2919036587148,561.31146066014
1063,2087,7940,"EMPDv2","Borgo Santa Rita - San Martino","Mercuri_i21",42.953658,11.384616,105,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.694668227306799,5398.76244060299,14.7911299742548,6.95114644050035,23.4955191630288,765.935829969595
1064,2088,7136,"EMPDv2","Borheen Lough","EPDcoretop_E2147",52.37,-8.15,476,"0.0245","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.08451929026956,2716.5241927286,7.44253203487287,2.85943360786096,13.2500215699481,1236.67560720379
1065,2089,12330,"Neotoma","Boriack Bog","BORIACKB",30.36,-97.126111,143,"not known","terrestrial, bog/fen/swamp","core","0","Bryant, V.M., Jr. 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1:143-156.; Valastro, S., and E.M. Davis. 1970. University of Texas at Austin radiocarbon dates VIII. Radiocarbon 12:617-639.",,22,"steppe",0.682830877846137,7312.75876455155,20.0349555193193,9.19446350294754,29.105014931826,928.197718624755
1066,2090,17520,"Neotoma","Boriak Bog Surface Sample 1","VMB001",30.35,-97.12,143,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Bryant Jr, V.M., 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1(1), pp.143-156.","10.1080/01916122.1977.9989156",22,"steppe",0.682795596151004,7313.4199601976,20.03676701424,9.19894397686663,29.1036824813177,928.226718260136
1067,2091,17521,"Neotoma","Boriak Bog Surface Sample 2","VMB002",30.25,-96.98,122,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Bryant Jr, V.M., 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1(1), pp.143-156.","10.1080/01916122.1977.9989156",22,"steppe",0.697307917486135,7392.30205033213,20.2528823296771,9.60075296111266,29.1117097017249,947.449287834429
1068,2092,17522,"Neotoma","Boriak Bog Surface Sample 3","VMB003",30.22,-97.1,152,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Bryant Jr, V.M., 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1(1), pp.143-156.","10.1080/01916122.1977.9989156",4,"warm-temperate evergreen and mixed forest",0.668082109705031,7341.45432583069,20.1135734954266,9.38711943015805,29.0342396646945,909.885323235008
1069,2093,17523,"Neotoma","Boriak Bog Surface Sample 4","VMB004",30.17,-97.33,152,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Bryant Jr, V.M., 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1(1), pp.143-156.","10.1080/01916122.1977.9989156",4,"warm-temperate evergreen and mixed forest",0.652913061317428,7387.71266847758,20.2403086807605,9.57838818295167,29.0854810180203,890.996759562378
1070,2094,17524,"Neotoma","Boriak Bog Surface Sample 5","VMB005",30.1,-97.25,152,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Bryant Jr, V.M., 1977. A 16,000 year pollen record of vegetational change in central Texas. Palynology 1(1), pp.143-156.","10.1080/01916122.1977.9989156",4,"warm-temperate evergreen and mixed forest",0.65527566268534,7371.68780276388,20.1964049390791,9.50354363266762,29.0764686957769,894.674719486037
1071,2095,18286,"SMPDSv1","Borkovicka blata","EPDcoretop_E950",49.216667,14.9,415,"not known","not known","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.825225934838968,3126.56791649139,8.23540996476491,-2.4105611443167,17.7327839082446,636.028475773479
1072,2096,10338,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0025",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","-56","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2097,10339,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0075",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","-42","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2098,10340,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0125",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","-28","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2099,10341,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0175",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","-14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2100,10342,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0225",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2101,10343,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0275",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1072,2102,10344,"IBERIA","Borreguil de la Caldera","BdlC-01_0.0325",37.0506,-3.3233,2992,"not known","terrestrial, bog/fen/swamp","core","35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.466534884256321,2171.03869138206,4.34306064159833,-5.48803236381929,18.8585520858129,556.253515141668
1073,2103,1847,"CMPD","Bortala River Basin","Bortala River Basin 01",44.9105,79.8871666666667,3235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.537096802146099,533.594694842441,-7.81355031314326,-24.370080882029,6.24309216483407,415.509233109054
1073,2104,1848,"CMPD","Bortala River Basin","Bortala River Basin 02",44.9066111111111,79.8985,3134,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.524108260548708,618.076996590066,-7.21688847033117,-23.8312833057394,6.88689573360437,410.61984623892897
1073,2105,1849,"CMPD","Bortala River Basin","Bortala River Basin 03",44.9098888888889,79.9179722222222,3028,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.51075618027903,711.460036944528,-6.58842230284795,-23.2650816476119,7.56385866100532,405.399361814521
1073,2106,1850,"CMPD","Bortala River Basin","Bortala River Basin 04",44.9105555555555,79.9494166666667,2929,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.498511856301383,802.250497856762,-6.00531808059502,-22.7441334925562,8.19384089633827,400.417703440706
1073,2107,1851,"CMPD","Bortala River Basin","Bortala River Basin 05",44.8697222222222,80.9059166666667,2714,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.459513722534691,975.578235943843,-5.07574835725848,-22.3115711538786,9.26647744054468,376.26919590605
1073,2108,1852,"CMPD","Bortala River Basin","Bortala River Basin 06",44.8768611111111,80.9055277777778,2607,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.447012291294256,1081.33207965186,-4.46138477413338,-21.7778484623027,9.93128676144076,370.381484238493
1073,2109,1853,"CMPD","Bortala River Basin","Bortala River Basin 07",44.8815,80.9051388888889,2498,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.434631843501609,1191.82389476317,-3.83728059995192,-21.2361736615514,10.6073825373473,364.395386704102
1073,2110,1854,"CMPD","Bortala River Basin","Bortala River Basin 08",44.8878611111111,80.9081666666667,2402,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.424001390533889,1291.48721931214,-3.28829408940729,-20.7607335453595,11.2025958263981,359.113273871366
1073,2111,1855,"CMPD","Bortala River Basin","Bortala River Basin 09",44.8961666666667,80.9136944444445,2314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.414488159235178,1384.6913124457801,-2.78606227662129,-20.3269869306731,11.7479433677827,354.271244809469
1073,2112,1856,"CMPD","Bortala River Basin","Bortala River Basin 10",44.9050555555556,80.9238333333333,2210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.403488184180464,1496.80113566513,-2.1948875673539,-19.8182163294709,12.3909081957089,348.527890715023
1073,2113,1857,"CMPD","Bortala River Basin","Bortala River Basin 11",44.9103888888889,80.9431111111111,2103,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.392343717727614,1614.09128586542,-1.59056014867168,-19.301562402347,13.0490579630266,342.517503384971
1073,2114,1858,"CMPD","Bortala River Basin","Bortala River Basin 12",44.9096666666667,80.9659166666667,2004,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.382152031768533,1724.38817421767,-1.03387216397261,-18.8277658782196,13.6552886538702,336.854134747244
1073,2115,1859,"CMPD","Bortala River Basin","Bortala River Basin 13",44.9128888888889,80.9884444444445,1908,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372531202435706,1833.15809311757,-0.495456866805471,-18.3711509552076,14.2432619165668,331.385537659045
1073,2116,1860,"CMPD","Bortala River Basin","Bortala River Basin 14",44.9128888888889,80.9884444444445,1908,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372531202435706,1833.15809311757,-0.495456866805471,-18.3711509552076,14.2432619165668,331.385537659045
1073,2117,1861,"CMPD","Bortala River Basin","Bortala River Basin 15",44.9252222222222,81.0017222222222,1809,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.363084453661083,1947.55571708785,0.0598793943575624,-17.8991355319093,14.8527063870287,325.957314270985
1073,2118,1862,"CMPD","Bortala River Basin","Bortala River Basin 16",44.9313333333333,81.0234722222222,1701,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35283316548073,2074.04093930799,0.662714232208339,-17.3896928929819,15.5140307532658,319.883675008612
1073,2119,1863,"CMPD","Bortala River Basin","Bortala River Basin 17",44.9341666666667,81.03875,1601,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.34355272261751,2193.25701641559,1.22180225218447,-16.9158396700575,16.1268082617862,314.277516759517
1073,2120,1864,"CMPD","Bortala River Basin","Bortala River Basin 18",44.9466666666667,81.0467777777778,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.334673959151567,2315.55196763174,1.7847091503136,-16.4386735444363,16.7479784617743,308.854492737541
1073,2121,1865,"CMPD","Bortala River Basin","Bortala River Basin 19",44.91425,79.9750555555555,2826,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.486173497606883,900.539979392974,-5.39644825574189,-22.1978020339168,8.85022280323207,395.279560933097
1073,2122,1866,"CMPD","Bortala River Basin","Bortala River Basin 20",44.9276111111111,80.0123611111111,2730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.474867065983581,995.267170586382,-4.82947693075926,-21.6930907236259,9.4619830543364,390.36776050533
1073,2123,1867,"CMPD","Bortala River Basin","Bortala River Basin 21",44.9303333333333,80.0656388888889,2633,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463562530383424,1092.93960395897,-4.26313518081815,-21.1942647157917,10.075499269776,385.276066525797
1073,2124,1868,"CMPD","Bortala River Basin","Bortala River Basin 22",44.9559444444444,80.3451944444444,2212,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.413957038382719,1520.94592156495,-1.97668944514696,-19.3315636886064,12.585883540098,358.683705515742
1073,2125,1869,"CMPD","Bortala River Basin","Bortala River Basin 23",44.9498055555556,80.4208333333333,2106,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.402703835754451,1636.94293987831,-1.3795415748282,-18.8202713053543,13.2312945507769,352.632572563887
1073,2126,1870,"CMPD","Bortala River Basin","Bortala River Basin 24",44.9572777777778,80.4915833333333,2013,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.393169787940157,1740.26106786251,-0.860307702845365,-18.379835334206,13.7956161912132,347.346131363603
1073,2127,1871,"CMPD","Bortala River Basin","Bortala River Basin 25",44.9606111111111,80.5680833333333,1910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.382813625998232,1856.25407700563,-0.287053016973482,-17.8933487343387,14.4180787802505,341.471930069827
1073,2128,1872,"CMPD","Bortala River Basin","Bortala River Basin 26",44.9764444444444,80.6466111111111,1813,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.373446641928834,1966.385057246,0.244134139674456,-17.4489553259357,15.0003037195402,335.997067086945
1073,2129,1873,"CMPD","Bortala River Basin","Bortala River Basin 27",44.9908888888889,80.7138055555556,1720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.364767254916119,2073.34980164948,0.751940664557549,-17.022771930475,15.557848444501,330.849061799904
1073,2130,1874,"CMPD","Bortala River Basin","Bortala River Basin 28",44.9224444444444,80.1297777777778,2521,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.450759017567683,1208.3264643696,-3.61139748231139,-20.6206511885006,10.7810445592261,379.347876924805
1073,2131,1875,"CMPD","Bortala River Basin","Bortala River Basin 29",44.9368333333333,80.1860555555556,2414,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.439009111545067,1322.03018215615,-2.98578338864913,-20.0694463489056,11.4578690370675,373.734651890313
1073,2132,1876,"CMPD","Bortala River Basin","Bortala River Basin 30",44.9423888888889,80.2668333333333,2311,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.424599149937816,1414.43552381753,-2.53404650817304,-19.8050455937514,11.9804369555538,364.302995179326
1073,2133,1877,"CMPD","Bortala River Basin","Bortala River Basin 31",45.0114166666667,80.8480277777778,1610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.347941127781585,2188.61485391274,1.21255968713714,-16.8616570707808,16.1277878254614,318.021705402055
1073,2134,1878,"CMPD","Bortala River Basin","Bortala River Basin 32",45.0018055555556,80.881,1517,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.339142658816858,2300.33432527148,1.72881479716724,-16.4277917673654,16.6916259932334,312.54915502096
1073,2135,1879,"CMPD","Bortala River Basin","Bortala River Basin 33",44.9256388888889,81.3261388888889,1259,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.301730795983431,2605.82696349212,2.946670249959,-15.8474667652581,18.1592960858193,283.852404589003
1074,2136,8293,"EMPDv2","Borzonasca","Montanari_b7",44.4191277777778,9.39011666666667,160,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.970747870793177,4722.97783553286,12.9396653028297,3.47852020399849,22.43983451001,1004.47799660419
1075,2137,10423,"IBERIA","Bosc dels Estanyons","BOSCESTA",42.4803,1.6289,2180,"0.007","terrestrial, bog/fen/swamp","core top","26","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.15765663726474,1840.31656211662,4.25352149587541,-3.34801432420309,13.4720437072312,1112.14285984712
1076,2138,6895,"EMPDv2","Bosco balo","Colombaroli_a10",38.0231111111111,13.1444444444444,645,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.398691238710687,5531.38914376007,15.1544908048221,8.70162148244744,23.1982594129041,544.40443446976
1077,2139,18287,"SMPDSv1","Boscodon","Ortu_d22",44.502,6.37,1580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43675644297361,2247.07953986487,5.87966097805189,-1.68507609543173,14.4358943551117,1345.33542949742
1077,2140,18288,"SMPDSv1","Boscodon","Ortu_d23",44.502,6.37,1580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43675644297361,2247.07953986487,5.87966097805189,-1.68507609543173,14.4358943551117,1345.33542949742
1077,2141,18289,"SMPDSv1","Boscodon","Ortu_d24",44.502,6.37,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32542304203281,2532.94157907593,6.85157868802577,-0.759223899670482,15.4392453512013,1269.37654234794
1077,2142,18290,"SMPDSv1","Boscodon","Ortu_d25",44.502,6.37,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20751163505026,2894.99284795215,7.93148725466342,0.269500762286462,16.5540797913008,1184.97777884852
1077,2143,18291,"SMPDSv1","Boscodon","Ortu_d26",44.502,6.37,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20751163505026,2894.99284795215,7.93148725466342,0.269500762286462,16.5540797913008,1184.97777884852
1077,2144,18292,"SMPDSv1","Boscodon","Ortu_d27",44.488,6.463,1520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39815567367676,2346.35330932746,6.22882992655314,-1.34971196714395,14.7901060544588,1320.44304878884
1077,2145,18293,"SMPDSv1","Boscodon","Ortu_d28",44.488,6.463,1520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39815567367676,2346.35330932746,6.22882992655314,-1.34971196714395,14.7901060544588,1320.44304878884
1077,2146,18294,"SMPDSv1","Boscodon","Ortu_d29",44.488,6.463,1620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46123225949428,2193.40755294942,5.68729663850153,-1.86531017824925,14.2313346214204,1362.59624622126
1077,2147,18295,"SMPDSv1","Boscodon","Ortu_d30",44.488,6.463,1620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46123225949428,2193.40755294942,5.68729663850153,-1.86531017824925,14.2313346214204,1362.59624622126
1077,2148,18296,"SMPDSv1","Boscodon","Ortu_d31",44.492,6.465,1490,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.37997485053849,2393.65120546563,6.39055547557944,-1.19634717705215,14.957057532282,1308.00768840972
1077,2149,18297,"SMPDSv1","Boscodon","Ortu_d32",44.499,6.465,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15104625635987,3102.27472478101,8.4993828076192,0.808706185661669,17.1345329192284,1143.84560622374
1078,2150,24385,"Neotoma","Bosque de Avicennia","AVICENNIA_0",-0.92777,-46.70221,2,"not known","terrestrial","core","-61","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2151,24387,"Neotoma","Bosque de Avicennia","AVICENNIA_10",-0.92777,-46.70221,2,"not known","terrestrial","core","-47","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2152,24388,"Neotoma","Bosque de Avicennia","AVICENNIA_15",-0.92777,-46.70221,2,"not known","terrestrial","core","-39","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2153,24389,"Neotoma","Bosque de Avicennia","AVICENNIA_20",-0.92777,-46.70221,2,"not known","terrestrial","core","-32","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2154,24390,"Neotoma","Bosque de Avicennia","AVICENNIA_25",-0.92777,-46.70221,2,"not known","terrestrial","core","-23","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2155,24391,"Neotoma","Bosque de Avicennia","AVICENNIA_30",-0.92777,-46.70221,2,"not known","terrestrial","core","-14","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2156,24392,"Neotoma","Bosque de Avicennia","AVICENNIA_35",-0.92777,-46.70221,2,"not known","terrestrial","core","-4","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2157,24393,"Neotoma","Bosque de Avicennia","AVICENNIA_40",-0.92777,-46.70221,2,"not known","terrestrial","core","7","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2158,24394,"Neotoma","Bosque de Avicennia","AVICENNIA_45",-0.92777,-46.70221,2,"not known","terrestrial","core","30","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1078,2159,24386,"Neotoma","Bosque de Avicennia","AVICENNIA_5",-0.92777,-46.70221,2,"not known","terrestrial","core","-54","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72966737797622,9745.23312197624,26.6992688273322,25.802251251462,27.4334716669815,2507.88869384905
1079,2160,10760,"Bush et al., 2020","Bosque_Humido.1","Bosque_Humido.1",10.862403,-85.682788,239,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32040182210313,9352.65651422207,25.6237164773207,24.6372261330197,27.0708631136448,2333.75850150799
1080,2161,10761,"Bush et al., 2020","Bosque_Humido.2","Bosque_Humido.2",10.862403,-85.682788,239,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32040182210313,9352.65651422207,25.6237164773207,24.6372261330197,27.0708631136448,2333.75850150799
1081,2162,10762,"Bush et al., 2020","Bosque_humido.4dist","Bosque_humido.4dist",10.862403,-85.682788,239,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32040182210313,9352.65651422207,25.6237164773207,24.6372261330197,27.0708631136448,2333.75850150799
1082,2163,10763,"Bush et al., 2020","Bosque_humido.5","Bosque_humido.5",10.862403,-85.682788,239,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32040182210313,9352.65651422207,25.6237164773207,24.6372261330197,27.0708631136448,2333.75850150799
1083,2164,10764,"Bush et al., 2020","BosquedeMaricao1","BosquedeMaricao1",18.14108333,-66.97221667,705,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56867042963813,7657.8824084362,20.9804997491403,18.7866449270618,22.4706177998053,2156.56256605096
1084,2165,10765,"Bush et al., 2020","BosquedeMaricao2","BosquedeMaricao2",18.14111667,-66.97321667,705,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56887166407903,7657.88833713204,20.9805159921426,18.7866876391889,22.470565393849,2156.8400367213
1085,2166,10766,"Bush et al., 2020","BosquedeMaricao3","BosquedeMaricao3",18.15131667,-66.9938,708,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57438945029776,7650.77752262724,20.9610343085678,18.7656643922646,22.4520784735381,2162.90881741007
1086,2167,10767,"Bush et al., 2020","BosqueRioAbajo1","BosqueRioAbajo1",18.32701667,-66.71663333,373,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.35403586364799,8502.59176460786,23.2947719578297,21.3163588788724,24.7490798636796,1995.92594458093
1087,2168,12331,"Neotoma","Bossuot Lake","BOSSUOT",44.296475,-93.73571,310,"not known","lake","core","-13","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.848110856993551,3450.46808768207,6.93057885362377,-11.4831479992315,22.4622982324838,737.204457160389
1087,2168,12332,"Neotoma","Bossuot Lake","BOSSUOT",44.296475,-93.73571,310,"not known","lake","core","8","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.848110856993551,3450.46808768207,6.93057885362377,-11.4831479992315,22.4622982324838,737.204457160389
1087,2168,12333,"Neotoma","Bossuot Lake","BOSSUOT",44.296475,-93.73571,310,"not known","lake","core","32","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.848110856993551,3450.46808768207,6.93057885362377,-11.4831479992315,22.4622982324838,737.204457160389
1088,2169,9756,"Herzschuh et al., 2019","Bosten Lake","Bosten Lake",41.97,86.55,1050,"1000","lake","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.0690820238676138,4515.8381833216,10.9947907790365,-7.667549413882,25.4108305112202,80.1541491836402
1089,2170,8107,"EMPDv2","Botasino","Mikishin-Gvozdeva_a164",52.2886111111111,143.073333333333,20,"not applicable","terrestrial","litter","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.23800147362704,1825.46588379236,-0.864318113027913,-19.1010136379061,15.21413353071,654.985535725272
1090,2171,7217,"EMPDv2","Botija bog","EPDcoretop_E2574",39.6,-4.7,755,"7e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.391651393577346,4900.42147882387,13.4258122707503,5.26790855008674,23.5744565836405,487.92618090844
1091,2172,18298,"SMPDSv1","Botja","Botja core tope",39.6016666666667,-4.69611111111111,755,"7e-04","terrestrial, bog/fen/swamp","peat core top","-19","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391611404628846,4900.54575408975,13.4261527509308,5.26804195931894,23.5753417761809,487.869162981507
1092,2173,18299,"SMPDSv1","Botjarnen","Seppa_b160",59.9,15.22,292,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.24054415541801,1892.47621901867,2.8291268542779,-8.34056584829079,14.0708973984363,687.749966835323
1093,2174,11658,"Neotoma","Bottle Pond","GPPS-31",34.72632,-98.585235,498,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",13,"temperate deciduous broadleaf forest",0.496565533992316,5969.34118750793,16.35435941783,2.81304033708918,28.7614939072559,660.046116337464
1094,2175,6120,"EMPDv2","Bouhachem Nature Reserve, Chefchaouen","AlbaSanchez_a46",35.24113,-5.43012,1405,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.392699834997146,5065.4467663013,13.877936346031,6.40729868470512,23.992250945511,526.843151497824
1094,2176,6121,"EMPDv2","Bouhachem Nature Reserve, Chefchaouen","AlbaSanchez_a47",35.241631,-5.429297,1405,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.392694294746162,5065.44553711836,13.8779329784065,6.40740673716876,23.9921072498416,526.831212635025
1095,2177,363,"Australian pollen","Boulder Flat","Boulder Flat Swamp",-37.4667,148.9667,130,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.803308552457883,5111.80686371863,14.0049503115579,8.95091446339328,19.0470682205606,867.606830899558
1096,2178,6174,"EMPDv2","Boulemane","AlbaSanchez_a102",33.653631,-4.159211,1832,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.294347081630417,4977.52631776652,13.6370584048398,4.5553852848058,25.219908912005,429.639579714247
1096,2179,6175,"EMPDv2","Boulemane","AlbaSanchez_a103",33.382891,-4.715923,1942,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.315758144996627,4759.98323060704,13.0410499468686,3.92713147173287,24.6562650974153,456.841144066254
1096,2180,6176,"EMPDv2","Boulemane","AlbaSanchez_a104",33.404569,-4.661729,2184,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.308055851730109,4514.5893247603,12.3687378760556,2.87485953905903,24.5525383739562,449.356873805569
1096,2181,6177,"EMPDv2","Boulemane","AlbaSanchez_a105",33.404563,-4.656264,2282,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.30548893157002,4413.13144952586,12.0907710945914,2.44574482866073,24.498687144879,446.985346812086
1097,2182,12334,"Neotoma","Boundary Pond","BOUNDARY",45.566667,-70.675,603,"not known","lake","core","0","Mott, R.J. 1977. Late-Pleistocene and Holocene palynology in southeastern Québec. Géographie physique et Quaternaire 31(1-2):139-149.","10.7202/1000060ar",9,"cool mixed forest",1.614956008497,2317.71094306471,3.10470795751782,-12.3374160615778,17.0314553756676,1169.01596904156
1098,2183,7002,"EMPDv2","Bourdim","EPDcoretop_E1500",36.8,8.25,13,"0.07","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.478767454823631,6585.83654179815,18.0433877857484,11.1984820830007,26.2044265091351,631.513835681716
1099,2184,8623,"EMPDv2","Boverbreen","Pardoe_c71",61.33,8.04,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5621897563415,1092.4674112362,-0.484322432951208,-10.4555832105073,9.54295585075666,786.388194048408
1099,2185,8624,"EMPDv2","Boverbreen","Pardoe_c72",61.33,8.04,1380,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5880161047821,1103.74291167696,-0.402484796984658,-10.3439560565348,9.59981810265555,798.921359823916
1099,2186,8625,"EMPDv2","Boverbreen","Pardoe_c73",61.33,8.04,1370,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.60094173476388,1109.44390696175,-0.361565979001384,-10.2881424795485,9.628249228605,805.18794271167
1099,2187,8626,"EMPDv2","Boverbreen","Pardoe_c74",61.33,8.04,1360,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.61387550693964,1115.14643806494,-0.320647161018109,-10.2323289025623,9.65668035455445,811.454525599424
1099,2188,8627,"EMPDv2","Boverbreen","Pardoe_c75",61.33,8.04,1350,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62681743130796,1120.84896916812,-0.279728343034834,-10.176515325576,9.6851114805039,817.721108487178
1099,2189,8628,"EMPDv2","Boverbreen","Pardoe_c76",61.33,8.04,1340,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.6397675466341,1126.56302236365,-0.23880952505156,-10.1207017485898,9.71354260645335,823.987691374932
1099,2190,8629,"EMPDv2","Boverbreen","Pardoe_c77",61.33,8.04,1340,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.6397675466341,1126.56302236365,-0.23880952505156,-10.1207017485898,9.71354260645335,823.987691374932
1099,2191,8630,"EMPDv2","Boverbreen","Pardoe_c78",61.33,8.04,1320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.66569251210652,1138.05368265159,-0.15697188908501,-10.0090745946173,9.77040485835224,836.52085715044
1099,2192,8631,"EMPDv2","Boverbreen","Pardoe_c79",61.33,8.04,1300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.69165095951802,1149.61531638137,-0.0751342531184607,-9.89744744064477,9.82726711025114,849.054022925948
1100,2193,17261,"Neotoma","Bower Lake","LFR68107",49.05525,-100.07285,685,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.619676728727627,2639.87305130544,3.09104365208028,-15.8055039491232,19.2670735317341,491.949955411357
1101,2194,11807,"Neotoma","Boyce Lake","LMSJ1961",37.644545,-107.80126,2654,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.442622426583374,2165.65832696273,3.7456600537132,-8.78758541334906,16.0956328108839,494.787665961284
1102,2195,6896,"EMPDv2","BP","Colombaroli_a11",37.17125,14.8601666666667,538,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.440837922518512,5715.39872682259,15.658626648829,9.05408837382725,23.8702224333547,598.701888456096
1103,2196,11835,"Neotoma","Bracey Pond","BU743",44.96201,-68.12262,118,"not known","lake","surface sample","-15","Davis, R.B. 1967. Pollen studies of near-surface sediments in Maine Lakes. Pages 143-173 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Volume 7. Proceedings of the VII Congress of the International Association for Quaternary Research. Yale University Press, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.49279390812259,2727.08576758861,5.40424444200945,-8.95430380377396,18.7121230365302,1141.96580681421
1103,2197,11834,"Neotoma","Bracey Pond","BU744",44.96201,-68.12262,118,"not known","lake","surface sample","-15","Davis, R.B. 1967. Pollen studies of near-surface sediments in Maine Lakes. Pages 143-173 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Volume 7. Proceedings of the VII Congress of the International Association for Quaternary Research. Yale University Press, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.49279390812259,2727.08576758861,5.40424444200945,-8.95430380377396,18.7121230365302,1141.96580681421
1104,2198,364,"Australian pollen","Brachina Gorge","Brachina Gorge Gum Tree_1995",-31.333112,138.57605,350,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.161038312564009,6572.10458381984,18.0057659830681,10.0262170932164,25.7776757928211,259.041047266607
1104,2199,365,"Australian pollen","Brachina Gorge","Brachina Gorge Gum Tree_1996",-31.333112,138.57605,350,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.161038312564009,6572.10458381984,18.0057659830681,10.0262170932164,25.7776757928211,259.041047266607
1104,2200,366,"Australian pollen","Brachina Gorge","Brachina Gorge opposite BR1_1996",-31.342202,138.550987,250,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150211743444224,6779.25210128711,18.5732934281839,10.6771108090991,26.2338758040813,240.61212051031
1104,2201,367,"Australian pollen","Brachina Gorge","Brachina Gorge opposite BR4_1996",-31.339563,138.544464,250,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150164461541483,6779.98723149072,18.5753074835362,10.6790608742468,26.2358234131399,240.54667830904
1104,2202,368,"Australian pollen","Brachina Gorge","Elatina/Nucleena Formation_1995",-31.332525,138.654842,450,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.172194903585498,6358.01196515442,17.4192108634368,9.36454186697853,25.2953945117671,277.904269847258
1104,2203,369,"Australian pollen","Brachina Gorge","Western Brachina Gorge_1996",-31.341615,138.530045,200,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.144712484125703,6883.58505077547,18.8591371254122,11.0057953102274,26.4627002451891,231.301008443664
1105,2204,370,"Australian pollen","Brachina Gorge 1","BR1 down_1996",-31.355,138.549166666667,230,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.148237825581026,6818.04440354653,18.6795737083466,10.8035063936925,26.3149420520365,237.158418733914
1105,2205,371,"Australian pollen","Brachina Gorge 1","BR1 inside_1995",-31.355,138.549166666667,230,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.148237825581026,6818.04440354653,18.6795737083466,10.8035063936925,26.3149420520365,237.158418733914
1105,2206,372,"Australian pollen","Brachina Gorge 1","BR1 out_1995",-31.355,138.549166666667,230,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.148237825581026,6818.04440354653,18.6795737083466,10.8035063936925,26.3149420520365,237.158418733914
1106,2207,373,"Australian pollen","Brachina Gorge 2","BR2 inside_1995",-31.3405,138.544333333333,250,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150181136983531,6779.78136514249,18.5747434661438,10.6788004009105,26.2350005322748,240.56566797295
1106,2208,374,"Australian pollen","Brachina Gorge 2","BR2 inside_1996",-31.3405,138.544333333333,250,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150181136983531,6779.78136514249,18.5747434661438,10.6788004009105,26.2350005322748,240.56566797295
1106,2209,375,"Australian pollen","Brachina Gorge 2","BR2 outside_1995",-31.3405,138.544333333333,250,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150181136983531,6779.78136514249,18.5747434661438,10.6788004009105,26.2350005322748,240.56566797295
1106,2210,376,"Australian pollen","Brachina Gorge 2","BR2 outside_1996",-31.3405,138.544333333333,250,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150181136983531,6779.78136514249,18.5747434661438,10.6788004009105,26.2350005322748,240.56566797295
1107,2211,377,"Australian pollen","Brachina Gorge 4","BR4 down_1996",-31.3403333333333,138.538,250,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150177797063829,6779.96073957911,18.5752349029565,10.6799666876668,26.2348053761061,240.551134406007
1107,2212,378,"Australian pollen","Brachina Gorge 4","BR4 inside_1996",-31.3403333333333,138.538,250,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.150177797063829,6779.96073957911,18.5752349029565,10.6799666876668,26.2348053761061,240.551134406007
1108,2213,7134,"EMPDv2","Brackloon Lough","EPDcoretop_E2145",53.76,-9.56,100,"0.8","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.09045528259323,3309.20068107403,9.06630323581925,4.66822149562701,14.214696977503401,1241.64459104602
1109,2214,7135,"EMPDv2","Brackloon Wood","EPDcoretop_E2146",53.76,-9.55,100,"4e-04","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.09024476355069,3308.80076682401,9.06520758033975,4.66594893921414,14.2149808347992,1241.46605873769
1110,2215,18300,"SMPDSv1","Bradfield Woods","Grant_a1",52.182027,0.834781,88,"1e-04","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.992861429279118,3465.18083781725,9.49364613100617,3.42869054855031,16.24620734323,655.034788902345
1111,2216,14191,"Neotoma","Bradshaw Lake peat section","BRDSHWMN",57.7634722222222,-95.1888888888889,215,"not known","terrestrial, bog/fen/swamp","core","-42","Dredge, L.A., and R.J. Mott. 2003. Holocene pollen records and peatland development, northeastern Manitoba. Géographie physique et Quaternaire 57:7-19.",,15,"cold evergreen needleleaf forest",0.976793801589507,1383.67273031965,-5.56362497167299,-26.6366816859596,14.0289628517225,479.765550364385
1112,2217,11990,"Neotoma","Brady Lake","SM-BRD",39.36734,-106.501625,3353,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.559023912434511,1023.30454781517,-1.93741046034821,-13.2655122063939,9.66856600100457,514.267706915737
1113,2218,18301,"SMPDSv1","Brakfjelltjern","Bjune_a33",65.80083041,14.50371529,533,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",3.4114252443168,1241.8253784003,0.259550559747859,-9.61133325558125,10.8915251469588,1382.97400455581
1114,2219,7153,"EMPDv2","Brameloup","EPDcoretop_E2209",44.74,3.08,1196,"0.01","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.28206414146597,2419.74048708111,6.42795863278714,-1.32359297832064,15.1347262905069,1115.70998189583
1115,2220,18302,"SMPDSv1","Branas de Lamela","Barboni_a706",42.768056,-6.85,1280,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.835849858559,3102.75871370673,8.50070880467597,0.48178042546568,17.9072001082169,887.801852381988
1116,2221,18303,"SMPDSv1","Brandenburg","Matthias_a1",53.23517,13.3631,70,"0.172","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801539114547248,3295.64309595985,8.96201689207553,-0.66178388706816,17.98041119739,560.003798428227
1116,2222,18304,"SMPDSv1","Brandenburg","Matthias_a2",52.99795,13.7881,64,"0.208","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791693841940865,3286.33959985056,8.90938183423253,-0.884939573366836,18.0368553912904,559.632386195043
1116,2223,18305,"SMPDSv1","Brandenburg","Matthias_a3",53.22387,13.5124,73,"0.22","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.798880965560968,3306.1033638835,8.98829354118139,-0.687671390560254,18.0267737738113,558.4101879364
1116,2224,18306,"SMPDSv1","Brandenburg","Matthias_a4",51.93298,14.4719,63,"0.317","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.757598367033284,3329.99645521729,9.0094083925845,-1.06257188630971,18.2714058903722,548.605102448902
1116,2225,18307,"SMPDSv1","Brandenburg","Matthias_a5",52.97867,13.777,60,"7.82","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792652666717328,3277.12030211124,8.8839484638601,-0.880247137049848,18.0051069663187,560.750730521078
1116,2226,7870,"EMPDv2","Brandenburg","Matthias_b1",53.13914,13.905,65,"0.008","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.793804785880019,3282.48740149902,8.89608539928602,-0.908133725049282,18.0260765096788,560.03407636766
1116,2227,7879,"EMPDv2","Brandenburg","Matthias_b10",52.97867,13.777,60,"7.82","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.792652666717328,3277.12030211124,8.8839484638601,-0.880247137049848,18.0051069663187,560.750730521078
1116,2228,7880,"EMPDv2","Brandenburg","Matthias_b11",51.93298,14.4719,65,"0.317","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.759007262061709,3328.09674326113,9.00320717375857,-1.06969043180675,18.2655691034965,549.55186671185
1116,2229,7881,"EMPDv2","Brandenburg","Matthias_b12",53.24517,13.5306,85,"0.03","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.796201068777846,3335.47548497072,9.07073201325625,-0.684660365227299,18.1199663392127,555.024587722613
1116,2230,7882,"EMPDv2","Brandenburg","Matthias_b13",53.0156,13.872,52,"0.091","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.795694516096289,3254.96584000646,8.81961076876413,-0.895709844982889,17.9345074257258,563.389901532009
1116,2231,7883,"EMPDv2","Brandenburg","Matthias_b14",52.18666,13.6543,34,"0.122","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.762001110603077,3363.3025723373,9.14836282960416,-0.67091242025548,18.261315976999,545.257189448315
1116,2232,7884,"EMPDv2","Brandenburg","Matthias_b15",52.41206,14.3562,68,"0.027","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.778778842364642,3276.99513220002,8.85891203447989,-1.08504343283409,18.0672539710056,559.343063466609
1116,2233,7885,"EMPDv2","Brandenburg","Matthias_b16",52.5292,14.0796,60,"0.035","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.780009716592262,3282.55489476107,8.89289192012607,-0.933873493274265,18.0419306337911,557.39994194375
1116,2234,7886,"EMPDv2","Brandenburg","Matthias_b17",52.09969,14.5223,126,"0.064","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.806252444137485,3263.46687219566,8.79133963632887,-1.3051180853309,18.0621638730891,579.931754561202
1116,2235,7887,"EMPDv2","Brandenburg","Matthias_b18",53.02887,13.5882,57,"0.032","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.797213651909789,3274.81449460624,8.89670779565836,-0.718133117248908,17.9420768732104,561.267071217707
1116,2236,7888,"EMPDv2","Brandenburg","Matthias_b19",53.1964,13.2704,53,"0.085","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.805515112793692,3255.2399419018,8.85052571449985,-0.643559639181556,17.8430605903621,564.754200262976
1116,2237,7871,"EMPDv2","Brandenburg","Matthias_b2",52.74333,14.0262,81,"0.022","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.790253260981308,3289.08527897248,8.90668403530346,-0.964975072822122,18.0759004659383,561.457271840689
1116,2238,7889,"EMPDv2","Brandenburg","Matthias_b20",53.31142,13.6018,86,"0.051","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.812660955522323,3303.22190982635,8.98474136471396,-0.663044020725146,17.9578406842297,564.738466886511
1116,2239,7890,"EMPDv2","Brandenburg","Matthias_b21",52.99271,13.9359,82,"0.028","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.78459490783836,3330.00431394753,9.02694957380096,-0.928230733354191,18.1960863221377,553.956233962889
1116,2240,7891,"EMPDv2","Brandenburg","Matthias_b22",53.20058,13.9394,82,"0.032","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.788947966836828,3321.77614519249,9.00522960855527,-0.921565335227022,18.1549494851579,554.931618896523
1116,2241,7892,"EMPDv2","Brandenburg","Matthias_b23",52.5795,14.093,47,"0.038","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.777497902596386,3272.30732849807,8.86719377305916,-0.911885404886228,17.9957554167107,555.826148062643
1116,2242,7893,"EMPDv2","Brandenburg","Matthias_b24",52.13257,14.4585,67,"0.054","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.765256635360336,3316.09684811467,8.96734671547797,-1.09040985652231,18.2224430921988,552.186561719208
1116,2243,7894,"EMPDv2","Brandenburg","Matthias_b25",53.15804,13.8674,26,"0.011","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.808000362952664,3186.35513767306,8.62616161557563,-0.880029669246591,17.7001334404442,572.370840052836
1116,2244,7895,"EMPDv2","Brandenburg","Matthias_b26",53.14401,12.8227,71,"0.058","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.803837033066938,3291.21406405932,8.96846550038049,-0.49597056605137,17.8920699766123,559.059212458088
1116,2245,7896,"EMPDv2","Brandenburg","Matthias_b27",51.94195,14.5134,73,"0.14","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.764602101600183,3319.21252176107,8.97390351838119,-1.10569872233559,18.2392510417333,553.349015785823
1116,2246,7897,"EMPDv2","Brandenburg","Matthias_b28",52.6796,13.9084,93,"0.017","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.791036918857542,3301.58263007014,8.94118251833591,-0.963249220916945,18.124740604164,561.651731937735
1116,2247,7898,"EMPDv2","Brandenburg","Matthias_b29",52.91403,13.239,49,"0.059","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.804155002783714,3255.7356763694,8.86277309799889,-0.548098976209558,17.8093127609751,565.185610700021
1116,2248,7872,"EMPDv2","Brandenburg","Matthias_b3",52.65168,13.9272,96,"0.084","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.791249300988296,3303.8875446784,8.94635489911037,-0.972551929997897,18.1363676885862,561.982620270713
1116,2249,7899,"EMPDv2","Brandenburg","Matthias_b30",53.31551,13.6093,85,"0.131","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.812695463638361,3300.99917145727,8.97817494907953,-0.665978310580225,17.9525369386007,564.878920923613
1116,2250,7900,"EMPDv2","Brandenburg","Matthias_b31",52.65964,13.9211,89,"0.045","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.789836106647003,3299.02410803738,8.93484042373008,-0.958164239433524,18.1132920106083,561.242034156458
1116,2251,7901,"EMPDv2","Brandenburg","Matthias_b32",53.11484,12.9704,67,"0.057","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.803938499799306,3285.49801715479,8.95032822849513,-0.514619709896237,17.8848037239978,560.313312415014
1116,2252,7902,"EMPDv2","Brandenburg","Matthias_b33",53.22387,13.5124,73,"0.22","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.798880965560968,3306.1033638835,8.98829354118139,-0.687671390560254,18.0267737738113,558.4101879364
1116,2253,7903,"EMPDv2","Brandenburg","Matthias_b34",52.07074,14.4465,83,"0.118","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.774952403552103,3305.05714182681,8.92997936055031,-1.13956561592297,18.1901140641396,559.105903408838
1116,2254,7904,"EMPDv2","Brandenburg","Matthias_b35",52.69485,13.9429,90,"0.033","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.790947655287379,3298.42278393549,8.93233530782132,-0.964804206496238,18.1126103351438,561.696871019443
1116,2255,7905,"EMPDv2","Brandenburg","Matthias_b36",52.98064,13.6685,70,"0.027","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.791134044307432,3311.47007766297,8.99798343674842,-0.730010142581691,18.0727505820932,556.398745102262
1116,2256,7906,"EMPDv2","Brandenburg","Matthias_b37",52.74569,14.0463,67,"0.005","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.786795762722598,3278.58351046738,8.88059312834761,-0.941860246651544,18.0286428861059,559.783536989331
1116,2257,7907,"EMPDv2","Brandenburg","Matthias_b38",52.55541,14.0835,36,"0.033","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.773983190969916,3267.31941639016,8.85619385178281,-0.888947789511868,17.9695243030874,554.018074158149
1116,2258,7908,"EMPDv2","Brandenburg","Matthias_b39",52.994,13.903,110,"0.071","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.775456040173322,3401.02571898882,9.22377418001587,-0.938059869102345,18.4346659258563,545.335467088246
1116,2259,7873,"EMPDv2","Brandenburg","Matthias_b4",52.02388,14.63,85,"0.019","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.774821006070601,3301.45971372919,8.9157160609234,-1.1739833111485,18.185249777154,559.884105798097
1116,2260,7909,"EMPDv2","Brandenburg","Matthias_b40",52.74459,14.0419,64,"0.023","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.786020132820787,3276.54539000083,8.87579478853375,-0.935150024465229,18.0188486133068,559.386060853073
1116,2261,7910,"EMPDv2","Brandenburg","Matthias_b41",52.59436,14.189,27,"0.096","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.770993833068472,3258.37540837686,8.83101557186834,-0.891388065891405,17.9365422922593,552.325561844496
1116,2262,7911,"EMPDv2","Brandenburg","Matthias_b42",53.31843,13.6226,88,"0.067","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.812135380937322,3307.89882398972,8.99799389979634,-0.661733921053198,17.9709781292014,564.114120810733
1116,2263,7912,"EMPDv2","Brandenburg","Matthias_b43",52.67933,14.0025,99,"0.077","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.793207994163252,3303.80264872372,8.94342682882689,-0.994155015961029,18.1414318291293,563.161204327947
1116,2264,7913,"EMPDv2","Brandenburg","Matthias_b44",51.9193,14.2263,56,"0.08","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.757754188067985,3347.55409183747,9.07534911440731,-0.920482022282851,18.2913004067985,547.001277734905
1116,2265,7914,"EMPDv2","Brandenburg","Matthias_b45",53.12171,13.6462,64,"0.099","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.797100579226877,3289.8089984986,8.93843046605814,-0.72212374940297,17.9917533324302,559.66345210883
1116,2266,7915,"EMPDv2","Brandenburg","Matthias_b46",53.01995,12.8263,52,"0.048","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.809143872444799,3254.97690694873,8.87042822223029,-0.462514608162175,17.7635414357426,565.874901395596
1116,2267,7916,"EMPDv2","Brandenburg","Matthias_b47",53.2333,13.5311,101,"0.085","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.791628360506954,3376.38893696719,9.18505482302488,-0.679205543229473,18.2507148721496,550.142334317334
1116,2268,7917,"EMPDv2","Brandenburg","Matthias_b48",53.23517,13.3631,70,"0.172","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.801539114547248,3295.64309595985,8.96201689207553,-0.66178388706816,17.98041119739,560.003798428227
1116,2269,7918,"EMPDv2","Brandenburg","Matthias_b49",53.13679,13.1089,5,"0.058","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.829852792275233,3146.42224967627,8.56297878996848,-0.454501580361135,17.40686587291,584.786737997669
1116,2270,7874,"EMPDv2","Brandenburg","Matthias_b5",52.81319,13.6087,36,"0.138","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.798908964358729,3228.55164639465,8.76383603035336,-0.73873785138468,17.7917224714251,566.79298385774
1116,2271,7919,"EMPDv2","Brandenburg","Matthias_b50",52.10599,14.4699,90,"0.026","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.780591366659521,3296.60698716381,8.90239775887694,-1.17046895948403,18.1638562374432,562.655713162464
1116,2272,7875,"EMPDv2","Brandenburg","Matthias_b6",53.19298,13.91,60,"0.015","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.796714147868897,3268.1096413784,8.85586786799323,-0.905646805080868,17.9763481374843,561.902271203429
1116,2273,7876,"EMPDv2","Brandenburg","Matthias_b7",51.92377,14.6467,59,"0.139","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.752709902153307,3331.02296141346,9.01088468990208,-1.07549928391554,18.2807325948881,545.821548939982
1116,2274,7877,"EMPDv2","Brandenburg","Matthias_b8",52.99795,13.7881,63,"0.208","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.792027971956308,3283.83553995443,8.90240743242656,-0.884292463113202,18.0282802374463,559.939596143682
1116,2275,7878,"EMPDv2","Brandenburg","Matthias_b9",53.13607,12.9745,70,"0.02","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.803403267565807,3291.29615142686,8.9660491607048,-0.519642750262174,17.9047652257072,559.424055596492
1117,2276,12335,"Neotoma","Brandreth Bog","BRANDRET",43.916667,-74.683333,600,"not known","terrestrial, bog/fen/swamp","core","33","Bender, M.M., D.A. Baerreis, and R.A. Bryson. 1980. University of Wisconsin radiocarbon dates XVII. Radiocarbon 22(1):115-129. Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Overpeck, J.T. 1985. A pollen study of a late Quaternary peat bog, south-central Adirondack Mountains, New York. York. Geological Society of America Bulletin 96:145-154.","10.2458/azu_js_rc.22.599;
10.1017/S0033822200037504",9,"cool mixed forest",1.38026510282057,2651.03211028374,4.95325277929941,-9.6444475053988,18.1190426452577,1059.63039178575
1118,2277,18308,"SMPDSv1","Branna","EPDcoretop_E310",48.95,14.933333,450,"not known","not known","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.857379977872173,3101.60087493331,8.15315284632088,-2.4716592836901,17.6360548246229,666.444862820271
1119,2278,379,"Australian pollen","Brass Tarn","Brass_0",-5.7833,145.0361,3920,"not known","lake","core","0","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.744169738027757,5237.80256582516,14.3501440159593,13.1511302221286,15.1066065615529,1035.56803959405
1119,2279,380,"Australian pollen","Brass Tarn","Brass_40",-5.7833,145.0361,3920,"not known","lake","core","40","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.744169738027757,5237.80256582516,14.3501440159593,13.1511302221286,15.1066065615529,1035.56803959405
1119,2280,381,"Australian pollen","Brass Tarn","Brass_5",-5.7833,145.0361,3920,"not known","lake","core","5","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.744169738027757,5237.80256582516,14.3501440159593,13.1511302221286,15.1066065615529,1035.56803959405
1120,2281,382,"Australian pollen","Breadalbane","Breadalbane NE",-34.764969,149.526396,700,"not known","lacustrine, drained lake","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.720662541561218,4505.9111552425,12.3449620691575,5.1883128731641,19.2811032219735,904.373373809939
1120,2282,383,"Australian pollen","Breadalbane","Breadalbane SE_a",-34.75,149.52,700,"not known","lacustrine, drained lake","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.705479080953964,4538.7997026963,12.43506767862,5.22274588473425,19.4378898056538,890.193221188734
1120,2283,384,"Australian pollen","Breadalbane","Breadalbane SE_b",-34.75,149.52,700,"not known","lacustrine, drained lake","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.705479080953964,4538.7997026963,12.43506767862,5.22274588473425,19.4378898056538,890.193221188734
1121,2284,17257,"Neotoma","Breaults Lake [V. Lake]","LFR68103",49.3955,-99.2864999999999,434,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.625166122044411,2666.7316521235,2.64526321808919,-17.275810912898802,19.3746749012556,489.139641104504
1122,2285,9595,"Gaillard et al., 1992","Bredasund","Bredasund",56.144443,15.32905,-2,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.858472159081975,2854.00362122487,7.63175505264662,-1.15080418247768,16.7728376757446,576.165730053327
1123,2286,18309,"SMPDSv1","Breidlivatn","Bjune_a134",59.9734019,10.14294719,632,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41184261213347,1684.42016172211,2.13837346133261,-8.95130657176333,12.8789125524488,772.148300138119
1124,2287,18310,"SMPDSv1","Breitnau-Neuhof","EPDcoretop_E1024",47.933333,8.066667,986,"0.05","terrestrial, bog/fen/swamp","peat core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.87573775944796,2475.47774235668,6.47711906406326,-2.00056766476726,14.9730626888822,1400.15881955254
1125,2288,385,"Australian pollen","Bremer Bay Swamp","Bremer Bay Swamp_a",-34.833,119.4,-1044,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.42339929099514,6146.8778593246,16.8407612584236,14.8909459439015,19.2658291253385,1289.73285532001
1125,2289,386,"Australian pollen","Bremer Bay Swamp","Bremer Bay Swamp_b",-34.833,119.4,-1044,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.42339929099514,6146.8778593246,16.8407612584236,14.8909459439015,19.2658291253385,1289.73285532001
1125,2290,387,"Australian pollen","Bremer Bay Swamp","Bremer Bay Swamp_c",-34.833,119.4,-1044,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.42339929099514,6146.8778593246,16.8407612584236,14.8909459439015,19.2658291253385,1289.73285532001
1126,2291,7011,"EMPDv2","Brentenlohe","EPDcoretop_E1512",49.79,12.46,745,"0.01","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0996971871759,2624.7633718478,6.59150889744748,-3.41622379857714,15.750847056094,783.023212206038
1127,2292,9095,"EMPDv2","Breznik, Sumava","Svobodova_a13",48.9492222222222,13.4877972222222,1250,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.17498012526667,1873.73171523224,4.04190519871278,-4.49263312618577,12.3105288849197,1562.11428533706
1128,2293,388,"Australian pollen","Bridgewater Caves South","BCS E1",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2294,389,"Australian pollen","Bridgewater Caves South","BCS E2",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2295,390,"Australian pollen","Bridgewater Caves South","BCS E3",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2296,391,"Australian pollen","Bridgewater Caves South","BCS S1",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2297,392,"Australian pollen","Bridgewater Caves South","BCS S2",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2298,393,"Australian pollen","Bridgewater Caves South","BCS S3",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2299,394,"Australian pollen","Bridgewater Caves South","BCS S4",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2300,395,"Australian pollen","Bridgewater Caves South","BCS S5",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2301,396,"Australian pollen","Bridgewater Caves South","BCS S6",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2302,397,"Australian pollen","Bridgewater Caves South","BCS S7",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2303,398,"Australian pollen","Bridgewater Caves South","BCS S8",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1128,2304,399,"Australian pollen","Bridgewater Caves South","BCS S9",-38.32,141.41,50,"not applicable","archaeological site","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709489377044639,5104.055500724,13.9837137006137,9.68092270410505,18.6382206237959,723.889659367107
1129,2305,400,"Australian pollen","Bridgewater Lake","Bridgewater Lake A",-38.32,141.403,5,"0.48","coastal, lagoon","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739345478381176,5160.58757271266,14.1385960896237,10.0611404393046,18.542248801151,748.022584898354
1129,2306,401,"Australian pollen","Bridgewater Lake","Bridgewater Lake B",-38.31,141.399,5,"0.48","coastal, lagoon","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739004141839519,5160.98723585734,14.1396910571434,10.0623511924079,18.5434052181833,747.781038195217
1129,2307,402,"Australian pollen","Bridgewater Lake","BW1",-38.32,141.393,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739154126965347,5160.58357639864,14.1385851408182,10.0617621194433,18.5417518846171,747.846471287966
1129,2308,403,"Australian pollen","Bridgewater Lake","BW10",-38.31,141.399,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739004141839519,5160.98723585734,14.1396910571434,10.0623511924079,18.5434052181833,747.781038195217
1129,2309,404,"Australian pollen","Bridgewater Lake","BW11",-38.32,141.403,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739345478381176,5160.58757271266,14.1385960896237,10.0611404393046,18.542248801151,748.022584898354
1129,2310,405,"Australian pollen","Bridgewater Lake","BW12",-38.31,141.398,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738985007238636,5160.98678965488,14.1396898346709,10.0624130308855,18.5433556768934,747.763428473943
1129,2311,406,"Australian pollen","Bridgewater Lake","BW13",-38.33,141.399,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739533112787713,5160.18544475294,14.1374943691861,10.0604259638298,18.5407024382027,748.122591495191
1129,2312,407,"Australian pollen","Bridgewater Lake","BW14",-38.32,141.408,50,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.709455748073427,5104.06805749239,13.9837481027189,9.68103994160523,18.6382062986491,723.857485788794
1129,2313,408,"Australian pollen","Bridgewater Lake","BW2",-38.32,141.394,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739173259462187,5160.58404112651,14.1385864140452,10.0617002700525,18.5418016834366,747.864067143304
1129,2314,409,"Australian pollen","Bridgewater Lake","BW3",-38.32,141.397,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739230660609673,5160.58534878386,14.1385899966681,10.0615142979769,18.5419509373567,747.916875498334
1129,2315,410,"Australian pollen","Bridgewater Lake","BW4",-38.32,141.398,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739249795508228,5160.58575575276,14.1385911116514,10.0614521657258,18.5420006410535,747.934485181182
1129,2316,411,"Australian pollen","Bridgewater Lake","BW5",-38.32,141.403,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739345478381176,5160.58757271266,14.1385960896237,10.0611404393046,18.542248801151,748.022584898354
1129,2317,412,"Australian pollen","Bridgewater Lake","BW6",-38.32,141.402,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.73932634072559,5160.58723844652,14.1385951738261,10.0612029268674,18.5421992170133,748.00495814651
1129,2318,413,"Australian pollen","Bridgewater Lake","BW7",-38.31,141.398,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738985007238636,5160.98678965488,14.1396898346709,10.0624130308855,18.5433556768934,747.763428473943
1129,2319,414,"Australian pollen","Bridgewater Lake","BW8",-38.32,141.403,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.739345478381176,5160.58757271266,14.1385960896237,10.0611404393046,18.542248801151,748.022584898354
1129,2320,415,"Australian pollen","Bridgewater Lake","BW9",-38.32,141.402,5,"0.48","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.73932634072559,5160.58723844652,14.1385951738261,10.0612029268674,18.5421992170133,748.00495814651
1130,2321,15266,"Neotoma","Brighm24","AMD033",43.07,-89.85,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892591548641237,3246.06613710831,6.54471639925614,-10.6937621294249,21.2974566866949,771.546987213276
1131,2322,15265,"Neotoma","Brighm25","AMD032",43.05,-89.87,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.89239512090357,3247.42532268136,6.55049826677285,-10.6885182680114,21.3020236417181,771.752478518538
1132,2323,15263,"Neotoma","Brighm35","AMD030",43.03,-89.87,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892297470184962,3247.57378432788,6.55214155410083,-10.6844011475581,21.3022925326256,771.892245030523
1133,2324,12140,"Neotoma","Bright 1966 Site 1","BR1966-1",42.26834,-112.05863,1700,"not known","terrestrial","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.371172937260144,2882.23195737305,6.76739128898578,-5.55615298923864,19.8502970239113,379.918099261956
1134,2325,12142,"Neotoma","Bright 1966 Site 3","BR1966-3",42.33634,-111.99531,1550,"not known","terrestrial","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.350434347374854,3130.09289622779,7.69607468707365,-4.79413565705161,20.888669034912,364.813800265618
1135,2326,12143,"Neotoma","Bright 1966 Site 4","BR1966-4",42.35815,-111.98955,1650,"not known","terrestrial","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.364378954745798,2954.90894766944,7.04289085302086,-5.34172303435285,20.1589150200022,374.268591632908
1136,2327,12144,"Neotoma","Bright 1966 Site 5","BR1966-5",42.37775,-111.96824,1830,"not known","terrestrial","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.390925167653236,2660.51049958369,5.88243177985975,-6.31309583658271,18.8654113086398,392.018189168579
1137,2328,12145,"Neotoma","Bright 1966 Site 6","BR1966-6",42.38591,-111.9561,1980,"not known","terrestrial","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.41403091072905,2431.0263560707,4.92250044967969,-7.1148459365305,17.7960222489559,406.870353724343
1138,2329,12336,"Neotoma","Brisay 2","BRI2",54.355833,-70.357778,595,"not known","terrestrial","core","0","Richard, P.J.H., A.C. Larouche, and M.A. Bouchard. 1982. Age de la déglaciation finale et histoire postglaciaire de la végétation dans la partie centrale du Nouveau-Québec. Géographie physique et Quaternaire 36:63-90.",,15,"cold evergreen needleleaf forest",1.62750041560383,1277.00980996184,-4.63906353580123,-23.7631068735475,12.9151208253329,806.548617722229
1139,2330,16513,"Neotoma","Brishlatte Lake","KG010",47.28,-68.32,188,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47090385340704,2352.94212191928,2.88768357306262,-13.4952195805821,17.771185178884,1041.03279243658
1140,2331,7040,"EMPDv2","Broad Down","EPDcoretop_E1668",50.61,-3.96,513,"not known","terrestrial, blanket bog","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",3.46951597764052,2712.21217473092,7.43071828693401,1.55048570366496,13.6418467115248,2064.74431570692
1141,2332,416,"Australian pollen","Broadmeadows Swamp","Broadmeadows Swamp",-40.8333,145.1333,15,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25626218166601,4566.4724139509,12.5108833258929,8.59312324519103,16.8803321479653,1182.46522405184
1142,2333,18311,"SMPDSv1","Brodilovo","BUL/MF/08",42.069722,27.852222,149,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.585396678176866,4717.5296321621,12.9247387182523,2.73366579491225,22.5250199053098,628.223626959211
1143,2334,18312,"SMPDSv1","Brodnica/Grzmieca","PL/BN/B2",53.339974,19.431357,80,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.816052201369414,3029.90531501362,7.90748927311207,-2.69555065044162,17.4324824437307,583.838231557217
1144,2335,18313,"SMPDSv1","Brodnica/Pokrzydowo","PL/BN/B3",53.327885,19.47898,116,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.816822234499765,3006.55499536504,7.80466364118481,-2.91346509248237,17.3599681861438,585.58180421044
1145,2336,417,"Australian pollen","Brooks Ridge","Brooks Ridge monolith_0",-36.16,148.59,1450,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07308935760882,2460.07256002455,6.71194476613329,-0.329154790852593,13.5626921541356,1241.05623368949
1145,2337,418,"Australian pollen","Brooks Ridge","Brooks Ridge monolith_2",-36.16,148.59,1450,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07308935760882,2460.07256002455,6.71194476613329,-0.329154790852593,13.5626921541356,1241.05623368949
1145,2338,419,"Australian pollen","Brooks Ridge","Brooks Ridge monolith_4",-36.16,148.59,1450,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07308935760882,2460.07256002455,6.71194476613329,-0.329154790852593,13.5626921541356,1241.05623368949
1145,2339,420,"Australian pollen","Brooks Ridge","Brooks Ridge monolith_6",-36.16,148.59,1450,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07308935760882,2460.07256002455,6.71194476613329,-0.329154790852593,13.5626921541356,1241.05623368949
1145,2340,421,"Australian pollen","Brooks Ridge","Brooks Ridge monolith_8",-36.16,148.59,1450,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07308935760882,2460.07256002455,6.71194476613329,-0.329154790852593,13.5626921541356,1241.05623368949
1146,2341,12337,"Neotoma","Brophy Ditch","BROPHY",43.22,-81.73,184,"not known","not known","core","-6","Morgan, A.V., J.H. McAndrews, and C.J. Ellis. (n.d.) Geological history and paleoenvironment of the Parkhill archaeological site. Unpublished manuscript.",,9,"cool mixed forest",1.01339001399683,3424.273938846,8.24513558217482,-5.77737057902312,21.1409992288828,892.880684642622
1147,2342,9596,"Gaillard et al., 1992","Brosarp","Brosarp",55.72604,14.10094,40,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.940427223393232,2890.69846437167,7.70432011435694,-1.37228558772966,16.7996005202904,630.889632893065
1148,2343,12338,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-32.1","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12339,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-31.1","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12340,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-26.8","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12341,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-17.9","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12342,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-10.4","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12343,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","-3.6","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12344,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","7.3","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2343,12345,"Neotoma","Brown Lake","BROWNC12",45.77978,-89.49247,448,"not known","lake","core","25.8","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01889643691683,2679.05016919907,4.14557961769174,-12.642486129541,19.0346028132461,788.878578504323
1148,2344,15417,"Neotoma","Brown Lake","JGO002",40.680556,-82.0625,295,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.06710283676494,3876.03332565604,10.0252268346756,-3.84871207389279,22.193774040188,970.349605903334
1148,2345,16534,"Neotoma","Brown Lake","KG029",45.93,-67.3,168,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.54178446742374,2566.61856660213,4.46920314024994,-10.5129059991513,18.2200818481396,1146.0114060234
1149,2346,422,"Australian pollen","Brown Marsh","Brown Marsh",-42.2167,146.5667,750,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.37601009965524,2911.26737797751,7.97607500815757,3.27486917122108,13.1850888918424,1270.98265222829
1149,2347,423,"Australian pollen","Brown Marsh","Brown Marsh core_1",-42.22,146.56,750,"not known","terrestrial, bog/fen/swamp","core top","-21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.37702099298606,2911.06671982715,7.97552525980041,3.27459080046885,13.1847285525439,1271.84773041612
1149,2348,424,"Australian pollen","Brown Marsh","Brown Marsh core_2",-42.22,146.56,750,"not known","terrestrial, bog/fen/swamp","core top","-21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.37702099298606,2911.06671982715,7.97552525980041,3.27459080046885,13.1847285525439,1271.84773041612
1150,2349,12346,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","-32","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1150,2349,12347,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","-22","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1150,2349,12348,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","13","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1150,2349,12349,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","23","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1150,2349,12350,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","33","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1150,2349,12351,"Neotoma","Brown's Bay, Lake Minnetonka","BROWNSBY",44.95769,-93.545105,300,"not known","lake","core","46","Murchie, S.L. 1984. 210Pb dating and recent geologic history of two bays of Lake Minnetonka. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.855264212944393,3417.37901881945,6.80010421989037,-11.6291857035835,22.3372001046397,732.28723589215
1151,2350,425,"Australian pollen","Brownes Lake","Brownes Lake",-37.75,140.75,80,"not known","terrestrial, bog/fen/swamp","not known","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.614493833913477,5154.86934673126,14.1229297170719,9.47053828803209,19.2168404956842,646.917385901529
1152,2351,12021,"Neotoma","Brownington Pond","DGBRN1",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1152,2352,12024,"Neotoma","Brownington Pond","DGBRN2",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1152,2353,12023,"Neotoma","Brownington Pond","DGBRN3",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1152,2354,12022,"Neotoma","Brownington Pond","DGBRN4",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1152,2355,12026,"Neotoma","Brownington Pond","DGBRN5",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1152,2356,12025,"Neotoma","Brownington Pond","DGBRN6",44.878395,-72.147325,302,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.53003495078361,2659.14931825496,4.61980373950156,-10.9394959129725,18.5393826743756,1152.3518562717
1153,2357,17381,"Neotoma","Brownlee Lake","TW088",44.68,-83.4,188,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.978951233780314,3075.1300966192,6.5810352295861,-8.16692066527101,20.0886113641292,809.903772616595
1154,2358,13763,"Neotoma","Browns Island","BROWNS",38.04217,-121.86795,0,"2.8","coastal, other","core","-33","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.400512378772872,5583.21453179147,15.2964781692917,8.2290368908987,21.7349133489185,521.505450864961
1154,2358,13764,"Neotoma","Browns Island","BROWNS",38.04217,-121.86795,0,"2.8","coastal, other","core","-11","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.400512378772872,5583.21453179147,15.2964781692917,8.2290368908987,21.7349133489185,521.505450864961
1154,2358,13765,"Neotoma","Browns Island","BROWNS",38.04217,-121.86795,0,"2.8","coastal, other","core","27","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.400512378772872,5583.21453179147,15.2964781692917,8.2290368908987,21.7349133489185,521.505450864961
1155,2359,12352,"Neotoma","Browns Pond","BROWNSPD",38.154722,-79.616389,620,"not known","lake","core","0","Kneller, M., and D.M. Peteet. 1993. Late-Quaternary climate in the ridge and valley of Virginia, U.S.A.: changes in vegetation and depositional environment: a contribution to the 'North Atlantic seaboard programme' of IGCP-253, 'Termination of the Pleistocene'. Quaternary Science Reviews 12(8):613-628.","10.1016/0277-3791(93)90003-5",13,"temperate deciduous broadleaf forest",1.13190549347386,4091.44832235732,11.0772690052727,-1.2184553173276,22.0689708544641,1103.69231374562
1156,2360,14016,"Neotoma","Brozie Lake","BROZIE",45.9593349999999,-92.10745,303,"not known","lake","core","-49","Unpublished data",,9,"cool mixed forest",0.922272790938657,3064.70663882131,5.57673676606368,-12.2415729774989,20.7165067001627,743.579077213813
1157,2361,6978,"EMPDv2","Bruchberg","EPDcoretop_E1406",51.76,10.46,825,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02069099003974,2464.36002116913,6.13179555888095,-3.22015365791809,15.1300710545674,661.312393791602
1157,2362,6979,"EMPDv2","Bruchberg","EPDcoretop_E1407",51.76,10.46,825,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02069099003974,2464.36002116913,6.13179555888095,-3.22015365791809,15.1300710545674,661.312393791602
1158,2363,9597,"Gaillard et al., 1992","Brunnsbo","Brunnsbo",58.27,13.68,201,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.09140071801161,2382.02884252843,5.63827131299012,-3.86603697523282,15.4349676341061,666.462441841864
1159,2364,18314,"SMPDSv1","Brurskardstjonn","Bjune_a270",61.4166666666666,8.66666666666666,1309,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65948014616086,1068.34160653616,-0.615328068159763,-10.5964473670334,9.41021073204783,813.481773451729
1160,2365,18315,"SMPDSv1","Brurskardtjorni","EPDcoretop_E38",61.416667,8.666667,1309,"not known","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65948017028627,1068.34153862391,-0.61532851670731,-10.5964479282655,9.41021037773831,813.481760929946
1161,2366,8280,"EMPDv2","Brusson","Montanari_a6",45.7586694444444,7.73271111111111,1330,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.82279952307356,2288.33544025409,5.85266580724015,-2.44893711329438,14.5304588240875,1529.15738604786
1162,2367,18316,"SMPDSv1","Bruvatnet","EPDcoretop_E9",70.183333,28.416667,119,"0.6","lake","lacustrine core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.27169793506562,1313.92989425451,-1.00872247701681,-13.250404694606,12.7830729771235,451.970274738648
1163,2368,7147,"EMPDv2","Brve","EPDcoretop_E2164",50.07,14.24,362,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.83275675670432,3092.72406113367,8.17687765685672,-2.14453197704307,17.5547180626396,614.117239951623
1164,2369,17411,"Neotoma","Bryam Lake","TW118",42.8,-83.8,259,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.927328472949339,3473.36997629465,8.31463705962419,-6.08133499380484,21.4990818676293,813.995187392078
1165,2370,16548,"Neotoma","Bryant Pond","KG042",44.38,-70.65,212,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.51107667663994,2844.53648839536,5.82583204535488,-8.72268710038413,19.2212541488126,1171.07867991214
1166,2371,6544,"EMPDv2","BS","Binney2017_E3208",67.71,48.72,160,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34023972578973,1362.27317197741,-2.78596359828682,-19.6290603583719,14.4454234457155,489.956819371899
1167,2372,18317,"SMPDSv1","Buchenwaldsee","Buchenwaldsee_ss",52.02388,14.63,88,"0.019","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.777075401895004,3298.64880239278,8.90646050459866,-1.18466125824106,18.176455220913,561.394939384844
1168,2373,9090,"EMPDv2","Bucina, Sumava","Svobodova_a8",48.9714833333333,13.5974055555556,1200,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.07472335505439,1955.67164903893,4.34081903478035,-4.34351908645584,12.6948780138832,1500.11192688959
1169,2374,12354,"Neotoma","Buck Lake","BUCKLAKE",27.234444,-81.332222,45,"not known","lake","core","0","Unpublished data",,4,"warm-temperate evergreen and mixed forest",0.855180592861812,7906.13016536138,21.6606305900312,14.4848032752045,27.4497465165357,1192.35249472391
1169,2374,12355,"Neotoma","Buck Lake","BUCKLAKE",27.234444,-81.332222,45,"not known","lake","core","29","Unpublished data",,4,"warm-temperate evergreen and mixed forest",0.855180592861812,7906.13016536138,21.6606305900312,14.4848032752045,27.4497465165357,1192.35249472391
1169,2374,12356,"Neotoma","Buck Lake","BUCKLAKE",27.234444,-81.332222,45,"not known","lake","core","50","Unpublished data",,4,"warm-temperate evergreen and mixed forest",0.855180592861812,7906.13016536138,21.6606305900312,14.4848032752045,27.4497465165357,1192.35249472391
1169,2375,14038,"Neotoma","Buck Lake","BUCKMI",46.520515,-86.35387,278,"not known","lake","core","-33","Unpublished data",,9,"cool mixed forest",1.09627407084219,2705.79818815616,4.74724935901485,-10.8444026398788,18.8031539461907,831.807043335196
1169,2375,14039,"Neotoma","Buck Lake","BUCKMI",46.520515,-86.35387,278,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",1.09627407084219,2705.79818815616,4.74724935901485,-10.8444026398788,18.8031539461907,831.807043335196
1170,2376,14040,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","-45","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1170,2376,14041,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","-40","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1170,2376,14042,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","-23","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1170,2376,14043,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","-1","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1170,2376,14044,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","21","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1170,2376,14045,"Neotoma","Buckbean Bog","BUCKBOG",49.11905,-119.68305,1803,"not known","terrestrial, bog/fen/swamp","core","43","Heinrichs, M.L. 1999. A late-Quaternary paleoecological analysis in the Engelmann Spruce-Subalpine Fir biogeoclimatic zone of the Okanagan/Ashnola region, British Columbia, Canada. Doctoral dissertation. University of Victoria, Victoria, British Columbia, Canada.; Heinrichs, M.L., R.J. Hebda, and I.R. Walker. 2001. Holocene vegetation and natural disturbance in the Engelmann Spruce - Subalpine Fir biogeoclimatic zone at Mount Kobau, British Columbia. Canadian Journal of Forest Research 31:2183-2199.",,8,"cool evergreen needleleaf forest",1.56182176823381,1053.21785802021,-0.461609677485443,-9.50045417998626,9.55432165055697,1034.54509418417
1171,2377,12353,"Neotoma","Buckbean Fen","BUCKBEAN",44.298611,-110.260556,2362,"not known","terrestrial, bog/fen/swamp","core","0","Baker, R.G. 1976. Late Quaternary vegetation history of the Yellowstone Lake Basin, Wyoming. United States Geological Survey Professional Paper 729-E.",,17,"temperate evergreen needleleaf open woodland",0.543356873180542,1943.3426937292,2.85224892163671,-8.62034080701932,15.5044074064775,482.925978350198
1172,2378,18318,"SMPDSv1","Buckowsee","Buckowsee_ss",52.81319,13.6087,34,"0.138","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.799623729044764,3223.36243886079,8.74909669868227,-0.739489553540411,17.7738096924361,567.48826662249
1173,2379,1880,"CMPD","Budala Palace","Budala Palace",29.67,91.25,3000,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.622555480691142,3810.19916530309,10.4389018227482,1.25549024501538,18.1672878452049,820.680266007526
1174,2380,17390,"Neotoma","Budd Lake","TW097",44,-85.42,312,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.964600204025602,3095.54423187998,6.8051162606916,-7.45580631199613,20.218748598339,796.873936316296
1175,2381,17298,"Neotoma","Bugle","TW004",44.358333,-91.419722,237,"not known","terrestrial","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.868444168444366,3628.03395206639,7.86793445779375,-10.0811957442671,22.8991002786758,765.214452728646
1176,2382,18319,"SMPDSv1","Bugsee","Bugsee_ss",53.19298,13.91,70,"0.015","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793222114216301,3292.74366180338,8.92490169125288,-0.91010994290883,18.05788818694,558.746649761072
1177,2383,7069,"EMPDv2","Bugutakh Adycha river","EPDcoretop_E1821",67.83,135.12,128,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.495965327988308,1293.05028864794,-15.7666348770632,-47.0094929405959,14.6388894964406,186.221045215939
1178,2384,8731,"EMPDv2","Buhlbachsee","Roesch_a1",48.501648,8.245382,790,"0.022","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.59555307948366,2867.66221320579,7.72308573936451,-1.14463041068964,16.4842009339011,1197.90570418739
1179,2385,18320,"SMPDSv1","Bukkehammarstjonn","Bjune_a269",61.465,8.71166666666666,1594,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.53080560559494,880.060223514707,-1.75668260908241,-11.7070990555649,8.30366767083355,742.78307872259
1180,2386,8661,"EMPDv2","Bukkholsbreen","Pardoe_c131",61.35,8.2,1600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32114038796169,963.438707582165,-1.42253769998733,-11.6974294040029,8.86315593191139,664.649481982957
1180,2387,8662,"EMPDv2","Bukkholsbreen","Pardoe_c132",61.35,8.2,1560,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.36891633062215,985.39349766256,-1.25780361055398,-11.4786902628065,8.98175877622017,688.099170482324
1180,2388,8663,"EMPDv2","Bukkholsbreen","Pardoe_c133",61.35,8.2,1540,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.39283806836239,996.431056214346,-1.17543656583731,-11.3693206922083,9.04106019837456,699.824014732008
1180,2389,8664,"EMPDv2","Bukkholsbreen","Pardoe_c134",61.35,8.2,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.44075054698422,1018.75058516045,-1.01070247640396,-11.1505815510119,9.15966304268334,723.273703231376
1180,2390,8665,"EMPDv2","Bukkholsbreen","Pardoe_c135",61.35,8.2,1450,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.50077122665621,1046.96002354608,-0.804784864612279,-10.8771576245165,9.30791659806931,752.585813855586
1181,2391,18321,"SMPDSv1","Bukkvatn","Bjune_a254",70.2166666666666,19.6983333333333,85,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.51675155460297,1280.96397241092,1.11501013117655,-6.82403379529066,11.6060385071169,892.568043266405
1182,2392,9102,"EMPDv2","Bukova, Sumava","Svobodova_a18",48.9623861111111,13.62915,973.3,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.70633051006031,2278.80728424754,5.48927323995403,-3.71828384580378,14.1553050011227,1255.54544565827
1183,2393,8730,"EMPDv2","Bukrzyno I","Pędziszewska_a3",54.2494444444444,18.0208333333333,176,"0.01","terrestrial, bog/fen/swamp","peat","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.897875591288084,2854.61646967071,7.49095073257354,-2.34623798303579,16.6331725002941,623.406561967604
1184,2394,18322,"SMPDSv1","Buktavatn","Bjune_a1",70.55169579,27.06458481,174,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.683863003407,1184.20704081986,-1.93963135394746,-14.3295351236039,12.0489298071254,567.381746560321
1185,2395,23204,"SMPDSv1","BUL/EB/BRL2_3_4","BUL/EB/BRL2_3_4",42.166,23.414,1950,"not applicable","terrestrial","pollen trap","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.946890612960104,1955.83846378556,3.56627881141602,-7.44330296621966,13.3050364228026,814.868064093081
1186,2396,23205,"SMPDSv1","BUL/MF/01","BUL/MF/01",43.383,28.45,233,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.571816042146405,4284.31895015471,11.7378601374102,0.756648323762094,21.7961985043954,549.38588570568
1187,2397,23206,"SMPDSv1","BUL/MF/02","BUL/MF/02",43.383,28.467,117,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.553806947716819,4292.00590982204,11.7589203008823,0.33815658872706,22.0078121973696,533.88420312845
1188,2398,23207,"SMPDSv1","BUL/MF/03","BUL/MF/03",43.6599998474121,28.5300006866455,8,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535634991863531,4278.55572869407,11.6992048553096,-0.219918713151474,22.189481613098,514.96019039763
1189,2399,23208,"SMPDSv1","BUL/MF/04","BUL/MF/04",43.567,28.567,14,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.537974729439536,4285.94295437695,11.7249522430196,-0.13323076342577,22.1832107991311,517.980391957337
1190,2400,23209,"SMPDSv1","BUL/MF/05","BUL/MF/05",42.317,27.717,23,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564106109675675,4924.62911922804,13.4921345732275,3.4664473574948,22.904024638679,600.513504920404
1191,2401,23210,"SMPDSv1","BUL/MF/07","BUL/MF/07",42.0800018310547,27.8500003814697,140,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.586671208293064,4739.05638318994,12.9837161183286,2.83350891311429,22.551648383758,630.665842208111
1192,2402,23211,"SMPDSv1","BUL/MF/10","BUL/MF/10",42.06,27.82,140,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.586065684764087,4740.96176341049,12.9889363381109,2.83871808917227,22.5585986547624,630.565960791011
1193,2403,23212,"SMPDSv1","BUL/MF/16","BUL/MF/16",43.017,27.883,9,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.547008773796364,4458.2866780999,12.2144840495888,0.771986796071574,22.3467005883265,535.407742158186
1194,2404,18358,"SMPDSv1","Bulg_Belasitsa_c56 (EMPD_220)","Barboni_a32",41.35,23.1,500,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.517732037281199,4290.42793225451,11.7545970746699,1.08349176570379,21.7969934778824,570.420823514585
1195,2405,18359,"SMPDSv1","Bulg_Belasitsa_c57  (EMPD_221)","Barboni_a33",41.35,23.11,500,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.517865635357816,4290.70155795154,11.7553467341138,1.08580769540525,21.7975834523018,570.542270119659
1196,2406,18360,"SMPDSv1","Bulg_Belasitsa_c58 (EMPD_222)","Barboni_a34",41.33,23.1,1600,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.817031584325428,2306.82840318314,4.867190002982,-6.68021170369432,14.8811726727078,728.040468038226
1197,2407,18343,"SMPDSv1","Bulg_Danube_mireGarvan (EMPD_205)","Barboni_a9",44.11,26.9,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58451935037045,4027.97441599799,10.898163879757,-1.40827495561546,21.580141501385,562.511351322463
1198,2408,18344,"SMPDSv1","Bulg_Danube_mireGarvan (EMPD_206)","Barboni_a10",44.11,26.9,200,"not known","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58451935037045,4027.97441599799,10.898163879757,-1.40827495561546,21.580141501385,562.511351322463
1199,2409,18345,"SMPDSv1","Bulg_Danube_mireGarvan (EMPD_207)","Barboni_a11",44.11,26.9,200,"not known","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58451935037045,4027.97441599799,10.898163879757,-1.40827495561546,21.580141501385,562.511351322463
1200,2410,18346,"SMPDSv1","Bulg_Danube_mireGarvan (EMPD_208)","Barboni_a12",44.11,26.9,200,"not known","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58451935037045,4027.97441599799,10.898163879757,-1.40827495561546,21.580141501385,562.511351322463
1201,2411,18347,"SMPDSv1","Bulg_Danube_mireGarvan (EMPD_209)","Barboni_a13",44.11,26.9,200,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.58451935037045,4027.97441599799,10.898163879757,-1.40827495561546,21.580141501385,562.511351322463
1202,2412,18352,"SMPDSv1","Bulg_South_PirinMts_c50 (EMPD_214)","Barboni_a18",41.5,23.6,1200,"not known","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.715678572265212,2923.93155429376,7.36975295097886,-3.79887418490864,17.4300337567557,686.163322380198
1203,2413,18353,"SMPDSv1","Bulg_South_PirinMts_c51 (EMPD_215)","Barboni_a19",41.53,23.61,1430,"not known","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.786725614148311,2563.53766091937,5.94814690514659,-5.40454974050901,16.003357488428,720.911273393898
1204,2414,18354,"SMPDSv1","Bulg_South_PirinMts_c52 (EMPD_216)","Barboni_a20",41.51,23.61,1700,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.876606636995018,2172.96704113648,4.27810303977584,-7.29064431813716,14.3435003255153,760.806032731909
1205,2415,18355,"SMPDSv1","Bulg_South_PirinMts_c53 (EMPD_217)","Barboni_a21",41.51,23.61,1700,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.876606636995018,2172.96704113648,4.27810303977584,-7.29064431813716,14.3435003255153,760.806032731909
1206,2416,18356,"SMPDSv1","Bulg_South_PirinMts_c54 (EMPD_218)","Barboni_a24",41.51,23.61,1700,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.876606636995018,2172.96704113648,4.27810303977584,-7.29064431813716,14.3435003255153,760.806032731909
1207,2417,18357,"SMPDSv1","Bulg_South_PirinMts_c55 (EMPD_219)","Barboni_a31",41.51,23.61,1700,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.876606636995018,2172.96704113648,4.27810303977584,-7.29064431813716,14.3435003255153,760.806032731909
1208,2418,5979,"EMBSeCBIO","Bulga1","Barboni_a707",42.63833333,27.858333,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1209,2419,5980,"EMBSeCBIO","Bulga10","Barboni_a708",42.1175,28.485,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1210,2420,5981,"EMBSeCBIO","Bulga11","Barboni_a709",42.78388889,28.55138889,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1211,2421,5982,"EMBSeCBIO","Bulga12","Barboni_a710",42.20083333,28.48527778,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1212,2422,5983,"EMBSeCBIO","Bulga13","Barboni_a711",43.73916667,30.24972222,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1213,2423,5984,"EMBSeCBIO","Bulga14","Barboni_a712",43.31805556,31.1,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1214,2424,5985,"EMBSeCBIO","Bulga16","Barboni_a713",42.0675,28.88888889,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1215,2425,5986,"EMBSeCBIO","Bulga17","Barboni_a714",42.88555556,31.11888889,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1216,2426,5987,"EMBSeCBIO","Bulga18","Barboni_a715",43.6,28.61666667,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1217,2427,18323,"SMPDSv1","Bulga19","Barboni_a716",43.55,28.53333333,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535376819011024,4288.92991087168,11.7299187382865,-0.184185099107701,22.2109544203323,515.960956929595
1218,2428,5988,"EMBSeCBIO","Bulga2","Barboni_a717",42.65833333,27.93194444,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1219,2429,18324,"SMPDSv1","Bulga20","Barboni_a718",43.41666667,28.11666667,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.526628772858556,4311.01857035701,11.7908996490649,-0.176229264272092,22.2318510373144,510.650023993747
1220,2430,18325,"SMPDSv1","Bulga21","Barboni_a719",43.25,27.63333333,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.526684310894784,4452.14060919173,12.1976455046349,0.514524450198009,22.4615395320851,515.73152282385
1221,2431,18326,"SMPDSv1","Bulga22","Barboni_a720",43.25,27.96666667,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.539520495202565,4412.85244695869,12.0900067039964,0.484226912839997,22.3078309448853,526.096344317715
1222,2432,18327,"SMPDSv1","Bulga23","Barboni_a721",43.28333333,27.98333333,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.5255632652392,4325.49912868635,11.8350600476992,-0.101767012884945,22.2471153893778,511.333444532374
1223,2433,5989,"EMBSeCBIO","Bulga29","Barboni_a727",43.36666667,28.11666667,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1224,2434,5990,"EMBSeCBIO","Bulga3","Barboni_a728",42.65638889,27.87777778,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1225,2435,18333,"SMPDSv1","Bulga30","Barboni_a729",43.03333333,27.88333333,0,"not applicable","fluvial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.545693081021561,4460.92062093464,12.2217003313278,0.754565078574064,22.358097884356,533.617054647948
1226,2436,5991,"EMBSeCBIO","Bulga32","Barboni_a731",43.58333333,28.63333333,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1227,2437,5992,"EMBSeCBIO","Bulga4","Barboni_a732",42.645,27.87777778,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1228,2438,5993,"EMBSeCBIO","Bulga5","Barboni_a733",42.65333333,27.89194444,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1229,2439,5994,"EMBSeCBIO","Bulga6","Barboni_a734",42.67555556,28.16888889,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1230,2440,5995,"EMBSeCBIO","Bulga7","Barboni_a735",42.20166667,27.96861111,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1231,2441,5996,"EMBSeCBIO","Bulga8","Barboni_a736",42.13444444,27.96861111,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1232,2442,5997,"EMBSeCBIO","Bulga9","Barboni_a737",42.20166667,28.41861111,0,"not applicable","marine","marine core","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1233,2443,7151,"EMPDv2","Bulgarian Black Sea","EPDcoretop_E2199",42.47,28.41,-971,"not applicable","marine","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
1234,2444,18335,"SMPDSv1","Bulgb33 (EMPD_197)","Barboni_a1",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1235,2445,18336,"SMPDSv1","Bulgb34 (EMPD_198)","Barboni_a2",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1236,2446,18337,"SMPDSv1","Bulgb35 (EMPD_199)","Barboni_a3",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1237,2447,18338,"SMPDSv1","Bulgb36 (EMPD_200)","Barboni_a4",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1238,2448,18339,"SMPDSv1","Bulgb37 (EMPD_201)","Barboni_a5",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1239,2449,18340,"SMPDSv1","Bulgb38 (EMPD_202)","Barboni_a6",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1240,2450,18341,"SMPDSv1","Bulgb39 (EMPD_203)","Barboni_a7",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1241,2451,18342,"SMPDSv1","Bulgb40 (EMPD_204)","Barboni_a8",44.08,27.11,200,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.581881536207515,4036.2729772828,10.9341388087113,-1.29840179560115,21.5846814645214,559.18463388481
1242,2452,18361,"SMPDSv1","Bulina","Bulina_SS",59.9812,47.0598,155,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09991005463864,2167.75723993747,1.84724377706791,-15.0435028380652,17.5697859563488,599.36633095396
1243,2453,11883,"Neotoma","Bull Dog Lake","BU423",46.68953,-87.981015,528,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06727087903913,2575.12489707549,3.83238538550534,-12.4420843998559,18.5526093834922,803.778375300237
1244,2454,11518,"Neotoma","Bull Pond","FH-3",39.391925,-96.928015,431,"not known","artificial water body","surface sample","-58","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.700109052783249,4575.21918345425,12.0595273550332,-3.44490192816686,26.2566722415253,775.410346169555
1245,2455,1881,"CMPD","Bunan Lake","Bunan Lake",35.95,90.83,4876,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150154969968723,322.019347744669,-7.27277795199141,-18.9695341156348,4.26519866528417,138.244598271203
1246,2456,14046,"Neotoma","Bunker Lake","BUNKERCA",39.05359,-120.386415,1995,"not known","lake","core","-42","Edlund, E.G. 1996. Late Quaternary environmental history of montane forests of the Sierra Nevada. Doctoral dissertation. University of California Berkeley, Berkeley, California, USA.",,8,"cool evergreen needleleaf forest",0.689026805829051,2714.29817075899,7.25095998838982,-1.1709540037917,18.037225036082,816.982396320192
1247,2457,18362,"SMPDSv1","Buntes Moor","EPDcoretop_E1200",46.996528,11.140972,2285,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.03798192742604,651.258000067398,-1.42365196391095,-8.34619315284429,5.94281763909264,1968.99024082929
1248,2458,426,"Australian pollen","Bunya Mountains","Bunya Mountains 6",-26.85,151.567,900,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.325013498664515,5705.34407609965,15.631079660547,7.85312885324837,22.0309314023464,517.734950380376
1248,2459,427,"Australian pollen","Bunya Mountains","Bunya Mountains 7",-26.85,151.567,1050,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.27442502080155,5359.45754543137,14.683445329949,6.72007493740347,21.2753403769531,438.48695995434
1248,2460,428,"Australian pollen","Bunya Mountains","Bunya Mountains 8",-26.85,151.567,600,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.427667425229749,6397.11713743622,17.5263483217431,10.1192366849382,23.5421134531331,676.230931232447
1249,2461,429,"Australian pollen","Bunyip Bog","Bunyip Bog",-36.7833,146.7667,1330,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.2642449723823,2428.47190230825,6.62348765648978,-0.346265076731564,13.7015071529259,1439.91361728429
1250,2462,18363,"SMPDSv1","BUR1","Barboni_a403",42.368889,-3.317222,1035,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.578918540928033,3688.97161174417,10.1067715390251,2.58727312376719,19.1044831255258,631.226693685529
1251,2463,18364,"SMPDSv1","BUR2","Barboni_a404",42.618889,-3.867222,990,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.619577988678752,3738.86223616569,10.2434581812759,2.92037299165392,18.8717353821942,669.046880980263
1252,2464,18365,"SMPDSv1","Burmakino","Burmakino_SS",58.8131,50.055,150,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06372457810257,2386.51092949707,2.65128836513647,-14.3502783409274,18.6739766039652,615.765564294655
1252,2465,9423,"EMPDv2","Burmakino","Novenko_c259",58.8131,50.055,145,"0.01","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.05964920805281,2401.22864914847,2.71899459406255,-14.2702953585436,18.7255433154868,616.117859112079
1252,2466,9424,"EMPDv2","Burmakino","Novenko_c260",58.8131,50.055,148,"0.01","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06209104895613,2392.38585047765,2.6783708567069,-14.3182851479739,18.6946032885738,615.906482221625
1252,2467,9425,"EMPDv2","Burmakino","Novenko_c261",58.8131,50.055,150,"0.01","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06372457810257,2386.51092949707,2.65128836513647,-14.3502783409274,18.6739766039652,615.765564294655
1253,2468,430,"Australian pollen","Burns Plains","LNR0",-42.1,146.21,730,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44946295717148,2931.0574720696,8.0302944440263,3.39470332867863,13.2075117748554,1338.29153015518
1253,2469,431,"Australian pollen","Burns Plains","LNR200",-42.1,146.21,730,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44946295717148,2931.0574720696,8.0302944440263,3.39470332867863,13.2075117748554,1338.29153015518
1253,2470,432,"Australian pollen","Burns Plains","LNR400",-42.1,146.21,730,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44946295717148,2931.0574720696,8.0302944440263,3.39470332867863,13.2075117748554,1338.29153015518
1253,2471,433,"Australian pollen","Burns Plains","LNR600",-42.1,146.21,730,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44946295717148,2931.0574720696,8.0302944440263,3.39470332867863,13.2075117748554,1338.29153015518
1253,2472,434,"Australian pollen","Burns Plains","LNR800",-42.1,146.21,730,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44946295717148,2931.0574720696,8.0302944440263,3.39470332867863,13.2075117748554,1338.29153015518
1254,2473,13807,"Neotoma","Burnt Knob Lake","BURNTKNB",45.706945,-114.9829,2250,"not known","lake","core","-35","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., and C. Whitlock. 2003. Postglacial fire, vegetation, and climate history in the Clearwater Range, northern Idaho, USA. Quaternary Research 60(3):307-318.","10.1016/j.yqres.2003.07.009",15,"cold evergreen needleleaf forest",0.425255219873824,1873.87773773996,3.1715450110344,-6.9005656254046,14.9125583680823,366.688280681052
1255,2474,12357,"Neotoma","Burntside Lake","BURNTSDE",47.924167,-91.994722,422,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.987904475434034,2482.97787775226,2.75358112142838,-15.6822341127067,18.2741684514614,731.385687392289
1255,2474,12358,"Neotoma","Burntside Lake","BURNTSDE",47.924167,-91.994722,422,"not known","lake","core","19","Unpublished data",,9,"cool mixed forest",0.987904475434034,2482.97787775226,2.75358112142838,-15.6822341127067,18.2741684514614,731.385687392289
1256,2475,435,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_0",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2476,436,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_1",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-28","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2477,437,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_2",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2478,438,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_3",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2479,439,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_4",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2480,440,"Australian pollen","Burraga Swamp","Burraga Swamp centre_2_5",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","39","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2481,441,"Australian pollen","Burraga Swamp","Burraga Swamp edge_0",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2482,442,"Australian pollen","Burraga Swamp","Burraga Swamp edge_1",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2483,443,"Australian pollen","Burraga Swamp","Burraga Swamp edge_2",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2484,444,"Australian pollen","Burraga Swamp","Burraga Swamp edge_3",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2485,445,"Australian pollen","Burraga Swamp","Burraga Swamp edge_4",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2486,446,"Australian pollen","Burraga Swamp","Burraga Swamp edge_5",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1256,2487,447,"Australian pollen","Burraga Swamp","Burraga Swamp edge_6",-32.0833,151.45,1100,"0.002","terrestrial, bog/fen/swamp","core","47","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52255174424861806,4694.38094459761,12.8613176564318,4.97585495187676,20.0531309719266,765.80432425613
1257,2488,448,"Australian pollen","Burralow Creek Swamp","BCr 1",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2489,449,"Australian pollen","Burralow Creek Swamp","BCr 2",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2490,450,"Australian pollen","Burralow Creek Swamp","BCr 3",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2491,451,"Australian pollen","Burralow Creek Swamp","BCr 4",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2492,452,"Australian pollen","Burralow Creek Swamp","BCr 5",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2493,453,"Australian pollen","Burralow Creek Swamp","BCr 6",-33.56,150.6,50,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.845702830593705,6315.35862052783,17.3023523850078,11.2578947641053,22.3994083170426,1080.5921093582199
1257,2494,454,"Australian pollen","Burralow Creek Swamp","Burralow Creek Swamp_JC91_0",-33.53,150.61,320,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.746826904389032,5715.28511026999,15.6583153706027,9.09577201514309,21.5043167691587,974.358241906898
1257,2495,455,"Australian pollen","Burralow Creek Swamp","Burralow Creek Swamp_JC91_5",-33.53,150.61,320,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.746826904389032,5715.28511026999,15.6583153706027,9.09577201514309,21.5043167691587,974.358241906898
1258,2496,10768,"Bush et al., 2020","Burro","Burro",19.42,-101.5,2704,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.573078002537813,4813.48133641135,13.1876200997571,9.09383853887073,16.4423101013308,847.238221740704
1259,2497,7346,"EMPDv2","Buse","Finsinger_a69",46.1791239311463,11.3244124759024,2059,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.66316163988558,816.748596629145,-0.594471511553138,-7.86445104385746,7.01091692273332,1771.68532602961
1260,2498,456,"Australian pollen","Butchers Swamp","Butchers Swamp_1",-31.9167,151.4,1230,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.494409935974068,4491.47415861024,12.3054086537267,4.22762702391302,19.7047852208585,733.947508431497
1260,2499,457,"Australian pollen","Butchers Swamp","Butchers Swamp_2",-31.9167,151.4,1230,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.494409935974068,4491.47415861024,12.3054086537267,4.22762702391302,19.7047852208585,733.947508431497
1260,2500,458,"Australian pollen","Butchers Swamp","Butchers Swamp_3",-31.9167,151.4,1230,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.494409935974068,4491.47415861024,12.3054086537267,4.22762702391302,19.7047852208585,733.947508431497
1261,2501,18366,"SMPDSv1","Butovka","Butovka_core top",55.1666666666666,36.4166666666666,213,"not known","terrestrial","peat core top","-7","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.974444287333199,2660.53763517945,4.916905333637,-9.69679302874653,17.9880509908289,666.261764216042
1261,2502,7181,"EMPDv2","Butovka","EPDcoretop_E2338",55.17,36.42,213,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.974532840438251,2660.47558243529,4.91664758353278,-9.69710997638168,17.9880550697072,666.277799896855
1262,2503,18367,"SMPDSv1","Buveitstjern","Bjune_a117",58.3820299,7.97566472,255,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.14159266318538,2242.30457699594,5.37980650739279,-3.74174291125829,14.545028276415,1266.29411650747
1263,2504,9757,"Herzschuh et al., 2019","Buvst Nuur. 6A","Buvst Nuur. 6A",49.15466,97.42161,2218,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.368899461057559,1185.82968538324,-7.23197047268805,-29.2548020966645,11.2838421491989,294.478014032318
1264,2505,9319,"EMPDv2","BUXSUS","Remazani_a1",36.6108333333333,51.5263888888889,75,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.103463277787369,7341.87058705996,20.1147139371506,7.13807046735286,32.3722119728316,144.635494306763
1265,2506,459,"Australian pollen","Buxton","Buxton",-37.4483,145.6919,235,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.757183837789517,4961.2368899257,13.5924298354129,7.68989622964129,19.8556475584528,833.749649493379
1266,2507,18368,"SMPDSv1","Buyuk Golu","Barboni_a738",39.86666667,37.38333333,1349.71,"medium (1.1-50 km2)","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.421588897967928,3425.41354201471,8.9960435470954,-2.91955591575109,19.2615451601242,507.207862776398
1267,2508,18369,"SMPDSv1","By Ospitale","Barboni_a845",44.1555,10.8,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09553959956929,2326.30599913119,6.2955302312941,-0.47177380313644,14.7099203811342,942.553841967184
1268,2509,18328,"SMPDSv1","Byala_Bulga24","Barboni_a722",42.91666667,27.83333333,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.546383709038421,4483.81087231636,12.2844133488119,0.883394811811171,22.3819391013868,535.773147369418
1269,2510,18329,"SMPDSv1","Byala_Bulga25","Barboni_a723",42.91666667,27.83333333,0,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.546383709038421,4483.81087231636,12.2844133488119,0.883394811811171,22.3819391013868,535.773147369418
1270,2511,18330,"SMPDSv1","Byala_Bulga26","Barboni_a724",42.96666667,27.63333333,60,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.544893478613494,4470.81962647338,12.2488208944476,0.868596584323066,22.4172646588471,539.42717666533
1271,2512,460,"Australian pollen","Byenup Lagoon","Byenup Lagoon Site 1",-34.48,116.72,241,"medium (1.1-50 km2)","lake","core top","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52869967519512,5583.27354451338,15.2966398479819,10.240547650281,20.9805911748509,658.596235727743
1272,2513,11542,"Neotoma","Byer Pond","FH-25",39.373185,-96.11764,367,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.790429278963696,4598.61631975232,12.1225572522379,-3.45137960544966,26.0881092586934,861.484203128326
1273,2514,8508,"EMPDv2","Bylina-1","Novenko_c152",60.4486,47.7825,140,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13732409040891,2079.70743284613,1.38301520512368,-15.7101734678636,17.3743248669061,591.292309829847
1274,2515,8509,"EMPDv2","Bylina-2","Novenko_c153",60.4438,47.7311,156,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.12926466191308,2127.22774794948,1.61511224919962,-15.3992357912671,17.5043434212545,598.804987756562
1275,2516,8510,"EMPDv2","Bylina-3","Novenko_c154",59.9814,47.0619,150,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10034079450688,2156.22094106207,1.79522494705583,-15.1094216117674,17.5329040540965,597.114862152446
1276,2517,8511,"EMPDv2","Bylina-4","Novenko_c155",59.9812,47.0598,155,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09991005463864,2167.75723993747,1.84724377706791,-15.0435028380652,17.5697859563488,599.36633095396
1277,2518,7499,"EMPDv2","Byluyng Kjuel","Klemm_a54",72.24533,125.63041,13,"0.24","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.807464081762572,1032.07096686634,-16.6634235935424,-45.5606514701935,13.4046244447773,259.657578272484
1278,2519,13971,"Neotoma","Byron-Bergen Swamp (Site 2)","BYRONMRL",43.09816,-78.002715,180,"not known","terrestrial, bog/fen/swamp","core","-24","Miller, N.G., and R.P. Futyma. 2003. Extending the paleobotanical records at the Hiscock Site, New York: Correlations among stratigraphic pollen assemblages from nearby lake and wetland basins. Pages 43-62 in The Hiscock Site: Late Pleistocene and Holocene Paleoecology and Archaeology of Western New York State. Bulletin of the Buffalo Society of Natural Sciences 37.; Futyma, R.P., and N.G. Miller. 2001. Postglacial history of a marl fen: vegetational stability at Byron-Bergen Swamp, New York. Canadian Journal of Botany 79:1425-1438.",,9,"cool mixed forest",1.03580721090561,3330.46185995933,7.85961874822365,-6.15873827497598,20.9945125459442,879.993366102924
1279,2520,5928,"EMBSeCBIO","C705","C705",39.71,20.76,470,"not known","not known","not known","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.649072003065374,5097.86006437857,13.966739902407,5.2338877220146,23.0346093929188,821.424286839638
1280,2521,18370,"SMPDSv1","C827 (EMBSECBIO)","C827",47.58,24,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.31430521837368,1937.38550202611,3.16415014156583,-8.94847689554654,12.9372564767526,943.453916725954
1281,2522,18371,"SMPDSv1","C828 (EMBSECBIO)","C828",47.71,24.66,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42668849939402,1635.05992270706,1.80188356468152,-10.2455269774811,11.5305180706575,987.822738283466
1282,2523,18372,"SMPDSv1","C829 (EMBSECBIO)","C829",46.46,22.75,1590,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52671644266459,1619.67859611819,2.29151066642766,-8.2706583726191,11.2713347358731,1094.60427445394
1283,2524,18373,"SMPDSv1","C831 (EMBSECBIO)","C831",45.93,26.33,1017,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.984943536963271,2402.56712641664,5.12252251134524,-7.13926109038735,14.9186097169697,763.638714066092
1284,2525,5929,"EMBSeCBIO","C832","C832",45.56,26.21,850,"not known","not known","not known","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.896063446333455,2700.61607162263,6.27908279451397,-6.01512127129988,16.1690064184322,726.670082092451
1285,2526,18374,"SMPDSv1","C833 (EMBSECBIO)","C833",45.16,21.75,1382,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.46782677323658,1770.3246832068,3.03154547099384,-7.24267600479679,12.126199818936,1116.95883095761
1286,2527,5930,"EMBSeCBIO","C837","C837",48.16,24.51,1110,"not known","not known","not known","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.24844284544125,2079.70942966376,3.7629848643924,-8.51608429878861,13.5829634457472,910.911587132108
1287,2528,18375,"SMPDSv1","C838 (EMBSECBIO)","C838",45.31,22.86,1840,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84124867489607,1105.58580997568,0.0758754440919248,-9.78591574111474,8.50837571162185,1221.69436035773
1288,2529,18376,"SMPDSv1","C840 (EMBSECBIO)","C840",48.91,22.11,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00566520342233,2828.0433698295,6.90317283920961,-4.91440374099794,16.670057908564,777.147200073561
1289,2530,14187,"Neotoma","CA-HUM-558 (Pilot Ridge)","PILOTRDG",40.6616999999999,-123.6691,1250,"not known","terrestrial, marsh","core","40","Hildebrandt, W.R., and J.F. Hayes. 1983. Archaeological investigations on Pilot Ridge Six Rivers National Forest. U.S. Forest Service Contract 53-9JHA-2-140, Anthropological Studies Center Sonoma State University and Center for Anthropological Research San Jose State University, San Jose, California, USA.",,4,"warm-temperate evergreen and mixed forest",1.03381392115213,3386.38721298621,9.27777318626358,2.04666885309798,18.0849562192421,1092.68698047188
1290,2531,18377,"SMPDSv1","Cabo de Gata","Lopez_a14",36.7477222222222,-2.21247222222222,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.252378158889928,6692.53636181842,18.3357160597765,11.8518705896709,26.0940391333217,328.916640877246
1290,2532,18378,"SMPDSv1","Cabo de Gata","Lopez_a15",36.7701944444444,-2.22922222222222,5,"not known","ephemeral lake/pond","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.247114364056158,6619.75205495124,18.1363069998664,11.6003956324757,25.9951131015482,320.542698520424
1290,2533,18379,"SMPDSv1","Cabo de Gata","Lopez_a16",36.7926666666666,-2.24597222222222,5,"not known","ephemeral lake/pond","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.246928195393396,6618.49787147383,18.1328708807502,11.5967487041311,25.9934084277734,320.186026290502
1291,2534,16689,"Neotoma","Caciyna-est","PJHR049",48,-69.4,31,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.39102117767206,2382.63307403626,3.0260365587549,-13.309918154056,18.0081601325573,972.490227425925
1292,2535,13890,"Neotoma","Caddo Creek (Core 3)","CADDO3",32.045915,-95.50621,101,"not known","terrestrial","core","-56","Albert, B.M. 2011. Acidification and pine expansion in East Texas according to pollen evidence from dual cores in alluvium. Castanea 76(2):164-177.",,4,"warm-temperate evergreen and mixed forest",0.873336021185257,6832.38973672095,18.7188759910163,7.47005562083261,28.3703604316815,1135.77881583844
1293,2536,11657,"Neotoma","Caddo Lake","GPPS-30",34.738585,-98.729205,523,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",13,"temperate deciduous broadleaf forest",0.485567908810024,5935.30553343397,16.261111050504,2.67950222581624,28.7144234217964,646.370460852811
1294,2537,1882,"CMPD","Caerhan","Caerhan",36.5,96.3,2680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133515919073465,2815.7913463921,5.71451866392444,-8.97762407147582,18.3694466935357,160.470001890065
1295,2538,10769,"Bush et al., 2020","Cafetal.6","Cafetal.6",10.816667,-85.633333,188,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.28338016019953,9427.71303859668,25.8293507906758,24.8374033887984,27.2986590941174,2263.9660461322
1296,2539,10770,"Bush et al., 2020","Cafetal.7","Cafetal.7",10.816667,-85.633333,188,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.28338016019953,9427.71303859668,25.8293507906758,24.8374033887984,27.2986590941174,2263.9660461322
1297,2540,10771,"Bush et al., 2020","Cafetal.8","Cafetal.8",10.816667,-85.633333,188,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.28338016019953,9427.71303859668,25.8293507906758,24.8374033887984,27.2986590941174,2263.9660461322
1298,2541,12359,"Neotoma","Cahaba Pond","CAHABA",33.5,-86.533333,204,"not known","lake","core","-825","Delcourt, H.R., P.A. Delcourt, and E.C. Spiker. 1983. A 12,000-year record of forest history from Cahaba Pond, St. Clair County, Alabama. Ecology 64:874-887.",,4,"warm-temperate evergreen and mixed forest",1.18543651162075,5986.40213698432,16.4011017451625,5.12037679799911,26.1341323410579,1421.1903691727
1299,2542,1883,"CMPD","Caidamo","Caidamo 1",36.71,99.28,3100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.242745762663998,1615.85176529882,0.880888624540772,-12.5808455715435,12.3416897356835,250.633340975099
1299,2543,1884,"CMPD","Caidamo","Caidamo 2",36.73,98.89,3150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.209647600136322,1663.76684523378,1.03471131534368,-12.4517300055769,12.7668626745416,222.584811389847
1299,2544,1885,"CMPD","Caidamo","Caidamo 3",36.73,98.18,3120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.173424585026294,1933.12163047769,2.17897112111804,-11.5667105412553,14.2879068423083,193.594309441593
1300,2545,18380,"SMPDSv1","Cairn","Barboni_a752",45.33138889,6.556666667,2315,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.11394298818738,1252.50195148509,1.76213126695451,-5.31162957213561,9.90786399280428,1761.65467818619
1301,2546,7352,"EMPDv2","Caldonazzo","Finsinger_a76",46.018738840962,11.2436779723893,449,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06090334328327,3576.34489734406,9.74178532981448,-0.475186659149692,19.412428372983,995.29042163065
1302,2547,461,"Australian pollen","Caledonia Fen","Caledonia Fen_Highres",-37.3333,146.7333,1280,"0.048","terrestrial, bog/fen/swamp","not known","-50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.21684581482919,2707.39875357774,7.40529383801521,-0.118163587517557,15.2995395852224,1424.41748698342
1303,2548,7284,"EMPDv2","Calineasa","Feurdean_a1",47.57389,24.545,1360,"0.02","terrestrial, bog/fen/swamp","peat","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.3709898791141,1742.24517045257,2.2753620645844,-9.83522541752583,12.0523987086695,962.591387416101
1304,2549,24154,"Neotoma","Callanga","CALL1500",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2550,24159,"Neotoma","Callanga","CALL1750",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2551,24152,"Neotoma","Callanga","CALL2000",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2552,24157,"Neotoma","Callanga","CALL2250",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2553,24153,"Neotoma","Callanga","CALL2500",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2554,24156,"Neotoma","Callanga","CALL2750",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2555,24160,"Neotoma","Callanga","CALL3000",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2556,24155,"Neotoma","Callanga","CALL3250",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2557,24158,"Neotoma","Callanga","CALL3570",-12.72822,-71.8273466666666,1500,"not known","terrestrial","moss polster or moss","-54","Urrego, D.H., M.R. Silman, A. Correa-Metrio, and M.B. Bush. 2011. Pollen–vegetation relationships along steep climatic gradients in western Amazonia. Journal of Vegetation Science 22:795-806.","10.1111/j.1654-1103.2011.01289.x",4,"warm-temperate evergreen and mixed forest",1.49553487337307,7152.97305336843,19.5971864475847,17.7997434165184,20.7264286890295,2197.98939710186
1304,2558,10772,"Bush et al., 2020","Callanga","Callanga",-12.9596004,-71.5661011,950,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.98598424775439,8021.72716819426,21.9773347073815,20.1648592278888,23.0531033996557,2946.66736442305
1304,2558,10773,"Bush et al., 2020","Callanga","Callanga",-12.987503,-71.552526,1212,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.85605083621924,7591.64805719945,20.7990357731492,18.9616402105414,21.9020338468401,2755.3634746221
1304,2558,10774,"Bush et al., 2020","Callanga","Callanga",-12.988,-71.55179,1212,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.85626088489264,7591.62534065098,20.7989735360301,18.9615346806608,21.9019764711471,2755.69489925118
1304,2558,10775,"Bush et al., 2020","Callanga","Callanga",-13,-71.1,934,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.09465149569937,8037.9484979584,22.021776706735402,20.1351384290327,23.1015517422019,3130.00051748202
1304,2558,10776,"Bush et al., 2020","Callanga","Callanga",-12.9947004,-71.495,1245,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.85206402858165,7535.9257942484,20.6463720390367,18.8019874380207,21.7523349087551,2750.69296247128
1304,2558,10777,"Bush et al., 2020","Callanga","Callanga",-12.9947004,-71.5550003,1145,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.89087127451224,7701.61577538932,21.1003171928474,19.26954084743,22.1967491506871,2806.95939082853
1304,2558,10778,"Bush et al., 2020","Callanga","Callanga",-12.9947004,-71.5550003,1145,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.89087127451224,7701.61577538932,21.1003171928474,19.26954084743,22.1967491506871,2806.95939082853
1304,2558,10779,"Bush et al., 2020","Callanga","Callanga",-13,-71.5511,1306,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.80902662761925,7437.25572593346,20.3760430847492,18.5299106448626,21.4888182948167,2685.71693962638
1304,2558,10780,"Bush et al., 2020","Callanga","Callanga",-13.012,-71.4934,1106,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92635409132653,7763.7228157183,21.2704734677214,19.4392838384085,22.3628029696267,2861.06232845128
1304,2558,10781,"Bush et al., 2020","Callanga","Callanga",-13.015,-71.51,1355,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.79394176052884,7355.67561662849,20.1525359359685,18.2992149094002,21.2701936217886,2664.16449991923
1304,2558,10782,"Bush et al., 2020","Callanga","Callanga",-13.0152,-71.50903,1355,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.79416552355389,7355.64964500087,20.1524647808243,18.2990814989363,21.2701179565293,2664.51640196748
1304,2558,10783,"Bush et al., 2020","Callanga","Callanga",-13.0152,-71.50903,1355,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.79416552355389,7355.64964500087,20.1524647808243,18.2990814989363,21.2701179565293,2664.51640196748
1304,2558,10784,"Bush et al., 2020","Callanga","Callanga",-13.0152,-71.50903,1355,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.79416552355389,7355.64964500087,20.1524647808243,18.2990814989363,21.2701179565293,2664.51640196748
1304,2558,10785,"Bush et al., 2020","Callanga","Callanga",-13.0363581,-71.531584,1202,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.8706142708337,7607.20904485476,20.8416686160405,19.0046536651639,21.9446619021531,2777.8585426427
1304,2558,10786,"Bush et al., 2020","Callanga","Callanga",-13.03992,-71.531954,1202,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.87088303019458,7607.20104174542,20.8416466897135,19.004727354947,21.9447333295628,2778.28370933539
1304,2558,10787,"Bush et al., 2020","Callanga","Callanga",-13.046808,-71.533364,1499,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.71776758404077,7119.19604337374,19.5046466941746,17.6396270114505,20.6375669586203,2550.40478521865
1304,2558,10788,"Bush et al., 2020","Callanga","Callanga",-13.045516,-71.534504,1499,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.71740556971434,7119.24369145789,19.5047772368709,17.6398177875142,20.6376844068001,2549.84133046593
1304,2558,10789,"Bush et al., 2020","Callanga","Callanga",-13.0483999,-71.5363998,1499,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.71728362272823,7119.22198004983,19.5047177535612,17.6399110667787,20.6376931394417,2549.63975939626
1304,2558,10790,"Bush et al., 2020","Callanga","Callanga",-13.0474997,-71.5429001,1740,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.59190966748643,6723.29253377188,18.4199795445805,16.5325410271023,19.5770355487447,2362.12617232473
1304,2558,10791,"Bush et al., 2020","Callanga","Callanga",-13.069916,-71.55711,1670,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.62703388302164,6837.89243121781,18.7339518663502,16.8542007449327,19.8844511306842,2414.5166194649
1304,2558,10792,"Bush et al., 2020","Callanga","Callanga",-13.0740995,-71.5593033,1737,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.59258073097623,6727.57235836165,18.4317050914018,16.5456294858806,19.5889138173373,2362.91494773768
1304,2558,10793,"Bush et al., 2020","Callanga","Callanga",-13.0738001,-71.5590973,1737,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.5925952417544,6727.57932581837,18.4317241803243,16.5456350695985,19.5889275580039,2362.93936340912
1304,2558,10794,"Bush et al., 2020","Callanga","Callanga",-13.0733004,-71.5594025,1737,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.59248704407277,6727.59821140172,18.4317759216485,16.5457034040307,19.5889755052829,2362.77347183635
1304,2558,10795,"Bush et al., 2020","Callanga","Callanga",-13.0804005,-71.5654984,2091,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41066376545618,6144.84372235601,16.8351882804274,14.9151427956379,18.0274995905748,2089.90046321699
1304,2558,10796,"Bush et al., 2020","Callanga","Callanga",-13.0797005,-71.5656967,2091,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41056427895023,6144.87762660841,16.8352811687902,14.9152511909818,18.0275911024906,2089.75280989627
1304,2558,10797,"Bush et al., 2020","Callanga","Callanga",-13.0806999,-71.5662003,2091,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41055596314717,6144.8294969824,16.8351493068011,14.9151391023888,18.0274658955442,2089.73085052189
1304,2558,10798,"Bush et al., 2020","Callanga","Callanga",-13.0804996,-71.5650024,2091,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41076725812424,6144.83875496893,16.8351746711477,14.9151020698664,18.0274833905702,2090.05978257169
1304,2558,10799,"Bush et al., 2020","Callanga","Callanga",-13.0801001,-71.5647964,2091,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41077145184974,6144.85797991478,16.8352273422323,14.9151465883588,18.0275333756928,2090.06990685316
1304,2558,10800,"Bush et al., 2020","Callanga","Callanga",-13.0937996,-71.5746994,2294,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.30639930163918,5809.92015573912,15.9175894677784,13.9781144409197,17.1299832402764,1932.99992218541
1304,2558,10801,"Bush et al., 2020","Callanga","Callanga",-13.101709,-71.58213,2529,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.18579605484293,5422.29773441518,14.8556102312745,12.8933558642155,16.0910994686305,1751.47218929744
1304,2558,10802,"Bush et al., 2020","Callanga","Callanga",-13.1921997,-71.5839005,2895,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.00559555375305,4811.8608639451,13.1831804491647,11.1824552336624,14.4531901563551,1479.55212995499
1304,2558,10803,"Bush et al., 2020","Callanga","Callanga",-13.1918001,-71.5847015,2895,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.00543513716642,4811.87131636098,13.1832090859205,11.1825248191755,14.4532254984898,1479.31348972403
1304,2558,10804,"Bush et al., 2020","Callanga","Callanga",-13.1763,-71.5952988,2988,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.954927256439226,4659.25391116704,12.7650792086768,10.755872819133,14.0442859389743,1403.6173050042
1304,2558,10805,"Bush et al., 2020","Callanga","Callanga",-13.1763,-71.5943985,2988,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.955069256356147,4659.28027709344,12.7651514440916,10.7559130214609,14.0443578273973,1403.83239246956
1304,2558,10806,"Bush et al., 2020","Callanga","Callanga",-13.1903,-71.5867996,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.969113728303831,4696.31858359378,12.8666262564213,10.8590063152997,14.1433807209922,1424.77207940491
1304,2558,10807,"Bush et al., 2020","Callanga","Callanga",-13.1900997,-71.5877991,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.968939677987529,4696.30655994809,12.8665933149263,10.8590152823606,14.1433515930782,1424.51079477502
1304,2558,10808,"Bush et al., 2020","Callanga","Callanga",-13.1111002,-71.6044006,3297,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.790473576548397,4155.32053447464,11.3844398204785,9.3471224138243,12.6950436948446,1158.08889897717
1304,2558,10809,"Bush et al., 2020","Callanga","Callanga",-13.1106997,-71.6035995,3297,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.790559854029788,4155.39341669749,11.3846394978013,9.34731561818958,12.6952549600364,1158.22375498141
1304,2558,10810,"Bush et al., 2020","Callanga","Callanga",-13.1134005,-71.6065979,3297,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.790321319863247,4154.99352272552,11.3835438978781,9.34619323266178,12.6940842772308,1157.83034183455
1304,2558,10811,"Bush et al., 2020","Callanga","Callanga",-13.0957003,-71.6298981,3636,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.611864901546741,3597.15124233757,9.85520888311664,7.78579100383789,11.1994194764017,892.226988369268
1304,2558,10812,"Bush et al., 2020","Callanga","Callanga",-13.0952997,-71.6295013,3636,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.611889620242372,3597.22085291634,9.85539959703107,7.78599413846124,11.1996257373365,892.268610032258
1304,2558,10813,"Bush et al., 2020","Callanga","Callanga",-12.94,-71.4,555,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.2281569952186,8661.06158273961,23.7289358431222,21.9388117728745,24.7617957537757,3306.16569784661
1304,2558,10814,"Bush et al., 2020","Callanga","Callanga",-12.94,-71.53,794,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07351106400605,8275.80616916154,22.6734415593467,20.872042703273,23.7322317832212,3075.94972601425
1304,2558,10815,"Bush et al., 2020","Callanga","Callanga",-12.94,-71.53,794,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07351106400605,8275.80616916154,22.6734415593467,20.872042703273,23.7322317832212,3075.94972601425
1304,2558,10816,"Bush et al., 2020","Callanga","Callanga",-12.94,-71.53,794,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07351106400605,8275.80616916154,22.6734415593467,20.872042703273,23.7322317832212,3075.94972601425
1304,2558,10817,"Bush et al., 2020","Callanga","Callanga",-12.6,-71.26,408,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.22099298579022,8888.69847432159,24.3525985597852,22.5457447028312,25.3316363210303,3263.31704741803
1304,2558,10818,"Bush et al., 2020","Callanga","Callanga",-12.6,-71.26,408,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.22099298579022,8888.69847432159,24.3525985597852,22.5457447028312,25.3316363210303,3263.31704741803
1304,2558,10819,"Bush et al., 2020","Callanga","Callanga",-12.6,-71.26,408,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.22099298579022,8888.69847432159,24.3525985597852,22.5457447028312,25.3316363210303,3263.31704741803
1304,2558,10820,"Bush et al., 2020","Callanga","Callanga",-12.6,-71.26,408,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.22099298579022,8888.69847432159,24.3525985597852,22.5457447028312,25.3316363210303,3263.31704741803
1305,2559,10821,"Bush et al., 2020","Calzada","Calzada",-15.902683,-70.511967,4405,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.409927122096156,2091.56953972419,5.73032750609367,3.00190788143789,7.35595744145138,586.669582324334
1306,2560,18381,"SMPDSv1","Cam Loch","EPDcoretop_E156",58.083333,-5,130,"2.62","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.42754203414123,2740.39983180803,7.50794474467955,3.01117270954403,12.5949186457756,1662.03186392278
1307,2561,10822,"Bush et al., 2020","Camaleon","Camaleon",20.04,-103.28,1865,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.515958144659847,6701.0227292267,18.358966381443,14.2693362123559,21.7143300071974,834.163719055491
1308,2562,12360,"Neotoma","Camel Lake","CAMEL",30.266667,-85.016667,20,"not known","lake","core","0","Watts, W.A., B.C.S. Hansen, and E.C. Grimm. 1992. Camel Lake: A 40,000-yr record of vegetational and forest history from northwest Florida. Ecology 73:1056-1066.",,4,"warm-temperate evergreen and mixed forest",1.08268179476434,7250.13772505376,19.8633910275445,10.745280396243,27.4547226226795,1455.65642945017
1309,2563,462,"Australian pollen","Cameron's Lagoon","Cameron's Lagoon_1",-41.9667,146.6833,1045,"not known","lake","core","25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.48907326911136,2288.42587134529,6.26965992149393,1.39392975870258,11.7948169675598,1379.48711437333
1309,2564,463,"Australian pollen","Cameron's Lagoon","Cameron's Lagoon_2.5",-41.9667,146.6833,1045,"not known","lake","core","48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.48907326911136,2288.42587134529,6.26965992149393,1.39392975870258,11.7948169675598,1379.48711437333
1310,2565,7137,"EMPDv2","Camillan Wood","EPDcoretop_E2148",52.01,-9.53,24,"0.6","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.72631973722724,3678.46093890682,10.0779751750872,5.70911825840443,15.2489882809632,1106.64244773874
1310,2566,7138,"EMPDv2","Camillan Wood","EPDcoretop_E2235",52.01,-9.53,24,"0.6","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.72631973722724,3678.46093890682,10.0779751750872,5.70911825840443,15.2489882809632,1106.64244773874
1310,2567,18382,"SMPDSv1","Camillan Wood","Mitchell_a1",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2568,18383,"SMPDSv1","Camillan Wood","Mitchell_a10",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2569,18384,"SMPDSv1","Camillan Wood","Mitchell_a13",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2570,18385,"SMPDSv1","Camillan Wood","Mitchell_a25",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2571,18386,"SMPDSv1","Camillan Wood","Mitchell_a26",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2572,18387,"SMPDSv1","Camillan Wood","Mitchell_a27",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2573,18388,"SMPDSv1","Camillan Wood","Mitchell_a3",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2574,18389,"SMPDSv1","Camillan Wood","Mitchell_a4",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1310,2575,18390,"SMPDSv1","Camillan Wood","Mitchell_a9",52.0208333333333,-9.54166666666666,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.74075094673305,3667.14515797444,10.0469730355464,5.68614309234899,15.2143875072712,1114.98505577881
1311,2576,12361,"Neotoma","Camp 11 Lake","CAMP11LK",46.666667,-88.016667,549,"not known","lake","core","7","Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06818911280217,2566.14165869469,3.78015686779719,-12.506144168753,18.5265551391866,804.310705165901
1312,2577,12362,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","-32","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12363,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","-25","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12364,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","-18","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12365,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","-10","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12366,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","-3","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12367,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","4","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12368,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","10","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12369,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12370,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","22","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12371,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","27","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12372,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","41","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1312,2577,12373,"Neotoma","Camp 12 Lake","CAMP12LK",45.985555,-89.379645,505,"not known","lake","core","46","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03379943903336,2629.90609241852,3.92082718603011,-12.8121133430217,18.828542892165,794.301369656693
1313,2578,13635,"Neotoma","Camp Lake","CAMPLAKE",45.40595,-95.39015,344,"not known","lake","core","-27","Unpublished data",,22,"steppe",0.75671157283449,3302.71720860225,6.09055230264257,-12.738487841269,22.0424581186321,646.459206247193
1313,2578,13636,"Neotoma","Camp Lake","CAMPLAKE",45.40595,-95.39015,344,"not known","lake","core","29","Unpublished data",,22,"steppe",0.75671157283449,3302.71720860225,6.09055230264257,-12.738487841269,22.0424581186321,646.459206247193
1314,2579,14017,"Neotoma","Camp Two Lake","CAMPTWO",46.50045,-91.4105,346,"not known","lake","core","-54","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.967624326366056,2788.37381732917,4.53881985574457,-12.9042882415593,19.4749185418615,750.95224201972
1315,2580,7939,"EMPDv2","Campagnatico - Podere Salami","Mercuri_i20",42.815383,11.315383,70,"not applicable","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.682925061029429,5533.449817699,15.1601364868466,7.41794043584859,23.8019591059362,761.546372903556
1316,2581,7938,"EMPDv2","Campagnatico - Podere Santucci","Mercuri_i19",42.802101,11.291552,78,"not applicable","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.684623269062835,5511.23665054797,15.099278494652,7.3579987246495,23.7459829087643,762.581349862795
1317,2582,10823,"Bush et al., 2020","Campana_abovelunchsp.","Campana_abovelunchsp.",8.689446,-79.919872,814,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.552636046121208,8262.386766051,22.6366760713726,21.5357878348942,23.7516514533645,1042.88738840517
1318,2583,17408,"Neotoma","Campau Lake","TW115",42.83,-85.47,239,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.980713822246685,3525.69647544629,8.50429175311659,-5.97707151937442,21.7454585875288,856.065746885979
1319,2584,12374,"Neotoma","Campbell Lake","CAMPBELL",44.70722,-93.497645,281,"not known","lake","core","-13","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.846169204283612,3431.14811380243,6.8380409747235404,-11.6876294840522,22.4161669355283,725.913613206888
1319,2584,12375,"Neotoma","Campbell Lake","CAMPBELL",44.70722,-93.497645,281,"not known","lake","core","10","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.846169204283612,3431.14811380243,6.8380409747235404,-11.6876294840522,22.4161669355283,725.913613206888
1319,2584,12376,"Neotoma","Campbell Lake","CAMPBELL",44.70722,-93.497645,281,"not known","lake","core","35","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.846169204283612,3431.14811380243,6.8380409747235404,-11.6876294840522,22.4161669355283,725.913613206888
1320,2585,18391,"SMPDSv1","Campo Aranuelo","Lopez_a157",39.9170555555555,-5.56847222222222,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422758669215324,5708.60635253021,15.6400174041924,7.69911607605952,25.2905056320311,527.170841254694
1320,2586,18392,"SMPDSv1","Campo Aranuelo","Lopez_a158",39.9378055555555,-5.60144444444444,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42416978008892,5704.78004378339,15.6295343665298,7.69682259215286,25.2673873543964,528.56226793005
1320,2587,18393,"SMPDSv1","Campo Aranuelo","Lopez_a159",39.9625833333333,-5.60133333333333,380,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.424714250975608,5757.65527449683,15.7743980123201,7.84151320142902,25.4095747275172,529.323523342646
1321,2588,18394,"SMPDSv1","Campo Azalvaro","Lopez_a51",40.6713611111111,-4.53022222222222,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.495326850315751,3164.42705015812,8.66966315111815,1.2244595234507,18.032253693728,572.242125453135
1321,2589,18395,"SMPDSv1","Campo Azalvaro","Lopez_a52",40.6699999999999,-4.54711111111111,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.490404682564693,3219.79992567975,8.82136965939657,1.35234814890052,18.2010958657077,568.1002205404
1321,2590,18396,"SMPDSv1","Campo Azalvaro","Lopez_a53",40.6609166666666,-4.67566666666666,1275,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.480075524850985,3287.61562661934,9.00716610032694,1.49536266309124,18.4055611989674,559.172683270237
1322,2591,10345,"IBERIA","Campo Lameiro","PRD4",42.5333,-8.5167,260,"not applicable","terrestrial","sediment sample","-11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",1.44933603320949,4808.63704366842,13.174348064845,8.16740108460083,18.8183896057202,1400.79884331572
1323,2592,24405,"Neotoma","Campo Salgado","SALGADO_0",-0.912777777777778,-46.6830555555556,3,"not known","terrestrial, marsh","core","-49","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72776173428903,9744.87216024648,26.6982798910863,25.8042479757247,27.4318760802118,2503.43282167952
1323,2593,24406,"Neotoma","Campo Salgado","SALGADO_5",-0.912777777777778,-46.6830555555556,3,"not known","terrestrial, marsh","core","21","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.72776173428903,9744.87216024648,26.6982798910863,25.8042479757247,27.4318760802118,2503.43282167952
1324,2594,15963,"Neotoma","Canaan Mountain","JAMMBD5",39.1,-79.6,1120,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",1.42405162728741,3265.78841339079,8.33499034246394,-3.76217422430533,19.0768747465175,1266.54444047678
1325,2595,15964,"Neotoma","Canaan Valley","JAMMBD6",39.1,-79.6,950,"not known","terrestrial, marsh","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",1.3494005670241,3475.22643603164,9.02984180159958,-3.23071542414261,19.9320268914415,1218.15445624766
1326,2596,10424,"IBERIA","Canada de la Cruz","CANCRUZ",38.0675,-2.6875,1595,"0.6","lake","core top","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.421710314601287,3977.77730694635,10.8980200190311,2.10479159211196,22.7977437407683,529.976339752178
1327,2597,18397,"SMPDSv1","Canakli","Bakker_a15",37.566754,30.622577,1034,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.420483610175576,4675.18647387716,12.8087300654169,2.89967174921532,22.8812321492921,591.574499104698
1327,2598,18398,"SMPDSv1","Canakli","Bakker_b16",37.5806833333333,30.5788833333333,1124,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.412143663395302,4485.38694980923,12.2887313693403,2.24091350951119,22.4410106640304,575.44585666608
1327,2599,18399,"SMPDSv1","Canakli","Bakker_b17",37.5609166666666,30.5947166666666,1158,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409400964400517,4413.81562916854,12.0926455593659,1.99130121888122,22.2755925852074,570.184789708966
1327,2600,18400,"SMPDSv1","Canakli","Bakker_b2",37.5798833333333,30.5904,1055,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418332285768879,4631.36146431063,12.6886615460565,2.74875388385103,22.7795302926968,587.460989775963
1327,2601,18401,"SMPDSv1","Canakli","Bakker_b25",37.56605,30.5602666666666,1270,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398886282041814,4178.20432042216,11.4471351244443,1.17180351219094,21.7301425111527,550.332006413487
1327,2602,18402,"SMPDSv1","Canakli","Bakker_b26",37.551,30.5761833333333,1348,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392017520444355,4012.40532525125,10.9928913020582,0.593659051888024,21.3464191633003,537.346190739991
1327,2603,18403,"SMPDSv1","Canakli","Bakker_b27",37.54915,30.57835,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387240670695081,3901.80559133472,10.6898783324239,0.208167887021821,21.0901922316169,528.40577710053
1327,2604,18404,"SMPDSv1","Canakli","Bakker_b28",37.5532333333333,30.5998,1232,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402877877050749,4256.65714282373,11.6620743639006,1.44375334589708,21.9114528529334,557.641674895871
1327,2605,18405,"SMPDSv1","Canakli","Bakker_b37",37.5861333333333,30.5561666666666,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421136536551967,4707.36671078586,12.8968950980434,3.01571801670957,22.9560782250987,593.20556968901
1327,2606,18406,"SMPDSv1","Canakli","Bakker_b38",37.58135,30.5598666666666,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421195969624622,4707.62642333308,12.8976066392687,3.01655541495687,22.9567742818808,593.345971859178
1327,2607,18407,"SMPDSv1","Canakli","Bakker_b39",37.5902166666666,30.5467166666666,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421047801936011,4707.53747771564,12.8973629526456,3.01681860975892,22.9564573159408,593.061350116118
1327,2608,18408,"SMPDSv1","Canakli","Bakker_b50",37.5529333333333,30.57835,1258,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400279301181547,4203.34144672681,11.5160039636351,1.25896610409218,21.7886505434087,552.925742972958
1327,2609,18409,"SMPDSv1","Canakli","Bakker_b51",37.5498,30.5793666666666,1402,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387066279138032,3897.37798402693,10.6777479014436,0.19269931392403,21.0798150548659,528.059523513951
1327,2610,18410,"SMPDSv1","Canakli","Bakker_b53",37.5556666666666,30.5841333333333,1182,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407188722186531,4364.16554632001,11.9566179351233,1.81905214801136,22.1610468744009,566.077556505508
1327,2611,18411,"SMPDSv1","Canakli","Bakker_b61",37.56245,30.5971833333333,1162,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409057198587274,4404.94688282068,12.0683476241662,1.96021660673244,22.2548793502543,569.475472492001
1327,2612,18412,"SMPDSv1","Canakli","Bakker_b8",37.5841666666666,30.58115,1239,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401830368686126,4240.35880944551,11.6174213957411,1.38701013997635,21.8722384063399,555.48910824676
1328,2613,12377,"Neotoma","Candelabra Lake","CANDELAB",61.683333,-130.65,1040,"not known","lake","core","0","Cwynar, L.C., and R.W. Spear. 1995. Paleovegetation and paleoclimatic changes in the Yukon at 6 ka BP. Géographie Physique et Quaternaire 49(1):29-35.","10.7202/033027ar",15,"cold evergreen needleleaf forest",0.794779852843915,1249.144660238,-4.99484385501314,-24.172851028681,12.350233699313,367.001980895542
1329,2614,10824,"Bush et al., 2020","Candelaria","Candelaria",18.18,-91.05,33,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.0582100865201,9634.93011788966,26.397068816136,22.9929220478733,28.8287744190763,1663.74083713446
1330,2615,1886,"CMPD","Cangumiao","Cangumiao",40.02,118.23,208,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496183493275563,4190.87609170212,10.2785420932259,-6.56020161988512,24.6421416081776,526.573640314772
1331,2616,11465,"Neotoma","Canyon Lake","BU410",46.833495,-87.92128,258,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.04454726061816,2624.59702274829,4.09567613500349,-12.304982322372,18.5884126127858,783.809869030524
1331,2617,13506,"Neotoma","Canyon Lake","CANYONMI",46.833495,-87.92128,258,"not known","lake","core","-10","Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.2307/2845547",9,"cool mixed forest",1.04454726061816,2624.59702274829,4.09567613500349,-12.304982322372,18.5884126127858,783.809869030524
1332,2618,1887,"CMPD","Caotan Lake","Caotan Lake",44.418,86.021,380,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132539274937475,4389.69001672757,9.32176475313046,-12.323893357037,26.8445821762804,140.222106002137
1333,2619,6007,"EMBSeCBIO","Capatana","Capatana core",46.466111,23.136389,1220,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","16","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.26466136772498,2109.66829847533,4.26690206207965,-6.88903978115438,13.5135159557177,962.649416409391
1334,2620,15513,"Neotoma","Cape Alava","CJH092",47.94,-123.75,625,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.88537396350994,3095.1709700814,8.47992046597645,2.73316573400631,15.186111434976,2224.5890392153
1335,2621,16469,"Neotoma","Cape Christian","JTA283",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2622,16467,"Neotoma","Cape Christian","JTA284",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2623,16461,"Neotoma","Cape Christian","JTA285",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2624,16465,"Neotoma","Cape Christian","JTA286",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2625,16462,"Neotoma","Cape Christian","JTA287",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2626,16464,"Neotoma","Cape Christian","JTA288",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2627,16460,"Neotoma","Cape Christian","JTA289",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2628,16468,"Neotoma","Cape Christian","JTA290",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2629,16463,"Neotoma","Cape Christian","JTA291",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2630,16466,"Neotoma","Cape Christian","JTA292",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1335,2631,16470,"Neotoma","Cape Christian","JTA293",70.5,-68.33,300,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",1.05067396722245,196.531262005987,-13.2808935378927,-28.115641174393,3.4006338227828,262.113555327513
1336,2632,15515,"Neotoma","Cape Flattery","CJH094",47.92,-123.25,1737,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",13,"temperate deciduous broadleaf forest",3.45254889066323,2144.54833618368,5.87547489365391,0.787881458316228,12.5561791241706,2692.59438323298
1337,2633,24487,"Southern Hemisphere pollen","Cape Foulwind","Cape Foulwind_mod",-41.7478,171.5067,70,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",4,"warm-temperate evergreen and mixed forest",3.35440640840312,4327.65802792415,11.8565973367785,7.35560425725155,16.1466541234117,2904.96455120392
1338,2634,18413,"SMPDSv1","Cape of Kaliakra","Cape Kaliakra/MFBG01S",43.3833333333333,28.4505555555556,233,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.571816660950098,4284.30761537716,11.7378290832251,0.756617533719335,21.7961343584766,549.380963545393
1339,2635,18414,"SMPDSv1","Capel Curig","UK/HP/CC1_CC2",53.0838888888889,-3.91666666666667,500,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.5677797562128,2607.5673249648,7.14402006839672,1.58254661203875,13.2562103829239,1449.67878195195
1339,2636,18415,"SMPDSv1","Capel Curig","UK/HP/CC3_CC4",53.0841666666667,-3.90138888888889,450,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.55936758471253,2697.60789883519,7.39070657215121,1.87060489054973,13.4693994438983,1457.56196270923
1339,2637,18416,"SMPDSv1","Capel Curig","UK/HP/CC5_CC6",53.085,-3.9,280,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.52408037452525,3002.06747092779,8.22484238610354,2.83992526706153,14.1952952984714,1479.50726923995
1339,2638,18417,"SMPDSv1","Capel Curig","UK/HP/CC7_CC8",53.1,-3.88444444444444,145,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.49753387260204,3242.04873349465,8.88232529724561,3.60264877348782,14.7692405690164,1496.32793429693
1339,2639,18418,"SMPDSv1","Capel Curig","UK/HP/CC9_CC10",53.1,-3.88555555555556,152,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.49904535862841,3229.63393510712,8.8483121509784,3.56331052225222,14.7394025591153,1495.53914931725
1340,2640,14259,"Neotoma","Capitola Lake","CAPITOLA",45.519575,-89.55507,460,"not known","lake","core","-5","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.01768641601626,2681.15833343185,4.13904535355247,-12.6777565635668,19.052870200172,791.294843355222
1341,2641,6904,"EMPDv2","Car","Colombaroli_a19",37.7181944444444,13.4875,757,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.424993065593634,5331.87306735455,14.6078714174097,8.08309554733068,22.7775358303499,578.819580005904
1342,2642,10825,"Bush et al., 2020","Carara","Carara",9.78,-84.55,152,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.63130139976649,9498.38860230207,26.0229824720605,25.1162303417964,27.4904852580468,2796.38542722464
1343,2643,12378,"Neotoma","Carbuncle Pond","CARBUNCL",41.7,-71.783333,342,"not known","lake","core","0","Unpublished data",,13,"temperate deciduous broadleaf forest",1.32403857707986,3327.78651975315,7.80863945558846,-6.60156737927128,20.9161131807766,1123.82434730039
1343,2643,12379,"Neotoma","Carbuncle Pond","CARBUNCL",41.7,-71.783333,342,"not known","lake","core","33","Unpublished data",,13,"temperate deciduous broadleaf forest",1.32403857707986,3327.78651975315,7.80863945558846,-6.60156737927128,20.9161131807766,1123.82434730039
1344,2644,12380,"Neotoma","Caribou Hill","CARIBOU",55.666667,-63.25,475,"not known","lake","core","0","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.; Lamb, H.F. 1985. Palynological evidence for postglacial change in the position of tree limit in Labrador. Ecological Monographs 55:241-258.",,15,"cold evergreen needleleaf forest",1.79189380658182,966.679265636152,-5.42915564874064,-21.9013417653134,10.8002676154664,792.251057567057
1345,2645,16504,"Neotoma","Caribou Lake","KG001",46.8,-68.07,167,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.4864629320894,2519.17053215093,3.85989315682036,-12.0599670958939,18.3441153187141,1082.85760314091
1346,2646,464,"Australian pollen","Carlisle Perched Lake","Carlisle Perched Lake",-37.9167,143.6667,70,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.704546053417415,5059.68867110111,13.8621607427428,8.99954940388773,18.984113302966,731.425351647868
1347,2647,12381,"Neotoma","Carp Lake","CARPLAKE",45.918056,-120.880556,714,"not known","lake","core","0","Barnosky, C.W. 1983. Late-Quaternary vegetational and climatic history of southwestern Washington. Dissertation. University of Washington, Seattle, Washingtion, USA.; Barnosky, C.W. 1985. Late Quaternary vegetation in the southwestern Columbia Basin, Washington. Quaternary Research 23:109-122.",,4,"warm-temperate evergreen and mixed forest",0.905281774170027,3271.94371835016,8.84843035115368,-0.725868005427543,19.0250984596738,784.557506656277
1348,2648,9322,"EMPDv2","CARP-PAROT","Remazani_a4",36.605,51.5241666666667,180,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.110822612753464,7165.10286222754,19.6304188006234,6.56661695016135,31.9531983278654,154.835506077166
1349,2649,17369,"Neotoma","Carpenter Lake","TW074",45.3,-84.73,274,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",1.01784365614902,2843.80719733872,5.59843442683442,-9.08942499908036,19.1575735178488,805.840329955172
1350,2650,7096,"EMPDv2","Carquefou","EPDcoretop_E2007",47.31,-1.48,11,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.905427386993816,4414.15878676536,12.0935857171654,5.81334199254841,18.9201959854261,786.326079564145
1351,2651,18419,"SMPDSv1","Carrapateira 1","Connor_b7",37.2036,-8.88489,25,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.621528524348713,6254.3349927988,17.1351643638323,11.7609657622382,23.29924065726,736.452243567629
1352,2652,18420,"SMPDSv1","Carrapateira 2","Connor_b8",37.2004,-8.8893,25,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.621560734413089,6254.25497120634,17.1349451265927,11.7610823353228,23.2986704759345,736.5205235589
1353,2653,11594,"Neotoma","Carthage","CAR-1C",44.181435,-97.702015,475,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.599443130753791,3526.47796896124,7.36565637460333,-10.5350002869004,23.2721377011697,553.592890233401
1353,2654,11593,"Neotoma","Carthage","CAR-1M",44.181435,-97.702015,475,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.599443130753791,3526.47796896124,7.36565637460333,-10.5350002869004,23.2721377011697,553.592890233401
1354,2655,8313,"EMPDv2","Carwitzer See","Mrotzek_e1",53.30375,13.4733861111111,85,"3.95","lake","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.815389588251678,3297.73808745511,8.97126221964795,-0.646548593317962,17.9330137167798,566.41881108184
1355,2656,465,"Australian pollen","Cascade Bog","Cascade Bog",-37.85,146.3167,1370,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.27398245116238,2590.73587647989,6.99974028224167,-0.922621176748988,15.3856400282784,1503.20274786982
1356,2657,12382,"Neotoma","Cascade Fen [Engineer Mountain Bog]","CASCADE2",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","core","0","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1966. University of Wisconsin radiocarbon dates II. Radiocarbon 8:522-533. Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1017/S0033822200000333;
10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1356,2657,12383,"Neotoma","Cascade Fen [Engineer Mountain Bog]","CASCADE2",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","core","13","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1966. University of Wisconsin radiocarbon dates II. Radiocarbon 8:522-533. Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1017/S0033822200000333;
10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1356,2658,11338,"Neotoma","Cascade Fen [Engineer Mountain Bog]","LMSJ18A",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1356,2659,11337,"Neotoma","Cascade Fen [Engineer Mountain Bog]","LMSJ18B",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1356,2660,11339,"Neotoma","Cascade Fen [Engineer Mountain Bog]","LMSJ18C",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1356,2661,11336,"Neotoma","Cascade Fen [Engineer Mountain Bog]","LMSJ18D",37.647645,-107.808675,2690,"not known","terrestrial, bog/fen/swamp","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.453496714804737,2100.2731398975902,3.45245008030249,-9.04139608788793,15.7673385901838,503.362404862311
1357,2662,11875,"Neotoma","Case Pond","BU413",46.763005,-87.9432,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06378730072085,2602.37735133801,4.00947221394429,-12.1899898287569,18.604968028755,801.339638456371
1358,2663,18428,"SMPDSv1","Caspian SE transect","Caspian SE/Alagol",37.36,54.57,-6,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.135233583128597,6472.46227786577,17.7327733640158,5.22304479691568,29.5016079657665,177.930757510781
1358,2664,18427,"SMPDSv1","Caspian SE transect","Caspian SE/Almagol",37.43,54.64,0,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.136206618628255,6449.94055258614,17.6710700070853,5.1246443023076,29.4862266843539,179.0715623341
1358,2665,18439,"SMPDSv1","Caspian SE transect","Caspian SE/Amu-Daria bridge",42.2239444444444,60.1073888888889,91,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0839521170691054,4801.22829851826,12.5777852176759,-3.70932613543344,28.3861744174459,108.821983828941
1358,2666,18435,"SMPDSv1","Caspian SE transect","Caspian SE/Amu-Daria canal",43.17,58.58,53,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0923987984714904,4597.18837733814,11.7181825334797,-4.97830734501218,27.8829758349737,114.094993655731
1358,2667,18440,"SMPDSv1","Caspian SE transect","Caspian SE/Amu-Daria Tortkul",42.2222222222222,60.1154166666667,70,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0842520612051309,4718.2055801809,12.2333838853354,-4.23082171987828,28.1761069792593,108.343146595073
1358,2668,18444,"SMPDSv1","Caspian SE transect","Caspian SE/AqQaleh",37.0144611111111,54.4605722222222,-12,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.129382920146369,6604.02650650274,18.093223305487,5.74939317701862,29.6178440650469,171.082562088942
1358,2669,18456,"SMPDSv1","Caspian SE transect","Caspian SE/Aral black moss",45.10125,58.3245833333333,51,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.117697217082353,4265.22988144376,9.95079620658248,-8.20888269780561,27.3332068000983,132.855229866901
1358,2670,18432,"SMPDSv1","Caspian SE transect","Caspian SE/Ashyagar",43.59,51.66,-125,"not applicable","terrestrial, soil","surface sample","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.188328983989706,4701.9159322094,12.6346907339048,-1.75092083666067,26.6119774372887,207.462943750161
1358,2671,18425,"SMPDSv1","Caspian SE transect","Caspian SE/Babolsar 100 m",36.82,52.65,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0940861869994309,7324.15380542564,20.0661748093853,7.71974254057421,31.6348422803009,129.356527029178
1358,2672,18426,"SMPDSv1","Caspian SE transect","Caspian SE/Babolsar 20 m",36.77,52.66,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0937221369456611,7327.65001063406,20.075753453792,7.72791258906099,31.6456047442706,128.961246885885
1358,2673,18455,"SMPDSv1","Caspian SE transect","Caspian SE/Babolsar River",36.7065555555556,52.6494166666667,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0845278084291811,7486.05099584171,20.5097287557307,8.0334481695715,32.2167236222834,117.549340044906
1358,2674,18442,"SMPDSv1","Caspian SE transect","Caspian SE/Bahardok",38.8077222222222,58.4834305555556,70,"not applicable","terrestrial, soil","surface sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.11595691633861,5928.95042817655,16.2436998032234,1.53549194960653,30.8041380321112,154.241175068518
1358,2675,18431,"SMPDSv1","Caspian SE transect","Caspian SE/BTorkman1",36.897,54.04,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.118895494646709,6770.02555317123,18.5480152141678,6.34153227488952,29.9132581817869,158.465986802884
1358,2676,18430,"SMPDSv1","Caspian SE transect","Caspian SE/BTorkman2",36.899,54.05,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.119045345099137,6767.7011950168,18.5416471096351,6.33404335707582,29.9081444645043,158.644343950412
1358,2677,18446,"SMPDSv1","Caspian SE transect","Caspian SE/BTorkman3",36.9010833333333,54.05475,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.119134054765095,6766.36540181848,18.5379874022424,6.32979953581432,29.9051742203143,158.748725478885
1358,2678,18437,"SMPDSv1","Caspian SE transect","Caspian SE/Chilpak-Kala 1",42.2651111111111,60.0821666666667,80,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0842207744182251,4727.96760089813,12.2602983328061,-4.23442809531479,28.2258751386492,108.481916115303
1358,2679,18438,"SMPDSv1","Caspian SE transect","Caspian SE/Chilpak-Kala 2",42.2651111111111,60.0821666666667,80,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0842207744182251,4727.96760089813,12.2602983328061,-4.23442809531479,28.2258751386492,108.481916115303
1358,2680,18424,"SMPDSv1","Caspian SE transect","Caspian SE/CS10",36.81,52.55,-27,"not applicable","marine","surface sample","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
1358,2681,18463,"SMPDSv1","Caspian SE transect","Caspian SE/Firuz Kuh 1550",35.8979444444444,52.9833055555556,1550,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.161081123825191,5278.75169686591,14.462333416071,0.342821064321748,27.6075411424006,230.113971038999
1358,2682,18461,"SMPDSv1","Caspian SE transect","Caspian SE/Firuz Kuh 230",36.2548611111111,52.9004166666667,230,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0937630500984403,7100.4629819472,19.4533232382115,6.76032891358861,31.3056720490614,131.219201541334
1358,2683,18462,"SMPDSv1","Caspian SE transect","Caspian SE/Firuz Kuh 700",36.0669166666667,53.07325,700,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.107271688753385,6615.81621328848,18.1255238720232,4.81626134812195,30.5400067361543,152.952697703837
1358,2684,18460,"SMPDSv1","Caspian SE transect","Caspian SE/Gomishan",36.6705555555556,53.3658333333333,33,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0971948008633724,7089.85823725436,19.4242691431626,7.15838813699872,30.829728899551,132.728504343559
1358,2685,18445,"SMPDSv1","Caspian SE transect","Caspian SE/Gorgan delta",36.9775,54.0166666666667,-27,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.119864227057664,6757.76015078089,18.5144113720024,6.30701225960447,29.8832969736089,159.525801725431
1358,2686,18459,"SMPDSv1","Caspian SE transect","Caspian SE/Huto cave",36.6904361111111,53.4969055555556,24,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.0990193210070809,7063.40315827593,19.3517894747286,7.11235174844967,30.725607146358,134.835952666511
1358,2687,18433,"SMPDSv1","Caspian SE transect","Caspian SE/Karakol",43.41,51.34,-27,"not applicable","terrestrial, soil","surface sample","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.173773238017228,4568.22813971915,12.1701839537824,-2.32777218259635,26.36451689878,194.451287918352
1358,2688,18450,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 1",36.8259444444444,54.0423888888889,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.117792017665873,6784.58888674914,18.5879147582168,6.38389874657032,29.9482143199886,157.226168370165
1358,2689,18452,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 2",36.8247222222222,54.0425277777778,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.117773918606951,6784.82296087828,18.5885560572008,6.38457039357494,29.9487836493068,157.205869433449
1358,2690,18447,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 3",36.8280277777778,54.0372222222222,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.117763588294665,6785.14801225019,18.5894466089046,6.38586659622027,29.9493587100479,157.189106496338
1358,2691,18448,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 4",36.8277222222222,54.0420277777778,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.117816415504543,6784.27943207677,18.5870669371966,6.38302244771966,29.9474548068106,157.253360902021
1358,2692,18449,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 5",36.8277222222222,54.0420277777778,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.117816415504543,6784.27943207677,18.5870669371966,6.38302244771966,29.9474548068106,157.253360902021
1358,2693,18451,"SMPDSv1","Caspian SE transect","Caspian SE/KaraSu 6",36.8256666666667,54.0486111111111,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.11786220027477,6783.44235910314,18.5847735865839,6.38014844671287,29.9457016642933,157.311382792138
1358,2694,18458,"SMPDSv1","Caspian SE transect","Caspian SE/Nahar Khoran 1",36.7669444444444,54.4697777777778,18,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.126864362514505,6611.63342119557,18.1140641676591,5.76228261255862,29.6301290543613,168.60960916879
1358,2695,18453,"SMPDSv1","Caspian SE transect","Caspian SE/Nahar Khoran 2",36.7669444444444,54.4697777777778,18,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.126864362514505,6611.63342119557,18.1140641676591,5.76228261255862,29.6301290543613,168.60960916879
1358,2696,18454,"SMPDSv1","Caspian SE transect","Caspian SE/Nowkandeh river",36.7481666666667,53.9053888888889,-27,"not applicable","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.106912106547966,6978.41270590431,19.1189389202858,6.92689878665328,30.4360321830572,144.071609103842
1358,2697,18441,"SMPDSv1","Caspian SE transect","Caspian SE/S. Aral Bogolon",41.7111111111111,60.5188888888889,95,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0827553876656477,4893.35397118636,12.9313430667606,-3.23909642657684,28.6452475747604,108.811881663211
1358,2698,18436,"SMPDSv1","Caspian SE transect","Caspian SE/S. Aral phragmites",43.1486111111111,58.6344444444444,56,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0924481269039714,4590.87770264155,11.6956703935017,-4.99918554103939,27.8591272968732,114.172299032753
1358,2699,18457,"SMPDSv1","Caspian SE transect","Caspian SE/Saiga",45.1005833333333,58.3328611111111,48,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.117577842839688,4271.80651773655,9.97332525508216,-8.197623365696,27.3686163538644,132.736898630184
1358,2700,18434,"SMPDSv1","Caspian SE transect","Caspian SE/SD10PVC4",43.59,58.54,53,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0973588153873666,4502.38874791867,11.2521826506762,-5.81770915092962,27.7162565029903,117.944121466778
1358,2701,18423,"SMPDSv1","Caspian SE transect","Caspian SE/Torkmen 20 m",37.08,53.58,-27,"not applicable","marine","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
1358,2702,18429,"SMPDSv1","Caspian SE transect","Caspian SE/TR1",37.06,54.03,-27,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.121253972855626,6738.49009895945,18.4616167094779,6.2489807182886,29.8388867081164,161.085712400563
1358,2703,18443,"SMPDSv1","Caspian SE transect","Caspian SE/TR2",37.1511722222222,54.0030833333333,-28,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.122241410190856,6726.33936537396,18.4283270284218,6.21517972072937,29.8094075769599,162.135063276173
1358,2704,18421,"SMPDSv1","Caspian SE transect","Caspian SE/US24",43.32,49.1,61,"not applicable","marine","surface sample","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
1358,2705,18422,"SMPDSv1","Caspian SE transect","Caspian SE/US26",43.33,49.09,61,"not applicable","marine","surface sample","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
1359,2706,18464,"SMPDSv1","Caspian Sea","Caspian Sea I",39.27,51.46,-28,"not applicable","marine","marine core","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
1359,2707,7815,"EMPDv2","Caspian Sea","Leroy_j1",36.9611,53.9955833333333,-2.41,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.119975175317795,6738.33207994489,18.4611837806709,6.23156639910874,29.8490373774025,159.871056286027
1359,2708,7824,"EMPDv2","Caspian Sea","Leroy_j10",36.9956333333333,53.1479333333333,-119,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.0990330744802727,7176.69839474036,19.6621873828503,7.61259621516507,30.8822257784277,133.483892009975
1359,2709,7825,"EMPDv2","Caspian Sea","Leroy_j11",36.98355,53.1746666666667,-110,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.0995934339840452,7160.81872272945,19.6186814321355,7.56289651800077,30.8432002668051,134.247254635015
1359,2710,7826,"EMPDv2","Caspian Sea","Leroy_j12",36.9714166666667,53.2074333333333,-88,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.100868869555737,7126.25571788157,19.5239882681687,7.44882372793361,30.7647769268484,135.993587062052
1359,2711,7827,"EMPDv2","Caspian Sea","Leroy_j13",36.9508333333333,53.2571333333333,-25.16,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.10656364256794,6971.0809028466,19.0988517886208,6.96407589248632,30.3948884963146,143.468976928782
1359,2712,7816,"EMPDv2","Caspian Sea","Leroy_j2",36.9633166666667,53.9406833333333,-5.21,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.11929644544171,6751.52286559607,18.4973229194413,6.27580406845841,29.8771560735958,159.029494748646
1359,2713,7817,"EMPDv2","Caspian Sea","Leroy_j3",36.9696833333333,53.9015333333333,-6.88,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.118884630859359,6759.77505828855,18.519931666544,6.30349571231727,29.8949057445073,158.513034182492
1359,2714,7818,"EMPDv2","Caspian Sea","Leroy_j4",36.9815333333333,53.8201333333333,-8.61,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.118031837166138,6775.77756222112,18.5637741430716,6.35568682530309,29.9307414125014,157.460550042259
1359,2715,7819,"EMPDv2","Caspian Sea","Leroy_j5",36.9851,53.77995,-10.23,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.117544431360364,6785.25411982493,18.5897373145888,6.38638517230327,29.9521952234021,156.858836679677
1359,2716,7820,"EMPDv2","Caspian Sea","Leroy_j6",36.9896166666667,53.7402333333333,-11.75,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.114314479426528,6830.29353983822,18.7131329858581,6.58041453027922,29.9968097438827,152.783011472781
1359,2717,7821,"EMPDv2","Caspian Sea","Leroy_j7",36.99615,53.6842833333333,-39,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.112750182725206,6872.87011147407,18.8297811273262,6.72588016890466,30.0881024450621,150.671605032726
1359,2718,7822,"EMPDv2","Caspian Sea","Leroy_j8",37.0037,53.0821333333333,-182,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.0952104291322662,7275.9282001928,19.9340498635419,7.94131913340228,31.1053543265799,128.295091733458
1359,2719,7823,"EMPDv2","Caspian Sea","Leroy_j9",36.9913333333333,53.1001833333333,-149,"371000","not known","sediment sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.0969360046288403,7229.62674250154,19.8071965547987,7.78109846484962,31.008181951904,130.694647762446
1360,2720,18465,"SMPDSv1","Castelejo","Connor_b6",37.101528,-8.943263,60,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.598729534284457,6189.85744704973,16.9585135535609,11.518796600607,23.2944690880906,713.999769922521
1361,2721,7106,"EMPDv2","Castle Suscinio","EPDcoretop_E2027",47.51,-2.73,2,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.975974307550147,4396.13279966856,12.0441994511467,6.10475076585398,18.5544240139838,826.485063122689
1362,2722,466,"Australian pollen","Casuarina","Casuarina campus",-12.37,130.88,27,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.844264978830157,9961.01706309492,27.2904577071094,24.028617501198,29.5490988793659,1492.26878892701
1363,2723,16772,"Neotoma","Casummit Lake","RJM034",51.47733,-92.372485,392,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.983466776802362,2285.19331207606,0.559673071426551,-20.1164996245408,18.2461349318401,673.929680541894
1364,2724,15713,"Neotoma","Cat Mountain Pond","CAT1_C901",44.095735,-74.8627099999999,526,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34593639424239,2726.54042515022,5.19834560133351,-9.58113177141279,18.5112533863585,1041.53989287056
1365,2725,14048,"Neotoma","Catahoula Lake (core CLR3)","CATACLR1",31.50844,-92.13152,12,"not known","lake","core","-54","Tedford, R.A. 2009. A multi-proxy approach to investigating the latest Holocene (4,500 yrs BP) vegetational history of Catahoula Lake, Louisiana. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.14301432889029,7026.56511205051,19.2508633206863,8.84897173864357,27.9032238797574,1488.4910762928
1365,2726,14047,"Neotoma","Catahoula Lake (core CLR3)","CATACLR3",31.50844,-92.13152,12,"not known","lake","core","-54","Tedford, R.A. 2009. A multi-proxy approach to investigating the latest Holocene (4,500 yrs BP) vegetational history of Catahoula Lake, Louisiana. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.14301432889029,7026.56511205051,19.2508633206863,8.84897173864357,27.9032238797574,1488.4910762928
1366,2727,10826,"Bush et al., 2020","Cataract","Cataract",9.82,-84.63,43,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56250151083936,9687.82351906549,26.541982244015,25.6199429357903,28.0805379584081,2681.86359172806
1367,2728,11976,"Neotoma","Cathedral Lake","SM-CAT",39.02804,-106.84314,3598,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.666830439451196,729.291483006745,-3.617856131789,-14.4747084863135,7.65143811913765,591.678298167943
1368,2729,11646,"Neotoma","Cattle Tank 4","GPPS-16",41.94247,-100.472814,880,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.501630050810094,3589.48660224556,8.61301767178909,-6.20906883616235,23.3180279173267,515.222203880856
1369,2730,10827,"Bush et al., 2020","CaurillioBrau","CaurillioBrau",10.16,-83.92,595,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.99884317229405,8675.10224910553,23.7674034222069,22.8795998085258,24.9091475952269,3376.51735873652
1370,2731,467,"Australian pollen","Cave Bay Cave","Cave Bay Cave Trench V",-40.5297,144.7747,14,"not applicable","cave","sediment sample","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.20905809835614,4593.99825793393,12.5862965970793,8.57337665994252,17.0591776171038,1146.70127219967
1370,2732,468,"Australian pollen","Cave Bay Cave","Cave Bay Cave_2",-40.5,144.8333,15,"not applicable","cave","sediment sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.2087771444549,4593.32108095058,12.5844413176728,8.56875904309465,17.0596209493772,1147.17592629811
1370,2733,469,"Australian pollen","Cave Bay Cave","Cave Bay Cave_3",-40.5,144.8333,15,"not applicable","cave","sediment sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.2087771444549,4593.32108095058,12.5844413176728,8.56875904309465,17.0596209493772,1147.17592629811
1371,2734,18467,"SMPDSv1","Cave Grotta Grande di Scario","Mercuri_h1",40.040014,15.480533,12,"not applicable","cave","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.531995942004199,6240.4906260797,17.0972345919992,10.1225620846717,25.263401229678,660.536177945682
1371,2735,18466,"SMPDSv1","Cave Grotta Grande di Scario","Mercuri_h2",40.040014,15.480533,12,"not applicable","cave","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.531995942004199,6240.4906260797,17.0972345919992,10.1225620846717,25.263401229678,660.536177945682
1372,2736,7116,"EMPDv2","Caves d Amont","EPDcoretop_E2097",47.33,0.48,42,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.766022874615405,4202.50946870779,11.5137245718022,4.43615364210819,19.135247569995,646.833893838011
1373,2737,10828,"Bush et al., 2020","Cayucon","Cayucon",18.04,-90.98,43,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.07251730990994,9618.92101299516,26.3532082547813,22.9586591467984,28.789260105231,1689.13171971995
1374,2738,7350,"EMPDv2","Cece","Finsinger_a73",46.2808038617962,11.6697832212583,1881,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.39587667708827,1064.13174890053,0.609840660426137,-7.02166837743587,8.45454733125784,1655.93953373509
1375,2739,12387,"Neotoma","Cedar Bog","CEDARBLK",45.411111,-93.197222,278,"not known","lake","core","-10","Cushing, E.J. 1967. Late-Wisconsin pollen stratigraphy and the glacial sequence in Minnesota. Pages 59-88 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Yale University Press, New Haven, Connecticut, USA.; Cushing, E.J. 1963. Late-Wisconsin pollen stratigraphy in east-central Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Stuiver, M., E.S. Deevey, Jr., and I. Rouse. 1963. Yale Natural Radiocarbon measurements VIII. Radiocarbon 5:312-341.","10.1017/S0033822200036936",9,"cool mixed forest",0.875006865735767,3411.3436097228,6.83971235756824,-11.4503484384112,22.2805545746032,740.966107772069
1375,2739,12388,"Neotoma","Cedar Bog","CEDARBLK",45.411111,-93.197222,278,"not known","lake","core","45","Cushing, E.J. 1967. Late-Wisconsin pollen stratigraphy and the glacial sequence in Minnesota. Pages 59-88 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Yale University Press, New Haven, Connecticut, USA.; Cushing, E.J. 1963. Late-Wisconsin pollen stratigraphy in east-central Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Stuiver, M., E.S. Deevey, Jr., and I. Rouse. 1963. Yale Natural Radiocarbon measurements VIII. Radiocarbon 5:312-341.","10.1017/S0033822200036936",9,"cool mixed forest",0.875006865735767,3411.3436097228,6.83971235756824,-11.4503484384112,22.2805545746032,740.966107772069
1375,2740,15419,"Neotoma","Cedar Bog","KMH011",45.411111,-93.197222,278,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.875006865735767,3411.3436097228,6.83971235756824,-11.4503484384112,22.2805545746032,740.966107772069
1376,2741,15499,"Neotoma","Cedar Creek","CJH078",47.1,-124.1,122,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.75620293281283,3552.76846026452,9.7336122199028,4.29864917720173,15.8281342028348,2104.60592918973
1377,2742,14861,"Neotoma","Cedar Tree Neck Bog","CTNECKB",41.43051,-70.695725,15,"not known","terrestrial, bog/fen/swamp","core","-41","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.35457901196132,3896.50895487294,10.3843754933694,-2.07766695401737,22.3606603220257,1226.38818781428
1377,2742,14862,"Neotoma","Cedar Tree Neck Bog","CTNECKB",41.43051,-70.695725,15,"not known","terrestrial, bog/fen/swamp","core","48","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.35457901196132,3896.50895487294,10.3843754933694,-2.07766695401737,22.3606603220257,1226.38818781428
1378,2743,10829,"Bush et al., 2020","Celestun","Celestun",20.86,-90.38,9,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.567669265017064,9550.40953512864,26.1655055756949,22.8315197786726,28.3429181520036,880.051587481015
1379,2744,1888,"CMPD","Cengcuo","Cengcuo",28.97,90.52,4421,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.829629992836493,1653.09608549647,2.99681132864325,-6.28819082230814,11.01763220654,1008.09963704143
1380,2745,13271,"Neotoma","Cenote San Jose Chulchaca","SJ92",20.866667,-90.133333,1,"not known","lake","core","0","Leyden, B.W., M. Brenner, T.J. Whitmore, J.H. Curtis, D.R. Piperno, and B.H. Dahlin. 1996. A record of long- and short-term climatic variation from northwest Yucatan: Cenote San Jose Chulchaca. Pages 30-50 in S.L. Fedick, editor. The Managed Mosaic: Ancient Maya Agriculture and Resource Use. University of Utah Press, Salt Lake City, Utah, USA.",,3,"tropical deciduous broadleaf forest and woodland",0.567504749819737,9535.37610434321,26.124318094091,22.8452198508737,28.2772409269859,878.464226554834
1380,2745,13272,"Neotoma","Cenote San Jose Chulchaca","SJ92",20.866667,-90.133333,1,"not known","lake","core","44","Leyden, B.W., M. Brenner, T.J. Whitmore, J.H. Curtis, D.R. Piperno, and B.H. Dahlin. 1996. A record of long- and short-term climatic variation from northwest Yucatan: Cenote San Jose Chulchaca. Pages 30-50 in S.L. Fedick, editor. The Managed Mosaic: Ancient Maya Agriculture and Resource Use. University of Utah Press, Salt Lake City, Utah, USA.",,3,"tropical deciduous broadleaf forest and woodland",0.567504749819737,9535.37610434321,26.124318094091,22.8452198508737,28.2772409269859,878.464226554834
1381,2746,10830,"Bush et al., 2020","Cenote_Yokdzonot","Cenote_Yokdzonot",20.71,-88.73,26,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.720337935505812,9420.33686606718,25.8091420988142,22.6659510984896,27.8805132873996,1101.3840647889201
1382,2747,10831,"Bush et al., 2020","Cenote14","Cenote14",18.23,-88.38,11,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.944721348065324,9449.44529043737,25.8888912066777,23.1748311617137,27.7033886981496,1468.3181356095
1383,2748,10832,"Bush et al., 2020","CenoteTimul","CenoteTimul",20.59,-89.36,18,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.648507469425103,9487.86501612762,25.9941507291168,22.7674544820334,28.1601884360206,999.862941892586
1384,2749,24079,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24080,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24081,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24082,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24083,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24084,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24085,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24086,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24087,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24088,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24089,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24090,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24091,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24092,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2749,24093,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-01",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24094,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24095,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24096,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24097,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24098,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24099,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24100,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24101,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24102,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24103,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24104,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24105,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24106,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24107,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2750,24108,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-10",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24006,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24007,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24008,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24009,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24010,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24011,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24012,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24013,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24014,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24015,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24016,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24017,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24018,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24019,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2751,24020,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-20",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24049,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24050,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24051,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24052,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24053,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24054,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24055,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24056,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24057,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24058,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24059,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24060,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24061,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24062,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2752,24063,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-30",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24139,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24140,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24141,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24142,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24143,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24144,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24145,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24146,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24147,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24148,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24149,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24150,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2753,24151,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI10-40",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24021,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24022,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24023,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24024,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24025,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24026,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24027,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24028,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24029,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24030,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24031,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24032,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24033,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24034,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2754,24035,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-05",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24036,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24037,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24038,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24039,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24040,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24041,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24042,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24043,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24044,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24045,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24046,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24047,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2755,24048,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-15",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24064,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24065,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24066,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24067,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24068,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24069,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24070,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24071,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24072,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24073,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24074,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24075,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24076,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24077,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2756,24078,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-25",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24124,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24125,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24126,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24127,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24128,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24129,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24130,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24131,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24132,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24133,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24134,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24135,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24136,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24137,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2757,24138,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-35",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24109,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-44","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24110,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-45","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24111,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-46","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24112,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-47","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24113,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-48","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24114,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-49","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24115,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-50","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24116,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-51","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24117,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-52","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24118,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-53","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24119,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-54","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24120,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-55","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24121,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-56","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24122,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-57","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1384,2758,24123,"Neotoma","Center for Tropical Forest Science Forest Dynamics Plot","CBI15-45",9.1534985,-79.850745,175,"not known","terrestrial","pollen trap","-58","Haselhorst, D.S., J.E. Moreno, and S.W. Punyasena. 2020. Assessing the influence of vegetation structure and phenological variability on pollen-vegetation relationships using a 15-year Neotropical pollen rain record. Journal of Vegetation Science in press.","10.1111/jvs.12897",4,"warm-temperate evergreen and mixed forest",1.51082255895627,9320.94241318238,25.5368285292668,24.6342592756976,26.7189150737562,2518.06158902507
1385,2759,1889,"CMPD","central China","central China S02",35.5534,117.942283333333,811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.477466440831702,4059.40430351617,9.88024459044537,-6.64342965182902,23.3278606022859,547.522291209589
1385,2760,1890,"CMPD","central China","central China S07",35.5496,117.943933333333,852,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.466037349377949,4011.59025715366,9.66602479603188,-6.97138238742665,23.1497446183058,535.277808895352
1385,2761,1891,"CMPD","central China","central China S09",33.7911333333333,111.763733333333,841,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.634830423372233,4324.14279530427,11.6625275355738,-1.54247883384448,23.8224757333373,689.215314000872
1385,2762,1892,"CMPD","central China","central China S11",33.78585,112.17965,758,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.637056412087901,4437.31835408474,12.0203223844154,-1.22938387418751,24.1984441679015,694.127949760734
1385,2763,1893,"CMPD","central China","central China S12",33.7806833333333,112.242833333333,856,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.62903239264401,4284.08130708393,11.5291695157539,-1.68605843900679,23.6870895873139,682.70076449404
1385,2764,1894,"CMPD","central China","central China S13",33.7433666666667,112.448366666667,317,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.693575015721933,5174.07460512767,14.1755468633635,0.831609197754601,26.4247847968829,765.690906796114
1385,2765,1895,"CMPD","central China","central China S14",35.5547333333333,117.9459,756,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.492282077266783,4124.50753850344,10.1668064947409,-6.2095135082362,23.5682954228902,563.373067607389
1385,2766,1896,"CMPD","central China","central China S15",35.5486666666667,117.9473,936,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.443346651723022,3915.79083122962,9.23068241620514,-7.63495056996166,22.7865070546626,510.773853304833
1385,2767,1897,"CMPD","central China","central China S16",35.55025,117.950666666667,832,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.471237006146402,4035.47971076111,9.77183126364622,-6.8136838276058604,23.2396908987797,540.892962161027
1385,2768,1898,"CMPD","central China","central China S17",35.5521333333333,117.95475,662,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.517401732446193,4237.65189652582,10.6541767959627,-5.47356538049917,23.9781877722185,590.091514355349
1385,2769,1899,"CMPD","central China","central China S18",35.5538,117.956216666667,556,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.546626127227117,4368.22452136073,11.2035845160008,-4.63835885770641,24.4376978961488,620.798473728738
1385,2770,1900,"CMPD","central China","central China S19",35.5554333333333,117.9584,463,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.572506465198331,4486.14957268369,11.6851463344555,-3.90638292013853,24.840541700099,647.705080776492
1385,2771,1901,"CMPD","central China","central China S20",35.8309333333333,118.391366666667,254,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.640924832416965,4736.16152710438,12.674122494883,-2.3310527772418,25.6536369216369,713.49924532864
1385,2772,1902,"CMPD","central China","central China S21",33.7123,111.743316666667,905,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.66240093280402,4251.6025737938,11.4741685917746,-1.46948324939763,23.5045024960358,712.79357318944
1385,2773,1903,"CMPD","central China","central China S22",33.8112333333333,111.9308,676,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.64476334268345,4575.14838583467,12.4534598673867,-0.820259098275419,24.6478705957858,704.661314964333
1385,2774,1904,"CMPD","central China","central China S23",36.5057833333333,118.549116666667,122,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.62692487213125,4779.51783865026,12.7924153907995,-2.36749235802891,25.9058628823685,694.068760288704
1385,2775,1905,"CMPD","central China","central China S24",35.3348666666667,116.50975,30,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.61661568163224,5241.90188761701,14.3235083332081,-0.441283930167882,27.2643563069309,699.182361134716
1385,2776,1906,"CMPD","central China","central China S25",37.8973,118.682283333333,6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.564088943482645,4769.98104297703,12.6131054123723,-3.24388176315397,26.2450321807457,624.489603842304
1385,2777,1907,"CMPD","central China","central China S26",37.8998333333333,118.653316666667,3,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.562346671321765,4771.0793327885,12.6130097559897,-3.26105724816926,26.2581181384404,622.803042655901
1385,2778,1908,"CMPD","central China","central China S27",37.88485,118.40835,5,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.557534760264808,4787.38228546524,12.6609429808904,-3.24568544292044,26.3123327787122,618.757656670943
1385,2779,1909,"CMPD","central China","central China S28",37.8707333333333,118.31145,1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.554162431442934,4793.57433463036,12.6754768946361,-3.26027092048384,26.3449364940225,615.728780574306
1385,2780,1910,"CMPD","central China","central China S29",33.73975,112.952183333333,122,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.709515319381058,5476.72354550311,15.0047220424743,1.43859260843771,27.4053274535449,790.727373711155
1385,2781,1911,"CMPD","central China","central China S30",34.9214,116.185433333333,33,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.642050684121573,5301.31534497738,14.5182468318039,6.94702486020702e-4,27.3677741174806,725.787200213687
1385,2782,1912,"CMPD","central China","central China S31",34.9218,116.184066666667,33,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.642013516969278,5301.30306974231,14.5182024307803,4.84529096750013e-4,27.3678192986871,725.744977100486
1385,2783,1913,"CMPD","central China","central China S32",37.9207,117.35415,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522067921310508,4921.64530866311,13.0785375506002,-2.98898348759624,26.7230018837007,587.651057805039
1386,2784,18469,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a1",56.494342,32.6259342,258.11,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14093947223329,2427.93872160151,4.16107780753113,-10.061121895482,16.7552640176352,727.869950005055
1386,2785,18470,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a10",56.497524,32.6259576,241.932,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12519524424132,2436.57020735192,4.21722667840085,-9.9704651818075,16.7852092772343,717.486410712785
1386,2786,18471,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a11",56.497804,32.6259597,239.722,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1230366198761501,2437.76866934443,4.22492628140697,-9.95805557582422,16.7893299120716,716.066576337644
1386,2787,18472,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a12",56.497964,32.625961,239.322,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12265108270837,2437.98043727254,4.22629864086619,-9.95583050592992,16.7900583669365,715.810829602847
1386,2788,18473,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a13",56.498343,32.6259641,238.569,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12192899730269,2438.37543913534,4.22886697145123,-9.95165692880102,16.7914175327408,715.330280262015
1386,2789,18474,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a14",56.498423,32.6259648,242.969,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12625672640669,2435.9591480879,4.21341403700289,-9.97648379002612,16.7831091211204,718.164096280616
1386,2790,18475,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a15",56.498563,32.625966,247.441,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13065705956958,2433.52556717473,4.19769693142163,-10.001727542115,16.7746546051354,721.044893169718
1386,2791,18476,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a16",56.498783,32.6259677,248.918,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13211831770202,2432.71378640467,4.19247234977985,-10.010097262124,16.7718332712386,721.998226890938
1386,2792,18477,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a17",56.498963,32.625969,252.274,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13542308493405,2430.88438976728,4.18066315987208,-10.0290543240215,16.7654748895203,724.160839193825
1386,2793,18478,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a18",56.499023,32.6259695,254.663,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13777207393646,2429.58533118129,4.17226987130213,-10.0425362077823,16.7609596920206,725.69956222978
1386,2794,18479,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a19",56.499063,32.6259698,255.774,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13886493200918,2428.98062570646,4.16836426409769,-10.0488080948547,16.7588577834496,726.415265681487
1386,2795,18480,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a2",56.494622,32.6259362,256.266,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13914142976523,2428.92551926787,4.16749412581711,-10.0507708479601,16.7586879547534,726.685316549851
1386,2796,18481,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a20",56.499163,32.6259705,257.929,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14098560176528,2427.80660133619,4.16078428516879,-10.060977579749,16.7547767093825,727.803734287642
1386,2797,18482,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a21",56.499223,32.625971,257.991,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14104926562949,2427.77009378635,4.1605551953638,-10.0613380990736,16.7546494793524,727.844278206476
1386,2798,18483,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a22",56.499343,32.6259719,255.138,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13825344258259,2429.31235635737,4.1705416227788,-10.0452732781369,16.7600095767468,726.008759660384
1386,2799,18484,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a23",56.499383,32.6259722,254.436,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13756594546752,2429.69134596812,4.17299682206981,-10.0413223988236,16.7613267589304,725.557233482141
1386,2800,18485,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a24",56.499563,32.6259736,252.61,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13578112313832,2430.67354860385,4.17936844664573,-10.0310597846117,16.7647403258224,724.38357425921
1386,2801,18486,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a25",56.499583,32.6259737,252.767,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13593624461004,2430.5874104847,4.17881376756337,-10.0319486993301,16.7644408364173,724.484863114699
1386,2802,18487,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a26",56.499783,32.6259752,255.324,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1384565952994,2429.19045833264,4.16980417258146,-10.0464027247295,16.759583970398,726.133157326085
1386,2803,18488,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a27",56.499903,32.6259762,253.92,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13708349216351,2429.94655885356,4.17470679211271,-10.0385086825367,16.762212001804,725.230559613589
1386,2804,18489,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a28",56.500003,32.6259769,253.129,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13631137641879,2430.37100463825,4.17746262316941,-10.0340672942151,16.7636872445005,724.72239569226
1386,2805,18490,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a29",56.500083,32.6259775,254.671,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13782936380308,2429.53048313421,4.17203726010621,-10.0427760521023,16.7607648256318,725.715945552866
1386,2806,18491,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a3",56.494783,32.6259373,255.222,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13812351519598,2429.48410626186,4.1711262811615,-10.0449111792263,16.7606263306267,726.014669622144
1386,2807,18492,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a30",56.500183,32.6259783,256.505,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13963486675818,2428.53055109423,4.16558360978638,-10.0531346699334,16.757287966524,726.897676168079
1386,2808,18493,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a31",56.500223,32.6259786,256.717,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13984488462464,2428.41360604152,4.16483212227244,-10.0543372509037,16.7568811844422,727.034575403296
1386,2809,18494,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a32",56.500283,32.625979,256.301,"not known","terrestrial, bog/fen/swamp","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13943921854943,2428.63647440638,4.16628003453898,-10.0520027869297,16.7576557527603,726.767399976807
1386,2810,18495,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a33",56.500623,32.6259822,256.313,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1394668444284901,2428.6137293713,4.16617230481316,-10.052132728501,16.7575750907303,726.778711243014
1386,2811,18496,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a34",56.500763,32.6259835,257.577,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14071439431129,2427.9211417299,4.16171075621969,-10.059284534606,16.7551661439204,727.593878987382
1386,2812,18497,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a35",56.500823,32.6259841,255.474,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13865237451868,2429.05946100549,4.16907717848524,-10.0474392973254,16.7591241115314,726.240722892297
1386,2813,18498,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a36",56.500863,32.6259844,255.331,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13851382811673,2429.13515232478,4.16957115032115,-10.0466404366305,16.7593871446389,726.14909094618
1386,2814,18499,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a37",56.500883,32.6259846,255.569,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13874845119046,2429.00504732891,4.16873230740338,-10.0479858907947,16.7589346410745,726.302512486166
1386,2815,18500,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a38",56.500943,32.6259852,255.908,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13908410527863,2428.81822464317,4.16753140033448,-10.0499080895874,16.7582847287796,726.521373941247
1386,2816,18501,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a39",56.499443,32.6259727,253.678,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13682436760054,2430.09977013471,4.17564462427048,-10.0370594850877,16.7627462169154,725.069870133839
1386,2817,18502,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a4",56.495223,32.6259404,254.503,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1374377931771,2429.85314079281,4.17356426842195,-10.0409361208091,16.7619056092126,725.556288314835
1386,2818,18468,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a40",56.28548,32.02772,255,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10900517004383,2454.6432842482,4.30117540244615,-9.87060502463076,16.798747489817,713.874986370699
1386,2819,18503,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a5",56.495663,32.6259438,252.67,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13565785020792,2430.82646758379,4.17991087906435,-10.0306780426872,16.7652836142419,724.380563026934
1386,2820,18504,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a6",56.496142999999996,32.6259475,246.83,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12994304815588,2433.97157141594,4.20030888631107,-9.99782815535332,16.7762047539444,720.625061357749
1386,2821,18505,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a7",56.496423,32.6259496,245.582,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12872997791589,2434.6353206945,4.20463351437434,-9.99084194082013,16.7785100140144,719.824495091243
1386,2822,18506,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a8",56.496563,32.6259506,245.458,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12861472567447,2434.69597127234,4.2050414908213,-9.99016892905475,16.7787207308815,719.746185065209
1386,2823,18507,"SMPDSv1","Central Forest State Natural Biosphere Reserve, southern Valdai hills","Novenko_a9",56.497083,32.6259544,244.287,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12748859274565,2435.30665760349,4.20904940812559,-9.98366276898865,16.7808424031155,718.99788760233
1387,2824,6270,"EMPDv2","Central Forest State Reserve Forest Mire 1","Binney2017_E2397",56.46,32.98,249,"not known","terrestrial","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13752954401054,2431.93480973476,4.17137973823436,-10.066073633731,16.8078724551151,725.746893824942
1388,2825,18508,"SMPDSv1","Central Jordan Rift","Fall_a1",30.40749,35.49882,1626,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",,,,,,
1388,2826,18509,"SMPDSv1","Central Jordan Rift","Fall_a10",30.43815,35.41481,800,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0532635940285338,6818.23029831276,18.6800830090761,9.28599404853107,26.5484715571256,100.732711592181
1388,2827,18510,"SMPDSv1","Central Jordan Rift","Fall_a11",30.44048,35.4116,700,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0616086372524572,6921.24437981619,18.9623133693594,9.79865801065298,26.676267857904,115.493855071881
1388,2828,18511,"SMPDSv1","Central Jordan Rift","Fall_a12",30.44663,35.40754,600,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0702140664938929,7023.59023284443,19.2427129666971,10.3101059315463,26.8019495169075,130.452586217731
1388,2829,18512,"SMPDSv1","Central Jordan Rift","Fall_a13",30.45817,35.40549,500,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0791916908583899,7124.90901145833,19.5202986615297,10.8194074807152,26.9246381399209,145.792665550529
1388,2830,18513,"SMPDSv1","Central Jordan Rift","Fall_a14",30.46837,35.40116,400,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0883703284268806,7226.49951643801,19.7986288121589,11.3299327558204,27.0478159326405,161.200518370185
1388,2831,18514,"SMPDSv1","Central Jordan Rift","Fall_a15",30.47815,35.39822,300,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0977884537284384,7328.11244624715,20.0770204006771,11.8406418353305,27.171098052967402,176.735686857669
1388,2832,18515,"SMPDSv1","Central Jordan Rift","Fall_a16",30.48608,35.3855,200,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.107348672883815,7430.17029763843,20.3566309524341,12.3538910614556,27.294845093107998,192.211776958443
1388,2833,18516,"SMPDSv1","Central Jordan Rift","Fall_a17",30.49884,35.36652,100,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.117371429500391,7531.36311552708,20.6338715493893,12.8668771618586,27.4153535152261,208.154942159489
1388,2834,18517,"SMPDSv1","Central Jordan Rift","Fall_a18",30.5647,35.32521,0,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.1304376942129,7623.79689777757,20.8871147884317,13.369669103379,27.5058774775543,228.735889700838
1388,2835,18518,"SMPDSv1","Central Jordan Rift","Fall_a19",30.75096,35.38494,-100,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.190070563147105,7635.06285121409,20.9179804142852,13.7415747271329,27.3514565117148,324.545670604411
1388,2836,18519,"SMPDSv1","Central Jordan Rift","Fall_a2",30.40096,35.48847,1509,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",,,,,,
1388,2837,18520,"SMPDSv1","Central Jordan Rift","Fall_a20",30.87001,35.42741,-200,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.215511075754595,7725.3204675209,21.1652615548518,14.245794789874,27.4371166868641,362.974828773221
1388,2838,18521,"SMPDSv1","Central Jordan Rift","Fall_a21",30.89953,35.41629,-300,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.234662210019965,7829.07879587686,21.4495309476078,14.7814574160583,27.5609791070858,390.787198082495
1388,2839,18522,"SMPDSv1","Central Jordan Rift","Fall_a3",30.39092,35.48821,1457,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.00278686856361547,6143.24057953458,16.8307961083139,5.92346224243885,25.7341069144345,5.57896892724316
1388,2840,18523,"SMPDSv1","Central Jordan Rift","Fall_a4",30.3793,35.48624,1400,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.00696770559987286,6204.2942143084,16.998066340571,6.2215128690898,25.8064189709013,13.8848023592264
1388,2841,18524,"SMPDSv1","Central Jordan Rift","Fall_a5",30.37049,35.48069,1300,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.0142474398993176,6309.61228094128,17.2866089888802,6.73901550225954,25.9326689684018,28.1589380718528
1388,2842,18525,"SMPDSv1","Central Jordan Rift","Fall_a6",30.36988,35.4746,1200,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.0215929730629459,6413.59435910889,17.5714913948189,7.2527171802635,26.0631753287047,42.3201254684432
1388,2843,18526,"SMPDSv1","Central Jordan Rift","Fall_a7",30.44202,35.45922,1100,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.0294048241322334,6505.56130747063,17.8234556369058,7.73613016552664,26.1587032313344,57.0702791735404
1388,2844,18527,"SMPDSv1","Central Jordan Rift","Fall_a8",30.44389,35.44599,1000,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.0372654502445283,6609.25281273036,18.1075419526859,8.25116138348048,26.287166612179,71.704664875312
1388,2845,18528,"SMPDSv1","Central Jordan Rift","Fall_a9",30.43976,35.41962,900,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.0451400901571871,6714.44159473323,18.3957303965294,8.77139899976734,26.4185905114129,86.1124944425558
1389,2846,1914,"CMPD","Central Tibet","Central Tibet Av14",35.9,94.98,3509,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134852868948147,1711.85066446357,1.04465636007797,-12.5157458080884,13.2950184627582,149.692489246131
1389,2847,1915,"CMPD","Central Tibet","Central Tibet Av15",35.72,94.2,4503,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164930639785569,661.743565278662,-4.39543945520336,-16.3503896136943,7.01454388203576,163.370521151765
1389,2848,1916,"CMPD","Central Tibet","Central Tibet Av16",35.61,94.74,4722,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.190337350345169,511.069136259016,-5.36161707828507,-17.088246968554,5.88272671096782,185.083503404025
1389,2849,1917,"CMPD","Central Tibet","Central Tibet Av17",35.35,93.05,4521,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152550568230175,604.00163133482,-4.8673893333203,-16.7484183190726,6.58354129480676,149.274715421098
1389,2850,1918,"CMPD","Central Tibet","Central Tibet Av18",35.03,93.53,4621,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179083338014318,561.851831864031,-5.05550122814374,-16.7924570216297,6.22549914014978,175.033837152826
1389,2851,1919,"CMPD","Central Tibet","Central Tibet Av19",34.65,92.06,4822,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195597211364357,440.363281785189,-6.13224590839852,-17.7942741332943,5.19566764549483,186.651940414118
1389,2852,1920,"CMPD","Central Tibet","Central Tibet Av20",34.29,92.61,4546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.189355058831833,629.692210052163,-4.58942476632304,-16.3596928187295,6.68123052307913,187.678749740875
1389,2853,1921,"CMPD","Central Tibet","Central Tibet Av21",33.74,92.75,4653,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.228250022876047,620.651379641586,-4.64013799507056,-16.4047595873746,6.53955446399855,226.741788163675
1389,2854,1922,"CMPD","Central Tibet","Central Tibet Av22",33.26,91.62,4821,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.265920682145742,605.185171061208,-4.79123763142492,-16.5440992564322,6.33316965005781,265.596401973508
1389,2855,1923,"CMPD","Central Tibet","Central Tibet Av23",32.67,91.37,5015,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.307054447620137,596.946538482827,-4.68107525312945,-16.2446766964578,6.17183988322843,311.465172998942
1389,2856,1924,"CMPD","Central Tibet","Central Tibet Av24",32.22,91.66,4652,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.384037986844072,1079.44534285209,-1.24278826937906,-12.7848048288295,9.05068253037702,418.667158857395
1389,2857,1925,"CMPD","Central Tibet","Central Tibet Av25",31.8,91.26,4802,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.371493516422876,927.989806283102,-2.15990895635734,-13.5872342800986,8.2024848434457,400.946224627534
1389,2858,1926,"CMPD","Central Tibet","Central Tibet Av26",31.42,91.88,4471,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.368993314114247,1189.22078768399,-0.762234672190032,-12.6440319428879,9.70334082372836,407.517508991651
1389,2859,1927,"CMPD","Central Tibet","Central Tibet Av27",31.02,91.45,4693,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.409082286536496,1135.99686102592,-0.676689982261988,-11.7981315250992,9.24585161792736,459.245772922522
1389,2860,1928,"CMPD","Central Tibet","Central Tibet Av28",30.85,91.95,4796,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.415115942984203,1047.56220738096,-1.06070575380769,-11.9865085270892,8.69937065216883,462.884889246431
1389,2861,1929,"CMPD","Central Tibet","Central Tibet Av29",30.84,91.27,4765,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.422599563717962,1106.8189234288,-0.746675187326259,-11.6854918212557,9.04431441725322,475.564535259003
1389,2862,1930,"CMPD","Central Tibet","Central Tibet Av30",30.74,91.6,4809,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.454189914109441,1114.87950280687,-0.520155781827527,-11.1656956903582,8.99128667008772,513.716238821653
1389,2863,1931,"CMPD","Central Tibet","Central Tibet Av31",30.68,91.85,5190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.383662907097938,750.273232624527,-2.88653011973898,-13.6939861283811,6.92842701375777,416.25541712744
1389,2864,1932,"CMPD","Central Tibet","Central Tibet Av32",30.54,91.29,4394,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.519848205400275,1567.31414035964,2.05727524665849,-8.28532686194931,11.0812893966529,613.329598432729
1389,2865,1933,"CMPD","Central Tibet","Central Tibet Av33",30.28,90.28,4390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.550251519045485,1652.58255241055,2.4793919082696,-7.83320397178642,11.4591381192277,659.111381704003
1389,2866,1934,"CMPD","Central Tibet","Central Tibet Av34",30,90.09,4705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.608050537774078,1298.46440826659,0.808675319583382,-9.23699773758709,9.79961504023217,709.485528092556
1389,2867,1935,"CMPD","Central Tibet","Central Tibet Av35",29.68,90.22,3710,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.696683067221956,2793.25283371667,7.30091686232243,-2.47373031419709,15.2656305329751,897.151012947527
1389,2868,1936,"CMPD","Central Tibet","Central Tibet Av36",29.38,90.31,3573,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.648137692802555,2988.18332125988,7.96311806555429,-1.77757272224335,15.9182496774546,843.49220348599
1389,2869,1937,"CMPD","Central Tibet","Central Tibet Av37",29.26,90.24,3659,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.679336508854672,2810.34590822659,7.34439769004646,-2.49251465044642,15.3770708736216,876.996217508472
1389,2870,1938,"CMPD","Central Tibet","Central Tibet Av38",29.34,90.86,3785,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.587128674399985,2478.46812826903,6.23635565089261,-3.36172755239368,14.2521633490155,743.251347060006
1389,2871,1939,"CMPD","Central Tibet","Central Tibet Av39",29.34,89.28,3796,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.817882209238399,2661.55455996504,6.79366110616462,-3.1826090924633,14.8967296371145,1045.18049222468
1389,2872,1940,"CMPD","Central Tibet","Central Tibet Av40",29.32,89.42,3810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.808779235996723,2636.98216329394,6.70794040142808,-3.25701526357473,14.8181185186379,1033.07522369483
1389,2873,1941,"CMPD","Central Tibet","Central Tibet Av41",29.33,88.58,3879,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.872177206235288,2435.58968672807,5.9600869780073,-4.06320625946015,14.2183442777283,1093.89196765452
1389,2874,1942,"CMPD","Central Tibet","Central Tibet Av42",29.16,88.84,3923,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.985689062578771,2065.34428518432,4.66804754094178,-4.9115101351662,12.6874347876125,1198.91917544909
1389,2875,1943,"CMPD","Central Tibet","Central Tibet Av43",29.22,88.67,3998,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.958766064821348,1921.84743135582,4.03787555138056,-5.62873295386904,12.2123838282792,1151.62531842134
1389,2876,1944,"CMPD","Central Tibet","Central Tibet Av44",29.15,88.36,4185,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.932788802732542,1650.0299290502,2.79422673947772,-6.93133560699784,11.2246779411685,1099.05620344063
1389,2877,1945,"CMPD","Central Tibet","Central Tibet Td01",36.42,101.12,3359,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.29662161332335,1425.36219460632,0.253943977328005,-12.6089093895132,11.1922243033581,297.932376215746
1389,2878,1946,"CMPD","Central Tibet","Central Tibet Td02",36.57,100.16,3217,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.274701190293574,1534.50802348683,0.602942639944643,-12.6831043487978,11.7994969363547,279.159720145647
1389,2879,1947,"CMPD","Central Tibet","Central Tibet Td03",36.63,100.89,3194,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.294115437109162,1607.66279547599,1.09180973512198,-11.9177294354314,12.1007753747,298.393592983715
1389,2880,1948,"CMPD","Central Tibet","Central Tibet Td04",36.64,100.86,3195,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.293616100841749,1605.45617173399,1.07832156602177,-11.9369681184727,12.0916816605606,297.854895969849
1389,2881,1949,"CMPD","Central Tibet","Central Tibet Td05",36.78,99.86,3387,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.250490926801071,1266.16503078176,-0.817369741537011,-14.0312149754525,10.5365202293931,249.444033826991
1389,2882,1950,"CMPD","Central Tibet","Central Tibet Td06",36.75,99.37,3810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.226350374101867,880.552011269041,-3.090401269162,-16.0797294805712,8.45361930251691,220.432189826285
1389,2883,1951,"CMPD","Central Tibet","Central Tibet Td07",36.68,99.38,3148,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.245888141968139,1565.86752861047,0.647823922831437,-12.7784285877381,12.0848123017419,252.760936235249
1389,2884,1952,"CMPD","Central Tibet","Central Tibet Td08",36.71,99.09,3078,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.215353329092966,1717.90330032078,1.3033816171371,-12.225974772833201,12.9915536749937,228.463636158768
1389,2885,1953,"CMPD","Central Tibet","Central Tibet Td09",36.66,99.53,3203,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.249987230850095,1511.12843589295,0.392667018883028,-12.9918312613581,11.7973035714962,255.654772491319
1389,2886,1954,"CMPD","Central Tibet","Central Tibet Td10",37.35,97.85,3091,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.174035754935382,1979.34927816466,2.3626477288876,-11.4821556137667,14.5077264904149,193.363151236182
1389,2887,1955,"CMPD","Central Tibet","Central Tibet Td11",37.32,96.16,2813,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129612143934318,2713.5123969767,5.26797561224124,-9.40313511748938,17.9780976013004,153.387605734376
1389,2888,1956,"CMPD","Central Tibet","Central Tibet Td12",37.46,95.29,3179,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0973177136293193,2113.60245261733,2.58981316992578,-11.8772642132558,15.5295316880895,110.206403958539
1389,2889,1957,"CMPD","Central Tibet","Central Tibet Td13",36.67,95.33,2717,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.108026890203838,2770.6541808236,5.41118479888535,-9.42362152813176,18.3487446943187,128.693671758889
1390,2890,18529,"SMPDSv1","Central Urals","Lapteva_a42",56.6025333333333,61.0378666666666,304,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.870556466209187,2340.80009091799,1.8814742016979,-15.8057916153739,18.581740223699,538.485165541855
1390,2891,18530,"SMPDSv1","Central Urals","Lapteva_a63",55.9695,58.7873,341,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.955109671392331,2313.1946835759,1.61717716078422,-16.2635898503618,18.2826622800066,585.625523135786
1390,2892,18531,"SMPDSv1","Central Urals","Lapteva_a64",56.0470333333333,59.52495,344,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.925725492255229,2320.21071985887,1.70572634653383,-16.0713003363753,18.3690040509252,572.027945041347
1390,2893,18532,"SMPDSv1","Central Urals","Lapteva_a65",56.19715,61.65135,182,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.711855389638602,2508.96745949012,2.42216744978503,-15.7314101340188,19.4714642577074,468.271405142993
1390,2894,18533,"SMPDSv1","Central Urals","Lapteva_a66",56.5624166666666,61.6548333333333,220,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.78689186153646,2425.47353196238,2.18559616588318,-15.7225325188371,19.0664612786639,499.240917518869
1390,2895,18534,"SMPDSv1","Central Urals","Lapteva_a67",56.8253,59.2269,395,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00232243223642,2232.1931592484,1.39492966327938,-16.1906810661449,17.9641325400916,599.977727596112
1390,2896,18535,"SMPDSv1","Central Urals","Lapteva_a68",56.7885,58.5508333333333,393,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01543534064851,2230.00275962502,1.36047665179456,-16.283647791702,17.9528858358402,605.149221389413
1390,2897,18536,"SMPDSv1","Central Urals","Lapteva_a69",56.8849833333333,57.6219833333333,244,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03757859960195,2330.19602132105,1.87806007578395,-15.8664446450348,18.4165675484255,611.692588798579
1390,2898,18537,"SMPDSv1","Central Urals","Lapteva_a70",58.4237833333333,57.8822666666666,294,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20555005902127,2094.46930976272,0.943875775426222,-16.5256937575004,17.5678250046595,665.256159938874
1390,2899,18538,"SMPDSv1","Central Urals","Lapteva_a74",59.12785,57.60205,234,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21638837863599,2090.49687315391,0.969497355633076,-16.5475951631217,17.6618493667807,668.841700807354
1390,2900,18539,"SMPDSv1","Central Urals","Lapteva_a75",58.7280666666666,57.5844666666666,334,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.24040173862046,2024.26659608511,0.593740553515178,-16.8695061961998,17.2643359925736,674.088270915851
1390,2901,18540,"SMPDSv1","Central Urals","Lapteva_a76",58.3747683333333,58.3681333333333,313,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20527092341183,2075.45170671097,0.82942851062876,-16.6504322507298,17.4768514989035,661.43076520232
1390,2902,18541,"SMPDSv1","Central Urals","Lapteva_a77",58.5604,59.2293166666666,339,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19923849522394,2024.94482080748,0.546016332857101,-16.9940748095446,17.2850346656148,646.448299464317
1390,2903,18542,"SMPDSv1","Central Urals","Lapteva_a88",59.0476166666666,60,183,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07988491543588,2098.62483429465,0.718996462602194,-17.3638072812187,17.8733156859338,568.704161065502
1390,2904,18543,"SMPDSv1","Central Urals","Lapteva_a89",57.5920666666666,61.5666166666666,189,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.868264172550994,2330.46537042265,1.83894659787548,-16.0370502622989,18.7666266740462,518.803881682411
1390,2905,18544,"SMPDSv1","Central Urals","Lapteva_a90",56.9495833333333,60.7824833333333,242,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.873038828667631,2337.38617564902,1.9152559557298099,-15.7969702524507,18.6775205441669,530.920841251381
1391,2906,18545,"SMPDSv1","Central Yamal Peninsula","Lapteva_a118",69,70,100,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.19651926515529,1072.93875270676,-6.8190221121483,-24.6426649940991,12.7956407534324,399.274307413468
1391,2907,18546,"SMPDSv1","Central Yamal Peninsula","Lapteva_a119",68.75,69,30,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.05880299163393,978.994728987627,-7.51070484401069,-25.0085795296608,12.0922498449112,343.22639875017
1392,2908,15835,"Neotoma","Centralia Lake","GMP06",38.57,-89,152,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.999108130355242,4819.31383508,13.0330269602027,-1.63618242579098,25.5983105296081,1067.84098897208
1393,2909,18547,"SMPDSv1","Cergowa Gora","EPDcoretop_E159",49.533333,21.7,495,"0.04","terrestrial, bog/fen/swamp","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.992050025917993,2796.78200154082,6.8505479643792,-4.72133244928859,16.5328141023184,758.189163641074
1394,2910,7021,"EMPDv2","Cerna Hora","EPDcoretop_E1580",50.66,15.76,1206,"0.6","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.68031143299247,2033.09959295549,4.03322945065948,-6.4905897438301,13.3785820708936,1134.52044699394
1395,2911,24426,"Neotoma","Cerro Toledo","CERTOCTB",-4.37461111111111,-79.1115277777778,3110,"not known","terrestrial, bog/fen/swamp","core","50","Brunschön, C., and H. Behling. 2009. Late Quaternary vegetation, fire and climate history reconstructed from two cores at Cerro Toledo, Podocarpus National Park, southeastern Ecuadorian Andes. Quaternary Research 72(3):388-399.;
Brunschön, C., and H. Behling. 2010. Reconstruction and visualization of upper forest line and vegetation changes inthe Andean depression region of southeastern Ecuador since the last glacialmaximum—A multi-site synthesis. Review of Palaeobotany and Palynology 163:139-152.","10.1016/j.yqres.2009.07.001;
10.1016/j.revpalbo.2010.10.005",4,"warm-temperate evergreen and mixed forest",0.453656966828487,4338.89604027581,11.8873864117145,11.4782890016801,12.2520169452929,596.305222794614
1395,2912,24421,"Neotoma","Cerro Toledo","CERTOLCT_0",-4.37461111111111,-79.1115277777778,3150,"not known","terrestrial, bog/fen/swamp","core","-55","Brunschön, C., and H. Behling. 2009. Late Quaternary vegetation, fire and climate history reconstructed from two cores at Cerro Toledo, Podocarpus National Park, southeastern Ecuadorian Andes. Quaternary Research 72(3):388-399.;
Brunschön, C., and H. Behling. 2010. Reconstruction and visualization of upper forest line and vegetation changes inthe Andean depression region of southeastern Ecuador since the last glacialmaximum—A multi-site synthesis. Review of Palaeobotany and Palynology 163:139-152.","10.1016/j.yqres.2009.07.001;
10.1016/j.revpalbo.2010.10.005",4,"warm-temperate evergreen and mixed forest",0.447682912956732,4272.52051723068,11.7055356636457,11.2783758019915,12.0837829437606,587.673045798279
1395,2913,24422,"Neotoma","Cerro Toledo","CERTOLCT_2",-4.37461111111111,-79.1115277777778,3150,"not known","terrestrial, bog/fen/swamp","core","40","Brunschön, C., and H. Behling. 2009. Late Quaternary vegetation, fire and climate history reconstructed from two cores at Cerro Toledo, Podocarpus National Park, southeastern Ecuadorian Andes. Quaternary Research 72(3):388-399.;
Brunschön, C., and H. Behling. 2010. Reconstruction and visualization of upper forest line and vegetation changes inthe Andean depression region of southeastern Ecuador since the last glacialmaximum—A multi-site synthesis. Review of Palaeobotany and Palynology 163:139-152.","10.1016/j.yqres.2009.07.001;
10.1016/j.revpalbo.2010.10.005",4,"warm-temperate evergreen and mixed forest",0.447682912956732,4272.52051723068,11.7055356636457,11.2783758019915,12.0837829437606,587.673045798279
1396,2914,10833,"Bush et al., 2020","cerropunta","cerropunta",8.81,-82.51,2530,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61287709583965,5001.73141316144,13.7033737346889,12.1791867419652,14.627399428488,4223.67266975361
1397,2915,18548,"SMPDSv1","Cervene blato","EPDcoretop_E305",48.85,14.933333,470,"not known","not known","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.878454019900509,3080.86089383218,8.08553338059331,-2.51792088787993,17.5551545894302,684.645662619376
1398,2916,8500,"EMPDv2","CFSNBR (forest 2)","Novenko_c74",56.4964,32.6259,255,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13797986370017,2429.52811439798,4.17159746982539,-10.0439484930335,16.7607694270292,725.88832973659
1399,2917,8501,"EMPDv2","CFSNBR (forest 3)","Novenko_c75",56.4543,32.9663,242,"0.01","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13084822929167,2435.49822390566,4.19492698717094,-10.0289053423455,16.8199640463984,721.330485298491
1400,2918,8502,"EMPDv2","CFSNBR (forest 4)","Novenko_c76",56.4996,32.6259,253,"0.01","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13616450937923,2430.46111508,4.17799895697815,-10.0332555169104,16.7639981256775,724.634371164713
1401,2919,8499,"EMPDv2","CFSNBR (forest1)","Novenko_c73",56.4966,32.6259,247,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13013064048467,2433.85836450995,4.19962800450822,-9.99886584594959,16.7758090029294,720.739064878525
1402,2920,8503,"EMPDv2","CFSNBR (meadow )","Novenko_c78",56.4542,32.9764,246,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13454175359884,2433.60550810514,4.18199120357377,-10.0497797082301,16.8136779766023,723.835860377446
1402,2921,8505,"EMPDv2","CFSNBR (meadow )","Novenko_c80",56.9798,32.9798,255,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17494280462719,2392.60688587582,4.002561714761,-10.2488620925171,16.6692784900951,737.808269075102
1403,2922,9198,"EMPDv2","CFSNBR (peatland Staroselsky moss)","Novenko_c77",56.2855,32.0278,255,"6","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10900798172656,2454.64059294823,4.3011623368197,-9.87062127070089,16.798742196183,713.876100239683
1404,2923,8504,"EMPDv2","CFSNBR(meadow )","Novenko_c79",56.4506,32.9722,257,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.14416816049695,2428.66851773904,4.14839182056048,-10.1032612958781,16.7956432210879,730.482317243604
1405,2924,23213,"SMPDSv1","CH/WVDK/G01","CH/WVDK/G01",46.647192,7.998357,1700,"not applicable","terrestrial","pollen trap","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.41783399907006,1588.72978202702,3.21362410165465,-4.48453258294597,11.3547271319675,1825.31072355816
1406,2925,23214,"SMPDSv1","CH/WVDK/M4","CH/WVDK/M4",46.537112,6.224971,1325,"not applicable","terrestrial","pollen trap","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72315512814869,2209.41000814749,5.61869668349706,-2.45342389156218,14.185073229823,1409.87320302982
1407,2926,23215,"SMPDSv1","CH/WVDK/SAG","CH/WVDK/SAG",46.681061,7.979756,1945,"not applicable","terrestrial","pollen trap","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.65685663627423,1289.92093626325,1.92724478786373,-5.44309857938084,9.85856455393039,1960.75171927168
1408,2927,23216,"SMPDSv1","CH/WVDK/Z2","CH/WVDK/Z2",46.004892,7.786208,2320,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78927222176591,934.912428648176,0.242363821691121,-6.62412400940569,7.93947711162129,2038.96241851762
1409,2928,24165,"Neotoma","Chacaltaya 2","CHACALT2",-16.366667,-68.15,4350,"not known","not known","core","0","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,22,"steppe",0.264422667068523,2450.20041561822,6.71287785100881,3.46044169834453,8.94410579583581,383.454070862247
1410,2929,10834,"Bush et al., 2020","Chacan_Bata","Chacan_Bata",19.19,-89.17,94,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.794109345449563,9386.18604979688,25.7155782186216,22.5023583464656,28.0047848421712,1227.24900444254
1411,2930,10835,"Bush et al., 2020","ChacanLara","ChacanLara",18.48,-89.09,103,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.876827571479564,9347.67528121139,25.6100692635928,22.5001553001069,27.785990339436,1362.66795842097
1412,2931,10836,"Bush et al., 2020","Chacas","Chacas",-15.409383,-70.203767,3812,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.512848331925034,3266.93241483536,8.95049976667221,6.49714059992041,10.45492585183,759.660644701654
1413,2932,9758,"Herzschuh et al., 2019","Chagan-P. S","Chagan-P. S-2",48.173611,99.742222,2061,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.335765217302387,1319.94896315972,-5.18678712672695,-25.2134341139646,12.0074834674951,282.130361010251
1414,2933,1958,"CMPD","Chagannuoer","Chagannuoer",42.93,113.1,1302,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.249844551236644,2882.66918200087,3.76251911700135,-15.5344879594181,20.7431434034426,265.365830927663
1415,2934,7953,"EMPDv2","Chaivo_1","Mikishin-Gvozdeva_a13",52.4755555555556,143.198333333333,-2,"not known","coastal, lagoon","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24511615818307,1828.87026104351,-0.868156585771193,-19.0686759656912,15.2455633782637,653.933667588775
1416,2935,8098,"EMPDv2","Chaivo_10","Mikishin-Gvozdeva_a155",52.5141666666667,143.272777777778,3,"not applicable","coastal, other","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2789070578337,1792.16033599235,-0.8988875850598,-18.7662472244909,15.0556759608115,664.701070580341
1417,2936,8099,"EMPDv2","Chaivo_11","Mikishin-Gvozdeva_a156",52.5141666666667,143.2725,2,"0.003","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27912961911563,1792.35585846536,-0.898040736191628,-18.7627227213354,15.0571677739425,664.699249436214
1418,2937,8100,"EMPDv2","Chaivo_12","Mikishin-Gvozdeva_a157",52.5577777777778,143.308333333333,4,"not applicable","coastal, other","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27990803417065,1791.12569600443,-0.903063865737076,-18.7677412661326,15.0504568780929,664.64538958128
1419,2938,8101,"EMPDv2","Chaivo_13","Mikishin-Gvozdeva_a158",52.5577777777778,143.3075,2,"0.028","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.28036083252082,1791.50834263426,-0.901345729380532,-18.7605098395027,15.0534014170903,664.642966630856
1420,2939,8103,"EMPDv2","Chaivo_14","Mikishin-Gvozdeva_a160",52.5233333333333,143.288333333333,3,"not applicable","coastal, other","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27921002144667,1792.01825574485,-0.898793920879767,-18.7641845278492,15.054990966793,664.718251409473
1421,2940,8104,"EMPDv2","Chaivo_15","Mikishin-Gvozdeva_a161",52.5272222222222,143.2975,2,"not applicable","coastal, other","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27957533656855,1792.16702774562,-0.897616015455496,-18.7591919104031,15.0562328248269,664.733174709836
1422,2941,7954,"EMPDv2","Chaivo_2","Mikishin-Gvozdeva_a14",52.4441666666667,143.219166666667,1,"0.007","lake","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24516274424859,1827.61470704713,-0.864682407307708,-19.057349255079,15.2368132412857,654.526941417783
1423,2942,7955,"EMPDv2","Chaivo_3","Mikishin-Gvozdeva_a15",52.3558333333333,143.198888888889,1,"0.001","lake","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24200716906995,1830.50041452425,-0.850074680515937,-19.0532533199096,15.2497892924115,654.430244855361
1424,2943,7956,"EMPDv2","Chaivo_4","Mikishin-Gvozdeva_a16",52.3722222222222,143.201111111111,2,"0.007","lake","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24263310283282,1829.485798605,-0.853967824501608,-19.0552799410175,15.2444572686389,654.529340690532
1425,2944,7957,"EMPDv2","Chaivo_5","Mikishin-Gvozdeva_a17",52.365,143.195277777778,2,"0.001","lake","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24223279552464,1829.83684036758,-0.852983582884723,-19.0567135277871,15.2461369936141,654.468934562926
1426,2945,7958,"EMPDv2","Chaivo_6","Mikishin-Gvozdeva_a18",52.3808333333333,143.155555555556,-2,"not known","coastal, lagoon","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24092665594123,1832.63080016842,-0.853606487890304,-19.0743063530562,15.2630022885998,653.538736069497
1427,2946,7959,"EMPDv2","Chaivo_7","Mikishin-Gvozdeva_a19",52.2966666666667,143.131388888889,-1,"not known","coastal, lagoon","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2377410525728,1835.08521109786,-0.840695227452015,-19.0732209381446,15.273380283915,653.440085029855
1428,2947,8096,"EMPDv2","Chaivo_8","Mikishin-Gvozdeva_a153",52.6061111111111,143.283888888889,3,"not applicable","coastal, other","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.28116504227624,1790.11563613732,-0.911858812541565,-18.7739665040074,15.0470179670577,664.365482572754
1429,2948,8097,"EMPDv2","Chaivo_9","Mikishin-Gvozdeva_a154",52.6066666666667,143.305,2,"0.009","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.28151934368484,1790.3795122455,-0.909020989389604,-18.7661268928657,15.0486674687726,664.434607521827
1430,2949,1959,"CMPD","Chaiwopu","Chaiwopu",43.55,87.8,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129641384481194,3631.38645365771,6.86206945389105,-12.8165382251632,23.2412958203504,137.946651102451
1431,2950,9759,"Herzschuh et al., 2019","Chaiwopu Lake","Chaiwopu Lake",43.55,87.78,1100,"not known","lake","lake surface sample","35.9","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.129827693775751,3630.69684937331,6.86091838903091,-12.8133930162316,23.236999694759,138.11526921535
1432,2951,10837,"Bush et al., 2020","Chalalan","Chalalan",-14.428184,-67.92,357,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.23966788503361,9332.77767339593,25.5692538997149,23.1429076748573,26.8985739529387,1941.27542562782
1433,2952,12389,"Neotoma","Chalco Lake","CHALCOLA",19.5,-99,2240,"not known","lake","core","45","Lozano-García, M.S., and B. Ortega-Guerrero. 1994. Palynological and magnetic records of Lake Chalco, central Mexico. Palaeogeography, Palaeoclimatology, Palaeoecology 109:332-342.; Lozano-García, M.S., B. Ortega-Guerrero, M. Caballero-Miranda, and J. Urrutia-Facugauchi. 1993. Late Pleistocene and Holocene Paleoenvironments of Chalco Lake, Central Mexico. Quaternary Research 40:332-342.; Ortega-Guerrero, B. 1992. Paleomagnetismo, magnetoestratifia y paleoecología del Cuaternario tardío en el Lago de Chalco, Cuenca de México. Dissertation. National University of Mexico.",,4,"warm-temperate evergreen and mixed forest",0.601539028696531,5937.2090772551,16.2663262390551,13.1408265035905,18.7937968808032,897.691232872015
1434,2953,11531,"Neotoma","Chalk Zimmermann Pond","FH-14",38.757795,-96.320045,419,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.72142786288801,4732.85692505686,12.6394553508575,-2.64195809309395,26.5973582531411,812.800713930375
1435,2954,18549,"SMPDSv1","Chalkney Wood - Alder Pond","Grant_a2",51.91353,0.72335,65,"1e-04","ephemeral lake/pond","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02411832666931,3486.83031183472,9.55295975845129,3.48899474417292,16.2605819084954,671.07896642401
1436,2955,18550,"SMPDSv1","Chalkney Wood - Vegetation Pond","Grant_a3",51.916747,0.722294,61,"1e-04","ephemeral lake/pond","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02396870415652,3491.54745833038,9.5658834474805,3.49889178020295,16.2627102877552,671.005091505153
1437,2956,8276,"EMPDv2","Challant  St. Victor","Montanari_a2",45.6976916666667,7.71452222222222,824,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.42275341972295,3240.90731457862,8.86815498963447,-0.0948768146636492,18.0110021196658,1289.51314803459
1438,2957,8278,"EMPDv2","Challant St. Anselme","Montanari_a4",45.7164194444445,7.73649444444444,1042,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.56375692047316,2840.6507511816,7.6740746934231,-0.990219013724333,16.6252928768112,1384.36071578147
1439,2958,7131,"EMPDv2","Challerie","EPDcoretop_E2122",47.86,1.7,100,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.798301073209287,4058.2803928048,11.1185764186433,3.78758212071334,18.8680316813157,652.384698830555
1440,2959,470,"Australian pollen","Chambers Gorge","5km west Mount Chambers_1995",-30.945077,139.195662,150,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.127243843697864,7153.05725561475,19.5974171386705,11.3541494061682,27.5150338854462,210.461667218468
1440,2960,471,"Australian pollen","Chambers Gorge","5km west Mount Chambers_1996",-30.945077,139.195662,150,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.127243843697864,7153.05725561475,19.5974171386705,11.3541494061682,27.5150338854462,210.461667218468
1440,2961,472,"Australian pollen","Chambers Gorge","Camp Ground Chambers Gorge_1995",-30.957223,139.251709,150,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.127897479070839,7131.14929613148,19.5373953318671,11.2816760334569,27.4656862825223,212.144486860037
1440,2962,473,"Australian pollen","Chambers Gorge","Camp Ground Chambers Gorge_1996",-30.957223,139.251709,150,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.127897479070839,7131.14929613148,19.5373953318671,11.2816760334569,27.4656862825223,212.144486860037
1440,2963,474,"Australian pollen","Chambers Gorge","CG1 down_1995",-30.95933333,139.2431667,300,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144745460760754,6805.83585103436,18.6461256192722,10.4091411363298,26.6096717203346,238.569763853339
1440,2964,475,"Australian pollen","Chambers Gorge","CG1 down_1996",-30.95933333,139.2431667,300,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144745460760754,6805.83585103436,18.6461256192722,10.4091411363298,26.6096717203346,238.569763853339
1440,2965,476,"Australian pollen","Chambers Gorge","CG1 up_1996",-30.95933333,139.2431667,300,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144745460760754,6805.83585103436,18.6461256192722,10.4091411363298,26.6096717203346,238.569763853339
1440,2966,477,"Australian pollen","Chambers Gorge","Chambers Gorge eastern fence line_1996",-30.968668,139.281192,150,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.12805805607519,7127.63080602096,19.5277556329341,11.2751784976966,27.4538384131881,212.353048780702
1440,2967,478,"Australian pollen","Chambers Gorge","Chambers Gorge eastern fence line-1995",-30.968668,139.281192,150,"not applicable","terrestrial","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.12805805607519,7127.63080602096,19.5277556329341,11.2751784976966,27.4538384131881,212.353048780702
1440,2968,479,"Australian pollen","Chambers Gorge","Chambers Gorge opposite MD2_1996",-30.962743,139.263811,150,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.127971533068256,7129.56039338548,19.5330421736589,11.2788153579637,27.4602814669047,212.238616259149
1440,2969,480,"Australian pollen","Chambers Gorge","Mount Chambers NE face_1996",-30.962007,139.221239,250,"not applicable","terrestrial","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.138977762211879,6920.48712026267,18.9602386856512,10.7230653764279,26.9069973657186,229.29185096509
1440,2970,481,"Australian pollen","Chambers Gorge","Sample 85",-30.97,139.19,300,"not applicable","terrestrial","surface sample","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.14480775623335,6806.52714957783,18.6480195878845,10.4143012501945,26.6087981617494,238.578684770578
1440,2971,482,"Australian pollen","Chambers Gorge","Sample 89",-30.96,139.24,240,"not applicable","terrestrial","surface sample","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.137834826614161,6942.65879182947,19.0209829913136,10.7828391310258,26.9652215596043,227.478412793413
1441,2972,483,"Australian pollen","Chambers Gorge, Medlin Site, MD3","MD3 in_1995",-30.9703333333333,139.279333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.145836904786107,6779.8859037709,18.5750298733449,10.3339585971842,26.5439601396564,240.620286092306
1441,2973,484,"Australian pollen","Chambers Gorge, Medlin Site, MD3","MD3 in_1996",-30.9703333333333,139.279333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.145836904786107,6779.8859037709,18.5750298733449,10.3339585971842,26.5439601396564,240.620286092306
1441,2974,485,"Australian pollen","Chambers Gorge, Medlin Site, MD3","MD3 out_1995",-30.9703333333333,139.279333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.145836904786107,6779.8859037709,18.5750298733449,10.3339585971842,26.5439601396564,240.620286092306
1442,2975,7097,"EMPDv2","Champ Gazon","EPDcoretop_E2011",47.2,4.05,585,"0.2","terrestrial, blanket bog","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.06501854072339,3354.82162794648,9.19129213136022,0.889470893477727,17.944601245845,912.021967905786
1443,2976,18551,"SMPDSv1","Champlong","Barboni_a830",45.792,7.65,2100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.3990268509463,1256.05048565657,1.77450633947551,-5.45060414982097,9.78974883061638,1858.46231476408
1444,2977,18552,"SMPDSv1","Champlong2","Barboni_a828",45.783,7.65,2310,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.5734962739164,1022.75774535717,0.668813983110443,-6.26487675703618,8.50540218309448,1948.64130783089
1445,2978,8285,"EMPDv2","Champoluc","Montanari_a11",45.8324638888889,7.72579166666667,1568,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.00795691118016,1925.2307325686,4.54781570541225,-3.41440484498442,13.0072610848143,1637.63789495117
1446,2979,18553,"SMPDSv1","Chan do Lamoso","Barboni_a755",43.566667,-7.533333,1039,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07805015747483,3280.7006798665,8.98822104073014,1.85297766336427,17.1796362937614,1043.23015945405
1447,2980,14192,"Neotoma","Chance Harbour Lake","MS-85-16",45.670215,-62.6109749999999,5,"not known","lake","core","-35","Jettè, H., and R.J. Mott. 1989. Palynostratigraphie du tardiglaciaire et de l'Holocene de la règion du lac Chance Harbour, Nouvelle Ecosse. Gèographie physique et Quaternaire 43(1):27-38.",,9,"cool mixed forest",1.7756508823277,2669.78775236014,5.92284700676059,-6.22415188893465,18.030217943427,1298.92620832796
1448,2981,1960,"CMPD","Changbai Mt","Changbai Mt 1",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1448,2982,1961,"CMPD","Changbai Mt","Changbai Mt 2",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1448,2983,1962,"CMPD","Changbai Mt","Changbai Mt 3",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1448,2984,1963,"CMPD","Changbai Mt","Changbai Mt 4",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1448,2985,1964,"CMPD","Changbai Mt","Changbai Mt 5",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1448,2986,1965,"CMPD","Changbai Mt","Changbai Mt 6",42.5,127.83,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.3515558883511,2077.43647276632,0.0448826108899505,-19.5231556802513,16.5774272460091,1044.45893106075
1449,2987,1966,"CMPD","Changbai_Mt","Changbai_Mt 1_1800",42.03,128.13,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",1.88764254014973,1503.09097526694,-2.72421901408136,-21.5652769096068,13.5047022143151,1342.71778280661
1449,2988,1967,"CMPD","Changbai_Mt","Changbai_Mt 2_1800",42.03,128.13,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",1.88764254014973,1503.09097526694,-2.72421901408136,-21.5652769096068,13.5047022143151,1342.71778280661
1449,2989,1968,"CMPD","Changbai_Mt","Changbai_Mt 3_1800",42.03,128.13,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",1.88764254014973,1503.09097526694,-2.72421901408136,-21.5652769096068,13.5047022143151,1342.71778280661
1449,2990,1969,"CMPD","Changbai_Mt","Changbai_Mt 4_1800",42.03,128.13,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",1.88764254014973,1503.09097526694,-2.72421901408136,-21.5652769096068,13.5047022143151,1342.71778280661
1450,2991,18554,"SMPDSv1","Change-Glatinier","EPDcoretop_E888",48.116667,-0.788889,101,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.913884529275198,4020.75119076786,11.0157566870352,4.58477328992254,18.004230940614,743.496146068006
1451,2992,7095,"EMPDv2","Changeon","EPDcoretop_E2005",47.28,0.13,28,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.768791925187743,4313.40115830369,11.8175374200101,4.84082163442906,19.3494510395427,665.865788796509
1452,2993,9760,"Herzschuh et al., 2019","Changjiang River","Changjiang River_1998",32.25,120.23,6,"not applicable","fluvial","surface sample","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.960523196800785,5527.02988657768,15.1425476344594,2.36753657980306,27.4082129442214,1059.95134404452
1453,2994,1970,"CMPD","Changxingdao","Changxingdao",39.6,121.2,40,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.629968216432947,4046.75277082803,9.87370860048213,-6.66507323107958,23.9056361315747,649.58767259225306
1454,2995,1971,"CMPD","Chanling","Chanling 1",44.75,124.17,140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.502762193867303,3425.42465407977,5.45440556684922,-15.8044514985341,23.5892420953506,452.34636872079
1454,2996,1972,"CMPD","Chanling","Chanling 2",44.75,124.17,140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.502762193867303,3425.42465407977,5.45440556684922,-15.8044514985341,23.5892420953506,452.34636872079
1455,2997,18555,"SMPDSv1","Chao de Cheira-I","Barboni_a753",41.6,-8.2,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.14443835913685,4660.88278007602,12.769541863222,6.61230024514638,19.6775747957313,1151.80464600923
1456,2998,18556,"SMPDSv1","Chao do Chan da Cruz","Barboni_a754",43.467778,-7.537917,800,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.14809603622618,3699.80877290334,10.136462391516,3.69064943660615,17.4669359481486,1098.81665010845
1457,2999,1973,"CMPD","Chaoli","Chaoli",36.1,120.1,10,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.698826932525867,4722.87779383572,12.7574358750863,-1.6056930108455,25.6206401742233,759.614703042787
1458,3000,1974,"CMPD","Chaozhou","Chaozhou",23.87,116.72,512,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29434371693989,6866.55589381077,18.8124819008514,9.78520752200996,26.5814949912136,1550.97453330414
1459,3001,11812,"Neotoma","Chapman Lake","LMSJ24",37.3294049999999,-107.888635,2097,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.289067131706617,3342.66151639696,8.41508241826285,-4.67862475450068,21.2911559066697,361.067040523721
1460,3002,13702,"Neotoma","Chappice Lake","CHAPPICE",50.16549,-110.363545,731,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.378187502948312,2725.5966348592,4.21486869799372,-12.6412724923294,18.9817303475692,311.342840354708
1460,3002,13703,"Neotoma","Chappice Lake","CHAPPICE",50.16549,-110.363545,731,"not known","lake","core","-6","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.378187502948312,2725.5966348592,4.21486869799372,-12.6412724923294,18.9817303475692,311.342840354708
1460,3002,13704,"Neotoma","Chappice Lake","CHAPPICE",50.16549,-110.363545,731,"not known","lake","core","13","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.378187502948312,2725.5966348592,4.21486869799372,-12.6412724923294,18.9817303475692,311.342840354708
1460,3002,13705,"Neotoma","Chappice Lake","CHAPPICE",50.16549,-110.363545,731,"not known","lake","core","31","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.378187502948312,2725.5966348592,4.21486869799372,-12.6412724923294,18.9817303475692,311.342840354708
1460,3002,13706,"Neotoma","Chappice Lake","CHAPPICE",50.16549,-110.363545,731,"not known","lake","core","49","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.378187502948312,2725.5966348592,4.21486869799372,-12.6412724923294,18.9817303475692,311.342840354708
1461,3003,486,"Australian pollen","Chapple Valley","Chapple Valley",-38.6833,143.5667,29,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.831404617755512,4952.75818595585,13.5692005094681,9.09674807837942,18.359673558680502,834.630423546957
1462,3004,15420,"Neotoma","Chara Lake","CHARA",65.516667,-127.75,335,"not known","lake","surface sample","Modern","Rowe, J.S., Spittlehouse, D., Johnson, E., Jasieniuk, M., 1975. Fire studies in the Upper Mackenzie Valley and adjacent precambrian uplands. Department of Indian and Northern Affairs, Ottawa, Canada. INA Publication No. QS-8045-000-EE-A1.",,15,"cold evergreen needleleaf forest",0.684266283446548,1435.02439739811,-7.62602543165721,-28.9844227648107,14.7917210407899,293.161767909964
1463,3005,10838,"Bush et al., 2020","CharaNkkota","CharaNkkota",-16.57995,-68.156183,3738,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.38721376309276,3561.00264406109,9.75617162756464,6.65745210002561,11.8553629871464,575.552116536717
1464,3006,10346,"IBERIA","Charco da Candieira","CANDIEIR",40.3436,-7.5781,1409,"not known","lake","core top","32","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.534025126981815,3224.58806769587,8.82110909205819,0.0679426777182887,19.7614099475295,647.206497957592
1465,3007,18558,"SMPDSv1","Chareire","Barboni_a184",45.46,2.76,1180,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.24564979766202,2608.11659652517,7.06903795387284,-0.652529701955367,15.856115279238301,1117.47168730058
1465,3008,18557,"SMPDSv1","Chareire","Barboni_a185",45.47,2.789,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25432687046855,2582.61497651098,6.98609914775333,-0.734744902308433,15.7850786772878,1125.71630218132
1466,3009,11881,"Neotoma","Charles Lake","BU421",46.70676,-88.081035,552,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06873592103535,2564.9554361688,3.77363238436322,-12.5116734226727,18.520451423059,804.323630741573
1467,3010,1975,"CMPD","Chasuqi","Chasuqi",40.7,111.1,1328,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.307903645723189,3142.57236784498,5.68889666009077,-12.1927440554588,21.1330696394243,336.199596066473
1468,3011,18559,"SMPDSv1","Chatanga","11-CH-17A",72.244486,102.235194,40,"0.025447","lake","lacustrine core top","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",0.93687752427532,911.768492651699,-13.2977895335736,-34.4841262895443,12.9061991739545,260.942611056753
1469,3012,1976,"CMPD","Chebaling","Chebaling 1",24.71,114.26,423,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38436291304601,6946.52831749107,19.0315844314824,9.1225235276979,27.5305022633368,1653.07845738218
1469,3013,1977,"CMPD","Chebaling","Chebaling 2",24.71,114.26,330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40801377344584,7227.27299296013,19.8007479259182,10.2303631061144,27.8309100752112,1699.76136765141
1469,3014,1978,"CMPD","Chebaling","Chebaling 3",24.71,114.26,364,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39942036594285,7124.63515461661,19.5195483688126,9.82534648604818,27.7210835633431,1682.6944972304
1469,3015,1979,"CMPD","Chebaling","Chebaling 4",24.71,114.26,333,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40725794632945,7218.21671310629,19.7759362002912,10.1946263455204,27.8212195006346,1698.25546732014
1469,3016,1980,"CMPD","Chebaling","Chebaling 5",24.71,114.26,390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39280791277805,7046.14739588332,19.304513413379,9.5156278942328,27.6370985836793,1669.6433610261
1470,3017,6512,"EMPDv2","Cheeneigyn Lake","Binney2017_E2932",64.77,174.63,30,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.00289897013928,993.302983108561,-8.14145933711967,-23.6431364652027,11.4178665979127,336.243620435242
1471,3018,10839,"Bush et al., 2020","Chencha","Chencha",20.69,-89.88,8,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.610121186990584,9538.93310600473,26.1340633041225,22.8679559816951,28.2965361478769,945.199074839541
1472,3019,8030,"EMPDv2","Cheremshanka","Mikishin-Gvozdeva_a92",47.90416667,142.1527778,3,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.64150158296107,2028.52424426714,1.74803403916616,-13.6591528002585,16.1029769645631,969.275508339606
1473,3020,18560,"SMPDSv1","Cherepanov lake","Connor_a28 (Cherepanov-1)",41.5666666666666,44.3666666666666,1430,"0.14","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.669998145912847,2983.4429044489,6.65366555502544,-7.4641673729895,19.2180566864205,693.562913771781
1473,3021,18561,"SMPDSv1","Cherepanov lake","Connor_a29 (Cherepanov-2)",41.5666666666666,44.3666666666666,1430,"0.14","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.669998145912847,2983.4429044489,6.65366555502544,-7.4641673729895,19.2180566864205,693.562913771781
1473,3022,18562,"SMPDSv1","Cherepanov lake","Connor_a30 (Cherepanov-3)",41.5666666666666,44.3666666666666,1430,"0.14","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.669998145912847,2983.4429044489,6.65366555502544,-7.4641673729895,19.2180566864205,693.562913771781
1473,3023,18563,"SMPDSv1","Cherepanov lake","Connor_a31 (Cherepanov-4)",41.5666666666666,44.3666666666666,1430,"0.14","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.669998145912847,2983.4429044489,6.65366555502544,-7.4641673729895,19.2180566864205,693.562913771781
1474,3024,7126,"EMPDv2","Cherine","EPDcoretop_E2115",46.79,1.18,95,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.809778670012399,4129.28070817675,11.3130978306212,4.03522874685499,19.128260437785,685.365995813445
1475,3025,18564,"SMPDSv1","Chernaya Valley","Crimea-6",44.59,33.61,6,"not applicable","terrestrial, soil","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.499890965778591,4072.43593131253,11.0895991443263,-0.655513074465614,22.230049767925,492.070983999612
1475,3026,18565,"SMPDSv1","Chernaya Valley","Crimea-7",44.59,33.61,4,"not applicable","terrestrial, soil","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.499136916495591,4074.54617034769,11.0954670804416,-0.654888240094275,22.2388320659571,491.321156331171
1476,3027,13883,"Neotoma","Chesapeake Bay (MD99-2208)","CHES2208",38.5372222222222,-76.4863888888889,0,"not known","coastal, estuarine","core","-37","Willard, D.A., C.E. Bernhardt, D.A. Korejwo, and S.R. Meyers. 2005. Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change 47(1):17-35.",,13,"temperate deciduous broadleaf forest",1.06448829320459,5098.21415598417,13.967710016395,1.77444486483653,25.2699755022664,1116.06849589097
1477,3028,13884,"Neotoma","Chesapeake Bay (PTMC3-2)","CHESPTMC",38.0266666666667,-76.2197222222222,0,"not known","coastal, estuarine","core","-26","Willard, D.A., C.E. Bernhardt, D.A. Korejwo, and S.R. Meyers. 2005. Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change 47(1):17-35.",,13,"temperate deciduous broadleaf forest",1.0760535313383,5157.46063118728,14.1300291265405,2.25751629799872,25.1652967311523,1138.28409996571
1477,3028,13885,"Neotoma","Chesapeake Bay (PTMC3-2)","CHESPTMC",38.0266666666667,-76.2197222222222,0,"not known","coastal, estuarine","core","-11","Willard, D.A., C.E. Bernhardt, D.A. Korejwo, and S.R. Meyers. 2005. Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change 47(1):17-35.",,13,"temperate deciduous broadleaf forest",1.0760535313383,5157.46063118728,14.1300291265405,2.25751629799872,25.1652967311523,1138.28409996571
1477,3028,13886,"Neotoma","Chesapeake Bay (PTMC3-2)","CHESPTMC",38.0266666666667,-76.2197222222222,0,"not known","coastal, estuarine","core","10","Willard, D.A., C.E. Bernhardt, D.A. Korejwo, and S.R. Meyers. 2005. Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change 47(1):17-35.",,13,"temperate deciduous broadleaf forest",1.0760535313383,5157.46063118728,14.1300291265405,2.25751629799872,25.1652967311523,1138.28409996571
1477,3028,13887,"Neotoma","Chesapeake Bay (PTMC3-2)","CHESPTMC",38.0266666666667,-76.2197222222222,0,"not known","coastal, estuarine","core","31","Willard, D.A., C.E. Bernhardt, D.A. Korejwo, and S.R. Meyers. 2005. Impact of millennial-scale Holocene climate variability on eastern North American terrestrial ecosystems: pollen-based climatic reconstruction. Global and Planetary Change 47(1):17-35.",,13,"temperate deciduous broadleaf forest",1.0760535313383,5157.46063118728,14.1300291265405,2.25751629799872,25.1652967311523,1138.28409996571
1478,3029,13139,"Neotoma","Chesapeake Bay, Parker Creek","PRCK-1-2",38.547778,-76.478611,0,"not known","coastal, estuarine","core","-37","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06456854810056,5096.51687964796,13.963059944241,1.76723246179384,25.2677430837901,1115.88164594308
1478,3029,13140,"Neotoma","Chesapeake Bay, Parker Creek","PRCK-1-2",38.547778,-76.478611,0,"not known","coastal, estuarine","core","1","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06456854810056,5096.51687964796,13.963059944241,1.76723246179384,25.2677430837901,1115.88164594308
1479,3030,13148,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-376","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13149,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-327","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13150,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-277","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13151,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-226","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13152,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-175","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13153,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-125","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13154,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-76","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13155,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","-25","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1479,3030,13156,"Neotoma","Chesapeake Bay, Patuxent River (2-P-5)","PTXT-2P5",38.333333,-76.309722,0,"not known","coastal, estuarine","core","25","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.06632937241529,5104.00011972288,13.9835619718435,1.85730797049657,25.2336347512782,1120.74688734379
1480,3031,13145,"Neotoma","Chesapeake Bay, Potomac River","PTMC-3P2",38.026944,-76.22,0,"not known","coastal, estuarine","core","-15","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.0760497948731,5157.44185338032,14.129977680494,2.25736144204903,25.1653227991313,1138.27536664198
1480,3031,13146,"Neotoma","Chesapeake Bay, Potomac River","PTMC-3P2",38.026944,-76.22,0,"not known","coastal, estuarine","core","8","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.0760497948731,5157.44185338032,14.129977680494,2.25736144204903,25.1653227991313,1138.27536664198
1480,3031,13147,"Neotoma","Chesapeake Bay, Potomac River","PTMC-3P2",38.026944,-76.22,0,"not known","coastal, estuarine","core","40","Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.0760497948731,5157.44185338032,14.129977680494,2.25736144204903,25.1653227991313,1138.27536664198
1481,3032,13183,"Neotoma","Chesapeake Bay, Rhode River","RHODERVR",38.886389,-76.394722,0,"not known","coastal, estuarine","core","-47","Baucom, P.C., J.F. Bratton, S.M. Colman, J. Friddell, and A. Rochon. 2000. Sedimentology and core descriptions, Marion-Dufresne cores MD99-2204 through - 2209, Chesapeake Bay. Pages 49-71 in T.M. Cronin, editor. Initial report on IMAGES V cruise of the Marion-Dufresne to Chesapeake Bay June 20-22, 1999. U.S. Geological Survey Open-File Report 00-306.; Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.05948718990528,5033.87699943434,13.7914438340667,1.42131533722172,25.2489134213164,1102.23372254074
1481,3032,13184,"Neotoma","Chesapeake Bay, Rhode River","RHODERVR",38.886389,-76.394722,0,"not known","coastal, estuarine","core","-29","Baucom, P.C., J.F. Bratton, S.M. Colman, J. Friddell, and A. Rochon. 2000. Sedimentology and core descriptions, Marion-Dufresne cores MD99-2204 through - 2209, Chesapeake Bay. Pages 49-71 in T.M. Cronin, editor. Initial report on IMAGES V cruise of the Marion-Dufresne to Chesapeake Bay June 20-22, 1999. U.S. Geological Survey Open-File Report 00-306.; Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.05948718990528,5033.87699943434,13.7914438340667,1.42131533722172,25.2489134213164,1102.23372254074
1481,3032,13185,"Neotoma","Chesapeake Bay, Rhode River","RHODERVR",38.886389,-76.394722,0,"not known","coastal, estuarine","core","-4","Baucom, P.C., J.F. Bratton, S.M. Colman, J. Friddell, and A. Rochon. 2000. Sedimentology and core descriptions, Marion-Dufresne cores MD99-2204 through - 2209, Chesapeake Bay. Pages 49-71 in T.M. Cronin, editor. Initial report on IMAGES V cruise of the Marion-Dufresne to Chesapeake Bay June 20-22, 1999. U.S. Geological Survey Open-File Report 00-306.; Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.05948718990528,5033.87699943434,13.7914438340667,1.42131533722172,25.2489134213164,1102.23372254074
1481,3032,13186,"Neotoma","Chesapeake Bay, Rhode River","RHODERVR",38.886389,-76.394722,0,"not known","coastal, estuarine","core","16","Baucom, P.C., J.F. Bratton, S.M. Colman, J. Friddell, and A. Rochon. 2000. Sedimentology and core descriptions, Marion-Dufresne cores MD99-2204 through - 2209, Chesapeake Bay. Pages 49-71 in T.M. Cronin, editor. Initial report on IMAGES V cruise of the Marion-Dufresne to Chesapeake Bay June 20-22, 1999. U.S. Geological Survey Open-File Report 00-306.; Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.05948718990528,5033.87699943434,13.7914438340667,1.42131533722172,25.2489134213164,1102.23372254074
1481,3032,13187,"Neotoma","Chesapeake Bay, Rhode River","RHODERVR",38.886389,-76.394722,0,"not known","coastal, estuarine","core","38","Baucom, P.C., J.F. Bratton, S.M. Colman, J. Friddell, and A. Rochon. 2000. Sedimentology and core descriptions, Marion-Dufresne cores MD99-2204 through - 2209, Chesapeake Bay. Pages 49-71 in T.M. Cronin, editor. Initial report on IMAGES V cruise of the Marion-Dufresne to Chesapeake Bay June 20-22, 1999. U.S. Geological Survey Open-File Report 00-306.; Willard, D.A., T.M. Cronin, and S. Verardo. 2003. Late- Holocene climate and ecosystem history from Chesapeake Bay sediment cores, USA. The Holocene 13:201-214.",,13,"temperate deciduous broadleaf forest",1.05948718990528,5033.87699943434,13.7914438340667,1.42131533722172,25.2489134213164,1102.23372254074
1482,3033,16498,"Neotoma","Chesterfield Inlet","JTA320",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1482,3034,16497,"Neotoma","Chesterfield Inlet","JTA321",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1482,3035,16501,"Neotoma","Chesterfield Inlet","JTA322",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1482,3036,16499,"Neotoma","Chesterfield Inlet","JTA323",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1482,3037,16500,"Neotoma","Chesterfield Inlet","JTA324",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1482,3038,16502,"Neotoma","Chesterfield Inlet","JTA325",63.33,-90.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.787793264877676,671.94252658031,-11.8921939068153,-31.4552925573454,8.85961710028686,264.314176756214
1483,3039,487,"Australian pollen","Chewko","Chewko Swamp",-17.067,145.367,500,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.854360308617101,8296.1143715355,22.7290804699603,18.2957972117177,25.8617959854684,1509.51596916549
1483,3040,488,"Australian pollen","Chewko","Chewko Water Storage",-17.067,145.367,450,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.888575103398715,8376.95970340867,22.9505745298868,18.5856389717951,26.0331620075724,1562.20317679891
1484,3041,12390,"Neotoma","Cheyenne Bottoms","CHEYENNE",38.466667,-98.666667,547,"not known","terrestrial, marsh","core","0","Fredlund, G.G. 1992. Analysis of Quaternary pollen from Cheyenne Bottoms, Kansas: evidence for late Quaternary vegetation and climates in the Central Great Plains. Dissertation. University of Kansas, Lawrence, Kansas, USA.; Fredlund, G.G. 1995. Late Quaternary pollen record from Cheyenne Bottoms, Kansas. Quaternary Research 43:67-79.",,22,"steppe",0.552872207146153,4802.18135170402,12.9349834561401,-1.95400744590724,27.044916409876,646.360128639759
1485,3042,16670,"Neotoma","Chibougamau","PJHR023",49.8,-74.55,363,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,8,"cool evergreen needleleaf forest",1.3809326764256,1934.69547564532,-0.411055315577298,-19.0885924228488,15.8546290467199,874.006032826012
1486,3043,10840,"Bush et al., 2020","Chichancanab","Chichancanab",19.88,-88.77,11,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.744013001271507,9459.32795949948,25.9159670123273,22.9287378155502,27.931853684632,1145.11701997037
1487,3044,15199,"Neotoma","Chickaree Lake","CHICKREE",40.334125,-105.841095,2796,"not known","lake","core","-60","Dunnette, P.V., P.E. Higuera, K.K. McLauchlan, K.M. Derr, C.E. Briles, and M.H. Keefe. 2014. Biogeochemical impacts of wildfires over four millennia in a Rocky Mountain subalpine watershed. New Phytologist 203(3):900-912. Chileen, B.V. 2019. Vegetation response to wildfire and climate forcing in a Rocky Mountain lodgepole pine forest over the past 2,500 years. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1111/nph.12828",17,"temperate evergreen needleleaf open woodland",0.467746674636419,1632.05513942409,1.40970497573453,-9.85873173915102,13.4743071604728,448.315676326182
1487,3044,15200,"Neotoma","Chickaree Lake","CHICKREE",40.334125,-105.841095,2796,"not known","lake","core","-5","Dunnette, P.V., P.E. Higuera, K.K. McLauchlan, K.M. Derr, C.E. Briles, and M.H. Keefe. 2014. Biogeochemical impacts of wildfires over four millennia in a Rocky Mountain subalpine watershed. New Phytologist 203(3):900-912. Chileen, B.V. 2019. Vegetation response to wildfire and climate forcing in a Rocky Mountain lodgepole pine forest over the past 2,500 years. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1111/nph.12828",17,"temperate evergreen needleleaf open woodland",0.467746674636419,1632.05513942409,1.40970497573453,-9.85873173915102,13.4743071604728,448.315676326182
1487,3044,15201,"Neotoma","Chickaree Lake","CHICKREE",40.334125,-105.841095,2796,"not known","lake","core","41","Dunnette, P.V., P.E. Higuera, K.K. McLauchlan, K.M. Derr, C.E. Briles, and M.H. Keefe. 2014. Biogeochemical impacts of wildfires over four millennia in a Rocky Mountain subalpine watershed. New Phytologist 203(3):900-912. Chileen, B.V. 2019. Vegetation response to wildfire and climate forcing in a Rocky Mountain lodgepole pine forest over the past 2,500 years. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1111/nph.12828",17,"temperate evergreen needleleaf open woodland",0.467746674636419,1632.05513942409,1.40970497573453,-9.85873173915102,13.4743071604728,448.315676326182
1488,3045,15421,"Neotoma","Chicken Lake","CHICKEN",37.469444,-108.221389,2707,"not known","lake","surface sample","Modern","Petersen, K.L., 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.",,17,"temperate evergreen needleleaf open woodland",0.461525754733513,2098.89415976807,3.47212767261314,-8.97586432492706,15.767129396444,514.42442982122
1489,3046,14545,"Neotoma","Chihuahueños Bog","CHIHUAHU",36.047665,-106.510525,2925,"not known","terrestrial, bog/fen/swamp","core","-48","Anderson, R.S., R.B. Jass, J.L. Toney, C.D. Allen, L.M. Cisneros-Dozal, M. Hess, J. Heikoop, and J. Fessenden. 2008. Development of the mixed conifer forest in northern New Mexico and its relationship to Holocene environmental change. Quaternary Research 69(2):263-275.","10.1016/j.yqres.2007.12.002",17,"temperate evergreen needleleaf open woodland",0.442795540473284,1919.78151328424,2.84952044673221,-9.10971417049606,14.6712322914461,499.961843531508
1489,3046,14546,"Neotoma","Chihuahueños Bog","CHIHUAHU",36.047665,-106.510525,2925,"not known","terrestrial, bog/fen/swamp","core","15","Anderson, R.S., R.B. Jass, J.L. Toney, C.D. Allen, L.M. Cisneros-Dozal, M. Hess, J. Heikoop, and J. Fessenden. 2008. Development of the mixed conifer forest in northern New Mexico and its relationship to Holocene environmental change. Quaternary Research 69(2):263-275.","10.1016/j.yqres.2007.12.002",17,"temperate evergreen needleleaf open woodland",0.442795540473284,1919.78151328424,2.84952044673221,-9.10971417049606,14.6712322914461,499.961843531508
1490,3047,10841,"Bush et al., 2020","Chijtacolla","Chijtacolla",-16.7818,-68.296683,3873,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.33432892917609,3250.04676836731,8.90423772155428,5.627506743264,11.0061803999229,493.712727097566
1491,3048,18566,"SMPDSv1","Chikozero lake","Chikozero lake_SS (Novenko_c253)",60.4185,34.3925,110,"0.01","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19398809601542,2174.07246126574,3.02486254729704,-11.4525097754202,16.4789905541726,663.362433433434
1492,3049,8118,"EMPDv2","Chilba","Mikishin-Gvozdeva_a181",51.6116666666667,140.589722222222,2,"0.84","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.11679504503009,2008.22052144719,-0.830240101508812,-20.8972581300441,16.1246887098721,622.555143360028
1493,3050,18567,"SMPDSv1","Chili lake","Connor_a7 (CHL1)",41.8124833333333,44.6781,1130,"0.07","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.690061964449973,3286.81048440383,7.96013070576973,-5.65683614100373,20.3635939250895,700.448547023734
1493,3051,18568,"SMPDSv1","Chili lake","Connor_a8 (CHL2)",41.8124833333333,44.6781,1130,"0.07","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.690061964449973,3286.81048440383,7.96013070576973,-5.65683614100373,20.3635939250895,700.448547023734
1493,3052,18569,"SMPDSv1","Chili lake","Connor_a9 (CHL3)",41.8125833333333,44.6769833333333,1130,"0.07","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.690076133949755,3286.78394152151,7.96002029252677,-5.65703492333905,20.36330824576,700.458071247355
1494,3053,1981,"CMPD","China","China 001",22.93,113.15,6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.53636631020346,8298.0452783276,22.7343706255551,14.8614535727498,28.8155480592499,1957.12082858896
1494,3054,1982,"CMPD","China","China 002",20,109.7,10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3660328321003,8878.90962339888,24.3257797901339,17.5251547756746,29.1701835833054,1783.76513217842
1494,3055,1983,"CMPD","China","China 003",24.9,112.5,150,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37209787411413,7318.90650551501,20.0517986452466,10.0244462009204,28.6506730487595,1617.64346537659
1494,3056,1984,"CMPD","China","China 004",24.83,121.38,872,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.66259875579773,6305.68345599701,17.2758450849233,11.1883896819041,22.8558078793011,1983.33799642663
1494,3057,1985,"CMPD","China","China 005",25.68,100.1,3290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.771225858375385,1920.13215745844,4.96503840498952,-1.82022629229781,11.2854960930409,871.563830778388
1494,3058,1986,"CMPD","China","China 006",23.32,113.13,10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50840484866449,8259.57087657009,22.6289613056715,14.6123739045849,28.8230037572043,1907.96436684933
1494,3059,1987,"CMPD","China","China 007",25.68,100.11,3152,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.776904896855288,2245.78480450978,6.0740705586744,-0.728888665110937,12.2561412140442,896.240435895563
1494,3060,1988,"CMPD","China","China 008",25.68,100.1,3289,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.771267803434398,1922.35351831275,4.97305964481554,-1.81233038786854,11.2925110380388,871.743499105516
1494,3061,1989,"CMPD","China","China 009",26.15,100.16,3321,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.779004192041351,1665.61646534724,3.95422983989849,-3.00888805134696,10.22750147978,849.801042080394
1494,3062,1990,"CMPD","China","China 010",19.7,109.1,-1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35666827074101,9027.16567859589,24.7319607632764,18.2498328894132,29.2301353796554,1797.67229270406
1494,3063,1991,"CMPD","China","China 011",24.79,121.43,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73961763454905,5730.26830040288,15.6993652065832,9.96195971914547,20.8799187530513,2037.59950299298
1494,3064,1992,"CMPD","China","China 012",26.46,100.16,2324,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.804007711961752,4731.73686762313,12.9636626510223,5.97836253448257,18.3871176654166,1030.33451119517
1494,3065,1993,"CMPD","China","China 013",18.74,108.81,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56287029428614,7788.28925640247,21.3377787846643,16.728986111357,24.6453097112308,2096.8966421704
1494,3066,1994,"CMPD","China","China 014",24.83,121.38,878,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.66397539614509,6295.09522642491,17.2468362367806,11.1657282272811,22.8195523205082,1984.31392050613
1494,3067,1995,"CMPD","China","China 015",18.85,109.94,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5446811854852,7968.46904767572,21.8314220484266,17.6823998077324,24.8331324644018,2104.12117418885
1494,3068,1996,"CMPD","China","China 016",26.99,100.17,3305,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.747361782007842,2204.68956702623,5.79380124112897,-1.75301179910211,12.1808643453592,850.653411447704
1494,3069,1997,"CMPD","China","China 017",26.95,100.17,3054,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.762500144008423,2748.53601260437,7.53023565097087,0.15292054085455,13.669715332949,893.652511024903
1494,3070,1998,"CMPD","China","China 018",21.83,100.67,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951808487420802,8884.84987200854,24.342054443859,19.6776976064101,27.3146078850288,1413.6096250794
1494,3071,1999,"CMPD","China","China 019",23.37,111.42,220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44058852856412,7651.3754129915,20.9626723643603,12.1150042081105,28.0398041579269,1728.3691994528
1494,3072,2000,"CMPD","China","China 020",25.68,100.1,3288,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.771309748436906,1924.57487916705,4.98108088464155,-1.80443448343928,11.2995259830367,871.923167432643
1494,3073,2001,"CMPD","China","China 021",24.79,121.43,1175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73365389494136,5774.33696734846,15.8201012804067,10.0565481811793,21.0304707820396,2033.59260654774
1494,3074,2002,"CMPD","China","China 022",24.83,121.37,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59682164455006,6820.74253184953,18.6869658406836,12.290168363949,24.6199441634852,1935.51020885613
1494,3075,2003,"CMPD","China","China 023",24.83,121.38,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6575618812471,6344.50696442803,17.3822108614467,11.2714816821882,22.9887449282081,1979.75960813512
1494,3076,2004,"CMPD","China","China 024",18.7,108.8,500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50152793112577,8318.50459195355,22.7904235395988,17.7628890487035,26.2792472552167,2024.8679263498
1494,3077,2005,"CMPD","China","China 025",24.79,121.43,1195,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73842299107735,5739.08203379199,15.7235124213479,9.98087741155223,20.910029158849,2036.79812370393
1494,3078,2006,"CMPD","China","China 026",25.53,110.14,300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35805075945619,6975.32952463615,19.1104918483182,8.55751046368047,28.098259960664,1540.68828460681
1494,3079,2007,"CMPD","China","China 027",22.38,114.33,-15,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58172426255309,8396.41311137556,23.0038715380152,15.2960562144577,28.9888778814777,2064.16427095636
1494,3080,2008,"CMPD","China","China 028",18.2,109.5,-1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45822189872847,9244.21616525679,25.3266196308405,20.1050602443197,28.7614361802781,1994.44369954461
1494,3081,2009,"CMPD","China","China 029",24.83,121.38,880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.66443455772168,6291.56581656754,17.237166620733,11.1581744090735,22.807467134244,1984.6392285326301
1494,3082,2010,"CMPD","China","China 030",18.7,108.82,450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.49163213598403,8407.51897985606,23.0342985749481,17.9405426854105,26.5533514539281,2013.10387596593
1494,3083,2011,"CMPD","China","China 031",24.83,121.38,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.64617714903991,6432.74221086219,17.6239512626361,11.4603271373793,23.290874584815,1971.62690747259
1494,3084,2012,"CMPD","China","China 032",25.68,100.1,3287,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.771351700926906,1926.8008219252,4.98910212446757,-1.79653857901002,11.3065409280346,872.102835759771
1494,3085,2013,"CMPD","China","China 033",26.31,100.17,2255,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.806403562827369,4954.61240812631,13.5742805702091,6.6056265444427,18.9324844381695,1044.80173166177
1494,3086,2014,"CMPD","China","China 034",24.79,121.43,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73246398395628,5783.15070073757,15.8442484951714,10.075465873586,21.0605811878373,2032.79122725869
1494,3087,2015,"CMPD","China","China 035",24.79,121.43,1260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.75402785053287,5624.50349973349,15.4095986294068,9.73494741026437,20.5185938834795,2047.21605446157
1494,3088,2016,"CMPD","China","China 036",25.95,113.03,140,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27723348561737,6537.91916984172,17.9121073146348,6.02576533751872,29.1972207585338,1451.21373435017
1494,3089,2017,"CMPD","China","China 037",19.7,109.49,20,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38505147151386,8975.08724378362,24.5892801199551,18.2150203271465,29.0226254767916,1832.93250840565
1494,3090,2018,"CMPD","China","China 038",22.47,113.3,-18,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.53808041945292,8347.75792777912,22.8705696651483,15.0908219138434,28.885670704541,1982.0185362509
1494,3091,2019,"CMPD","China","China 039",23.37,111.42,380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43360776309373,7177.01812960725,19.663063368787,10.2869481961343,27.3720315694935,1691.10691789612
1494,3092,2020,"CMPD","China","China 040",24.79,121.44,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76252447100706,5563.68600975063,15.2429753691798,9.60488044077111,20.3103589406868,2052.95371641333
1494,3093,2021,"CMPD","China","China 041",21.83,100.67,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951808487420802,8884.84987200854,24.342054443859,19.6776976064101,27.3146078850288,1413.6096250794
1494,3094,2022,"CMPD","China","China 042",26.45,106.75,1070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06446793553229,5743.09413795883,15.7345044875584,5.63302657344437,24.2946326232366,1145.76234517111
1494,3095,2023,"CMPD","China","China 043",24.78,121.44,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.80787619855071,5237.44531818909,14.3491652553126,8.9046053797808,19.1959309024332,2082.52197648255
1494,3096,2024,"CMPD","China","China 044",24.79,121.43,1240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.74920910240589,5659.75843328995,15.5061874884656,9.8106181798914,20.6390355066701,2044.01053730538
1494,3097,2025,"CMPD","China","China 045",25.68,100.1,3308,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.770471489689192,1880.46825273057,4.82065608812125,-1.96235257202455,11.1592270830786,868.329800890093
1494,3098,2026,"CMPD","China","China 046",23.55,116.63,5,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41278701685498,8224.05334289996,22.5316529942465,14.9424973119937,28.8464884379486,1813.26684577445
1494,3099,2027,"CMPD","China","China 047",19.6,110.7,45,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40854973565364,8898.19887755499,24.3786270617945,18.0899287103998,28.7762408425578,1860.65203019529
1494,3100,2028,"CMPD","China","China 048",19.8,109.2,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33439188561235,8910.12320791884,24.4112964600516,17.5090907814971,29.307333965896,1749.09810482759
1494,3101,2029,"CMPD","China","China 049",19.9,109.6,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3633610634035,8896.90726473636,24.375088396538,17.5668110617345,29.2176480981668,1782.73400673963
1494,3102,2030,"CMPD","China","China 050",19.8,109.2,1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33398251925263,8911.11799178706,24.414021895307,17.5071537972397,29.3137596180806,1748.45403155748
1494,3103,2031,"CMPD","China","China 051",23.33,113.13,-15,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.51303777633337,8333.5767243127,22.8317170529115,14.9076232520673,28.9177707979959,1920.00140956662
1494,3104,2032,"CMPD","China","China 052",26,105.76,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03229219651311,5536.56709602278,15.1686769754049,5.7158084065356896,22.8281104656243,1146.12731457196
1494,3105,2033,"CMPD","China","China 053",26.98,100.17,3262,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.750006964480161,2289.08850000483,6.08808098710097,-1.42916743440512,12.4325772831418,858.008471857097
1494,3106,2034,"CMPD","China","China 054",24.83,121.37,615,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60453415273091,6758.9469571331,18.5176628962551,12.1579160449402,24.4083450210458,1941.21317094301
1494,3107,2035,"CMPD","China","China 055",25.1,113.3,130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38934725663955,7426.91409981829,20.3477098625159,10.4569808897527,28.7522310124254,1659.31880132584
1494,3108,2036,"CMPD","China","China 056",24.78,121.44,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.78804230170778,5378.43947922067,14.7354506280018,9.20744129614832,19.6773429309028,2069.74162291748
1494,3109,2037,"CMPD","China","China 057",26.95,100.16,2948,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.768923232522288,3018.70852337751,8.27043431062332,0.963419852146615,14.3061140887246,911.948500529783
1494,3110,2038,"CMPD","China","China 058",26.95,100.2,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.782275864791205,3659.84032061066,10.026959782495,2.8792596068177,15.820376184961,953.428044801879
1494,3111,2039,"CMPD","China","China 059",21.2,110.2,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38334301443467,8539.31201823665,23.3953753924292,15.9395184520868,28.8924145996622,1744.90306443123
1494,3112,2040,"CMPD","China","China 060",22.37,114.33,-20,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5823382273934,8409.25183508626,23.039046123524,15.3422881388904,29.0129042831215,2066.31662538289
1494,3113,2041,"CMPD","China","China 061",22.27,114.03,-30,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55757110877083,8403.91603992757,23.0244275066509,15.3090083723205,28.9933052502207,2023.50719969241
1494,3114,2042,"CMPD","China","China 062",18.73,108.8,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.53206237784982,8052.82376061649,22.0625308510041,17.2430246242378,25.4583966707852,2060.7115777819
1494,3115,2043,"CMPD","China","China 063",26.96,100.17,3138,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.757496142485889,2551.15454214639,6.94537219677961,-0.488060310468943,13.1675387344182,879.246168970682
1494,3116,2044,"CMPD","China","China 064",26.76,100.26,2425,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.781321041471785,4452.71962270794,12.1992318430355,5.12215307675256,17.780715107375,985.821582363663
1494,3117,2045,"CMPD","China","China 065",26,105.76,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03229219651311,5536.56709602278,15.1686769754049,5.7158084065356896,22.8281104656243,1146.12731457196
1494,3118,2046,"CMPD","China","China 066",25.3,102.45,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811136880726588,5501.01659225381,15.0712783349419,7.83456327992798,20.4239897640463,1057.64393270128
1494,3119,2047,"CMPD","China","China 067",24.78,121.44,1460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.80289340605354,5272.69385844699,14.4457365984849,8.98031435887268,19.3162839095506,2079.32688809128
1494,3120,2048,"CMPD","China","China 068",19.8,109.2,-1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33316359624043,8913.10755952349,24.4194727658178,17.5032798287249,29.3266109224498,1747.16588501724
1494,3121,2049,"CMPD","China","China 069",19.6,109,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36124866143459,9040.72747483066,24.7691163693991,18.3590030331913,29.2037528137468,1808.46721490627
1494,3122,2050,"CMPD","China","China 070",24.79,121.44,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76859430755445,5519.64023538708,15.1223020147591,9.51033805749045,20.1598855169004,2056.95336156005
1494,3123,2051,"CMPD","China","China 071",23.1,112.27,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4094187010975,6923.08131587855,18.9673460709001,9.43377221778388,26.8352201230073,1642.52213443434
1494,3124,2052,"CMPD","China","China 073",18.7,108.8,950,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59213024685637,7519.40708838393,20.6011153106409,16.1759079096111,23.84256313553,2130.50728481841
1494,3125,2053,"CMPD","China","China 074",21.47,111.02,-10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44694974149872,8617.20855385049,23.6087905584945,16.2796443209369,29.0698919093214,1828.60536488721
1494,3126,2054,"CMPD","China","China 075",21.67,100.59,400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.971820089081182,9225.65462695355,25.2757661012426,20.4585957094633,28.2466838124345,1476.00354391867
1494,3127,2055,"CMPD","China","China 076",24.79,121.43,1220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.74440572463608,5695.01336684641,15.6027763475244,9.88628894951844,20.7594771298607,2040.80502014918
1494,3128,2056,"CMPD","China","China 077",25.1,113.3,120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38978990647,7449.24775644368,20.4088979628594,10.5340572893152,28.7894213576986,1660.85762224297
1494,3129,2057,"CMPD","China","China 078",24.83,121.38,876,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6635163753501,6298.62463628227,17.2565058528282,11.1732820454888,22.8316375067725,1983.98861247963
1494,3130,2058,"CMPD","China","China 079",18.69,110.23,19,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43018518874324,9042.58057582731,24.774193358431,18.9772981763851,28.7177584557775,1922.11694683869
1494,3131,2059,"CMPD","China","China 080",18.3,109.8,4,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42834267211229,9138.17234761674,25.0360886236075,19.4107504810401,28.8114148678909,1935.15387057358
1494,3132,2060,"CMPD","China","China 081",24.6,116.12,160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36379230315548,7711.5699620235,21.1275889370507,12.5115893792271,28.2876803224292,1686.11141201845
1494,3133,2061,"CMPD","China","China 082",20.2,110.15,180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42336674809762,8708.42683955733,23.8587036700201,17.8177202018841,28.0921121503813,1876.40825098718
1494,3134,2062,"CMPD","China","China 083",25.68,100.1,3307,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.770513370901181,1882.65615703825,4.82867732794726,-1.95445666759529,11.1662420280765,868.50946921722
1494,3135,2063,"CMPD","China","China 084",22.25,114.3,-25,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52683261750467,8416.7079940508,23.0594739563036,15.1410673099916,29.2177329058567,1989.02451684614
1494,3136,2064,"CMPD","China","China 085",18.3,109.6,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42492345808938,9163.09026392027,25.1043568874528,19.4951312888533,28.8570033982641,1933.32437027513
1494,3137,2065,"CMPD","China","China 086",24.79,121.44,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.77346779621164,5484.40361589625,15.0257633312226,9.43470415086593,20.0395067778712,2060.15307767743
1494,3138,2066,"CMPD","China","China 087",24.79,121.44,1290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76131342713766,5572.49516462333,15.2671100400639,9.62378891742724,20.3404536254441,2052.15378738399
1494,3139,2067,"CMPD","China","China 088",25.21,102.5,2200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.81209159353518,5032.85820775715,13.7886526239922,6.51322554449698,19.3334766503756,1045.94666474296
1494,3140,2068,"CMPD","China","China 089",23.37,111.42,280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43796061136302,7473.49143172241,20.4753189910203,11.4294832036194,27.7893894372644,1714.39584386905
1494,3141,2069,"CMPD","China","China 090",22.28,114.22,-30,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56866558168897,8415.0129718308,23.0548300598104,15.368019260582,29.0011771185158,2041.8703193119
1494,3142,2070,"CMPD","China","China 091",18.7,108.8,620,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52536902602229,8105.41192433498,22.2066080118767,17.3396940782789,25.6246507991757,2053.03842194143
1494,3143,2071,"CMPD","China","China 092",26,109.8,450,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31856256332407,6439.73076498843,17.6430979862697,6.69380654125657,27.2515318005611,1459.66343731397
1494,3144,2072,"CMPD","China","China 093",24.11,109.41,120,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30566604149576,7792.41815064863,21.3490908236949,11.9843762368151,28.7802581090443,1537.49217618595
1494,3145,2073,"CMPD","China","China 094",25.53,110.04,400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34796295841625,6713.12318713008,18.3921183209043,7.76529333863452,27.5184617502037,1515.05056348703
1494,3146,2074,"CMPD","China","China 095",25.4,114.7,250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33038457565002,7074.55437313603,19.3823407483179,8.86859119144483,28.5203878774352,1583.50164652304
1494,3147,2075,"CMPD","China","China 096",25.4,114.7,300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33360089961836,6980.23072311929,19.1239197893679,8.6045624272579,28.3027630899569,1582.93345106905
1494,3148,2076,"CMPD","China","China 097",24.83,121.38,874,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6630574952599,6302.15404613964,17.2661754688757,11.1808358636964,22.8437226930368,1983.66330445313
1494,3149,2077,"CMPD","China","China 098",22.5,108.1,130,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.21261609065558,8124.11948681427,22.2578616077103,13.7286304227387,28.6264934523059,1480.13640632516
1494,3150,2078,"CMPD","China","China 099",23.5,109.61,120,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31515845842825,7875.13789835189,21.5757202694572,12.5496779115037,28.6018428115836,1560.92929986171
1494,3151,2079,"CMPD","China","China 100",18.2,109.7,10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4638935288761,9208.82048826203,25.2296451733206,20.0072501210094,28.6772264376667,1999.39176230444
1494,3152,2080,"CMPD","China","China 101",24.83,121.37,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60122389118595,6785.43077486871,18.5902213010102,12.2145956102297,24.4990303678055,1938.76904433435
1494,3153,2081,"CMPD","China","China 102",19.5,110.8,4,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40739795662786,8928.8577634209,24.4626240093723,18.0460053697208,28.9685732886095,1855.1493386072
1494,3154,2082,"CMPD","China","China 103",23.35,113.1,18,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5054179052245,8233.74551690733,22.5582068956365,14.5049693357384,28.7928135095372,1900.83229220191
1494,3155,2083,"CMPD","China","China 104",26.25,105.91,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03920725967823,5550.73565166179,15.2074949360597,5.57515366308721,23.1132798459809,1141.31617765072
1494,3156,2084,"CMPD","China","China 105",24.83,121.37,540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58805609091923,6891.36604581116,18.8804549200306,12.4341181333114,24.8617717548447,1928.99253789969
1494,3157,2085,"CMPD","China","China 106",20.6,110.15,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41925963474774,8565.06506122521,23.4659316745896,17.1609119022013,27.9285833740389,1846.96492589716
1494,3158,2086,"CMPD","China","China 107",24.83,121.38,870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.66214015688686,6309.21286585437,17.2855147009709,11.1959435001117,22.8678930655654,1983.01268840013
1494,3159,2087,"CMPD","China","China 108",25.06,110.3,130,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3679086051597,7554.26368605275,20.696612838500702,10.6847319361702,28.9314217963755,1589.40753079733
1494,3160,2088,"CMPD","China","China 110",24.6,116.2,180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35913126638713,7664.53662485152,20.9987304790453,12.360244127708,28.1960614668796,1677.20341904068
1494,3161,2089,"CMPD","China","China 111",26,105.76,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03229219651311,5536.56709602278,15.1686769754049,5.7158084065356896,22.8281104656243,1146.12731457196
1494,3162,2090,"CMPD","China","China 112",26.95,100.18,2838,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.774882089448421,3303.0817387105,9.04953901016575,1.81322317122781,14.9775191097185,930.35570846803
1494,3163,2091,"CMPD","China","China 113",19.9,109.4,34,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37083505104189,8870.98466345119,24.3040675710992,17.6264323937495,29.0361944568522,1797.29920350804
1494,3164,2092,"CMPD","China","China 114",26,109.8,460,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31788423476625,6415.15237151529,17.5757599219597,6.62441854845672,27.1913366128008,1457.61110845073
1494,3165,2093,"CMPD","China","China 115",27.64,117.37,172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4213042009260899,6539.15237688724,17.9154859640746,6.2979606360844,28.6618396392656,1644.74031748154
1494,3166,2094,"CMPD","China","China 116",24.79,121.43,1190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73722929666005,5747.89576718111,15.7476596361126,9.99979510395899,20.9401395646466,2035.99674441488
1494,3167,2095,"CMPD","China","China 117",26.79,114.51,169,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2976441891289,6595.17371032424,18.0689690693815,6.16334470646744,29.0886600488847,1505.51036785356
1494,3168,2096,"CMPD","China","China 118",19.4,109.7,35,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39713378890443,8968.57002724306,24.5714247321728,18.3512038592007,28.8804602707578,1856.63205759052
1494,3169,2097,"CMPD","China","China 119",19.22,108.9,250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4487965471368,8734.19811756727,23.9293099111432,18.4519067373482,27.6701640406219,1949.20733634732
1494,3170,2098,"CMPD","China","China 120",19,108.6,10,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39955082278755,9196.39097995787,25.195591725912,19.3738010970799,29.0912819072254,1896.5090532251
1494,3171,2099,"CMPD","China","China 121",21.48,111.05,-20,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44744363979058,8640.77235614795,23.6733489209533,16.3666129925663,29.1130308610797,1830.94051243299
1494,3172,2100,"CMPD","China","China 122",22.38,114.32,-18,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58152870207053,8403.53043217338,23.0233710470504,15.3198477165203,29.0032196918848,2064.42406927668
1494,3173,2101,"CMPD","China","China 123",25.1,113.3,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38626005895877,7270.57850344055,19.9193931601111,9.91744609281498,28.4918985955137,1648.54705490588
1494,3174,2102,"CMPD","China","China 124",23.34,116.58,5,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42023449840999,8241.12872393637,22.5784348600996,15.0075472428427,28.8616589479045,1828.33235817544
1494,3175,2103,"CMPD","China","China 125",24.82,121.37,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.62338395004658,6609.075634544,18.1070565329973,11.8391263190997,23.892612945574,1955.21304500714
1494,3176,2104,"CMPD","China","China 126",25.53,110.04,520,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34027817790512,6392.93212929807,17.5148825460221,6.78304518167268,26.8388203264257,1489.6262257641
1494,3177,2105,"CMPD","China","China 127",25.25,102.51,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.814351618255484,5499.78520917854,15.0679046826809,7.89167483037092,20.3538635073513,1061.92347617679
1494,3178,2106,"CMPD","China","China 128",18.7,108.8,850,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57170684522126,7696.9843113994,21.0876282504093,16.528570384965,24.3825897002711,2107.03187182538
1494,3179,2107,"CMPD","China","China 129",25.72,118.1,1360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.48095486826963,4905.23138888013,13.4389901065209,3.06001973517145,22.8414696096149,1611.01476823261
1494,3180,2108,"CMPD","China","China 130",19.7,109.1,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35701287220219,9025.86502675881,24.7283973335858,18.2497711311032,29.2239955447612,1798.19076892791
1494,3181,2109,"CMPD","China","China 131",18.9,109.6,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60903562099184,7474.94590953037,20.479303861727,16.9971150459054,23.1520375628114,2195.23520244775
1494,3182,2110,"CMPD","China","China 132",24.82,121.47,1090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.71425263370025,5927.15718576767,16.2387868103224,10.3837424465597,21.5541703526165,2020.53772202975
1494,3183,2111,"CMPD","China","China 133",25.2,102.53,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819175246544582,5714.59705557914,15.6564302892579,8.55674511275024,20.7901404832619,1071.61584271363
1494,3184,2112,"CMPD","China","China 134",18.7,108.8,750,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55145337060056,7874.56153441487,21.5741411901777,16.8812328603188,24.9226162650122,2083.55645883236
1494,3185,2113,"CMPD","China","China 135",24.79,121.43,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.7588620520914,5589.24856617702,15.313009770348,9.65927664063734,20.3981522602888,2050.42157161777
1494,3186,2114,"CMPD","China","China 136",26.1,115.2,120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30318544613822,7009.60914056814,19.2044086042963,7.75265659255304,29.4197630484906,1541.44303937997
1494,3187,2115,"CMPD","China","China 137",25.22,102.52,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819021430526396,5715.81345361852,15.6597628866261,8.55883030214426,20.7948701557825,1071.51330675819
1494,3188,2116,"CMPD","China","China 138",24.82,121.47,1095,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.71542262088768,5918.3708156231,16.214714563351,10.3649183455664,21.5241037516296,2021.33685358197
1494,3189,2117,"CMPD","China","China 139",18.7,108.8,750,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55145337060056,7874.56153441487,21.5741411901777,16.8812328603188,24.9226162650122,2083.55645883236
1494,3190,2118,"CMPD","China","China 140",24.79,121.43,1285,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76007302685311,5580.43483278791,15.2888625555833,9.64035894823058,20.3680418544912,2051.22295090682
1494,3191,2119,"CMPD","China","China 141",21.2,110.2,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38680760354605,8508.29914368302,23.3104086128302,15.8262009866435,28.8363093436823,1746.74133292477
1494,3192,2120,"CMPD","China","China 142",24.83,121.37,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59243240148754,6856.05428883035,18.7837103803571,12.3657411176683,24.740857959165,1932.25137337791
1494,3193,2121,"CMPD","China","China 143",25.2,113.3,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38555736720478,7449.45180397636,20.409456997195502,10.4528778643582,28.89774401139,1652.54166740513
1494,3194,2122,"CMPD","China","China 144",18.93,109.99,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.54583168689838,7977.46406924915,21.8560659431484,17.748678945663,24.8297321758549,2106.35690276972
1494,3195,2123,"CMPD","China","China 145",18.83,109.7,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.54837966617159,7942.22431326966,21.7595186664922,17.5509518627046,24.8007510778114,2104.93992071087
1494,3196,2124,"CMPD","China","China 146",24,112.8,137,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44530107614864,7823.13580741335,21.4332487874338,12.7240535491557,28.3795931445902,1774.20291438038
1494,3197,2125,"CMPD","China","China 147",24.78,121.44,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.79297654425963,5343.19093896278,14.6388792848295,9.13173231705644,19.5569899237854,2072.93671130875
1495,3198,14206,"Neotoma","China Camp","CHINACMP",38.0075,-122.493333333333,0,"not known","coastal, other","core","-5","Goman, M., F. Malamud-Roam, and B.L. Ingram. 2008. Holocene environmental history and evolution of a tidal salt marsh in San Francisco Bay, California. Journal of Coastal Research 24(5):1126-1137. Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene C13 and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145.","10.2112/08A-0005;
10.1016/j.yqres.2004.02.011",20,"xerophytic woods/scrub",0.487861623667933,5460.91011722746,14.9613975814451,8.52675882339306,20.6596587673641,621.829356375908
1495,3198,14207,"Neotoma","China Camp","CHINACMP",38.0075,-122.493333333333,0,"not known","coastal, other","core","10","Goman, M., F. Malamud-Roam, and B.L. Ingram. 2008. Holocene environmental history and evolution of a tidal salt marsh in San Francisco Bay, California. Journal of Coastal Research 24(5):1126-1137. Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene C13 and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145.","10.2112/08A-0005;
10.1016/j.yqres.2004.02.011",20,"xerophytic woods/scrub",0.487861623667933,5460.91011722746,14.9613975814451,8.52675882339306,20.6596587673641,621.829356375908
1496,3199,2126,"CMPD","China North","China North-BE01",37.8886,111.431,1980,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.477129085430335,2309.14025874651,2.86726701467183,-12.9869130524513,16.6683408088565,489.390323412785
1496,3200,2127,"CMPD","China North","China North-BE02",40.5886,117.475,1660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.440612545086595,1716.24933330172,-1.545921750958,-20.0275588336129,14.6737087712766,390.444830550055
1496,3201,2128,"CMPD","China North","China North-BE03",42.443600000000004,117.228,1465,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.376279379920197,2434.4839776795,1.75268920615135,-17.3525156533051,18.413537446314,365.557362476202
1496,3202,2129,"CMPD","China North","China North-BH01",40.5547,117.487,1660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44051075457243,1714.65608287364,-1.55557702524903,-20.0400757712182,14.6663129670327,390.357968699014
1496,3203,2130,"CMPD","China North","China North-BH02",40.5472,117.491,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.443911779378802,1872.1407511662,-0.646112335764106,-19.0044775045923,15.4348206424914,399.676773998431
1496,3204,2131,"CMPD","China North","China North-BH03",36.1433,113.716,743,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.526151048913818,4209.41711578996,10.9406143410253,-3.74130147367112,23.7856558860769,580.759761160392
1496,3205,2132,"CMPD","China North","China North-BH04",37.3286,114.187,472,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.485903957317441,4430.61984581744,11.5146422001174,-3.99542119630856,24.7872666315061,543.448176732273
1496,3206,2133,"CMPD","China North","China North-BH05",40.5167,119.292,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429590213766616,2349.50882722712,1.76820690599179,-16.4041182064647,17.674223484483498,403.969061475831
1496,3207,2134,"CMPD","China North","China North-BH06",40.5139,119.295,1220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.438377689493301,2472.00447601375,2.4223409319511,-15.6580050668303,18.2184245961523,415.768903016403
1496,3208,2135,"CMPD","China North","China North-BH07",40.5172,119.293,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.447239709900801,2596.85332376091,3.0758268327191,-14.9095145009983,18.7604535659054,427.700995847072
1496,3209,2136,"CMPD","China North","China North-BH08",40.5169,119.289,1020,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.455964605572543,2724.59730934198,3.72962485855779,-14.1617384503958,19.3030243278072,439.620983885565
1496,3210,2137,"CMPD","China North","China North-BH09",40.5111,119.29,920,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.464459785965004,2855.60062673694,4.38415697457375,-13.4150727028503,19.8472889079906,451.451421995054
1496,3211,2138,"CMPD","China North","China North-BH10",40.1339,119.411,545,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.492410560550826,3406.82224825912,6.96805799297011,-10.5355378983298,21.9857361252147,495.813798923624
1496,3212,2139,"CMPD","China North","China North-BH11",40.5172,119.294,885,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.467472957458957,2901.79489959891,4.6118956551688,-13.1539554094203,20.0364703257898,455.591899174217
1496,3213,2140,"CMPD","China North","China North-BH12",36.1433,113.708,885,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522833290978868,4005.90213405324,10.223514293531,-4.43221382926642,23.0610521295148,574.11128525457
1496,3214,2141,"CMPD","China North","China North-CA01",37.8317,114.139,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.477305827727641,4047.30493550472,10.0643443100496,-5.69263196814907,23.5630800576323,525.7425927013
1496,3215,2142,"CMPD","China North","China North-CA02",36.1422,113.713,885,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522842066617533,4005.75045052235,10.2229522431742,-4.43285680972838,23.0604688400862,574.121711686658
1496,3216,2143,"CMPD","China North","China North-CA03",36.1422,113.715,887,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522796966525522,4002.82192403601,10.2125124655818,-4.44304830829357,23.0499579720034,574.027600141958
1496,3217,2144,"CMPD","China North","China North-DA01",38.7061,100.665,1699,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133725056574237,2854.86473081543,5.24771834467163,-10.7736800977821,19.0775220247456,143.797308557334
1496,3218,2145,"CMPD","China North","China North-DA02",38.7061,100.665,1699,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133725056574237,2854.86473081543,5.24771834467163,-10.7736800977821,19.0775220247456,143.797308557334
1496,3219,2146,"CMPD","China North","China North-DA03",38.7061,100.665,1699,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133725056574237,2854.86473081543,5.24771834467163,-10.7736800977821,19.0775220247456,143.797308557334
1496,3220,2147,"CMPD","China North","China North-DA04",38.72,100.387,1752,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134183816460231,2792.15711871216,5.01296087585218,-10.9336958747337,18.7610249187289,143.895394021184
1496,3221,2148,"CMPD","China North","China North-DA05",38.72,100.387,1752,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134183816460231,2792.15711871216,5.01296087585218,-10.9336958747337,18.7610249187289,143.895394021184
1496,3222,2149,"CMPD","China North","China North-DA06",38.72,100.387,1752,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134183816460231,2792.15711871216,5.01296087585218,-10.9336958747337,18.7610249187289,143.895394021184
1496,3223,2150,"CMPD","China North","China North-DB01",36.835,99.0028,3126,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.21700427123671,1710.28003299274,1.28482637551528,-12.1981971472162,12.9432390951376,230.551786065815
1496,3224,2151,"CMPD","China North","China North-DB02",36.835,99.0028,3126,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.21700427123671,1710.28003299274,1.28482637551528,-12.1981971472162,12.9432390951376,230.551786065815
1496,3225,2152,"CMPD","China North","China North-DB03",36.835,99.0028,3126,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.21700427123671,1710.28003299274,1.28482637551528,-12.1981971472162,12.9432390951376,230.551786065815
1496,3226,2153,"CMPD","China North","China North-DB04",37.3169,98.3033,3437,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182166854508132,1325.36236722276,-0.817302862314712,-14.2959711833736,11.1991680884023,188.206949279206
1496,3227,2154,"CMPD","China North","China North-DB05",37.3169,98.3033,3437,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182166854508132,1325.36236722276,-0.817302862314712,-14.2959711833736,11.1991680884023,188.206949279206
1496,3228,2155,"CMPD","China North","China North-DB06",37.3169,98.3033,3437,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182166854508132,1325.36236722276,-0.817302862314712,-14.2959711833736,11.1991680884023,188.206949279206
1496,3229,2156,"CMPD","China North","China North-DC01",36.9656,98.4114,3016,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186995643716943,2039.07175320345,2.72278736063609,-10.9802045983801,14.683965782709,208.601336525458
1496,3230,2157,"CMPD","China North","China North-DC02",36.9656,98.4114,3016,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186995643716943,2039.07175320345,2.72278736063609,-10.9802045983801,14.683965782709,208.601336525458
1496,3231,2158,"CMPD","China North","China North-DC03",36.9656,98.4114,3016,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186995643716943,2039.07175320345,2.72278736063609,-10.9802045983801,14.683965782709,208.601336525458
1496,3232,2159,"CMPD","China North","China North-DC04",38.9294,105.652,1505,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.171324529935021,3479.76878802064,7.49832747676691,-9.23148147389402,22.2025163376188,193.021516380438
1496,3233,2160,"CMPD","China North","China North-DC05",39.35,106.956,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180874717594398,3470.94479072265,7.26673790861414,-10.1331310952276,22.4745577311798,204.841425997643
1496,3234,2161,"CMPD","China North","China North-DD01",36.63,95.5167,3225,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123998416123698,2104.29338138098,2.71716587698997,-11.4375724501306,15.2911521464059,141.585958603883
1496,3235,2162,"CMPD","China North","China North-DD02",36.63,95.5167,3225,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123998416123698,2104.29338138098,2.71716587698997,-11.4375724501306,15.2911521464059,141.585958603883
1496,3236,2163,"CMPD","China North","China North-DD03",36.6139,98.7522,3585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.216802778337753,1221.07621222425,-1.19980196351219,-14.3919456099165,10.469020103585,222.172930466776
1496,3237,2164,"CMPD","China North","China North-DD04",36.6139,98.7522,3585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.216802778337753,1221.07621222425,-1.19980196351219,-14.3919456099165,10.469020103585,222.172930466776
1496,3238,2165,"CMPD","China North","China North-DD05",36.6139,98.7522,3585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.216802778337753,1221.07621222425,-1.19980196351219,-14.3919456099165,10.469020103585,222.172930466776
1496,3239,2166,"CMPD","China North","China North-DF01",36.3686,95.0331,2811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105410157478212,2591.58151932669,4.69597381495204,-9.95108886854937,17.5845096678107,124.159722621465
1496,3240,2167,"CMPD","China North","China North-DF02",36.3686,95.0331,2811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105410157478212,2591.58151932669,4.69597381495204,-9.95108886854937,17.5845096678107,124.159722621465
1496,3241,2168,"CMPD","China North","China North-DF03",36.3686,95.0331,2811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105410157478212,2591.58151932669,4.69597381495204,-9.95108886854937,17.5845096678107,124.159722621465
1496,3242,2169,"CMPD","China North","China North-DG01",36.0278,97.7894,3023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169457124277405,2170.58137500119,3.26065306579219,-10.5656095644774,15.3934743607836,195.652703442329
1496,3243,2170,"CMPD","China North","China North-DG02",36.0278,97.7894,3023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169457124277405,2170.58137500119,3.26065306579219,-10.5656095644774,15.3934743607836,195.652703442329
1496,3244,2171,"CMPD","China North","China North-DG03",36.0278,97.7894,3023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169457124277405,2170.58137500119,3.26065306579219,-10.5656095644774,15.3934743607836,195.652703442329
1496,3245,2172,"CMPD","China North","China North-DG04",38.955,105.653,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170162400892298,3490.83878046229,7.52899007506274,-9.24143239138938,22.2666597497047,191.85144139834
1496,3246,2173,"CMPD","China North","China North-DG05",39.1853,105.664,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.158195591375603,3606.04753340314,7.84260522723592,-9.37145427948595,22.9435236993463,179.605122881673
1496,3247,2174,"CMPD","China North","China North-DG06",39.3578,105.853,1260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150948631060735,3613.77934690621,7.75980764195552,-9.77654551585774,23.1402347165755,172.663306695987
1496,3248,2175,"CMPD","China North","China North-DH01",36.0286,97.9847,3145,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176044731710393,1998.26765781852,2.51407421062543,-11.1756709803504,14.5701003693679,200.23306003444
1496,3249,2176,"CMPD","China North","China North-DH02",36.0286,97.9847,3145,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176044731710393,1998.26765781852,2.51407421062543,-11.1756709803504,14.5701003693679,200.23306003444
1496,3250,2177,"CMPD","China North","China North-DH03",36.0286,97.9847,3145,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176044731710393,1998.26765781852,2.51407421062543,-11.1756709803504,14.5701003693679,200.23306003444
1496,3251,2178,"CMPD","China North","China North-DJ01",39.2389,106.847,1690,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.23982431310077,3181.2076874553,6.48270470567162,-9.78225383409281,20.7860403905278,263.913188763125
1496,3252,2179,"CMPD","China North","China North-DJ02",39.3622,107.108,1440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.201290385670788,3347.40561042451,6.88922275776809,-10.1360130150487,21.8107537029297,225.634667258792
1496,3253,2180,"CMPD","China North","China North-DJ03",38.4744,105.681,1390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.189865505669905,3502.42705121886,7.70954009277885,-8.79372181767135,22.141299316271,212.241404016092
1496,3254,2181,"CMPD","China North","China North-DJ04",38.6294,105.635,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.187136389413342,3497.69666712281,7.67186763600438,-8.8682422302132,22.1482867465753,209.09618759936
1496,3255,2182,"CMPD","China North","China North-DJ05",38.3728,105.959,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179475605502367,3640.41515462834,8.10498699957591,-8.87573728802622,22.8764201697098,203.268262576421
1496,3256,2183,"CMPD","China North","China North-DK01",39.4636,106.761,1130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164277743919161,3570.18602920204,7.55814930622316,-10.1664237226939,23.02527843775,187.349123069696
1496,3257,2184,"CMPD","China North","China North-DK02",39.4342,106.783,1180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169113707358621,3538.61525572892,7.46654237482726,-10.1495650161612,22.8474631800116,192.444540836994
1496,3258,2185,"CMPD","China North","China North-DK03",39.4222,106.83,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.171585064030911,3523.28543973359,7.41992112437441,-10.151019239152,22.7646850033741,195.05719671531
1496,3259,2186,"CMPD","China North","China North-EL01",37.6522,107.529,1175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240046681209832,3679.4962671652,8.28727620209474,-8.67780995062426,22.9596914549395,275.041892576208
1496,3260,2187,"CMPD","China North","China North-EL02",37.6522,107.529,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.238727291958133,3685.9507440637,8.30358289329536,-8.68811275997865,22.9940360919845,273.764865395199
1496,3261,2188,"CMPD","China North","China North-F01",39.0553,114.737,360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.462891963447012,4356.93749702276,11.0093151064574,-5.34695160115579,24.9754856315421,508.030153538693
1496,3262,2189,"CMPD","China North","China North-HA01",39.35,106.956,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180874717594398,3470.94479072265,7.26673790861414,-10.1331310952276,22.4745577311798,204.841425997643
1496,3263,2190,"CMPD","China North","China North-HA02",39.2214,107.185,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.202851894670801,3424.67795457777,7.20806124400773,-9.85225263813416,22.1291643100552,227.594892418125
1496,3264,2191,"CMPD","China North","China North-HA03",39.1519,108.018,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.248951971720668,3316.37596458255,6.84022298712042,-10.012870814761,21.6064852616327,277.571365447013
1496,3265,2192,"CMPD","China North","China North-HB01",38.3789,105.959,1205,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179939312149423,3636.44144337431,8.09295589335766,-8.87639498158147,22.8564950102828,203.72312671346
1496,3266,2193,"CMPD","China North","China North-HB02",39.2375,107.512,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.232945852614267,3331.02641580456,6.89914932961259,-9.96797332636067,21.6726745132478,259.526684200225
1496,3267,2194,"CMPD","China North","China North-HB03",39.1772,107.931,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271568529646029,3169.88249851591,6.37716976412957,-10.0703311226787,20.874972951409,298.637575925186
1496,3268,2195,"CMPD","China North","China North-HC01",39.6069,108.543,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.257834002504391,3325.76112823749,6.83246269201752,-10.1218935303372,21.6556230975401,288.592527514037
1496,3269,2196,"CMPD","China North","China North-HD01",37.7747,107.043,1375,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.253768619448375,3424.36094454928,7.56751005154497,-8.56092286359105,21.6803539825032,282.023805653187
1496,3270,2197,"CMPD","China North","China North-HD02",38.1947,106.572,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210523962753134,3559.60855365099,7.9292040311686796,-8.69325721107742,22.371499851471,236.517878756847
1496,3271,2198,"CMPD","China North","China North-HD03",38.6747,105.763,1830,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.238025958801928,3178.17182040641,6.76410941466433,-8.7206700255986,20.41023085763,259.413059422474
1496,3272,2199,"CMPD","China North","China North-HD04",38.3531,105.86,1495,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.211995961100697,3413.4936119987,7.47640780821576,-8.70655034182589,21.6451347205857,235.453691182905
1496,3273,2200,"CMPD","China North","China North-HD05",38.4111,105.734,1570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.211707799530636,3345.24795018265,7.27836477799251,-8.67637149165164,21.2714792411705,233.213712007038
1496,3274,2201,"CMPD","China North","China North-HD07",39.3297,108.212,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.25393452877464,3290.47220480156,6.72738898624062,-10.1253694633449,21.4907520371201,282.924155660871
1496,3275,2202,"CMPD","China North","China North-HG01",39.8536,109.666,1510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.259658977558498,3227.07325205753,6.16471553038548,-11.3651268281397,21.5024996115366,294.147171271201
1496,3276,2203,"CMPD","China North","China North-HG02",39.7817,110.151,1530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.262145147554755,3164.31568033971,5.83362179046254,-11.8352083697321,21.2917980208333,296.709563827552
1496,3277,2204,"CMPD","China North","China North-HG03",39.795,110.822,1245,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.329026932988068,3332.92266917152,6.63387045455635,-10.9842584251057,21.6986167213322,364.232770641436
1496,3278,2205,"CMPD","China North","China North-HJ01",39.7217,108.62,1440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.257575437944435,3335.51872701461,6.85244320457792,-10.1548158888125,21.7130896321397,288.497750813123
1496,3279,2206,"CMPD","China North","China North-HJ02",39.1147,107.951,1530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268085146250171,3191.24149628152,6.45196134989815,-10.0363646593789,20.9775222874006,295.498615781842
1496,3280,2207,"CMPD","China North","China North-HK01",41.5544,112.298,1540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.300896810567313,2795.91119597551,4.00471993551325,-14.0261891974292,19.8249638023511,320.132901553102
1496,3281,2208,"CMPD","China North","China North-HK02",42.0503,116.318,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.392102863522613,2640.3621618898,2.97045652643469,-15.7583734537677,19.1761772780869,384.646093848313
1496,3282,2209,"CMPD","China North","China North-HK03",40.9892,111.566,1850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.291348266236099,2564.8750647824,2.95899566463406,-14.959670052544,18.8204052444466,311.802949372374
1496,3283,2210,"CMPD","China North","China North-HL01",41.7208,111.774,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.275589208699859,2882.29774692005,4.22254372408038,-14.202600045798,20.3878522306836,296.63227894515
1496,3284,2211,"CMPD","China North","China North-HL02",41.7025,111.769,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.279406667180878,2860.800422583,4.15920732727012,-14.1908746335869,20.2605296183595,300.216356039429
1496,3285,2212,"CMPD","China North","China North-HL03",41.255,112.945,1630,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.322392758756104,2712.02469384109,3.80621725943019,-13.8063398661034,19.2782334345475,340.236262532514
1496,3286,2213,"CMPD","China North","China North-HR01",42.51,117.237,1520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370146077457469,2402.29347183257,1.53663056114358,-17.6851805331717,18.2964853004853,359.979563720626
1496,3287,2214,"CMPD","China North","China North-HR02",41.9117,115.868,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.373892095492412,2662.26450054049,3.03554375853263,-15.7716065001878,19.2934415567299,371.638397013972
1496,3288,2215,"CMPD","China North","China North-HR03",41.3386,112.864,1640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.322626462690104,2705.90873871557,3.78263842108927,-13.8201528655062,19.2486178201178,340.132891069958
1496,3289,2216,"CMPD","China North","China North-HS01",38.6711,105.845,2290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.290652999564455,2834.41872037191,5.78145205136077,-8.53525111884089,18.530359072856,307.571580772064
1496,3290,2217,"CMPD","China North","China North-HS02",38.6794,105.813,2175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.276640036876532,2921.75116920546,6.03268627887312,-8.58054728251253,19.0063461452448,294.991908441122
1496,3291,2218,"CMPD","China North","China North-HS03",41.9692,116.009,1390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36906868900082,2603.17634670395,2.70132269724575,-16.2236075908986,19.0581374529896,366.106198049948
1496,3292,2219,"CMPD","China North","China North-HY01",38.3064,106.48,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.185395140961053,3642.21095682352,8.0971021764897,-8.97630106369006,22.9036326568615,210.381732189722
1496,3293,2220,"CMPD","China North","China North-HY02",39.6708,108.628,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.202328281828883,3504.74083330731,7.08339278386261,-11.1804808022193,22.9351393759526,231.536953965963
1496,3294,2221,"CMPD","China North","China North-HY03",39.3314,108.212,1455,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.254858941685822,3287.31088637434,6.71972999192907,-10.1182224990527,21.4716639531068,283.83579710709
1496,3295,2222,"CMPD","China North","China North-HZ01",41.4506,114.954,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.363595813559488,2769.74237982429,3.77615936452704,-14.4728083103716,19.6208420454075,369.617831062806
1496,3296,2223,"CMPD","China North","China North-HZ02",41.5636,115.033,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361628643073145,2756.9588170636,3.68242822456744,-14.6434320856951,19.5890122408844,367.071060923314
1496,3297,2224,"CMPD","China North","China North-HZ03",41.5869,115.488,1375,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370848066244805,2676.2128604866,3.24320734164524,-15.2478732804485,19.2515229791193,372.197555062311
1496,3298,2225,"CMPD","China North","China North-HZ05",42.5092,117.239,1520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.3701743052452,2402.20869356205,1.53650758863423,-17.6845644351059,18.2959647807526,360.004037726249
1496,3299,2226,"CMPD","China North","China North-J01",39.7517,114.818,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.424376863029276,2531.28037906047,3.11969125622843,-14.3070888316705,18.1987150341074,426.584530920628
1496,3300,2227,"CMPD","China North","China North-J02",37.5011,110.304,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406988383318231,4452.70105739418,11.36400380103,-5.07874274703765,25.178985473993,467.997808488328
1496,3301,2228,"CMPD","China North","China North-J03",37.4083,109.26,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.39271669855943,3688.16327396268,8.6293315605987,-7.48349837236485,22.4319997016159,439.073292894162
1496,3302,2229,"CMPD","China North","China North-J04",37.5131,107.822,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.316574282094713,3506.52349129358,7.88984666861322,-8.25034868088578,21.9696517875183,353.782002269243
1496,3303,2230,"CMPD","China North","China North-J05",37.5706,108.651,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361017735925887,3525.45553296747,8.00665839180821,-8.04330623523746,21.9093493801852,401.32694580741
1496,3304,2231,"CMPD","China North","China North-J06",37.7081,107.341,1245,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.250721906591512,3590.0386870439,8.05744542095733,-8.55475094064457,22.486892093001,283.741909267861
1496,3305,2232,"CMPD","China North","China North-J07",39.0214,113.515,2740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.438888586668273,1417.37086387701,-2.39960403176623,-19.6465660961662,12.6787327765972,420.348888699959
1496,3306,2233,"CMPD","China North","China North-JA01",40.5669,117.472,1375,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44925241361185,2135.72799502712,0.81269658749624,-17.3432541626875,16.667444582753,414.536356193168
1496,3307,2234,"CMPD","China North","China North-JA02",40.5603,117.489,1050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.45916799067508,2655.40296945391,3.50019126241944,-14.2817390675433,18.9377779793728,442.124614727775
1496,3308,2235,"CMPD","China North","China North-LA01",37.8531,111.464,1660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.456176452172949,2783.30284591011,4.96522740479863,-11.0285978829088,18.7752804034067,483.033549985327
1496,3309,2236,"CMPD","China North","China North-LA02",38.9886,113.499,2245,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.44176786890136,1930.17853347948,0.483479313811823,-16.5166267186641,15.2668557216034,439.071739151741
1496,3310,2237,"CMPD","China North","China North-LA03",39.0175,113.508,2275,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.441093137169463,1896.20224845048,0.295905843045479,-16.7325597436781,15.1083305307644,437.303367698398
1496,3311,2238,"CMPD","China North","China North-LA04",40.5994,117.48,1790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.436602996679998,1536.85458972145,-2.62203745880928,-21.2512957564791,13.7637117751955,379.466331535864
1496,3312,2239,"CMPD","China North","China North-LA05",42.46,117.276,1520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.380019802630101,2347.30512903971,1.31249134810942,-17.8188363507674,18.0005871434924,366.355285690315
1496,3313,2240,"CMPD","China North","China North-LA06",40.9892,111.566,1845,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.291415503434237,2569.50608406067,2.98080982371842,-14.9398349855002,18.8408823691285,311.921151658155
1496,3314,2241,"CMPD","China North","China North-O1",40.9297,111.553,1460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.297881172458842,2938.95033155081,4.68253889033118,-13.3729579926406,20.4185914849396,322.48606551848
1496,3315,2242,"CMPD","China North","China North-O2",40.5992,117.9,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.477609293956981,3256.31237492595,6.3455968921164,-11.057044740883,21.345309731389,477.218936417983
1496,3316,2243,"CMPD","China North","China North-PA01",38.6644,105.844,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.30384322694656,2752.90136405404,5.55037666641462,-8.48043943079315,18.0782774260288,319.154783801162
1496,3317,2244,"CMPD","China North","China North-PA02",38.6703,105.841,2305,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.292376899774415,2823.56173370749,5.75124728526604,-8.52627782488862,18.4692189517184,309.08633295184
1496,3318,2245,"CMPD","China North","China North-PA03",37.8669,111.452,1760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.462383247958638,2631.41262784748,4.30919559548243,-11.6440481842481,18.118250453288,484.898458517568
1496,3319,2246,"CMPD","China North","China North-PA04",37.8681,111.45,1820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.466281084482047,2542.32796711258,3.918409503921,-12.0079024299877,17.7250364209802,486.140006392626
1496,3320,2247,"CMPD","China North","China North-PA05",37.8767,111.442,1860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.468912142381864,2482.9704733116,3.65408657099706,-12.2552275830426,17.4601014997682,486.898209128571
1496,3321,2248,"CMPD","China North","China North-PA06",42.4025,117.274,1470,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.384603568299096,2385.38347070014,1.55098469224443,-17.4727559919736,18.1548764022556,370.907559383513
1496,3322,2249,"CMPD","China North","China North-PA07",38.1533,100.242,2804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.176764755456506,1539.02118865824,-0.010868449388403,-14.1953286789156,12.3801870840625,174.770713348325
1496,3323,2250,"CMPD","China North","China North-PA08",38.1533,100.242,2804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.176764755456506,1539.02118865824,-0.010868449388403,-14.1953286789156,12.3801870840625,174.770713348325
1496,3324,2251,"CMPD","China North","China North-PA09",38.1533,100.242,2804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.176764755456506,1539.02118865824,-0.010868449388403,-14.1953286789156,12.3801870840625,174.770713348325
1496,3325,2252,"CMPD","China North","China North-PH01",40.1306,119.426,945,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.454934670878687,2864.33521171273,4.36941163154919,-13.6627035869793,19.8689160681184,444.125001286766
1496,3326,2253,"CMPD","China North","China North-PH02",40.1306,119.425,865,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.462565921615981,2968.44648436919,4.88846750663814,-13.038195924155,20.2918222628315,454.462005713013
1496,3327,2254,"CMPD","China North","China North-PH03",40.1333,119.414,745,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473957699046232,3128.57404796869,5.66815424922883,-12.0990271416485,20.9262605772615,470.040466861283
1496,3328,2255,"CMPD","China North","China North-PH04",40.1339,119.434,445,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.501572765568931,3549.56955795349,7.60931470431007,-9.7651412034097,22.5093901506381,508.662247953382
1496,3329,2256,"CMPD","China North","China North-PH05",40.5653,117.475,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.446976555887584,2021.60779687658,0.190191310242306,-18.0521348737498,16.1414223331628,408.182114858634
1496,3330,2257,"CMPD","China North","China North-PH06",40.5611,117.497,1260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.452888131983924,2313.31392312471,1.75737787956596,-16.2659191983971,17.464955951059,424.327110703534
1496,3331,2258,"CMPD","China North","China North-PH07",40.5639,117.478,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.450038167652886,2173.78406161227,1.01762317102837,-17.1095609494697,16.8404630102942,416.659932958557
1496,3332,2259,"CMPD","China North","China North-PH08",40.5994,117.48,1750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.437870346598964,1591.1983379641,-2.29092164047689,-20.8742982287792,14.0435326953756,382.852857802601
1496,3333,2260,"CMPD","China North","China North-PI01",42.435,117.267,1515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.38039523780909,2352.4637724752,1.34451801224076,-17.7741700992699,18.0214022326953,366.86659635559
1496,3334,2261,"CMPD","China North","China North-PI02",42.4014,117.3,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.386705356604313,2398.66583932942,1.63672086881538,-17.3415479404511,18.2078210825952,372.798588504106
1496,3335,2262,"CMPD","China North","China North-PI03",40.1306,119.426,645,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.483170455830397,3265.51296339564,6.31564088548036,-11.3213634761621,21.4549161720799,482.852188027281
1496,3336,2263,"CMPD","China North","China North-PI04",40.5828,117.849,590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.479870440080745,3410.70665881918,7.03251623420564,-10.2795876580777,21.9257359317346,484.345174174832
1496,3337,2264,"CMPD","China North","China North-PI05",40.8783,111.584,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.305342269894528,3234.61081855012,5.98856060643756,-12.1414388462936,21.5973710141642,332.928376846918
1496,3338,2265,"CMPD","China North","China North-PO01",40.5881,117.474,1620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.441849745685598,1773.05448784882,-1.21445369665719,-19.6502530692654,14.9538636749301,393.830244974477
1496,3339,2266,"CMPD","China North","China North-PO02",40.5883,117.483,1620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.441907542301752,1772.46543499476,-1.21758522736592,-19.6527825535468,14.9508448929696,393.833372645192
1496,3340,2267,"CMPD","China North","China North-PO03",37.4953,108.215,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.329244780997459,3544.37786294009,8.01924255528797,-8.18938393378577,22.1097458682661,368.978693520751
1496,3341,2268,"CMPD","China North","China North-PO04",40.5636,111.511,1020,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.348789843873649,3478.57710587779,7.23117129942382,-10.4747775395311,22.2098313736383,379.576733804572
1496,3342,2269,"CMPD","China North","China North-PT01",37.8297,114.137,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.475014420502252,4318.22402269566,11.0413608677107,-4.74143022650976,24.5195811381287,528.439074608269
1496,3343,2270,"CMPD","China North","China North-PT02",37.8317,114.139,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.476004662046489,4196.83352848836,10.606647177382,-5.16506617587342,24.0943112015306,527.226281539522
1496,3344,2271,"CMPD","China North","China North-QU01",37.8492,111.469,1635,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.454681304243676,2821.7999081849,5.12942841177851,-10.8739789624896,18.939397152505,482.595385383208
1496,3345,2272,"CMPD","China North","China North-QU02",40.5631,117.476,1360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.449715941839258,2158.48365273115,0.935332665924297,-17.2034907471461,16.7710231057269,415.80766139235
1496,3346,2273,"CMPD","China North","China North-QU03",40.5628,117.475,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.451528564263383,2251.74298345321,1.432767187369,-16.6370066138321,17.1913465193963,420.89102546971
1496,3347,2274,"CMPD","China North","China North-QU04",40.5611,117.486,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.455832120700227,2474.36716830462,2.58944009518707,-15.3190435467235,18.1683304628316,432.785030446376
1496,3348,2275,"CMPD","China North","China North-QU05",37.2364,113.876,960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.50278555400948,3765.61064899318,9.21869469894255,-5.88183660953612,22.3147624473231,546.776848509002
1496,3349,2276,"CMPD","China North","China North-QU06",37.4353,114.03,1728,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.507430598630172,2712.97612855701,5.04641509007883,-9.99024090447047,18.2498870790708,526.877086257085
1496,3350,2277,"CMPD","China North","China North-QU07",37.4822,114.032,1564,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.503416614406949,2916.27910886674,5.8700244448508,-9.25051053426384,19.0972572520439,528.102509367025
1496,3351,2278,"CMPD","China North","China North-QU08",37.4822,114.03,1568,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.503497526286095,2911.22310573865,5.84961134447932,-9.26937163526613,19.0766034282934,528.055282031502
1496,3352,2279,"CMPD","China North","China North-QU09",37.4356,114.031,1730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.507474060873951,2710.46214013419,5.03597439994672,-9.9999985868052,18.2393672820986,526.850370257206
1496,3353,2280,"CMPD","China North","China North-QU10",36.1456,113.719,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.528536662626237,4358.38582314118,11.4556440321277,-3.24553492135264,24.3062872774634,585.494400742901
1496,3354,2281,"CMPD","China North","China North-QU11",36.1667,113.746,677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.527426675315789,4303.29364687591,11.2645271692838,-3.4369377370087,24.1160180518149,583.449487092953
1496,3355,2282,"CMPD","China North","China North-QU12",36.1667,113.749,678,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.527397871858828,4301.70639461745,11.2589770531182,-3.44256609160949,24.110511994663,583.396905531301
1496,3356,2283,"CMPD","China North","China North-QU13",36.1542,113.753,494,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.532469939508134,4553.06138391472,12.1045302841745,-2.67967936926206,24.9914454511137,592.770284545446
1496,3357,2284,"CMPD","China North","China North-SA01",37.9828,106.651,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.209335077076579,3581.80065228056,8.0064965537856,-8.65394807275429,22.4659702415611,236.091332645388
1496,3358,2285,"CMPD","China North","China North-SA02",39.35,106.956,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180874717594398,3470.94479072265,7.26673790861414,-10.1331310952276,22.4745577311798,204.841425997643
1496,3359,2286,"CMPD","China North","China North-SA03",37.4042,109.26,1050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.402632573276587,3850.41098177796,9.17179985692393,-7.20301605189643,23.0512538204817,453.808808028012
1496,3360,2287,"CMPD","China North","China North-SA04",37.5011,110.304,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406988383318231,4452.70105739418,11.36400380103,-5.07874274703765,25.178985473993,467.997808488328
1496,3361,2288,"CMPD","China North","China North-SC01",39.2622,107.136,1360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.194776040585633,3398.45696433208,7.05218980791763,-10.116026651052,22.0784408607308,219.308861199809
1496,3362,2289,"CMPD","China North","China North-SD",38.6581,105.824,2168,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.277088354565182,2924.07927983308,6.0425190368899,-8.57203375886623,19.0187057786654,295.462286495763
1496,3363,2290,"CMPD","China North","China North-SG01",37.9569,106.655,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.213702989861898,3560.93409586354,7.9520673704641,-8.62647144391794,22.3552471174052,240.491891770592
1496,3364,2291,"CMPD","China North","China North-SK01",37.7747,107.043,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.241676935533474,3478.47029679962,7.71222161045753,-8.62422584094148,21.9615343480216,270.411232943403
1496,3365,2292,"CMPD","China North","China North-SK02",37.7125,106.894,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.237910690266829,3592.56462522503,8.12948498182344,-8.32415304168876,22.4135606056459,267.9103894968
1496,3366,2293,"CMPD","China North","China North-SK03",37.7125,106.894,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.299206156903599,3281.87015307959,7.2747294985586,-8.07585433777603,20.8327000893587,324.690134892065
1496,3367,2294,"CMPD","China North","China North-SL01",40.5039,107.594,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.166124877357504,3315.40530010621,6.35275235921948,-11.6321574448024,22.1549966448763,190.76139829241
1496,3368,2295,"CMPD","China North","China North-SL02",42.8111,117.304,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.386140902402205,2329.85080829557,1.20517706093828,-17.9591547553396,17.9236691830217,368.573795711139
1496,3369,2296,"CMPD","China North","China North-SM01",37.8483,106.734,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.22095031303427,3532.6830040508,7.88109147223412,-8.58084192451377,22.2036938896233,248.070545978902
1496,3370,2297,"CMPD","China North","China North-SM02",37.7294,107.353,1255,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.253152921556998,3575.55719608688,8.01590261331194,-8.55072040735536,22.4156364654883,285.953506960679
1496,3371,2298,"CMPD","China North","China North-SS01",39.7986,111.451,1430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.355555944509937,3047.99431641706,5.49616048665069,-11.9164540921277,20.4737945050675,385.406435853055
1496,3372,2299,"CMPD","China North","China North-SS02",37.8314,111.486,1610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.453379376642479,2861.36139256072,5.29934103474378,-10.7082673112375,19.1054680411735,482.41510317808
1496,3373,2300,"CMPD","China North","China North-ST01",40.4603,111.449,1010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349038791993703,3503.34806436074,7.33845023961284,-10.3574881406914,22.2947766288084,380.792849513327
1496,3374,2301,"CMPD","China North","China North-ST02",40.46,111.447,1010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349009247425309,3503.46757080392,7.33892367951657,-10.3570282587013,22.2953117468943,380.769464754676
1496,3375,2302,"CMPD","China North","China North-ST03",37.5142,108.871,1460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.359126548274415,3317.75296924233,7.37000718322888,-8.10009318535263,21.0075198685868,393.082325284531
1496,3376,2303,"CMPD","China North","China North-ST04",40.7958,113.279,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370454481735609,2991.76002661247,5.08824301074708,-12.557875675057,20.3526201760542,386.737069778001
1496,3377,2304,"CMPD","China North","China North-SX",37.9086,111.395,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.444146849160103,3061.36759938692,6.11369520484571,-9.98840331917351,19.9496056061438,477.954408003463
1496,3378,2305,"CMPD","China North","China North-SZ02",37.9325,113.928,530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.47421802416346,4269.81935471552,10.8635248759383,-4.93200570762385,24.3585205264729,526.295569252102
1496,3379,2306,"CMPD","China North","China North-SZ03",37.8303,114.138,590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.476141469858174,4181.90194243407,10.5530385514,-5.21668912980881,24.0413963327466,527.097297850392
1496,3380,2307,"CMPD","China North","China North-T01",40.5039,117.594,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.474892984860826,3546.98435831899,7.62597198532109,-9.58525604401796,22.4220761783175,485.217095667118
1496,3381,2308,"CMPD","China North","China North-T02",39.4072,114.755,870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.451662021355114,3479.51627482968,7.48286379015912,-9.36967724466064,21.9641573277778,475.98419988209
1496,3382,2309,"CMPD","China North","China North-T03",37.9472,114.071,260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.471357074903649,4684.65848926706,12.3150598852842,-3.52603703808412,25.7866557949521,530.372205332736
1496,3383,2310,"CMPD","China North","China North-T04",37.1244,114.247,228,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.49417910823502,4840.03481839763,12.9368864012101,-2.49809718102559,26.1171423412871,559.020249399721
1496,3384,2311,"CMPD","China North","China North-T05",37.1933,114.157,386,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495160173035159,4595.76738777708,12.1233555175763,-3.24675820691402,25.2894728004022,555.453724676933
1496,3385,2312,"CMPD","China North","China North-U01",38.9986,112.501,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.432444258548121,3067.30118695604,5.93942606994893,-10.6242905716999,20.1578719254454,461.005476306461
1496,3386,2313,"CMPD","China North","China North-U02",41.1903,113.001,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.321124830622656,2762.51428442385,3.96749700034428,-13.8089800495251,19.5533387998623,339.481481429886
1496,3387,2314,"CMPD","China North","China North-U03",39.8183,114.805,1210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.433376572640876,2968.80367298594,5.1849408548879,-12.0166545707835,20.0383511713907,444.913336264878
1496,3388,2315,"CMPD","China North","China North-U04",39.8322,114.803,1165,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.434593720021251,3028.58304419167,5.45659714134817,-11.715469186232,20.2805973183622,447.305058122961
1496,3389,2316,"CMPD","China North","China North-U05",38.6531,105.848,2650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.334612467999948,2567.78952178329,5.02225228033889,-8.36096027864018,17.0512285716481,345.496721099943
1496,3390,2317,"CMPD","China North","China North-U06",37.5531,111.942,810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.454322782805838,4164.49831856773,10.5907455612166,-4.84391597949052,23.8951113354464,507.765163817673
1496,3391,2318,"CMPD","China North","China North-UL01",37.7608,107.384,1195,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.215229549652364,3622.62950981368,8.00383522168853,-9.12872437232031,22.8187806462698,246.790642390116
1496,3392,2319,"CMPD","China North","China North-UL02",38.6667,105.8,2010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.258570270606512,3042.81149172349,6.38012798978559,-8.64224372329343,19.6695776830017,278.581713987305
1496,3393,2320,"CMPD","China North","China North-W01",40.5989,117.479,2060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.427829241200205,1191.54613958203,-4.8567950778735,-23.7959455445493,11.8752289111193,356.607358950723
1496,3394,2321,"CMPD","China North","China North-W02",40.5989,117.479,2080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.427163018280737,1167.6071887507,-5.02235290774103,-23.9844475889442,11.7353193940951,354.914167021716
1496,3395,2322,"CMPD","China North","China North-W03",38.645,105.844,2683,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.339211382852494,2542.66014470132,4.95294139602579,-8.33692664928586,16.9093166186502,349.351042438707
1496,3396,2323,"CMPD","China North","China North-W04",39.0214,113.514,2840,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.438490987927809,1321.98910569794,-2.97728477895488,-20.2703223044857,12.1574990729403,416.71217522742
1496,3397,2324,"CMPD","China North","China North-W05",39.0239,113.513,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.438547742265772,1359.98874432739,-2.74577556768407,-20.0212533856192,12.3672013791319,418.087435431251
1496,3398,2325,"CMPD","China North","China North-W06",37.46,100.912,3314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238952841521594,1212.96413710712,-1.05126922201797,-14.102078435411,10.3125069322263,232.626295183033
1496,3399,2326,"CMPD","China North","China North-W07",37.46,100.912,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.235664312636252,1322.26728455218,-0.54622197366834,-13.7383403033479,10.9309708758039,231.150569296005
1496,3400,2327,"CMPD","China North","China North-W08",37.46,100.912,2811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.225391322050041,1695.80749100858,1.10160167560799,-12.5515675843286,12.9488405222221,226.335700935786
1496,3401,2328,"CMPD","China North","China North-W09",37.6061,101.28,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245094703791559,1362.80360794785,-0.257532743823773,-13.2936321061914,11.1175522069727,240.681743647655
1496,3402,2329,"CMPD","China North","China North-W10",37.6061,101.28,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245094703791559,1362.80360794785,-0.257532743823773,-13.2936321061914,11.1175522069727,240.681743647655
1496,3403,2330,"CMPD","China North","China North-W11",37.6061,101.28,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245094703791559,1362.80360794785,-0.257532743823773,-13.2936321061914,11.1175522069727,240.681743647655
1497,3404,10638,"BIOME6000 Japan","Chippubetsu bog","D1007",43.75,141.95,40,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.66088120678818,3005.15779459911,6.80465660625524,-6.43082415584896,20.4407193632807,1196.15363761203
1498,3405,10842,"Bush et al., 2020","Chiriqui","Chiriqui",8.7991,-82.492161,1953,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.36592605055748,6052.92154969893,16.5833467115039,15.4178511330349,17.2971622087351,3879.55173188973
1498,3405,10843,"Bush et al., 2020","Chiriqui","Chiriqui",8.800242,-82.508768,2586,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.6378851896224,4898.38606116513,13.4202357840141,11.859932697469,14.3658585159336,4257.56694453706
1498,3405,10844,"Bush et al., 2020","Chiriqui","Chiriqui",8.802673,-82.516134,2586,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.63812955655803,4899.74375190467,13.4239554846703,11.8639684739426,14.3693086648521,4258.31074294406
1498,3405,10845,"Bush et al., 2020","Chiriqui","Chiriqui",8.81,-82.51,2530,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61287709583965,5001.73141316144,13.7033737346889,12.1791867419652,14.627399428488,4223.67266975361
1498,3405,10846,"Bush et al., 2020","Chiriqui","Chiriqui",8.82,-82.48776,1856,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.32541507749563,6230.8277125289,17.0707608562436,15.9670224658076,17.7921442662908,3820.9846224685
1499,3406,12391,"Neotoma","Chism 1","CHISM1",54.799444,-76.145556,340,"not known","lake","core","0","Richard, P.J.H. 1979. Contribution à l'histoire postglaciaire de la végétation au nord-est de la Jamésie, Nouveau-Québec. Géographie physique et Quaternaire 33(1):93-112.","10.7202/1000324ar",15,"cold evergreen needleleaf forest",1.41426031688573,1193.87058675458,-4.74680313533047,-23.4168089746524,11.4841123101866,674.807507245157
1500,3407,12392,"Neotoma","Chism 2","CHISM2",53.090833,-76.339167,273,"not known","lake","core","0","Richard, P.J.H. 1979. Contribution à l'histoire postglaciaire de la végétation au nord-est de la Jamésie, Nouveau-Québec. Géographie physique et Quaternaire 33(1):93-112.","10.7202/1000324ar",15,"cold evergreen needleleaf forest",1.36383124377644,1515.60613226634,-3.00469980025343,-22.1482031838172,13.5097794548007,729.528311842662
1501,3408,7070,"EMPDv2","Chistoye Lake","EPDcoretop_E1825",59.55,151.83,91,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.39822951974216,1322.04271086055,-3.16312001170362,-18.0890676687077,12.2201686636839,529.488289781628
1502,3409,2331,"CMPD","Chitsai Lake","Chitsai Lake",23.8,121.23,2890,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",2.17454317755797,2936.23130692134,8.04446933403108,4.06560570286697,11.2925697713671,2331.91491984472
1503,3410,6226,"EMPDv2","Chivyrkui","Binney2017_E2183",53.67,109.2,457,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.574189527974344,2054.02973592929,-2.04631124846729,-24.6828668042921,17.8639620092315,344.036971992364
1504,3411,8119,"EMPDv2","Chlya_1","Mikishin-Gvozdeva_a182",53.5308333333333,140.219166666667,1,"143","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16459886287416,1918.55484747234,-1.67557588426527,-22.0827720519013,15.9401945281074,618.677207386931
1505,3412,8120,"EMPDv2","Chlya_2","Mikishin-Gvozdeva_a183",53.525,140.206666666667,0,"143","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16429837788676,1919.55646602931,-1.67076696539917,-22.0792743141372,15.9463589259603,618.650455988421
1506,3413,8121,"EMPDv2","Chlya_3","Mikishin-Gvozdeva_a184",53.5166666666667,140.208333333333,-1,"143","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16388922291053,1920.59735919541,-1.66434502544975,-22.0721333012449,15.9520032071398,618.592416401791
1507,3414,8122,"EMPDv2","Chlya_4","Mikishin-Gvozdeva_a185",53.5133333333333,140.201666666667,-1,"143","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1637845643616,1920.76631846436,-1.66401639531698,-22.0727567113471,15.9533465999151,618.591001340602
1508,3415,8123,"EMPDv2","Chlya_5","Mikishin-Gvozdeva_a186",53.5019444444444,140.1775,-1,"143","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16342802395702,1921.35346639227,-1.66295518382298,-22.0750882992967,15.9580458393318,618.58808665467
1509,3416,8132,"EMPDv2","Chlya_forest","Mikishin-Gvozdeva_a195",53.5591666666667,140.235,120,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17985655392892,1834.30722606202,-2.19152904456142,-22.6520845535935,15.4877005658475,621.837324712884
1510,3417,10847,"Bush et al., 2020","Chochos","Chochos",-7.635,-77.4751,3368,"not known","lake","lake surface sample","-46","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.437294672463164,4252.26777300532,11.6500486931653,11.2245873532561,12.1263267448165,580.704006996795
1511,3418,11350,"Neotoma","Choir Boy Lake","LFR68023",58.659665,-94.03201,35,"not known","lake","surface sample","-15","Lichti-Federovich, S., and J.C. Ritchie. 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology 7(4):297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.941616896376529,1193.17064535998,-6.72097476591422,-27.2694204340949,12.6820521283741,419.084142734373
1511,3419,11349,"Neotoma","Choir Boy Lake","LFR68024",58.659665,-94.03201,35,"not known","lake","surface sample","-15","Lichti-Federovich, S., and J.C. Ritchie. 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology 7(4):297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.941616896376529,1193.17064535998,-6.72097476591422,-27.2694204340949,12.6820521283741,419.084142734373
1512,3420,10568,"BIOME6000 Japan","Chojidani","ChojiC0",35.34,135.76,637,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.16666508772361,4004.84188690931,10.8252426729276,-1.12347745934682,23.3333599119098,1952.64415630707
1513,3421,15212,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","-50","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1513,3421,15213,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","-38","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1513,3421,15214,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","-12","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1513,3421,15215,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","-4","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1513,3421,15216,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","7","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1513,3421,15217,"Neotoma","Choquette Lake","CL-06",59.945175,-151.11058,517,"not known","lake","core","21","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.61245645571095,1306.74439527993,0.611723480145818,-8.49299741932604,10.8702168055043,702.350431440186
1514,3422,8477,"EMPDv2","Chryashevka","Novenko_c51",54.845,41.1617,95,"0.02","terrestrial","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.851154626623472,2716.57663366243,4.61425777186004,-11.1822015511822,18.8134002394699,589.582289048362
1515,3423,2332,"CMPD","Chuanlong","Chuanlong",23.62,113.87,531,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39022379560786,6767.84710158123,18.5420468536472,8.6703490932119,26.8874442392645,1655.72373400387
1516,3424,13577,"Neotoma","Chub Lake","CHUBLAKE",44.5635,-93.218805,294,"not known","lake","core","-12","Unpublished data",,13,"temperate deciduous broadleaf forest",0.858074855675827,3417.9622108976,6.82440689959738,-11.5651827623161,22.3178088996482,737.116276380442
1516,3424,13578,"Neotoma","Chub Lake","CHUBLAKE",44.5635,-93.218805,294,"not known","lake","core","5","Unpublished data",,13,"temperate deciduous broadleaf forest",0.858074855675827,3417.9622108976,6.82440689959738,-11.5651827623161,22.3178088996482,737.116276380442
1516,3424,13579,"Neotoma","Chub Lake","CHUBLAKE",44.5635,-93.218805,294,"not known","lake","core","36","Unpublished data",,13,"temperate deciduous broadleaf forest",0.858074855675827,3417.9622108976,6.82440689959738,-11.5651827623161,22.3178088996482,737.116276380442
1517,3425,6271,"EMPDv2","Chuna Lake","Binney2017_E2399",67.95,32.48,475,"not known","lake","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",2.04886002127442,1071.84003160924,-2.61128983718453,-14.8528295556413,11.3024952174482,771.557390215228
1518,3426,18570,"SMPDSv1","Church Moor","Grant_a5",50.860805,-1.649713,55,"0.018","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20131830920447,3648.77909106735,9.99665504402013,4.37250300705896,16.3762951796371,839.2645461543
1519,3427,11815,"Neotoma","Church Pond","SJNE1",42.058604,-71.766098,192,"not known","lake","surface sample","-36","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,9,"cool mixed forest",1.31304229315343,3503.90264919934,8.71254699939218,-4.89962261094724,21.3957486724497,1134.33429028014
1520,3428,12028,"Neotoma","Churchill (Cole 1969)","HC005",58.73903,-94.10165,15,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,15,"cold evergreen needleleaf forest",0.931274440994939,1171.25169426679,-6.90619836145668,-27.4265063149717,12.5362015973623,409.741645326857
1521,3429,12139,"Neotoma","CHUSKA18","CHUSKA18",36.226983,-108.970392,2713,"not known","terrestrial","surface sample","-9","Bent, A.M., and H.E. Wright, Jr. 1963. Pollen analyses of surface materials and lake sediments from the Chuska Mountains, New Mexico. Geological Society of American Bulletin 74(4):491-500.","10.1130/0016-7606(1963)74[491:PAOSMA]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.317335566853207,2542.31122274387,6.15694552186386,-4.26246162746472,17.1403681420642,399.94586953912
1522,3430,14731,"Neotoma","Cienega de San Bernadino","CSB",31.32215,-109.25616,1118,"not known","terrestrial","excavation","-36","Blissett, S.D. 2010. A late Holocene history of vegetation, fire, and climate from a desert wetland in southwest North America. Master's thesis. University of Utah, Salt Lake City, Utah, USA.",,27,"desert",0.247340533607631,6516.17409130393,17.8525317569971,8.5262068724607,27.3301400511535,388.30965551209
1523,3431,18571,"SMPDSv1","Cin2.1","Barboni_a759",40.21666667,-5.283333333,1338.89,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417671223839707,3134.01447068608,8.58634101557829,0.78862034227494,18.1512141897606,498.743484482037
1524,3432,12394,"Neotoma","Cindy Pond","CINDY",47.172305,-94.938965,478,"not known","lake","core","-11","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.829976954039454,2965.18846735311,4.56286619334411,-14.6325283761597,20.4850199762215,667.795918218281
1524,3432,12395,"Neotoma","Cindy Pond","CINDY",47.172305,-94.938965,478,"not known","lake","core","18","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.829976954039454,2965.18846735311,4.56286619334411,-14.6325283761597,20.4850199762215,667.795918218281
1524,3432,12396,"Neotoma","Cindy Pond","CINDY",47.172305,-94.938965,478,"not known","lake","core","50","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.829976954039454,2965.18846735311,4.56286619334411,-14.6325283761597,20.4850199762215,667.795918218281
1525,3433,7937,"EMPDv2","Cinigiano - Colle Massari","Mercuri_i18",42.895144,11.349025,223,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.71950637014375,5043.70168796269,13.8183607889389,5.89731773967163,22.6215780541676,776.387882128395
1526,3434,14265,"Neotoma","Circle Lake","CIRCLE",59.80086,-151.1592,419,"not known","lake","core","-6","Unpublished data",,15,"cold evergreen needleleaf forest",1.61414008500923,1381.05915113851,0.985848148743402,-8.26204966038737,11.2591148057048,712.091083143641
1527,3435,18572,"SMPDSv1","Cirque Lake, Kargapazari Mts.","Connor_c1",40.1,41.7,2200,"0.01","lake","lacustrine core top","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.4958343410499,2442.84994843127,4.36649714079947,-9.46546679408901,17.1150412089982,573.493450387606
1528,3436,18573,"SMPDSv1","Clapeyret","EPDcoretop_E1075",44.150006,7.233336,2260,"0.015","terrestrial, bog/fen/swamp","peat core top","-18","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71342670859291,1456.42083540669,2.68338230618045,-4.51287576946355,11.1074371540589,1530.4178805593
1529,3437,7160,"EMPDv2","Clara Bog","EPDcoretop_E2236",53.32,-7.63,59,"6.65","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.58187936389717,3448.42117351348,9.4477292425027,4.77274882232778,15.0483387138956,967.641620238389
1530,3438,16709,"Neotoma","Clark's Cove","PWD4",41.258333,-70.166667,3,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41888018480293,3994.94526599946,10.7598796951909,-1.47198416978768,22.4332445201579,1294.09082949398
1531,3439,489,"Australian pollen","Clarks Junction","Clarks Junction core",-45.7181,170.1139,560,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","0","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.43237977652328,2948.6867084808,8.07859372186519,2.06326033063102,13.4653824456533,1138.26513168478
1532,3440,6777,"EMPDv2","CLAYD04","Binney2017_E3579",69.3,86.52,18,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79297358714832,957.770085427813,-9.36329947336794,-27.9933258518857,11.985387999274,486.972349372951
1533,3441,6778,"EMPDv2","CLAYD05","Binney2017_E3580",69.32,86.5,19,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79387713864691,956.395178084682,-9.37338316583044,-28.0003647839938,11.9725345943483,486.872087744311
1534,3442,6779,"EMPDv2","CLAYD06","Binney2017_E3581",69.3,86.54,19,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79275005109623,957.75934089362,-9.36905826966522,-28.0055714062972,11.9884638166638,486.957816071119
1535,3443,6780,"EMPDv2","CLAYD07","Binney2017_E3582",69.34,86.5,19,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79434316799835,955.308638178591,-9.38172611015468,-28.0059899353139,11.9622542829674,486.615450003326
1536,3444,6781,"EMPDv2","CLAYD08","Binney2017_E3583",69.2,86.5,80,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79640635557767,978.882327378745,-9.35726743815975,-28.2497994136769,12.2826390495091,497.663259773808
1537,3445,6782,"EMPDv2","CLAYD09","Binney2017_E3584",69.2,86.52,87,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79699192540264,977.290968962209,-9.3892534104181,-28.3036216018837,12.2801590121688,497.994861990945
1538,3446,6783,"EMPDv2","CLAYD10","Binney2017_E3585",69.22,86.5,74,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79651063979184,979.254637789331,-9.33959769610861,-28.2131555658593,12.2766362227857,497.158972637758
1539,3447,6784,"EMPDv2","CLAYD11","Binney2017_E3586",69.2,86.54,99,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79813434221537,974.461671223681,-9.44308329661867,-28.3927234854577,12.2739194779522,498.596278788091
1540,3448,6785,"EMPDv2","CLAYD12","Binney2017_E3587",69.24,86.5,70,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79681429294422,979.136186915946,-9.33063785734973,-28.1906736976884,12.2692486489376,496.757658161203
1541,3449,6786,"EMPDv2","CLAYD13","Binney2017_E3588",69.2,86.56,108,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79901850252854,972.293154601347,-9.48427581507537,-28.460621505496,12.2688939184937,499.040108936477
1542,3450,6787,"EMPDv2","CLAYD14","Binney2017_E3589",69.26,86.5,17,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79224871557317,959.965967190516,-9.34076629878905,-27.9697694890528,12.0029849285775,487.498549435543
1543,3451,6788,"EMPDv2","CLAYD15","Binney2017_E3590",69.2,86.58,109,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79907202527908,972.031510722353,-9.49089104133244,-28.4720278307476,12.2690316943904,499.055223631534
1544,3452,6789,"EMPDv2","CLAYD16","Binney2017_E3591",69.3,88.5,48,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.70218625771728,995.46012277757,-9.8106694758428,-29.3489655794345,12.6717609785577,469.561596859304
1545,3453,6790,"EMPDv2","CLAYD17","Binney2017_E3592",69.3,88.52,47,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.70135658951667,996.440505927261,-9.80550516468183,-29.3482992515032,12.6813205804762,469.440909310426
1546,3454,6791,"EMPDv2","CLAYD18","Binney2017_E3593",69.32,88.5,43,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.70088453235595,996.49858805061206,-9.79880815029368,-29.331255269749,12.6775165935224,468.887004289707
1547,3455,6792,"EMPDv2","CLAYD19","Binney2017_E3594",69.3,88.54,48,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.7011788418443,996.438656097987,-9.80936172193067,-29.3573069688172,12.6832775297257,469.460772730795
1548,3456,6793,"EMPDv2","CLAYD20","Binney2017_E3595",69.34,88.5,48,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.70284622663794,992.676415023221,-9.83163314667086,-29.3617358719544,12.645872918552,468.927068435212
1549,3457,6794,"EMPDv2","CLAYD21","Binney2017_E3596",68.1,87.2,30,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.71671186616669,1158.59823057051,-8.06859017966226,-27.3823601002062,13.8964660963054,513.783521121248
1550,3458,6795,"EMPDv2","CLAYD22","Binney2017_E3597",68.1,87.22,31,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.71687448419451,1158.15849138787,-8.0763897086465,-27.3950341915781,13.8954432070638,513.790204865795
1551,3459,11603,"Neotoma","Clear","CLE-1C",44.326535,-95.954565,510,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.676993707860869,3406.51503987418,6.80968115750251,-11.2527953188715,22.6510250467567,610.093188201949
1551,3460,11604,"Neotoma","Clear","CLE-1M",44.326535,-95.954565,510,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.676993707860869,3406.51503987418,6.80968115750251,-11.2527953188715,22.6510250467567,610.093188201949
1551,3461,17329,"Neotoma","Clear","TW032",45.616389,-89.353611,474,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02329961690587,2644.90972821364,3.98841610668249,-12.7758683538537,18.8864076948481,791.162750235595
1552,3462,12397,"Neotoma","Clear Lake","CLEARLIA",43.12507,-93.42973,374,"not known","lake","core","-30","Baker, R.G., L.J. Maher, Jr., C.A. Chumbley, and K.L. Van Zant. 1992. Patterns of Holocene environmental change in the midwestern United States. Quaternary Research 37(3):379-389.","10.1016/0033-5894(92)90074-S",22,"steppe",0.872081589236455,3546.20895021265,7.49380527655834,-10.303310113152,22.6303164209256,788.129601370937
1552,3462,12398,"Neotoma","Clear Lake","CLEARLIA",43.12507,-93.42973,374,"not known","lake","core","22","Baker, R.G., L.J. Maher, Jr., C.A. Chumbley, and K.L. Van Zant. 1992. Patterns of Holocene environmental change in the midwestern United States. Quaternary Research 37(3):379-389.","10.1016/0033-5894(92)90074-S",22,"steppe",0.872081589236455,3546.20895021265,7.49380527655834,-10.303310113152,22.6303164209256,788.129601370937
1552,3463,12399,"Neotoma","Clear Lake","CLEARLK",41.638535,-86.544595,244,"not known","lake","core","0","Bailey, R.E. 1972. Late- and postglacial environmental changes in northwestern Indiana. Doctoral dissertation. Indiana University, Bloomington, Indiana, USA.",,13,"temperate deciduous broadleaf forest",1.01965211983476,3934.2143359349802,9.94053955019821,-4.99813973537752,22.9307848447273,938.670528636776
1552,3463,12400,"Neotoma","Clear Lake","CLEARLK",41.638535,-86.544595,244,"not known","lake","core","43","Bailey, R.E. 1972. Late- and postglacial environmental changes in northwestern Indiana. Doctoral dissertation. Indiana University, Bloomington, Indiana, USA.",,13,"temperate deciduous broadleaf forest",1.01965211983476,3934.2143359349802,9.94053955019821,-4.99813973537752,22.9307848447273,938.670528636776
1552,3464,17391,"Neotoma","Clear Lake","TW098",43.89337,-84.941595,357,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.953053832590368,3004.4476949569,6.41738149862529,-7.81419042341537,19.8617280078248,782.366060369947
1552,3465,17395,"Neotoma","Clear Lake","TW102",43.67858,-85.393325,324,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.969276612562374,3140.13933724518,6.99399247972622,-7.2578908906712,20.3695854255538,807.289518142022
1553,3466,15714,"Neotoma","Clear P. (P.L.)","DRW012",43.8396149999999,-73.593645,583,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.41876915652162,2609.34049126397,4.76131725729669,-9.9104374796524,17.972672572902,1081.92464291847
1554,3467,12401,"Neotoma","Clear Pond","CLEARPND",33.798895,-78.95336,10,"not known","lake","core","-42","Hussey, T.C. 1993. A 20,000-year history of vegetation and climate at Clear Pond, northeastern South Carolina. Master's thesis. University of Maine, Orono, Maine, USA.",,4,"warm-temperate evergreen and mixed forest",1.06032271575892,6408.70578196771,17.5580980327882,7.14581065324113,26.9589526705586,1276.67667766103
1554,3468,12408,"Neotoma","Clear Pond","CLRPNDNY",43.748575,-74.016955,513,"not known","lake","core","8","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.37126533993303,2727.50575628681,5.22580434396061,-9.52891646178508,18.5152130980767,1063.7185596652
1554,3468,12409,"Neotoma","Clear Pond","CLRPNDNY",43.748575,-74.016955,513,"not known","lake","core","49","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.37126533993303,2727.50575628681,5.22580434396061,-9.52891646178508,18.5152130980767,1063.7185596652
1555,3469,14049,"Neotoma","Clearwater Bog","CLEARBOG",54.0236,-101.2588,266,"not known","terrestrial, bog/fen/swamp","profile or section","-14","Nichols, H. 1969. The late Quaternary history of vegetation and climate at Porcupine Mountain and Clearwater Bog, Manitoba. Arctic and Alpine Research 1(3):155-167.",,15,"cold evergreen needleleaf forest",0.723230431763069,2208.24566100128,-0.344911664534078,-21.7100439614201,17.5729567687943,472.11404725915
1555,3469,14050,"Neotoma","Clearwater Bog","CLEARBOG",54.0236,-101.2588,266,"not known","terrestrial, bog/fen/swamp","profile or section","23","Nichols, H. 1969. The late Quaternary history of vegetation and climate at Porcupine Mountain and Clearwater Bog, Manitoba. Arctic and Alpine Research 1(3):155-167.",,15,"cold evergreen needleleaf forest",0.723230431763069,2208.24566100128,-0.344911664534078,-21.7100439614201,17.5729567687943,472.11404725915
1556,3470,12402,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","0","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1556,3470,12403,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","7","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1556,3470,12404,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","15","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1556,3470,12405,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","23","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1556,3470,12406,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","38","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1556,3470,12407,"Neotoma","Clearwater Lake","CLEARWTR",50.873611,-107.933333,686,"not known","lake","core","46","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.; Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",17,"temperate evergreen needleleaf open woodland",0.4273410368304,2611.65496882272,3.18856816299878,-14.7260679542865,18.5814195314847,340.17638551044
1557,3471,16562,"Neotoma","Clearwater Pond","KG056",44.72,-70.08,172,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50651733654591,2842.13638181452,5.81954364002425,-8.71114301236743,19.2641251747804,1163.72140338371
1558,3472,490,"Australian pollen","Cleveland Bay","C1",-19.3058,146.8748,0.4,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.822970306917642,8799.46852910162,24.1081329564428,19.0440280211416,27.7960239784359,1415.37584103487
1558,3473,491,"Australian pollen","Cleveland Bay","C10",-19.3058,146.8748,4,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.81984390455526,8795.18105295913,24.0963864464634,19.0261894231491,27.788488374755,1410.68477255855
1558,3474,492,"Australian pollen","Cleveland Bay","C11",-19.304,146.876,8,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.816543193150968,8790.47266381307,24.0834867501728,19.0068500735635,27.7799753955213,1405.76429114454
1558,3475,493,"Australian pollen","Cleveland Bay","C12",-19.304,146.876,8,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.816543193150968,8790.47266381307,24.0834867501728,19.0068500735635,27.7799753955213,1405.76429114454
1558,3476,494,"Australian pollen","Cleveland Bay","C13",-19.304,146.876,8,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.816543193150968,8790.47266381307,24.0834867501728,19.0068500735635,27.7799753955213,1405.76429114454
1558,3477,495,"Australian pollen","Cleveland Bay","C2",-19.3058,146.8748,0.4,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.822970306917642,8799.46852910162,24.1081329564428,19.0440280211416,27.7960239784359,1415.37584103487
1558,3478,496,"Australian pollen","Cleveland Bay","C3",-19.3058,146.8748,1,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.822449029158068,8798.75394974454,24.1061752047796,19.0410549214762,27.7947680444891,1414.59399628882
1558,3479,497,"Australian pollen","Cleveland Bay","C4",-19.3058,146.8748,3,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.820712045392837,8796.37201855427,24.0996493659021,19.0311445892581,27.7905815979997,1411.9878471353
1558,3480,498,"Australian pollen","Cleveland Bay","C5",-19.3058,146.8748,5,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.818975997624442,8793.990087364,24.0931235270247,19.02123425704,27.7863951515103,1409.38169798179
1558,3481,499,"Australian pollen","Cleveland Bay","C6",-19.3058,146.8748,5,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.818975997624442,8793.990087364,24.0931235270247,19.02123425704,27.7863951515103,1409.38169798179
1558,3482,500,"Australian pollen","Cleveland Bay","C7",-19.3058,146.8748,6,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.818108324507987,8792.79912176887,24.0898606075859,19.016279090931,27.784301928265702,1408.07862340503
1558,3483,501,"Australian pollen","Cleveland Bay","C8",-19.3058,146.8748,5,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.818975997624442,8793.990087364,24.0931235270247,19.02123425704,27.7863951515103,1409.38169798179
1558,3484,502,"Australian pollen","Cleveland Bay","C9",-19.3058,146.8748,6,"not known","coastal, other","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.818108324507987,8792.79912176887,24.0898606075859,19.016279090931,27.784301928265702,1408.07862340503
1559,3485,11975,"Neotoma","Cleveland Lake","SM-CVL",39.420725,-106.490315,3609,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.595125612327449,762.963551695726,-3.4881085360471,-14.6024120240513,7.92380090341462,528.269423999262
1560,3486,18574,"SMPDSv1","CLGZ (forest)","CLGZ (forest)_SS",56.4996,32.6259,255,"not applicable","terrestrial","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13812854583033,2429.3759286617,4.17098217889028,-10.0445322001522,16.7602258185881,725.921951432642
1561,3487,18575,"SMPDSv1","CLGZ (meadow )","CLGZ (meadow )_SS",56.9798,32.9798,255,"not applicable","terrestrial","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17494280462719,2392.60688587582,4.002561714761,-10.2488620925171,16.6692784900951,737.808269075102
1562,3488,18576,"SMPDSv1","CLGZ (peatland Staroselsky moss)","CLGZ (peatland Staroselsky moss)_SS",56.2855,32.0278,255,"not applicable","terrestrial","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10900798172656,2454.64059294823,4.3011623368197,-9.87062127070089,16.798742196183,713.876100239683
1563,3489,15248,"Neotoma","Clinton","AMD015",43.68,-90.73,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.929744880345472,3311.89572898046,6.74292546169171,-10.6370388597087,21.5754736521241,803.091456456992
1564,3490,7191,"EMPDv2","Clonearl Bog","EPDcoretop_E2376",53.32,-7.3,98,"10","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.66975250378306,3347.3540667621,9.17083305962219,4.48711738634519,14.7939130096759,1007.91081840198
1565,3491,18577,"SMPDSv1","Clota Yesera I","Barboni_a760",41.39875,-0.116806,352,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408894852066803,5284.30170311776,14.4775389126514,6.4139011889408,23.7428586091545,501.832171587216
1566,3492,18578,"SMPDSv1","Clota Yesera II","Barboni_a761",41.394861,-0.11375,349,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407980999762062,5291.6582026079,14.4976937057751,6.4349857232087,23.7610930007106,500.923746451607
1567,3493,11803,"Neotoma","Coal Bank Hill Polster","LMSJ14A",37.67805,-107.77863,3064,"not known","terrestrial","moss polster or moss","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.57510671732334,1464.23829065892,0.379823453081717,-11.7030227197433,12.3268259924108,590.423799085631
1568,3494,11802,"Neotoma","Coal Bank Hill Pond 1","LMSJ14",37.69211,-107.77657,3200,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.624391468141637,1253.45066981196,-0.734925557629302,-12.6683224854203,11.0787096812631,622.057872674447
1569,3495,11804,"Neotoma","Coal Bank Hill Pond 2","LMSJ15",37.701975,-107.76095,3018,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.558882577869811,1536.03470429258,0.744447464659879,-11.3931873801748,12.738642878059,579.032383718843
1570,3496,11797,"Neotoma","Coal Bank Pass Pond","LMSJ8",37.704465,-107.779515,3398,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.701751049642021,964.843283089434,-2.35262856610498,-14.0665910387472,9.26596775978705,668.297068470003
1571,3497,10848,"Bush et al., 2020","Coba","Coba",20.5,-87.74,9,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.798922157385587,9420.70430163613,25.8101487716058,22.7261905981837,27.8888925012398,1219.99998920271
1572,3498,503,"Australian pollen","Cobrico Swamp","Cobrico Swamp core 4_0",-38.3056,143.0111,120,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.732090841729819,4918.86049986716,13.4763301366224,8.79811699938539,18.4312761431323,752.205928726967
1572,3499,504,"Australian pollen","Cobrico Swamp","Cobrico Swamp core 4_10",-38.3056,143.0111,120,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.732090841729819,4918.86049986716,13.4763301366224,8.79811699938539,18.4312761431323,752.205928726967
1572,3500,505,"Australian pollen","Cobrico Swamp","Cobrico Swamp core 4_20",-38.3056,143.0111,120,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.732090841729819,4918.86049986716,13.4763301366224,8.79811699938539,18.4312761431323,752.205928726967
1572,3501,506,"Australian pollen","Cobrico Swamp","Cobrico Swamp core 4_30",-38.3056,143.0111,120,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.732090841729819,4918.86049986716,13.4763301366224,8.79811699938539,18.4312761431323,752.205928726967
1573,3502,14795,"Neotoma","Cobweb Swamp (Sawgrass Core)","SAWGRAS",17.94154,-88.36192,8,"not known","terrestrial, bog/fen/swamp","core","-40","Jones, J.G. 1991. Pollen evidence of prehistoric forest modification and Maya cultivation in Belize. Doctoral dissertation. Texas A&M, College Station, Texas, USA.",,4,"warm-temperate evergreen and mixed forest",0.970662059055386,9454.57259269921,25.9029386101348,23.1994568729463,27.7105758217232,1513.74840613394
1574,3503,24358,"Neotoma","Cocha Caranga Forest","CARANGFO_0",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-55","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3504,24361,"Neotoma","Cocha Caranga Forest","CARANGFO_12",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-27","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3505,24362,"Neotoma","Cocha Caranga Forest","CARANGFO_16",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-17","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3506,24363,"Neotoma","Cocha Caranga Forest","CARANGFO_20",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-8","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3507,24364,"Neotoma","Cocha Caranga Forest","CARANGFO_24",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","2","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3508,24365,"Neotoma","Cocha Caranga Forest","CARANGFO_28",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","14","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3509,24366,"Neotoma","Cocha Caranga Forest","CARANGFO_32",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","31","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3510,24367,"Neotoma","Cocha Caranga Forest","CARANGFO_36",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","50","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3511,24359,"Neotoma","Cocha Caranga Forest","CARANGFO_4",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-46","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1574,3512,24360,"Neotoma","Cocha Caranga Forest","CARANGFO_8",-4.04586111111111,-79.1595833333333,2700,"not known","terrestrial","profile or section","-36","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.",";
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.639988543220737,4960.41939619838,13.5901901265709,13.061482886786,13.8701275121219,841.954617366629
1575,3513,10849,"Bush et al., 2020","Cocha_landing","Cocha_landing",-11.897975,-71.404808,343,"not known","fluvial","sediment sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.0537461406315898,9000.58631336897,24.6591405845725,22.8774886456989,25.5796913519929,2966.79329061869
1576,3514,13857,"Neotoma","Code Lake","CODE",67.1579199999999,-151.859995,250,"not known","lake","core","-24","Higuera, P.E. 2006. Late glacial and Holocene fire history in the southcentral Brooks Range, Alaska: Direct and indirect impacts of climate change on fire regimes.. Doctoral dissertation. University of Washington, Seattle, Washington, USA.",,15,"cold evergreen needleleaf forest",0.825097328028262,1485.43268260363,-5.65379550289947,-24.2124900155556,14.3909912285951,310.107831382197
1577,3515,12410,"Neotoma","Coghill Lake","COGHILL",53.9,-66.766667,530,"not known","lake","core","-31","King, G.A. 1986. Deglaciation and vegetation history of western Labrador and adjacent Québec. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,15,"cold evergreen needleleaf forest",1.62583817765441,1169.64249838453,-5.08079438795437,-23.4285648674354,12.2811274431175,781.887636828477
1578,3516,18579,"SMPDSv1","Coinde-Lac de lavergne","Barboni_a172",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
1579,3517,18580,"SMPDSv1","Col de la Geniste","Barboni_a165",45.5,2.83,1361,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.32429252804473,2380.94310747963,6.30086082856704,-1.4083943059014,15.1849051554494,1190.30319862177
1580,3518,18581,"SMPDSv1","Colfiorito","Barboni_a762",43.02,12.875,754,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.815125313144311,3980.15884282172,10.904544774854,2.82414692278201,19.9201079697562,832.052655588169
1581,3519,11650,"Neotoma","College Pond","GPPS-23",37.09027,-101.913254999999,1054,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.34575712018767,4704.10779039753,12.8483091372071,-0.348350148960294,26.0732256490923,440.292271993168
1581,3520,16598,"Neotoma","College Pond","MGW002",41.88,-70.65,30,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.35305802329587,3804.18792609966,10.0165540899966,-2.68600100027094,22.1824340436079,1207.05286693845
1582,3521,12411,"Neotoma","Colo Marsh","COLOMSH",42.02,-93.27,329,"not known","terrestrial, marsh","core","0","Baker, R.G., C.A. Chumbley, P.M. Witinok, and H.K. Kim. 1990. Holocene vegetational changes in eastern Iowa. Journal of the Iowa Academy of Science 97:167-177.; Kim, H. K. 1986. Late-glacial and Holocene environment in central Iowa: a comparative study of pollen data from four sites. Dissertation. University of Iowa, Iowa City, Iowa, USA.",,22,"steppe",0.889214575559937,3828.15070721457,8.86614790908801,-8.29059022736191,23.5059363212667,846.193332335218
1583,3522,10850,"Bush et al., 2020","ColonLake1","ColonLake1",15.82254,-91.89176,630,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43160300594338,8725.25874451296,23.9048184781177,21.7742146154005,25.7168551324275,2323.07059007556
1584,3523,10851,"Bush et al., 2020","ColonLake2","ColonLake2",15.822129,-91.888757,638,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43265559570625,8709.89343129853,23.862721729585,21.7312009699492,25.674114759577,2324.34716435999
1585,3524,10852,"Bush et al., 2020","ColonLake3","ColonLake3",15.821583,-91.88757,638,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43292677990129,8709.77719822615,23.8624032828114,21.7308925424294,25.673704098401,2324.83978296021
1586,3525,10853,"Bush et al., 2020","ColonLake4","ColonLake4",15.820778,-91.891373,638,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43207909738683,8710.17061023222,23.8634811239239,21.7329855666838,25.6744772879764,2323.44990426454
1587,3526,10854,"Bush et al., 2020","ColonLake5","ColonLake5",15.820175,-91.891318,638,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43209639736329,8710.1700436284409,23.8634795715848,21.733221434747,25.6743356684552,2323.5152482293
1588,3527,10855,"Bush et al., 2020","Colorada","Colorada",20.77,-103.99,1352,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.583941192104207,7498.70505986035,20.5443974242749,16.6620052295958,23.642000101235,959.249597121755
1589,3528,12412,"Neotoma","Columbine Ranch Fen","COLUMBIN",37.60664,-107.81571,2694,"not known","terrestrial, bog/fen/swamp","profile or section","-1","Maher, L.J., Jr. 1973. Pollen evidence suggests that climate changes in the Colorado Rockies during the last 5000 years were out of phase with those in the northeastern United States. Pages 227-228 in Abstracts of the IXth INQUA Congress Meetings, 2-10 December 1973, Christchurch, New Zealand.; Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1967. University of Wisconsin radiocarbon dates III. Radiocarbon 9:530-544. Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1017/S0033822200000710;
10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.454437975090514,2095.08887021408,3.43242252940989,-9.05037564875099,15.7400197488026,504.534213625154
1589,3529,11340,"Neotoma","Columbine Ranch Fen","LMSJ17",37.60664,-107.81571,2694,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.454437975090514,2095.08887021408,3.43242252940989,-9.05037564875099,15.7400197488026,504.534213625154
1590,3530,13507,"Neotoma","Como Lake","COMOLAKE",37.569525,-105.514164999999,3523,"not known","lake","core","0","Jodry, M.A., D.S. Shafer, D.J. Stanford, and O.K. Davis. 1989. Late Quaternary environments and human adaptation in the San Luis Valley, south-central Colorado. Pages 189-208 in E.J. Harmon, editor. Water in the valley: a 1989 perspective on water supplies, issues, and solutions in the San Luis Valley, Colorado. Colorado Ground-Water Association Guidebook, Eighth Annual Field Trip, August 19-20, 1989.; Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,17,"temperate evergreen needleleaf open woodland",0.501468428789318,956.833518216639,-2.34400122857328,-14.5493587053302,9.22258369898003,488.773776180602
1591,3531,12413,"Neotoma","Compass Pond","COMPASS",50.034167,-56.196389,236,"not known","lake","core","-13","Blake, W., Jr. 1986. Geological Survey of Canada radiocarbon dates XXV. Geological Survey of Canada Paper 85-7:2-3.; Dyer, A.K. 1986. A palynological investigation of the Late Quaternary vegetational history of the Baie Verte Peninsula, Northcentral Newfoundland. Thesis. Memorial University of Newfoundland, St. Johns, Newfoundland, CANADA.",,9,"cool mixed forest",1.95267231168528,1851.05791961696,2.40104226704111,-9.85793895198603,14.9626765053144,1169.05428578251
1592,3532,10856,"Bush et al., 2020","Comprida0.01","Comprida0.01",-1.718782,-53.817989,53,"not known","lake","lake surface sample","-41","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.45877925610269,9782.19543461717,26.8005354373073,26.057817779271,27.8303502588459,2023.40690889793
1593,3533,11545,"Neotoma","Conata Basin 1","SDPNCO",43.743305,-102.19478,759,"not known","artificial water body","surface sample","-57","Unpublished data",,22,"steppe",0.430583287318404,3577.40997938683,8.43347439808808,-6.81078630384138,23.4977038265351,425.320204958217
1594,3534,15237,"Neotoma","Concord","AMD004",42.58,-90.95,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.91061384844725,3469.69813176839,7.40550547706516,-10.0423860609331,22.0760229516193,819.11309166388
1595,3535,15066,"Neotoma","Conne River","CONNE",48.24774,-55.4935849999999,199,"not known","lake","core","-32","Vardy, S.R. 1991. The deglaciation and early postglacial environmental history of southcentral Newfoundland: evidence from the palynostratigraphy and geochemical stratigraphy of lake sediments. Master's thesis. Memorial University of Newfoundland, St. John's, Newfounland and Labrador, Canada.",,9,"cool mixed forest",2.16116324939182,2045.17518164324,3.55780567871692,-8.00939076271938,15.3274910850186,1364.74337779073
1596,3536,8311,"EMPDv2","Conower Werder","Mrotzek_c1",53.2960777777778,13.4739694444444,103,"0.0025","terrestrial, bog/fen/swamp","moss polster or moss","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.813954907887787,3337.2682091668,9.08522726096501,-0.614590643740349,18.0335084989078,563.089723270507
1597,3537,18594,"SMPDSv1","Conquezuela","Barboni_a1382",41.185833,-2.554722,1200,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.498503851930056,3643.04579947244,9.98094739581491,2.30193797678925,19.6071338197708,570.999953561794
1597,3538,18582,"SMPDSv1","Conquezuela","CQM-1",41.1927777777777,-2.54,1176,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.495004635167676,3690.64162689769,10.1113469230074,2.41368652325553,19.7425315943612,567.811972077614
1597,3539,18591,"SMPDSv1","Conquezuela","CQM-10",41.1847222222222,-2.55888888888889,1168,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.494132227917291,3706.15051757587,10.1538370344544,2.45123172223955,19.7857521488921,567.09606554527
1597,3540,18592,"SMPDSv1","Conquezuela","CQM-11",41.1666666666666,-2.51805555555556,1163,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.491761039197251,3719.97407848069,10.1917098040567,2.48039638650651,19.8308106808416,565.064387476539
1597,3541,18593,"SMPDSv1","Conquezuela","CQM-12",41.1372222222222,-2.49416666666667,1154,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.488939405908934,3741.81849867982,10.2515575306296,2.5291735800127,19.8985063177297,562.710752512138
1597,3542,18583,"SMPDSv1","Conquezuela","CQM-2",41.1905555555555,-2.51666666666667,1155,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.491492865821696,3733.21780913866,10.2279939976402,2.5126897615983,19.8650341101714,564.651972204167
1597,3543,18584,"SMPDSv1","Conquezuela","CQM-3",41.2330555555555,-2.53027777777778,1158,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.493742537967526,3722.23842585209,10.1979134954852,2.48950168762862,19.8270273964629,566.383216913134
1597,3544,18585,"SMPDSv1","Conquezuela","CQM-4",41.2425,-2.56527777777778,1152,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.494136715734158,3731.35349424155,10.2228862855933,2.51369879858529,19.8485168863014,566.69166834271
1597,3545,18586,"SMPDSv1","Conquezuela","CQM-5",41.2333333333333,-2.56805555555556,1152,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.493873432179365,3732.20954498129,10.2252316300857,2.51549944024975,19.8520367687164,566.52327016432
1597,3546,18587,"SMPDSv1","Conquezuela","CQM-6",41.2155555555555,-2.63333333333333,1233,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.506822694688001,3568.35419577269,9.77631286513065,2.13263708069968,19.3820971822585,578.217963702879
1597,3547,18588,"SMPDSv1","Conquezuela","CQM-7",41.185,-2.61861111111111,1208,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.50164234480678,3622.27516267764,9.92404154158257,2.25740378994485,19.5407513102451,573.821676099063
1597,3548,18589,"SMPDSv1","Conquezuela","CQM-8",41.1702777777777,-2.57694444444444,1159,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.49283610921825,3724.51542048125,10.2041518369349,2.49515471214236,19.8382797023558,566.046091106608
1597,3549,18590,"SMPDSv1","Conquezuela","CQM-9",41.1625,-2.59583333333333,1111,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.486123751154055,3820.62447434831,10.467464313283,2.72284211645032,20.1121843350908,560.084741387134
1598,3550,12414,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","7","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12415,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","14","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12416,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","21","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12417,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","28","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12418,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","35","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12419,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","42","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1598,3550,12420,"Neotoma","Conroy Lake","CONROY",46.283333,-67.883333,137,"not known","lake","core","49","Backman, A.E. 1984. 1000-year record of fire-vegetation interactions in the northeastern United States: A comparison between coastal and inland regionss. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, United States.; Gajewski, K.J. 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States over the past 2000 years estimated from pollen data. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.51536044582863,2606.3308054535,4.52965898217941,-10.7253871568192,18.5098526684063,1122.51619926964
1599,3551,10857,"Bush et al., 2020","Consuelo1","Consuelo1",-13.95,-68.99,1333,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.35841281214208,7567.14009360875,20.7318906674212,18.6324236025256,22.0247103265356,2092.29539216414
1600,3552,10858,"Bush et al., 2020","Consuelo2","Consuelo2",-13.95,-68.99,1333,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.35841281214208,7567.14009360875,20.7318906674212,18.6324236025256,22.0247103265356,2092.29539216414
1601,3553,14424,"Neotoma","Cooley Lake","CY",49.49136,-117.645195,1515,"not known","lake","core","-243","Gavin, D.G., F.S. Hu, K.P. Lertzman, and P. Corbett. 2006. Weak climatic control of forest fire history during the late Holocene. Ecology 87:1722-1732.","10.1890/0012-9658(2006)87[1722:WCCOSF]2.0.CO;2",8,"cool evergreen needleleaf forest",1.58440383217485,1670.98615761336,2.12022385171908,-8.26873139987829,13.173410187401,1161.07507176618
1601,3553,14425,"Neotoma","Cooley Lake","CY",49.49136,-117.645195,1515,"not known","lake","core","-180","Gavin, D.G., F.S. Hu, K.P. Lertzman, and P. Corbett. 2006. Weak climatic control of forest fire history during the late Holocene. Ecology 87:1722-1732.","10.1890/0012-9658(2006)87[1722:WCCOSF]2.0.CO;2",8,"cool evergreen needleleaf forest",1.58440383217485,1670.98615761336,2.12022385171908,-8.26873139987829,13.173410187401,1161.07507176618
1601,3553,14426,"Neotoma","Cooley Lake","CY",49.49136,-117.645195,1515,"not known","lake","core","-93","Gavin, D.G., F.S. Hu, K.P. Lertzman, and P. Corbett. 2006. Weak climatic control of forest fire history during the late Holocene. Ecology 87:1722-1732.","10.1890/0012-9658(2006)87[1722:WCCOSF]2.0.CO;2",8,"cool evergreen needleleaf forest",1.58440383217485,1670.98615761336,2.12022385171908,-8.26873139987829,13.173410187401,1161.07507176618
1601,3553,14427,"Neotoma","Cooley Lake","CY",49.49136,-117.645195,1515,"not known","lake","core","-16","Gavin, D.G., F.S. Hu, K.P. Lertzman, and P. Corbett. 2006. Weak climatic control of forest fire history during the late Holocene. Ecology 87:1722-1732.","10.1890/0012-9658(2006)87[1722:WCCOSF]2.0.CO;2",8,"cool evergreen needleleaf forest",1.58440383217485,1670.98615761336,2.12022385171908,-8.26873139987829,13.173410187401,1161.07507176618
1602,3554,507,"Australian pollen","Coolimba","Coolimba",-29.867,115.1,90,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.327982131622188,6840.82676438037,18.7419911352887,13.4451065372413,25.0190482621712,516.851989056393
1603,3555,15246,"Neotoma","Coon","AMD013",43.65,-90.92,396,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.928842882961454,3210.69680663962,6.17736618105228,-11.5155191317397,21.2502738692221,790.573667175074
1604,3556,11549,"Neotoma","Coon Lake","NDNECO",47.973315,-98.379385,443,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.582254039662492,2864.57750729656,3.71875339409159,-15.8675204816096,20.3451495845638,472.129679028805
1605,3557,14004,"Neotoma","Cootes Paradise Marsh","COOTES",43.2765,-79.9075,72,"not known","terrestrial, marsh","core","13","Finkelstein, S.A., M.C. Peros, and A.M. Davis. 2005. Late Holocene paleoenvironmental change in a Great Lakes coastal wetland: integrating pollen and diatom datasets. Journal of Paleolimnology 33:1-12.",,9,"cool mixed forest",0.982555909352994,3479.34777278721,8.5298927745751,-5.20663548284984,21.6582403443084,866.524777354757
1606,3558,12421,"Neotoma","Copley Lake","COPLEY",38.87213,-107.08309,3250,"not known","lake","core","-27","Fall, P.L. 1988. Vegetation dynamics in the southern Rocky Mountains: late Pleistocene and Holocene timberline fluctuations. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Fall, P.L. 1997. Timberline fluctuations and late Quaternary paleoclimates in the southern Rocky Mountains, Colorado. Geological Society of America Bulletin 109(10):1306-1320.","10.1130/0016-7606(1997)109<1306:TFALQP>2.3.CO;2",17,"temperate evergreen needleleaf open woodland",0.592091582046149,1132.9177521359,-1.3583591964648,-12.8992937053875,10.3289490314319,560.199683449802
1607,3559,508,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_a",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3560,509,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_b",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3561,510,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_c",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3562,511,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_d",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3563,512,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_e",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3564,513,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_f",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3565,514,"Australian pollen","Copper Hills Station","Copper Hills A_CHA101_g",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3566,515,"Australian pollen","Copper Hills Station","Copper Hills B",-27.8856,134.3172,290,"not applicable","terrestrial","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3567,516,"Australian pollen","Copper Hills Station","Copper Hills C_a",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1607,3568,517,"Australian pollen","Copper Hills Station","Copper Hills C_b",-27.8856,134.3172,290,"not applicable","terrestrial","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.110052303222911,7569.3818092039,20.7380323539833,12.0632182788142,28.8345554879831,192.487073829476
1608,3569,11342,"Neotoma","Copperas Pond (Fish Creek)","COPF_C90",44.314045,-74.376255,546,"not known","lake","surface sample","-29","Whitehead, D.R., and S.T. Jackson. 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.35116739427751,2654.56792374919,4.86270593414962,-9.99258496912918,18.2234928588739,1036.07356597552
1609,3570,15715,"Neotoma","Copperas Pond (Wilmington Notch)","COPW_C90",44.3303049999999,-73.899405,480,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.35860988675785,2686.68576848764,4.95195703245745,-10.0391573484472,18.4207510435695,1042.1064705038
1610,3571,17290,"Neotoma","Coppermine","RLF67006",67.816667,-115.1,3,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",31,"tundra",0.566060286752051,626.533478563941,-12.1892513665159,-30.5469255696959,8.21430310170907,175.412820676193
1611,3572,12422,"Neotoma","Coppermine Saddleback","COPPER",67.833333,-115.316667,43,"not known","not known","core","-41","Nichols, H. 1975. Palynological and paleoclimatic study of the late Quaternary displacements of the boreal forest-tundra ecotone in Keewatin and Mackenzie, N.W.T., Canada. Occasional Paper 15. Institute of Arctic and Alpine Research, University of Colorado, Boulder, Colorado, USA.",,31,"tundra",0.587854662147141,626.743890641274,-12.1809173994956,-30.528233749271,8.23885411860203,182.683164478651
1612,3573,13912,"Neotoma","Cora Lake","MNOTCL",46.165285,-95.32412,586,"not known","lake","core","-25","Unpublished data",,9,"cool mixed forest",0.856539472909597,2762.86783824373,3.6309284517866,-15.7043592106958,19.4846232630405,685.182687480852
1612,3573,13913,"Neotoma","Cora Lake","MNOTCL",46.165285,-95.32412,586,"not known","lake","core","9","Unpublished data",,9,"cool mixed forest",0.856539472909597,2762.86783824373,3.6309284517866,-15.7043592106958,19.4846232630405,685.182687480852
1612,3573,13914,"Neotoma","Cora Lake","MNOTCL",46.165285,-95.32412,586,"not known","lake","core","47","Unpublished data",,9,"cool mixed forest",0.856539472909597,2762.86783824373,3.6309284517866,-15.7043592106958,19.4846232630405,685.182687480852
1613,3574,17561,"Phelps et al., 2020","Coraf 1","CORAFT_0",-4.75,11.850278,2,"not applicable","coastal, other","soil sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.015406105197,9265.15135814477,25.3839763236843,22.2491089387945,27.4239098199082,1174.62120099017
1614,3575,24441,"Southern Hemisphere pollen","Corbyvale","Corbyvale",-41.47386,172.06356,370,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",2.84359049459769,3766.83773615152,10.3201033867165,5.2124476782849,15.1919275814543,2489.47490090037
1614,3576,24440,"Southern Hemisphere pollen","Corbyvale","Corbyvale pastures",-41.4712,172.0464,370,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",2.84930997596322,3766.343869727,10.3187503280192,5.21266361102599,15.1892716004958,2493.8914919827
1614,3577,24442,"Southern Hemisphere pollen","Corbyvale","Glasseye Creek",-41.4128,172.0682,250,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",2.92036407745298,4007.8403172528,10.9803844308296,6.10023504938841,15.651058784634,2577.3686649229
1615,3578,18595,"SMPDSv1","Cordillera Cantabrica","Lopez_a203",43.067,-4.48225,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.605803434811089,3237.74399502355,8.8705314932152,1.09389285640169,18.048089401798,674.590373402149
1615,3579,18596,"SMPDSv1","Cordillera Cantabrica","Lopez_a22",43.0260555555555,-6.22736111111111,1496,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.753703669182938,2852.82888769478,7.74999974075902,-0.537926554525778,17.598653068858,829.969461754282
1615,3580,18597,"SMPDSv1","Cordillera Cantabrica","Lopez_a240",42.8837222222222,-5.89894444444444,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.723315926906043,2873.78828183692,7.81815474628495,-0.46318564663792,17.6608006326639,806.587943545751
1615,3581,18598,"SMPDSv1","Cordillera Cantabrica","Lopez_a241",42.9121666666666,-5.89958333333333,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.73142623406732,2933.59052879746,8.01665154704301,-0.152076145045956,17.7038409168082,810.389977934103
1615,3582,18599,"SMPDSv1","Cordillera Cantabrica","Lopez_a242",42.7562777777777,-5.75936111111111,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.733019573983628,3168.56919695672,8.68101149851156,0.823668568678793,17.9323399495363,805.551086980926
1616,3583,18600,"SMPDSv1","Cordillera CantAbrica","Lopez_a404",43.0435277777777,-4.45325,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607056061438565,3267.25466579761,8.95138264602086,1.20680732784974,18.083025393783,674.731590144924
1617,3584,24254,"Neotoma","Cordón Serrucho Norte wetland","SERRUCHO",-41.75184,-71.4288,995,"not known","terrestrial, bog/fen/swamp","core","-47","Markgraf, V., V. Iglesias, and C. Whitlock. 2013. Late and postglacial vegetation and fire history from Cordón Serrucho Norte, northern Patagonia. Palaeogeography, Palaeoclimatology, Palaeoecology 371:109-118.","10.1016/j.palaeo.2012.12.023",22,"steppe",0.913564817136815,2670.88968010171,7.3175059728814,1.65448872284513,13.2414815228312,915.898160258724
1618,3585,5941,"EMBSeCBIO","Core-2345","Core-2345 lower part",42.4,28.32,0,"not applicable","marine","core","-52","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1619,3586,7144,"EMPDv2","Cornaher Lough","EPDcoretop_E2155",53.37,-7.41,65,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.59328949555795,3437.55040296081,9.41794630948167,4.74675339666816,15.0245269507395,972.075396059857
1620,3587,17308,"Neotoma","Cornell","TW013",45.118333,-91.336944,309,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.91025874151675,3314.83988035693,6.57522598704845,-11.3125944090374,21.7462874598277,765.948951423168
1621,3588,6889,"EMPDv2","CoroB","Colombaroli_a4",38.04075,12.7967222222222,356,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.383030935760938,6006.09875671762,16.4550650868976,9.94195650833174,24.5003987080977,515.098952738294
1622,3589,6890,"EMPDv2","CoroR","Colombaroli_a5",38.1382222222222,13.05375,62,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.370930557576023,6475.67901325312,17.7415863376798,10.9760108419911,25.8136973591141,488.854280459799
1623,3590,518,"Australian pollen","Corroboree Rock","Corroboree Rock A",-23.5,134.5,653,"small (0.01-1 km2)","terrestrial","core top","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.168738853900996,7753.10992176761,21.2413970459387,12.1221458133411,28.9230221375031,324.551996353908
1624,3591,14599,"Neotoma","Corser Bog","CORSER",60.530125,-145.45421,42,"not known","terrestrial, bog/fen/swamp","core","-60","Peteet, D.M., J.E. Nichols, C.M. Moy, A. McGeachy, and M. Perez. 2016. Recent and Holocene climate change controls on vegetation and carbon accumulation in Alaskan coastal muskegs. Quaternary Science Reviews 131:168-178.","10.1016/j.quascirev.2015.10.032",9,"cool mixed forest",3.81148171744636,1814.05633001255,2.48521601030589,-8.863424697449,13.4619656364719,1813.49326563085
1625,3592,18601,"SMPDSv1","Costa Brava","Lopez_a208",42.29295,3.29145277777777,1,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.607787786788148,5444.09772944491,14.9153362450546,7.4053813892338,23.452041915814,672.202500273412
1626,3593,24166,"Neotoma","Cotapampa","COTAPAMP",-15.216667,-69.1,4450,"not known","not known","core","-3","Unpublished data",,22,"steppe",0.40995672644429,2294.05428263303,6.28508022639187,3.76780667087299,8.02198181946272,594.993497487119
1627,3594,519,"Australian pollen","Cotter Source Bog","Cotter Source centre_1",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3595,520,"Australian pollen","Cotter Source Bog","Cotter Source centre_2",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3596,521,"Australian pollen","Cotter Source Bog","Cotter Source centre_3",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3597,522,"Australian pollen","Cotter Source Bog","Cotter Source centre_4",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3598,523,"Australian pollen","Cotter Source Bog","Cotter Source margin_1",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3599,524,"Australian pollen","Cotter Source Bog","Cotter Source margin_2",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1627,3600,525,"Australian pollen","Cotter Source Bog","Cotter Source margin_3",-35.9667,148.8167,1801,"not known","terrestrial, bog/fen/swamp","core","45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.990839693070045,2014.9653976648,4.92159186296568,-3.3374988290264,13.2775772340613,1186.72864536122
1628,3601,12424,"Neotoma","Cottonwood Lake","COTTONWD",44.835435,-99.90806,549,"not known","lake","core","-21","Barnosky, C.W., E.C. Grimm, and H.E. Wright, Jr. 1987. Towards a postglacial history of the northern Great Plains: a review of the paleoecologic problems. Annals of the Carnegie Museum 56:259-273.",,22,"steppe",0.495975753756988,3441.68403387094,7.11865990129668,-10.3538794760925,23.1838715904749,458.348998384374
1628,3601,12425,"Neotoma","Cottonwood Lake","COTTONWD",44.835435,-99.90806,549,"not known","lake","core","20","Barnosky, C.W., E.C. Grimm, and H.E. Wright, Jr. 1987. Towards a postglacial history of the northern Great Plains: a review of the paleoecologic problems. Annals of the Carnegie Museum 56:259-273.",,22,"steppe",0.495975753756988,3441.68403387094,7.11865990129668,-10.3538794760925,23.1838715904749,458.348998384374
1628,3601,12426,"Neotoma","Cottonwood Lake","COTTONWD",44.835435,-99.90806,549,"not known","lake","core","33","Barnosky, C.W., E.C. Grimm, and H.E. Wright, Jr. 1987. Towards a postglacial history of the northern Great Plains: a review of the paleoecologic problems. Annals of the Carnegie Museum 56:259-273.",,22,"steppe",0.495975753756988,3441.68403387094,7.11865990129668,-10.3538794760925,23.1838715904749,458.348998384374
1628,3602,12428,"Neotoma","Cottonwood Lake","MNGRCL",45.76101,-96.01988,336,"not known","lake","core","-13","Unpublished data",,22,"steppe",0.704589510748265,3221.94145984917,5.6309365778689,-13.4388619786919,21.7571843029282,595.605381387767
1628,3602,12429,"Neotoma","Cottonwood Lake","MNGRCL",45.76101,-96.01988,336,"not known","lake","core","6","Unpublished data",,22,"steppe",0.704589510748265,3221.94145984917,5.6309365778689,-13.4388619786919,21.7571843029282,595.605381387767
1628,3602,12430,"Neotoma","Cottonwood Lake","MNGRCL",45.76101,-96.01988,336,"not known","lake","core","33","Unpublished data",,22,"steppe",0.704589510748265,3221.94145984917,5.6309365778689,-13.4388619786919,21.7571843029282,595.605381387767
1628,3603,13562,"Neotoma","Cottonwood Lake","MNLYC2",44.6173,-95.68015,324,"not known","lake","core","-13","Unpublished data",,22,"steppe",0.76339104124937,3405.93455073433,6.58779059631505,-12.0731328232858,22.4371677410491,666.018765405237
1628,3603,13563,"Neotoma","Cottonwood Lake","MNLYC2",44.6173,-95.68015,324,"not known","lake","core","-3","Unpublished data",,22,"steppe",0.76339104124937,3405.93455073433,6.58779059631505,-12.0731328232858,22.4371677410491,666.018765405237
1628,3603,13564,"Neotoma","Cottonwood Lake","MNLYC2",44.6173,-95.68015,324,"not known","lake","core","13","Unpublished data",,22,"steppe",0.76339104124937,3405.93455073433,6.58779059631505,-12.0731328232858,22.4371677410491,666.018765405237
1628,3603,13565,"Neotoma","Cottonwood Lake","MNLYC2",44.6173,-95.68015,324,"not known","lake","core","30","Unpublished data",,22,"steppe",0.76339104124937,3405.93455073433,6.58779059631505,-12.0731328232858,22.4371677410491,666.018765405237
1628,3603,13566,"Neotoma","Cottonwood Lake","MNLYC2",44.6173,-95.68015,324,"not known","lake","core","46","Unpublished data",,22,"steppe",0.76339104124937,3405.93455073433,6.58779059631505,-12.0731328232858,22.4371677410491,666.018765405237
1628,3604,11492,"Neotoma","Cottonwood Lake","NBCHCO",42.91363,-101.67625,989,"not known","lake","surface sample","-34","Unpublished data",,22,"steppe",0.438921871940596,3504.35807257696,8.41485172544513,-5.98921799088787,23.042498177337,444.912912644773
1629,3605,12427,"Neotoma","Cottonwood Pass Pond","COTTPASS",38.8287299999999,-106.41084,3670,"not known","lake","core","-28","Fall, P.L. 1988. Vegetation dynamics in the southern Rocky Mountains: late Pleistocene and Holocene timberline fluctuations. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Fall, P.L. 1997. Timberline fluctuations and late Quaternary paleoclimates in the southern Rocky Mountains, Colorado. Geological Society of America Bulletin 109(10):1306-1320.","10.1130/0016-7606(1997)109<1306:TFALQP>2.3.CO;2",17,"temperate evergreen needleleaf open woodland",0.654905200319428,688.494086674501,-4.04400149076659,-15.3074107318054,7.41870357391601,582.188215465934
1630,3606,526,"Australian pollen","Coturaundee","C7 SS",-31.06,142.88,280,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.146342218162705,7111.19921991777,19.4827375888158,10.9890169708618,27.6169797978182,250.897869622764
1630,3607,527,"Australian pollen","Coturaundee","C8 SS",-31.06,142.88,280,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.146342218162705,7111.19921991777,19.4827375888158,10.9890169708618,27.6169797978182,250.897869622764
1631,3608,18602,"SMPDSv1","Coulvain","EPDcoretop_E1054",49.066667,-0.716667,145,"not known","terrestrial, bog/fen/swamp","core top","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.971474721236443,3823.7470703572,10.4760193708417,4.11724287527827,17.3634240122612,754.996880596333
1632,3609,528,"Australian pollen","Couridjah Lake","Couridjah Lake_TL1b_0",-34.23,150.54,310,"small (0.01-1 km2)","lake","core","-47","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.810752210711939,5597.07433166052,15.3344502237274,9.04239717917955,20.9387159741794,1027.88691225277
1632,3610,529,"Australian pollen","Couridjah Lake","Couridjah Lake_TL1b_1",-34.23,150.54,310,"small (0.01-1 km2)","lake","core","15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.810752210711939,5597.07433166052,15.3344502237274,9.04239717917955,20.9387159741794,1027.88691225277
1633,3611,18603,"SMPDSv1","COV1","Barboni_a405",43.317222,-4.818889,240,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.92453294307599,4683.32459386564,12.8310262845634,7.38872773236145,18.9433358075772,872.401804905664
1634,3612,18604,"SMPDSv1","COV2","Barboni_a406",43.318889,-4.917222,220,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.928125122995636,4712.96955259497,12.9122453495753,7.5180994745886,18.9676016564811,873.477566312983
1635,3613,18605,"SMPDSv1","COV3","Barboni_a407",43.35,-5.017222,130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.947114302198577,4842.24571944423,13.2664266286143,8.06131927622456,19.1017685251796,880.271577062308
1636,3614,18606,"SMPDSv1","COV4","Barboni_a408",43.267222,-4.968889,970,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.787396623952392,3640.09956633398,9.97287552420267,3.11172092181653,17.8972290612515,815.074819191641
1637,3615,18607,"SMPDSv1","COV5","Barboni_a409",43.3,-5.05,270,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.916967288491817,4642.82682137095,12.7200734832081,7.23814169089628,18.875574078921,868.927803460734
1638,3616,18608,"SMPDSv1","COV6","Barboni_a410",43.3,-5.05,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.892052377904018,4455.79083230061,12.2076461158921,6.47019700656195,18.6591146732602,859.561723945639
1639,3617,18609,"SMPDSv1","COV7","Barboni_a411",43.418889,-4.918889,360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.905546097423018,4507.80055442952,12.3501385052863,6.6955580269698,18.7098167351755,865.504462545912
1640,3618,18610,"SMPDSv1","COV8","Barboni_a412",43.417222,-4.968889,460,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.887022111690689,4363.73208470213,11.9554303690469,6.11021784995615,18.5361276513098,858.481325883566
1641,3619,18611,"SMPDSv1","COV9","Barboni_a413",43.4,-5,340,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.908565381068559,4537.61735947062,12.4318283821113,6.82025932658089,18.7399110319292,866.558471930624
1642,3620,18612,"SMPDSv1","COVA","Barboni_a414",43.368889,-5.018889,220,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.930124631182743,4711.94102617286,12.9094274689667,7.53041513758034,18.9467562178527,874.266198261236
1643,3621,18613,"SMPDSv1","Cova de enPardo","Cova de en Pardo",38.6677777777777,-0.186111111111111,640,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.341727453222342,5263.72395921312,14.4211615320907,7.08511500801138,23.4284482781615,419.499424713383
1644,3622,16072,"Neotoma","Cowan Lake","JHM025",43.3,-80.33,268,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.09029652533666,3170.12520368475,7.22146812334686,-6.81981356333918,20.2589658027431,946.107235993379
1645,3623,11640,"Neotoma","Cowboy Pond","GPPS-10",43.89476,-101.713304999999,761,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.43932783046746,3546.89991112134,8.2510155904507,-7.18119557769902,23.4225000116124,431.107000743826
1646,3624,15716,"Neotoma","Cowhorn Pond","COWH_C90",44.092695,-74.85042,530,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34775436446217,2721.73076748271,5.18126166114576,-9.59011777697495,18.4875673918652,1042.28496824642
1647,3625,15235,"Neotoma","Cox Creek","AMD002",42.8,-91.38,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.91841534907346,3624.16791293819,8.04398892831303,-9.33142434048939,22.6326547132755,838.624236710135
1648,3626,17356,"Neotoma","Cox Hollow","TW061",43.013056,-90.105556000000007,292,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.924919722403575,3469.86384336833,7.54110193748966,-9.49886537517037,22.0479543807443,821.645754574148
1649,3627,11491,"Neotoma","Cox Lake","SDLWCX",44.56455,-103.99393,1041,"not known","lake","surface sample","-33","Unpublished data",,22,"steppe",0.413048497507003,3301.29287349063,7.67657953593104,-6.6862732084082,22.2724323878201,397.624414952535
1650,3628,11652,"Neotoma","Coyote Pond","GPPS-25",36.433,-102.473795,1218,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.321039330203748,4746.67499400673,13.004589024676,0.517340791839242,25.6427480076315,423.636605389977
1651,3629,15836,"Neotoma","Crab Orchard Lake","GMP07",37.75,-89.12,137,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.03177467541561,5023.70447115805,13.7199059704293,-0.51388804725334,26.0110392202962,1135.65530458692
1652,3630,530,"Australian pollen","Cradle Link Road","VoB105m",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1652,3631,531,"Australian pollen","Cradle Link Road","VoB15m",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1652,3632,532,"Australian pollen","Cradle Link Road","VoB5m",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1652,3633,533,"Australian pollen","Cradle Link Road","VoB65m",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1652,3634,534,"Australian pollen","Cradle Link Road","VoB85m",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1652,3635,535,"Australian pollen","Cradle Link Road","VoBBF#2",-41.54,145.89,820,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
1653,3636,79,"APD","Craigrossie","CRAIG_30",-28.5333333333333,28.0138888888888,1735,"not applicable","terrestrial","not known","modern","Scott, L., 1986. Pollen analysis and palaeoenvironmental interpretation of late Quaternary sediment exposures in the eastern Orange Free State, South Africa. In Southern African society for Quaternary research. Biennal conference. 7 (pp. 113-122).;
Scott, L., 1989. Late Quaternary vegetation history and climatic change in the eastern Orange Free State, South Africa. South African Journal of Botany, 55(1), pp.107-116.",";
10.1016/S0254-6299(16)31238-8",22,"steppe",0.445131923195058,5260.48351394674,14.4122835998541,7.26724991124471,20.2453718313499,696.864815048558
1654,3637,12434,"Neotoma","Cranberry Glades","CRANGLDS",38.2,-80.283333,1029,"not known","not known","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,9,"cool mixed forest",1.25986820509117,3519.55823832129,9.23635804197758,-2.79829219776666,19.924925185943,1181.65611001235
1655,3638,12431,"Neotoma","Cranberry Lake","CRANBER",44.1,-78.1,170,"not known","lake","core","-25","Unpublished data",,9,"cool mixed forest",1.04801753457978,3205.19714654803,7.18407929848364,-7.43664523096318,20.66291326124,881.054251749148
1655,3638,12432,"Neotoma","Cranberry Lake","CRANBER",44.1,-78.1,170,"not known","lake","core","18","Unpublished data",,9,"cool mixed forest",1.04801753457978,3205.19714654803,7.18407929848364,-7.43664523096318,20.66291326124,881.054251749148
1656,3639,11823,"Neotoma","Cranberry Pond, MA","SJNE9",42.4493444999999,-73.363446,540,"not known","lake","surface sample","-40","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,9,"cool mixed forest",1.39176374768187,2820.15205116187,5.68644107263064,-8.94184389818032,18.8804624202355,1103.03507133225
1657,3640,536,"Australian pollen","Cranbourne Annexe","Tiger Snake Swamp",-38.117,145.267,60,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.750883911053033,5155.94998672587,14.1258903745914,9.03501807675566,19.5797923834671,785.08840556154
1658,3641,12433,"Neotoma","Crane Lake","CRANELAK",36.52986,-112.148895,2590,"not known","lake","core","-39","Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,17,"temperate evergreen needleleaf open woodland",0.364301057510204,2409.50629854494,5.7677456983826,-3.91068247506072,17.158708218827,446.063851176784
1659,3642,15717,"Neotoma","Crane Mountain Pond","CRMT_C90",43.550775,-73.973185,793,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.52265438097226,2341.50057236108,3.66956708387515,-10.7264409962021,16.6595662572653,1140.38912036076
1660,3643,18614,"SMPDSv1","Cranes Moor","Grant_a6",50.824035,-1.727292,40,"0.189","terrestrial, blanket bog","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22618765378529,3705.48034405172,10.1520009426075,4.59792459530183,16.4335774547673,870.045843451633
1661,3644,14051,"Neotoma","Crater Lake","CRATERBC",49.19225,-120.09585,2101,"not known","lake","core","-45","Heinrichs, M.L., R.J. Hebda, I.R. Walker, and S.L. Palmer. 2002. Postglacial paleoecology and inferred paleoclimate in the Engelmann spruce-subalpine fir forest of south-central British Columbia, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology 184:347-369.",,15,"cold evergreen needleleaf forest",2.05654793615133,672.886698152287,-2.34607556996559,-10.4941744469054,7.19866499521078,1269.43022278045
1661,3645,11659,"Neotoma","Crater Lake","GPPS-32",34.705825,-98.6250599999999,446,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",13,"temperate deciduous broadleaf forest",0.5202111144011,6058.33664167317,16.5981825799265,3.17441809840876,28.8861359138959,690.408504140333
1661,3646,11999,"Neotoma","Crater Lake","SM-CRL",39.084765,-106.96828,3053,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.542296020954954,1371.48090679098,-0.085711422761108,-11.8606996797267,11.7905881308947,525.851430999655
1662,3647,12435,"Neotoma","Crates Lake","CRATES",49.183333,-81.266667,259,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.24680952223969,2166.97339801639,0.690627229212401,-18.2837578737015,17.0819691406561,837.782993321263
1663,3648,13882,"Neotoma","Crawford Bog","CRAWFBOG",43.4665277777778,-79.9491666666667,268,"not known","terrestrial, bog/fen/swamp","core","-29","Karrow, P.F. 1963. Pleistocene geology of the Hamilton-Galt area. Geological Report 16, Ontario Department of Mines, Ottawa, Ontario, Canada.; Cowell, D., P. Karrow, and J. McAndrews. 2004.",,9,"cool mixed forest",1.09181808771915,3161.28080974494,7.1747097887765,-6.90659751064644,20.2829392229914,941.035423484862
1664,3649,12451,"Neotoma","Crawford Lake","CRAWFDC",43.468275,-79.94872,278,"not known","lake","core","-44","Yu, Z.C. 1997. Late Quaternary paleoecology of Thuja and Juniperus (Cupressaceae) at Crawford Lake, Ontario, Canada: pollen, stomata, and macrofossils. Review of Palaeobotany and Palynology 96:241-254.; Yu, Z.C. 2000. Ecosystem responses to late-glacial and early -Holocene climate oscillations in the Great Lakes region of North America. Quaternary Science Reviews 19:1723-1747.; Yu, Z.C. 2003. Late Quaternary dynamics of tundra and forest vegetation of the southern Niagara Escarpment, Canada. New Phytologist 157:365-390.; Yu, Z.C., and U. Eicher. 1998. Abrupt climate oscillations during the last deglaciation in central North America. Science 282:2235-2238.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12436,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","-19","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12437,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","-15","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12438,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","-10","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12439,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","-5","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12440,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","0","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12441,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","4","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12442,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","9","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12443,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","14","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12444,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","19","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12445,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","24","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12446,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","29","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12447,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","34","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12448,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","39","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12449,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","44","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1664,3650,12450,"Neotoma","Crawford Lake","CRAWFORD",43.468275,-79.94872,278,"not known","lake","core","49","McAndrews, J.H., and M. Boyko-Diakonow. 1989. Pollen analysis of varved sediment at Crawford Lake, Ontario: evidence of Indian and European farming. Pages 528-530 in R.J. Fulton, editor. Quaternary geology of Canada and Greenland. Volume K1. Decade of North American Geology, The Geology of North America. Geological Society of America, Boulder, Colorado, USA.; Boyko, M. 1973. European impact on the vegetation around Crawford Lake in southern Ontario. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.09721229050023,3146.17853600606,7.10810543544538,-6.98973480270987,20.2144837683467,944.730046842885
1665,3651,12452,"Neotoma","Crazy Pond","CRAZY",47.182465,-95.73495,457,"not known","lake","core","-13","Unpublished data",,9,"cool mixed forest",0.819915396377313,2941.858171743,4.40861775990484,-14.8639729487809,20.3448409851403,658.888571586042
1665,3651,12453,"Neotoma","Crazy Pond","CRAZY",47.182465,-95.73495,457,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",0.819915396377313,2941.858171743,4.40861775990484,-14.8639729487809,20.3448409851403,658.888571586042
1665,3651,12454,"Neotoma","Crazy Pond","CRAZY",47.182465,-95.73495,457,"not known","lake","core","37","Unpublished data",,9,"cool mixed forest",0.819915396377313,2941.858171743,4.40861775990484,-14.8639729487809,20.3448409851403,658.888571586042
1666,3652,16767,"Neotoma","Cree Lake Area","RJM028",57.8,-105.683333,549,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.848164832849673,1824.07790007979,-2.45221701285892,-23.3611727309163,15.915744929545,486.202930592028
1666,3653,16766,"Neotoma","Cree Lake Area","RJM029",57.8,-105.683333,549,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.848164832849673,1824.07790007979,-2.45221701285892,-23.3611727309163,15.915744929545,486.202930592028
1667,3654,17562,"Phelps et al., 2020","Crescent Island Crater Lake","NAIVASHA_1",-0.75,36.333333,1881,"not known","lake","core","1","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.774448785129278,6442.62660869977,17.6510318046569,16.1060861973376,18.9445106609508,1093.05457839238
1667,3655,17563,"Phelps et al., 2020","Crescent Island Crater Lake","NAIVASHA_17",-0.75,36.333333,1881,"not known","lake","core","12","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.774448785129278,6442.62660869977,17.6510318046569,16.1060861973376,18.9445106609508,1093.05457839238
1667,3656,17564,"Phelps et al., 2020","Crescent Island Crater Lake","NAIVASHA_33",-0.75,36.333333,1881,"not known","lake","core","24","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.774448785129278,6442.62660869977,17.6510318046569,16.1060861973376,18.9445106609508,1093.05457839238
1667,3657,17565,"Phelps et al., 2020","Crescent Island Crater Lake","NAIVASHA_49",-0.75,36.333333,1881,"not known","lake","core","35","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.774448785129278,6442.62660869977,17.6510318046569,16.1060861973376,18.9445106609508,1093.05457839238
1667,3658,17566,"Phelps et al., 2020","Crescent Island Crater Lake","NAIVASHA_65",-0.75,36.333333,1881,"not known","lake","core","46","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.774448785129278,6442.62660869977,17.6510318046569,16.1060861973376,18.9445106609508,1093.05457839238
1668,3659,12455,"Neotoma","Crider's Pond","CRIDERS",39.966667,-77.55,290,"not known","lake","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.09310922406772,4099.94283224438,10.925541703536,-2.29744790963441,22.9965591464766,1027.78009650284
1669,3660,18615,"SMPDSv1","Crimean Mountains North","Crimea-23",44.49,33.99,925,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.867092391107573,3093.10652736627,8.32634289608391,-1.03660663373406,18.0674932014855,852.273798661628
1670,3661,18616,"SMPDSv1","Cristol Lake","EPDcoretop_E907",44.9975,6.633333,2248,"0.018","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.03292541196373,1325.94876493242,2.0750981444663,-5.13759758604744,10.3228953988661,1704.84934179168
1671,3662,14429,"Neotoma","Crocker Lake","CROCKER-CL",47.936655,-122.880815,54,"not known","lake","core","33.2","Gavin, D.G., and L.B. Brubaker. 2015. Late Quaternary vegetation and fire history of the Olympic Peninsula. Pages 61-106 in D.G. Gavin and L.B. Brubaker, editors. Late Pleistocene and Holocene Environmental Change on the Olympic Peninsula. Ecological Studies 222. Springer International Publishing, Cham, Switzerland. McLachlan, J.S., and L.B. Brubaker. 1995. Local and regional vegetation change on the northeastern Olympic Peninsula during the Holocene. Canadian Journal of Botany 73(1):1618-1627.","10.1007/978-3-319-11014-1_4",8,"cool evergreen needleleaf forest",2.15431610475284,3701.22809162079,10.1403509359474,3.73972695929023,17.1094939048688,1680.16747414421
1672,3663,17402,"Neotoma","Crockery Lake","TW109",43.17,-85.85,215,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.97494074597104,3528.67851190095,8.4820509258597,-6.14702635603255,21.8159947005348,849.711734609205
1673,3664,18617,"SMPDSv1","Cromaglan wood, Killarney","Mitchell_a18",51.975,-9.56388888888889,110,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.90644303228179,3531.08605916894,9.67420838128476,5.38501786851863,14.8058316925809,1215.5780980585
1673,3665,18618,"SMPDSv1","Cromaglan wood, Killarney","Mitchell_a19",51.975,-9.56388888888889,110,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.90644303228179,3531.08605916894,9.67420838128476,5.38501786851863,14.8058316925809,1215.5780980585
1674,3666,14112,"Neotoma","Crooked Lake","CROOKEDN",46.24525,-89.29409,519,"not known","lake","core","-13","Brugam, R.B., M. Giorgi, C. Sesvold, S.M. Johnson, and R. Almos. 1997. Holocene vegetation history in the Sylvania Wilderness Area of the Western Upper Peninsula of Michigan. The American Midland Naturalist 137(1):62-71.","10.2307/2426755",9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14113,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-41","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14114,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-36","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14115,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14116,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-22","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14117,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-19","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14118,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-13","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14119,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","-1","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14120,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14121,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","18","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14122,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","25","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14123,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","32","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14124,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","38","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3667,14125,"Neotoma","Crooked Lake","CROOKEDR",46.24525,-89.29409,519,"not known","lake","core","45","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14126,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-40","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14127,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-37","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14128,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-27","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14129,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-18","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14130,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14131,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","-4","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14132,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","1","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14133,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","9","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14134,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","13","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14135,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","21","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14136,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","28","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3668,14137,"Neotoma","Crooked Lake","CROOKEDU",46.24525,-89.29409,519,"not known","lake","core","47","Unpublished data",,9,"cool mixed forest",1.0404433334962,2610.99646879214,3.84388740843765,-12.850469581864,18.7412328738453,794.877451276495
1674,3669,17422,"Neotoma","Crooked Lake","TW130",42.32,-85.52,283,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.999281350102134,3634.68059599713,8.8901974887431,-5.69015377374947,22.0130711953571,885.12033844049
1675,3670,10859,"Bush et al., 2020","Crooked_Tree","Crooked_Tree",17.78,-88.53,9,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.98005645278716,9451.16802976854,25.8936110404617,23.1791478408491,27.710180074496,1530.97371735099
1676,3671,15205,"Neotoma","Croton Springs","CROTONMA",32.162778,-109.933889,1266,"not known","terrestrial","excavation","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.246349949082739,6028.53047616598,16.5165218525095,7.06985973114018,26.6569085656404,381.129045067359
1676,3672,15206,"Neotoma","Croton Springs","CROTONMB",32.162778,-109.933889,1266,"not known","terrestrial","excavation","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.246349949082739,6028.53047616598,16.5165218525095,7.06985973114018,26.6569085656404,381.129045067359
1676,3673,12208,"Neotoma","Croton Springs","CROTONSS1",32.162778,-109.933889,1266,"not known","terrestrial","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.246349949082739,6028.53047616598,16.5165218525095,7.06985973114018,26.6569085656404,381.129045067359
1676,3674,12207,"Neotoma","Croton Springs","CROTONSS2",32.162778,-109.933889,1266,"not known","terrestrial","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.246349949082739,6028.53047616598,16.5165218525095,7.06985973114018,26.6569085656404,381.129045067359
1677,3675,12456,"Neotoma","Crowfoot Lake","CROWFOOT",51.65,-116.416667,1940,"not known","lake","core","0","Osborn, G., C. Clapperton, P.T. Davis, M.A. Reasoner, D.T. Rodbell, G.O. Seltzer, and G. Zielinski. 1995. Potential glacial evidence for the Younger Dryas event in the cordillera of North and South America. Quaternary Science Reviews 14:823-832.; Reasoner, M.A. 1996. Late Quaternary alpine and sub-alpine lacustrine records: Canadian and Colorado Rocky Mountains. Dissertation. University of Alberta, Edmonton, Alberta, Canada.; Reasoner, M.A., G. Osborn, and N.W. Rutter. 1994. Age of the Crowfoot advance in the Canadian Rocky Mountains: A glacial event coeval with the Younger Dryas Oscillation. Geology 22:439-442.",,15,"cold evergreen needleleaf forest",1.59076369604976,1076.02315970389,-1.33945595302502,-12.3945399993785,9.65764834239017,1024.57764729289
1678,3676,537,"Australian pollen","Crystal Bog","Crystal Bog 1",-36.7333,146.7833,1350,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.38324051498151,2168.56582230358,5.89612363838635,-0.49839481290719,12.3155842869191,1510.08092917668
1679,3677,538,"Australian pollen","Crystal Lagoon","CRYLGN",-40.47712,148.35079,8,"0.89","coastal, lacustrine","core top","-69","Adeleye, M., S. Haberle, D. McWethy, S. Connor, and J. Stevenson. 2021. Environmental change during the last glacial on an ancient land bridge of southeast Australia. Journal of Biogeography. http://dx.doi.org/10.1111/jbi.14255.","10.21233/AEGP-J328",16,"temperate sclerophyll woodland and shrubland",0.805514483558463,4778.4306026966,13.0915906923195,8.5801549110804,17.736503733991,784.005794979785
1680,3678,13789,"Neotoma","Crystal Lake","CRYSTAL",44.3334849999999,-93.212125,351,"not known","lake","core","50","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.887892368611524,3433.62484436722,6.9541732347783896,-11.1523168218675,22.261309661481,772.375316743226
1680,3679,15718,"Neotoma","Crystal Lake","DRW017",43.655025,-73.741815,291,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.27802511223217,3066.86488991538,6.57616891259842,-8.37373002922651,20.0402055470436,1020.58452309204
1680,3680,11793,"Neotoma","Crystal Lake","LMSJ5",37.848065,-107.78151,3682,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.818440282781635,600.030905846334,-4.57970812795035,-15.8789258361184,6.72470144880907,729.244536966624
1680,3681,16949,"Neotoma","Crystal Lake","ROK013",43.25,-84.92,260,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.957684248177895,3389.37811073935,7.99031244910689,-6.3699692645305,21.2926038614145,822.189052081918
1680,3682,17383,"Neotoma","Crystal Lake","TW090",44.2,-85.97,274,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.976325507642911,3154.36705473141,7.01289672862303,-7.41165044847954,20.4664495655067,808.804800226389
1680,3683,17430,"Neotoma","Crystal Lake","TW139",46.02,-89.63,484,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02956105067292,2651.27974184979,4.01046116485226,-12.774871166601,18.9254989710105,792.766711862777
1681,3684,2333,"CMPD","CS Hebei","CS Hebei 01",40.1608333333333,117.966666666667,48,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.499708824870189,4591.19514017094,11.8010478983723,-4.80761022801846,25.925154141762,540.629956204881
1681,3685,2334,"CMPD","CS Hebei","CS Hebei 02",39.8408333333333,118.871944444444,85,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.519399962021706,4274.17055533058,10.6242053745418,-6.12812545283432,24.9441319193406,550.896440930232
1681,3686,2335,"CMPD","CS Hebei","CS Hebei 03",39.9430555555556,119.064722222222,95,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.521402160626439,4225.50870446429,10.4338081166335,-6.35783986159611,24.7929690117156,550.308560268442
1681,3687,2336,"CMPD","CS Hebei","CS Hebei 04",40.1266666666667,118.519722222222,142,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.508663537892424,4261.86624139268,10.561706350697,-6.23323500699283,24.8852999187165,539.468604895431
1681,3688,2337,"CMPD","CS Hebei","CS Hebei 05",40.2119444444444,118.588888888889,106,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.511662413817017,4330.77121040193,10.8277685557119,-5.92773463535366,25.1125798865093,543.705565627241
1681,3689,2338,"CMPD","CS Hebei","CS Hebei 06",39.8825,119.012222222222,81,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.521469718575638,4261.34445746763,10.5755041617564,-6.18461216325811,24.9064468044352,551.967193181834
1681,3690,2339,"CMPD","CS Hebei","CS Hebei 07",40.1169444444444,119.04,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522944208496072,4251.56009334358,10.5309387711171,-6.26082600596009,24.8825897628525,551.25112864382
1681,3691,2340,"CMPD","CS Hebei","CS Hebei 08",40.1894444444444,118.144722222222,103,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.499723598673257,4441.04901881344,11.2389594242179,-5.45938877197097,25.4557805896419,536.143106925072
1681,3692,2341,"CMPD","CS Hebei","CS Hebei 09",38.7683333333333,114.72,146,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.464106826365387,4746.23810498277,12.4362716335527,-3.7532050878969,26.227454737266,518.351390562159
1681,3693,2342,"CMPD","CS Hebei","CS Hebei 10",38.5405555555556,114.435555555556,148,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.467208079680804,4798.16074450251,12.647208366269,-3.4233960121616702,26.3109515029951,524.433947194304
1681,3694,2343,"CMPD","CS Hebei","CS Hebei 11",36.7638888888889,114.185,300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.499982432094148,4750.79247376697,12.6637333902797,-2.64755483090948,25.7808565821675,564.645574684452
1681,3695,2344,"CMPD","CS Hebei","CS Hebei 12",39.1977777777778,114.628333333333,657,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.460471294233682,3869.32039882082,9.13475964579134,-7.40884790054342,23.2958075500884,495.293197251652
1681,3696,2345,"CMPD","CS Hebei","CS Hebei 13",39.0761111111111,114.352222222222,947,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.45896386377197,3453.59082315762,7.47394409636825,-9.1606039342451009,21.743143525265,486.499687214393
1681,3697,2346,"CMPD","CS Hebei","CS Hebei 14",39.5375,114.762222222222,1061,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.447654639448346,3193.09995311891,6.24292165177504,-10.7600473253585,20.8758082976486,464.828820653585
1681,3698,2347,"CMPD","CS Hebei","CS Hebei 15",38.3019444444444,114.132777777778,124,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.464270755151827,4873.10689864897,12.9276752621291,-3.04212219231003,26.4838998107546,524.570648475889
1681,3699,2348,"CMPD","CS Hebei","CS Hebei 16",38.8066666666667,114.491666666667,219,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.463152841904668,4624.36253293085,12.0038452012283,-4.21315768806189,25.8240503219406,515.140173407425
1681,3700,2349,"CMPD","CS Hebei","CS Hebei 17",37.0508333333333,114.271388888889,221,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.498062145266987,4848.1257456843005,12.9619949264304,-2.48448029888048,26.1504750376742,563.560748961335
1681,3701,2350,"CMPD","CS Hebei","CS Hebei 18",38.8466666666667,114.181388888889,254,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.460702981946034,4595.43513681213,11.9149422256921,-4.25652662118232,25.6800270582605,512.529965951707
1681,3702,2351,"CMPD","CS Hebei","CS Hebei 19",37.0997222222222,113.985,407,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496411282005916,4571.12951999793,12.0473247376334,-3.284554503241,25.192980350649,556.566594583279
1681,3703,2352,"CMPD","CS Hebei","CS Hebei 20",39.2377777777778,115.201666666667,316,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.466297727008984,4383.2901923304,11.0897800745179,-5.31262802479907,25.121595313615,509.86498897046
1681,3704,2353,"CMPD","CS Hebei","CS Hebei 21",37.0883333333333,113.96,393,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496344368422369,4593.01259569552,12.1218803962314,-3.21313957480436,25.2671166232555,556.923593626234
1681,3705,2354,"CMPD","CS Hebei","CS Hebei 22",37.1613888888889,113.953333333333,483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496561507437252,4454.30963515425,11.6480064127539,-3.66166319588421,24.7927620556552,554.371100884009
1681,3706,2355,"CMPD","CS Hebei","CS Hebei 23",39.3655555555556,118.682777777778,6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.527065024571065,4547.9248181643,11.7071987409383,-4.69058727656042,25.7326802161988,571.185465039638
1681,3707,2356,"CMPD","CS Hebei","CS Hebei 24",39.6461111111111,118.886388888889,19,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.532130083903418,4408.94460355088,11.1830804774267,-5.32459418992433,25.3312938357711,568.80533284612
1681,3708,2357,"CMPD","CS Hebei","CS Hebei 25",39.6527777777778,118.755,20,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.530722120092629,4424.65074042154,11.2403684770659,-5.26370493452911,25.3798109870854,568.036507381668
1681,3709,2358,"CMPD","CS Hebei","CS Hebei 26",39.6658333333333,119.216388888889,3,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.537219527187427,4384.69610489652,11.0988828121633,-5.39992314139448,25.2554576968912,572.250271222652
1681,3710,2359,"CMPD","CS Hebei","CS Hebei 27",39.9369444444444,119.534722222222,5,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.541143986548229,4229.25364406736,10.4597347735664,-6.30775784665324,24.8179963370239,567.18288838533
1681,3711,2360,"CMPD","CS Hebei","CS Hebei 28",39.6244444444444,118.637777777778,34,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522903316218008,4485.22073263195,11.4590578382503,-5.03362262814078,25.5531497142838,563.38057017588
1681,3712,2361,"CMPD","CS Hebei","CS Hebei 29",39.5394444444444,118.560555555556,23,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.523229414973373,4521.10771841816,11.5960943299251,-4.8609597273486,25.658058669774,565.442346313386
1681,3713,2362,"CMPD","CS Hebei","CS Hebei 30",40.0188888888889,119.821111111111,31,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.560543558630607,4084.80588198654,9.9094382798588,-6.91218026164065,24.3147153387317,579.95624872772
1681,3714,2363,"CMPD","CS Hebei","CS Hebei 31",39.6769444444444,118.266666666667,33,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.518359453746628,4532.82700342089,11.6281687777417,-4.86216001322219,25.6959944300047,560.277263895925
1681,3715,2364,"CMPD","CS Hebei","CS Hebei 32",38.85,115.558333333333,15,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473831085653978,4952.67027267772,13.1512099870789,-3.01316323857822,26.9234497094668,531.514232008222
1681,3716,2365,"CMPD","CS Hebei","CS Hebei 33",38.9311111111111,115.388611111111,28,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.472688784989371,4926.26345307881,13.0591689863661,-3.11403546374951,26.8445304349055,529.276458868634
1681,3717,2366,"CMPD","CS Hebei","CS Hebei 34",37.555,114.937222222222,30,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.486654129826903,5086.70170984419,13.6784990536709,-2.13340200688385,27.0813675443815,555.048837651434
1681,3718,2367,"CMPD","CS Hebei","CS Hebei 35",37.5933333333333,114.935,31,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.486249341556038,5082.75758319295,13.6641588627275,-2.15448185984774,27.0730842091619,554.361256424714
1681,3719,2368,"CMPD","CS Hebei","CS Hebei 36",37.3744444444444,114.912777777778,37,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.488396422213223,5086.74561503064,13.686336942524,-2.08670272014822,27.0582449020385,557.771075045182
1681,3720,2369,"CMPD","CS Hebei","CS Hebei 37",36.7947222222222,114.953888888889,40,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.5055759793372,5135.62759214862,13.8855022940167,-1.66785804289929,27.1193054472951,578.275999473424
1681,3721,2370,"CMPD","CS Hebei","CS Hebei 38",38.5586111111111,115.023611111111,54,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.471822481439964,4943.24150919079,13.1391790449742,-2.94166051942484,26.8106830167814,531.36571607322
1681,3722,2371,"CMPD","CS Hebei","CS Hebei 39",38.4827777777778,114.851666666667,67,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.471100742943483,4929.07846073268,13.0950949224098,-2.96976632307017,26.7492938308957,530.946930826265
1681,3723,2372,"CMPD","CS Hebei","CS Hebei 40",36.3733333333333,114.436111111111,68,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.520874339686219,5154.34391215235,13.9930913309527,-1.25199106213928,27.0742554399554,593.198749856545
1681,3724,2373,"CMPD","CS Hebei","CS Hebei 41",38.3402777777778,114.655277777778,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.467978890781597,4921.83529809431,13.0781144644961,-2.95491009940124,26.6966219587246,528.563948768466
1681,3725,2374,"CMPD","CS Hebei","CS Hebei 42",38.9836111111111,115.441388888889,24,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.47305203585746,4928.19233678006,13.0647221481065,-3.11267939074853,26.8565602963387,529.284009093353
1681,3726,2375,"CMPD","CS Hebei","CS Hebei 43",38.535,115.294722222222,31,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.476268836976258,4982.97220057765,13.274727584847,-2.8021083926997,26.9354220339156,537.154198210797
1681,3727,2376,"CMPD","CS Hebei","CS Hebei 44",39.2286111111111,115.611388888889,33,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473705284037836,4884.39137865099,12.9063358382554,-3.30865125349246,26.7480035802047,527.235097636624
1681,3728,2377,"CMPD","CS Hebei","CS Hebei 45",39.2202777777778,115.600277777778,36,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473600485826923,4879.55789310623,12.8894571894314,-3.32694553549841,26.7320515639003,527.098552719797
1681,3729,2378,"CMPD","CS Hebei","CS Hebei 46",38.3561111111111,114.999722222222,46,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.472146002809082,4970.74314521239,13.2399236448917,-2.80760244701233,26.8732274216503,533.568390767862
1681,3730,2379,"CMPD","CS Hebei","CS Hebei 47",37.3525,114.658611111111,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.484493469715095,5070.60886520138,13.6404647265703,-2.09486336690814,26.9887748712666,553.078015402728
1681,3731,2380,"CMPD","CS Hebei","CS Hebei 48",37.8291666666667,114.570833333333,54,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.474085926184982,5012.75004894906,13.415832466747,-2.47914410175124,26.8912596142208,539.165245711031
1681,3732,2381,"CMPD","CS Hebei","CS Hebei 49",38.0113888888889,114.542222222222,70,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473060536874101,4975.23429424975,13.2837865891254,-2.64083330492184,26.7921890714356,536.419305839435
1681,3733,2382,"CMPD","CS Hebei","CS Hebei 50",36.3897222222222,114.300833333333,101,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.520385734012661,5103.33781085332,13.8352433866168,-1.38318501252004,26.9025448559908,591.605379019386
1681,3734,2383,"CMPD","CS Hebei","CS Hebei 51",39.4922222222222,115.731111111111,74,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.470838036602015,4757.51752495179,12.4419359549185,-3.875208858045,26.4117002616722,519.56858352011
1681,3735,2384,"CMPD","CS Hebei","CS Hebei 52",38.0575,114.708055555556,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473289345613242,4986.91459004296,13.3189286030145,-2.62363314967428,26.8429451912876,536.580355554411
1681,3736,2385,"CMPD","CS Hebei","CS Hebei 53",39.1852777777778,116.672222222222,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.488392054140454,4889.25949494351,12.9128917364084,-3.36948429600674,26.7522293336665,543.556489292585
1681,3737,2386,"CMPD","CS Hebei","CS Hebei 54",38.4613888888889,115.9325,12,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.484588728403839,4990.29084825575,13.2917076397697,-2.82852338228469,26.9669564818779,546.495680507252
1681,3738,2387,"CMPD","CS Hebei","CS Hebei 55",39.4422222222222,116.679166666667,17,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.484566534587675,4829.11467735072,12.6901189028122,-3.65411603401538,26.6065938998368,536.223744619541
1681,3739,2388,"CMPD","CS Hebei","CS Hebei 56",38.1658333333333,115.554444444444,25,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.484268269226512,5040.30398466452,13.4870332084314,-2.50612489094437,27.0438808616997,549.137146141886
1681,3740,2389,"CMPD","CS Hebei","CS Hebei 57",38.7952777777778,115.869444444444,7,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.478848363760254,4950.98037992624,13.1398881251923,-3.05681238959378,26.91651445666,537.182904290656
1681,3741,2390,"CMPD","CS Hebei","CS Hebei 58",38.9352777777778,116.360555555556,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.486649383343183,4914.66180873701,13.0067603073334,-3.24220367101873,26.8164819336977,543.854642519007
1681,3742,2391,"CMPD","CS Hebei","CS Hebei 59",38.2008333333333,115.753055555556,21,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.488980419895588,5027.50528412509,13.437069987223,-2.5935411551081202,27.0141560231186,553.726208310014
1681,3743,2392,"CMPD","CS Hebei","CS Hebei 60",37.6783333333333,115.598333333333,23,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495747337553044,5082.57161946363,13.6530861116064,-2.2219328113006,27.0949886599555,564.55429825532
1681,3744,2393,"CMPD","CS Hebei","CS Hebei 61",38.1233333333333,115.329444444444,32,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.482709023573443,5034.951447624,13.4728283466837,-2.50275418950657,27.0168022800896,547.630662630283
1681,3745,2394,"CMPD","CS Hebei","CS Hebei 62",38.2247222222222,115.236388888889,35,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.47784754826998,5012.92329038173,13.3928614403801,-2.6092195269954,26.9701228746075,540.966736103059
1681,3746,2395,"CMPD","CS Hebei","CS Hebei 63",36.3547222222222,115.2975,40,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.532330852416104,5166.511316701,14.0138585289885,-1.35386799528959,27.167577058681,608.105829850938
1681,3747,2396,"CMPD","CS Hebei","CS Hebei 64",36.1677777777778,114.786944444444,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.541631849213944,5190.88692622,14.1235918095831,-1.00978531143392,27.1776877134527,615.592236553472
1681,3748,2397,"CMPD","CS Hebei","CS Hebei 65",36.3055555555556,114.863055555556,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.525827373470028,5159.4089538431,14.0016305891634,-1.2958279740884,27.1175858437308,599.885714910274
1681,3749,2398,"CMPD","CS Hebei","CS Hebei 66",38.1233333333333,115.329444444444,32,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.482709023573443,5034.951447624,13.4728283466837,-2.50275418950657,27.0168022800896,547.630662630283
1681,3750,2399,"CMPD","CS Hebei","CS Hebei 67",36.3722222222222,115.002222222222,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.525443060533736,5162.71392308151,14.0075642871655,-1.3208054988567,27.1378633821753,599.537662159653
1681,3751,2400,"CMPD","CS Hebei","CS Hebei 68",38.2072222222222,115.224444444444,35,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.477883784755909,5014.23351362042,13.3980507516658,-2.6004893317422,26.9716297293489,541.137179668315
1681,3752,2401,"CMPD","CS Hebei","CS Hebei 69",36.9775,115.390555555556,35,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.510229565189395,5126.08069701412,13.8405335204954,-1.79583256047557,27.1204437367132,583.277184508783
1681,3753,2402,"CMPD","CS Hebei","CS Hebei 70",38.3586111111111,117.2025,3,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.509683347388339,4923.42283183044,13.0626744111627,-3.0944867427274,26.7648835470403,572.095170682511
1681,3754,2403,"CMPD","CS Hebei","CS Hebei 71",38.0488888888889,116.689444444444,9,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.504099463996394,5007.10360148077,13.364152425092101,-2.70230496848632,26.9539367766141,570.588167232547
1681,3755,2404,"CMPD","CS Hebei","CS Hebei 72",38.0602777777778,117.103333333333,12,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.512416495874512,4953.61866180812,13.1804416471868,-2.90801071399386,26.8136154200899,577.809476652645
1681,3756,2405,"CMPD","CS Hebei","CS Hebei 73",37.9980555555556,115.961666666667,17,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.492423844126242,5046.07007680526,13.5052455813891,-2.49944422526692,27.0478720880487,559.150280923382
1681,3757,2406,"CMPD","CS Hebei","CS Hebei 74",37.8786111111111,115.9875,18,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.493438332814409,5051.31618398081,13.5262814244149,-2.46258188287964,27.0513065339773,561.105435158112
1681,3758,2407,"CMPD","CS Hebei","CS Hebei 75",39.1780555555556,115.731666666667,27,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.474343326699742,4897.15615073666,12.9511575976281,-3.26002827568811,26.7859724430851,528.507345133163
1681,3759,2408,"CMPD","CS Hebei","CS Hebei 76",37.1375,115.840833333333,28,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.51009157455108,5113.22907037347,13.7809187065363,-1.9563642994378,27.1168094681229,583.104080854856
1681,3760,2409,"CMPD","CS Hebei","CS Hebei 77",38.0941666666667,117.472222222222,7,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.522824388790374,4901.81405191594,13.0075966050845,-3.07775427315347,26.6761714675139,586.699728408503
1681,3761,2410,"CMPD","CS Hebei","CS Hebei 78",37.8886111111111,116.537222222222,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.503514339197622,5017.73153739173,13.4054564790008,-2.63364382245428,26.9702794350714,571.196871755326
1681,3762,2411,"CMPD","CS Hebei","CS Hebei 79",38.4522222222222,116.976944444444,6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.505623045368594,4924.83791533989,13.0640578711237,-3.10476667950574,26.7757390653599,567.302514040232
1681,3763,2412,"CMPD","CS Hebei","CS Hebei 80",38.0372222222222,115.988333333333,16,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.492448528869122,5045.22775315443,13.5011525436242,-2.50944422641774,27.0491871554019,558.925735153791
1681,3764,2413,"CMPD","CS Hebei","CS Hebei 81",38.5311111111111,116.648055555556,7,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495992842206858,4952.92665787679,13.157189446825,-3.01281185172878,26.8648442926204,557.394496101533
1681,3765,2414,"CMPD","CS Hebei","CS Hebei 82",37.7525,116.212777777778,16,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496503126161118,5060.35366222936,13.5591300184719,-2.41800317312122,27.0646252555336,565.494431161408
1682,3766,10860,"Bush et al., 2020","ct1_7","ct1_7",-11.9295,-71.32403,343,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.06846822831663,8995.83077678369,24.6461117172156,22.8567944991307,25.5689097037297,2990.86430499955
1683,3767,12457,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","19","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12458,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","33","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12459,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","38","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12460,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","40","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12461,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","40","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12462,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","40","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12463,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","40","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3767,12464,"Neotoma","Cub Lake","CUB2",44.7,-84.958333,360,"not known","lake","core","40","Rasmussen, J.B. 1982. Pollen stratigraphy and vegetational history of Cub Lake, Kalkaska County, Michigan. Thesis. Central Michigan University, Mount Pleasant, Michigan, USA.",,9,"cool mixed forest",0.948610841716747,2983.09451946586,6.36586180096879,-7.73664343564497,19.7651404468494,769.647051405763
1683,3768,12465,"Neotoma","Cub Lake","CUBID",44.125,-111.183333,1840,"not known","lake","core","0","Baker, R.G. 1983. Holocene vegetational history of the western United States. Pages 109-127 in H.E. Wright, Jr., editor. Late-Quaternary environments of the United States. Volume 2. the Holocene. University of Minnesota Press. Minneapolis, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1971. University of Wisconsin radiocarbon dates IX. Radiocarbon 13:475-486.",,17,"temperate evergreen needleleaf open woodland",0.46859725827924,2511.20533792385,5.23026356616034,-7.07083620272492,18.1522410689886,440.996417251645
1684,3769,24286,"Neotoma","Cuchilla La Rabona","RABONA",4,-74.25,4000,"not known","terrestrial, soil","profile or section","14","Melief, A.B.M., and A.M. Cleef. 2008. Results of the pollen analysis of peat and lake deposits in the Sumapaz area. Pages 395-452 in T. van der Hammen, J.O. Rangel, and A.M. Cleef, editors. La Cordillera Oriental Colombiana Transecto Sumapaz. Studies on Tropical Andean Ecosystems 7. J. Cramer, Berlin, Germany.;
Cleef, A.M. 1981. The vegetation of the Páramos of the Colombian Cordillera Oriental. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands. Notes: Published by J. Cramer, Vaduz, Lichtenstein;
Melief, A.B.M. 1985. Late Quaternary paleoecology of the Parque Nacional Natural los Nevados (Cordillera Central) and Sumapaz (Cordillera Oriental) areas, Colombia. Doctoral dissertation. Universiteit van Amsterdam, Amsterdam, The Netherlands.",,22,"steppe",0.523684220973641,2056.342689564,5.63381558784657,4.94472574427625,6.44873805667539,585.506948275949
1685,3770,10861,"Bush et al., 2020","cuencaalta","cuencaalta",8.41,-82.17,57,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51942805415245,9535.88176407736,26.1257034632257,25.2223449846084,27.3112041330473,2587.09967714077
1686,3771,10862,"Bush et al., 2020","CuencaAlta.1","CuencaAlta.1",8.679093,-82.21971,1415,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0883883430361,6962.79924461907,19.0761623140249,18.1804703506488,19.8508315274976,3442.88672795922
1687,3772,10863,"Bush et al., 2020","CuencaAlta.2","CuencaAlta.2",8.679093,-82.21971,1415,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0883883430361,6962.79924461907,19.0761623140249,18.1804703506488,19.8508315274976,3442.88672795922
1688,3773,10864,"Bush et al., 2020","CuencaAlta.3","CuencaAlta.3",8.679093,-82.21971,1415,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0883883430361,6962.79924461907,19.0761623140249,18.1804703506488,19.8508315274976,3442.88672795922
1689,3774,10865,"Bush et al., 2020","CuencaAlta.4","CuencaAlta.4",8.679093,-82.21971,1415,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0883883430361,6962.79924461907,19.0761623140249,18.1804703506488,19.8508315274976,3442.88672795922
1690,3775,10866,"Bush et al., 2020","CuencaAlta.5","CuencaAlta.5",8.679093,-82.21971,1415,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0883883430361,6962.79924461907,19.0761623140249,18.1804703506488,19.8508315274976,3442.88672795922
1691,3776,10867,"Bush et al., 2020","cuencaswamp","cuencaswamp",8.41,-82.17,57,"not known","lake","lake surface sample","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51942805415245,9535.88176407736,26.1257034632257,25.2223449846084,27.3112041330473,2587.09967714077
1692,3777,18619,"SMPDSv1","Cueto de la Avellanosa","Barboni_a763",43.116667,-4.364167,1320,"2.5","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607155676332449,3232.31372259834,8.85565403451599,1.08686695015509,18.0271536724245,673.880024875261
1693,3778,2415,"CMPD","Cuiluan","Cuiluan",47.4,128.7,250,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.77668950754192,2615.64045764905,0.625231496284681,-22.8208336866983,20.216083317721,566.805050366374
1694,3779,10425,"IBERIA","Culazon","CULAZON_0.04",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-44","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3780,10426,"IBERIA","Culazon","CULAZON_0.06",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-38","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3781,10427,"IBERIA","Culazon","CULAZON_0.08",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-32","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3782,10428,"IBERIA","Culazon","CULAZON_0.10",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-25","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3783,10429,"IBERIA","Culazon","CULAZON_0.12",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3784,10430,"IBERIA","Culazon","CULAZON_0.14",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-13","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3785,10431,"IBERIA","Culazon","CULAZON_0.16",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","-5","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3786,10432,"IBERIA","Culazon","CULAZON_0.18",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","3","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3787,10433,"IBERIA","Culazon","CULAZON_0.20",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3788,10434,"IBERIA","Culazon","CULAZON_0.22",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3789,10435,"IBERIA","Culazon","CULAZON_0.24",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3790,10436,"IBERIA","Culazon","CULAZON_0.26",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","33","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3791,10437,"IBERIA","Culazon","CULAZON_0.28",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","40","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1694,3792,10438,"IBERIA","Culazon","CULAZON_0.30",43.23277778,-4.489166667,592,"0.01","terrestrial, bog/fen/swamp","core","47","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.816645688242091,4201.48994051279,11.5109313438707,5.20138331303117,18.6169896442996,813.66023790446
1695,3793,11348,"Neotoma","Cullaton Lake Airport","HC004",61.31631,-98.49204,243,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,15,"cold evergreen needleleaf forest",0.816809743770821,992.700484987243,-9.8061203522207,-30.8641336331225,12.1295071727871,326.411153992419
1696,3794,24167,"Neotoma","Cumbre Unduavi","CUMBREUN",-16.35,-68.041667,4620,"not known","not known","core","17","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,22,"steppe",0.201438804276759,1974.64402433889,5.40998362832571,2.06421552233329,7.71458168088284,288.732717813037
1697,3795,2416,"CMPD","Cuoer","Cuoer 1",31.47,91.5,4515,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.36933863474562,1198.16464936771,-0.687020357929111,-12.4791338616827,9.75595314750389,410.433755840954
1697,3796,2417,"CMPD","Cuoer","Cuoer 2",31.57,91.52,4545,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373121805621692,1175.02831214116,-0.788296054564435,-12.5216781586535,9.61878665811709,413.463951227983
1698,3797,2418,"CMPD","Cuomorong","Cuomorong",31.62,92.07,4410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373142192182528,1246.70013586144,-0.445299486431062,-12.3820491037572,10.0014157597203,412.896453567332
1699,3798,2419,"CMPD","Cuona","Cuona 1",32.07,91.4,4740,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.375490310373123,983.11864580707,-1.82893090175311,-13.3134211929217,8.52412515039577,406.105192440205
1699,3799,2420,"CMPD","Cuona","Cuona 2",32.06,91.44,4588,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.39721898233846,1182.23611166231,-0.622646292110509,-12.1483719819751,9.58904307142486,439.134540912445
1699,3800,2421,"CMPD","Cuona","Cuona 3",32.07,91.4,4772,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.370693665919726,943.244713069954,-2.08453289751689,-13.5614399713944,8.29853118638951,399.012692308563
1699,3801,2422,"CMPD","Cuona","Cuona 4",32.15,91.45,4600,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.394980897983669,1160.49158730178,-0.751647608027242,-12.277894050712,9.47836923231132,435.086209419584
1700,3802,18620,"SMPDSv1","Cuonjegaljavri","Bjune_a19",69.14848283,25.54989101,280,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.3131718864996,1290.00214872584,-2.27930108211036,-16.2749189614357,12.9029707659266,495.206236596272
1701,3803,12466,"Neotoma","Cupola Pond","CUPOLA",36.79913,-91.08998,243,"not known","lake","core","0","Delcourt, H.R., and P.A. Delcourt. 1994. Postglacial rise and decline of Ostrya virginiana (Mill.) K. Koch and Carpinus caroliniana Walt. in Eastern North America: predictable responses of forest species to cyclic changes in seasonality of climates. Journal of Biogeography 21(2):137-150. Smith, E.N., Jr. 1984. Late-Quaternary vegetational history at Cupola Pond, Ozark National Scenic Riverways, southeastern Missouri. Master's thesis. University of Tennessee, Knoxville, Tennessee, USA.","10.2307/2845468",13,"temperate deciduous broadleaf forest",0.964893904794304,5100.70366138334,13.9745305791324,0.336503784045107,26.0282497897181,1110.4937731314
1702,3804,11505,"Neotoma","Curlew Lake","SDMECU",44.241895,-102.761745,817,"not known","artificial water body","surface sample","-54","Unpublished data",,22,"steppe",0.41866117312455,3527.55526826979,8.37269279812004,-6.50285067542817,23.193486309271,409.83331223711
1703,3805,16740,"Neotoma","Cut Knife Hill","RJM002",52.841944,-108.883333,547,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.58954109326621,2279.13949660819,0.898024066250834,-18.535994930556,16.7291986965834,414.552915221546
1704,3806,10868,"Bush et al., 2020","Cuyabeno_1","Cuyabeno_1",-0.229,-75.93,224,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.50868274166881,9542.52211878308,26.143896215844,24.9697704017852,26.708164092419,3266.9821087472
1705,3807,10869,"Bush et al., 2020","Cuyabeno_101","Cuyabeno_101",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1706,3808,10870,"Bush et al., 2020","Cuyabeno_105","Cuyabeno_105",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1707,3809,10871,"Bush et al., 2020","Cuyabeno_108","Cuyabeno_108",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1708,3810,10872,"Bush et al., 2020","Cuyabeno_111","Cuyabeno_111",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1709,3811,10873,"Bush et al., 2020","Cuyabeno_114","Cuyabeno_114",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1710,3812,10874,"Bush et al., 2020","Cuyabeno_117","Cuyabeno_117",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1711,3813,10875,"Bush et al., 2020","Cuyabeno_12","Cuyabeno_12",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1712,3814,10876,"Bush et al., 2020","Cuyabeno_121","Cuyabeno_121",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1713,3815,10877,"Bush et al., 2020","Cuyabeno_125","Cuyabeno_125",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1714,3816,10878,"Bush et al., 2020","Cuyabeno_16","Cuyabeno_16",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1715,3817,10879,"Bush et al., 2020","Cuyabeno_20","Cuyabeno_20",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1716,3818,10880,"Bush et al., 2020","Cuyabeno_24","Cuyabeno_24",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1717,3819,10881,"Bush et al., 2020","Cuyabeno_28","Cuyabeno_28",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1718,3820,10882,"Bush et al., 2020","Cuyabeno_32","Cuyabeno_32",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1719,3821,10883,"Bush et al., 2020","Cuyabeno_36","Cuyabeno_36",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1720,3822,10884,"Bush et al., 2020","Cuyabeno_4","Cuyabeno_4",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1721,3823,10885,"Bush et al., 2020","Cuyabeno_40","Cuyabeno_40",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1722,3824,10886,"Bush et al., 2020","Cuyabeno_44","Cuyabeno_44",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1723,3825,10887,"Bush et al., 2020","Cuyabeno_48","Cuyabeno_48",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1724,3826,10888,"Bush et al., 2020","Cuyabeno_52","Cuyabeno_52",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1725,3827,10889,"Bush et al., 2020","Cuyabeno_56","Cuyabeno_56",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1726,3828,10890,"Bush et al., 2020","Cuyabeno_59","Cuyabeno_59",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1727,3829,10891,"Bush et al., 2020","Cuyabeno_63","Cuyabeno_63",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1728,3830,10892,"Bush et al., 2020","Cuyabeno_66","Cuyabeno_66",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1729,3831,10893,"Bush et al., 2020","Cuyabeno_70","Cuyabeno_70",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1730,3832,10894,"Bush et al., 2020","Cuyabeno_74","Cuyabeno_74",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1731,3833,10895,"Bush et al., 2020","Cuyabeno_77","Cuyabeno_77",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1732,3834,10896,"Bush et al., 2020","Cuyabeno_8","Cuyabeno_8",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1733,3835,10897,"Bush et al., 2020","Cuyabeno_81","Cuyabeno_81",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1734,3836,10898,"Bush et al., 2020","Cuyabeno_85","Cuyabeno_85",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1735,3837,10899,"Bush et al., 2020","Cuyabeno_89","Cuyabeno_89",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1736,3838,10900,"Bush et al., 2020","Cuyabeno_93","Cuyabeno_93",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1737,3839,10901,"Bush et al., 2020","Cuyabeno_97","Cuyabeno_97",-0.229,-76.169,239,"not known","terrestrial","pollen trap","-40","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.53834468292968,9513.20640251762,26.0635791849798,24.905189602261,26.6204030404829,3299.16389555788
1738,3840,12467,"Neotoma","Cycloid Lake","CYCLOID1",55.266667,-105.266667,369,"not known","lake","core","0","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.804120640713749,2006.04471678543,-1.17507735717886,-21.9751998668521,16.4904830313596,495.926082147302
1739,3841,16765,"Neotoma","Cycloid Lake Area","RJM027",55.25,-105.266667,594,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.739234890022921,2002.24227344158,-0.773987357744458,-20.8239006449347,16.0539610167366,473.520837481701
1740,3842,12468,"Neotoma","Cygnet Lake Fen","CYGNET",44.65,-110.6,2530,"not known","terrestrial, bog/fen/swamp","core","0","Whitlock, C. 1993. Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63:173-198.; Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.",,17,"temperate evergreen needleleaf open woodland",0.573186247380535,1783.7811313745499,2.14664553636531,-9.0495186384451,14.6688971176291,499.960652124198
1741,3843,18621,"SMPDSv1","Czarne Lake","Swieta_a1",54.3666666666666,17.8,91,"0.071","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.883239443844569,2920.06126268478,7.69947978606363,-2.12821767630499,16.9187118582955,612.646266504173
1741,3844,18622,"SMPDSv1","Czarne Lake","Swieta_a2",54.3666666666666,17.8,91,"0.071","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.883239443844569,2920.06126268478,7.69947978606363,-2.12821767630499,16.9187118582955,612.646266504173
1741,3845,18623,"SMPDSv1","Czarne Lake","Swieta_a3",54.3666666666666,17.8,91,"0.071","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.883239443844569,2920.06126268478,7.69947978606363,-2.12821767630499,16.9187118582955,612.646266504173
1742,3846,9761,"Herzschuh et al., 2019","Daba Nur Lake","Daba Nur Lake",48.2,98.79,2465,"not known","lake","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.340518172843594,1003.34029256634,-7.50961154710336,-27.7493771116887,9.96106478423982,279.761884576698
1743,3847,8259,"EMPDv2","Dacha","Mikishin-Gvozdeva_b90",43.2497222222222,132.061944444444,100,"not applicable","terrestrial","litter","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.94694991151648,3054.04375809518,5.37506551503258,-12.6522179821752,20.9352910649581,741.811692218845
1744,3848,2423,"CMPD","Dadianzi","Dadianzi",42.35,126.383,620,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.911052966821023,2995.46753402556,3.91221338197854,-17.2877736556468,21.1844021823334,807.018328710095
1745,3849,2424,"CMPD","Dadiwan","Dadiwan",35.76,105.82,1250,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.436584862414587,3733.04444376108,9.43733014010695,-4.50384027765022,21.9987625522694,469.461255309115
1746,3850,2425,"CMPD","Dafeng Mt","Dafeng Mt 1",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
1746,3851,2426,"CMPD","Dafeng Mt","Dafeng Mt 2",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
1747,3852,18624,"SMPDSv1","Dafjordvatn","Bjune_a241",70.005,19.4233333333333,206,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.51750973325982,1178.01879282923,0.184138318827069,-8.31839730120012,11.218456458823,892.264571228257
1747,3853,18625,"SMPDSv1","Dafjordvatn","Bjune_a252",70.005,19.4233333333333,206,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.51750973325982,1178.01879282923,0.184138318827069,-8.31839730120012,11.218456458823,892.264571228257
1748,3854,18626,"SMPDSv1","Dags Mosse","EPDcoretop_E195",58.333333,14.7,260,"0.99","terrestrial, bog/fen/swamp","peat core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06324422907326,2346.31255211585,5.54724925592017,-3.89504650323941,15.2776288747839,649.464296965381
1749,3855,9598,"Gaillard et al., 1992","Dagshog","Dagshog",56.48464,12.661719,0,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.957351165996663,2915.36748710271,7.84317890463835,-0.937553668897027,16.7155920997715,633.421368837508
1750,3856,2427,"CMPD","Dahaizi","Dahaizi 1",27.5,102.333,3660,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.671233451437521,2909.92702114413,7.97240279765514,0.466105465984564,14.1268718234116,818.106094590158
1750,3857,2428,"CMPD","Dahaizi","Dahaizi 2",27.8333,102.667,3660,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.674984407749097,2823.58659039246,7.7358536723081,0.213370262069801,13.8512238584747,818.409531521
1751,3858,9762,"Herzschuh et al., 2019","Dahu Lake_DW","Dahu Lake_DW",24.255,115.035,250,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.43411061849178,7527.19298849388,20.6224465438188,11.6904433350607,27.924796707280102,1763.6275636566
1752,3859,18627,"SMPDSv1","DAI1","Barboni_a415",39.1,-3.65,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.369873456674397,5337.73857532156,14.6239413022508,6.24252673632175,25.1651157116932,468.306792550352
1753,3860,2429,"CMPD","Daihai","Daihai",40.5833,112.667,1221,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.37618595581835,3142.13522703445,5.87906018940355,-11.5873394484679,20.8286259938438,398.828639896608
1753,3861,2430,"CMPD","Daihai","Daihai 99a",40.5833,112.667,1220,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.376294529882881,3143.20046900789,5.88388798744461,-11.582238884839,20.8323571365902,398.940124389965
1754,3862,9763,"Herzschuh et al., 2019","Daihai Lake_2004","Daihai Lake_2004 1",40.58,112.67,1220,"not known","lake","lake surface sample","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.376397928633559,3143.24098890373,5.88451953990762,-11.5804944661325,20.8319629438033,399.051886886031
1754,3863,9764,"Herzschuh et al., 2019","Daihai Lake_2004","Daihai Lake_2004 2",40.58,112.67,1220,"not known","lake","lake surface sample","33.9","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.376397928633559,3143.24098890373,5.88451953990762,-11.5804944661325,20.8319629438033,399.051886886031
1755,3864,14443,"Neotoma","Dailey Lake","DAILEY",45.2624749999999,-110.816305,1598,"not known","lake","core","-59","Krause, T.R., Y. Lu, C. Whitlock, S.C. Fritz, and K.L. Pierce. 2015. Patterns of terrestrial and limnologic development during the late-glacial/early-Holocene transition inferred from multiple proxy records from Dailey Lake, Montana, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 422:46-56.",,17,"temperate evergreen needleleaf open woodland",0.492008974080197,2743.48585965871,6.06102625484179,-6.75720488310398,19.3204708443538,448.900205713614
1756,3865,2431,"CMPD","Dajiuhu","Dajiuhu",31.3,110.2,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.04680779766095,4573.23449417259,12.5294095730756,1.63450848195319,22.9346832040528,1124.05128456183
1756,3866,2432,"CMPD","Dajiuhu","Dajiuhu 1",31.75,110.667,1700,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.03073695460067,4527.82727425401,12.4050062308329,1.46388492486348,22.8981694729061,1103.07323444418
1756,3867,9765,"Herzschuh et al., 2019","Dajiuhu","Dajiuhu 2",31.755,110.665,1700,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02582838115053,4491.01273540084,12.3041444805502,1.35374563819368,22.8082051942545,1096.25193744482
1756,3868,9766,"Herzschuh et al., 2019","Dajiuhu","Dajiuhu_2013",31.49,110,1751,"not known","not known","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.04763947099397,4533.81449896724,12.4214095862116,1.58666887631704,22.7750320125854,1122.55738875148
1757,3869,9767,"Herzschuh et al., 2019","Dalai Nuur. 23A","Dalai Nuur. 23A",48.31775,92.70596,1173,"2339","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.15257542302146,2665.90694194009,0.303287664129559,-24.2742824672502,19.6564744787249,145.037478856049
1758,3870,18628,"SMPDSv1","Dalane","Bjune_a188",58.245,8.00666666666666,40,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.91434139958038,2589.68340967308,6.72773670105863,-2.11492857221132,15.6155194120476,1163.71993613274
1759,3871,9599,"Gaillard et al., 1992","Dalby","Dalby",55.665734,13.3473,75,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.998426665038539,2794.26162929739,7.40100831679359,-1.53459003990125,16.4143219417962,664.952485427027
1760,3872,2433,"CMPD","Dalianhai Lake","Dalianhai Lake 01",31.99,99.9473,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757363008557364,2114.37804573045,4.61501670563378,-5.77153972583992,12.8240893208587,730.582924781702
1760,3873,2434,"CMPD","Dalianhai Lake","Dalianhai Lake 02",31.9886,99.9625,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.758781819981132,2098.70695350976,4.5543784568602,-5.83018429310991,12.7643549190832,730.433968682043
1760,3874,2435,"CMPD","Dalianhai Lake","Dalianhai Lake 03",31.9886,99.9805,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.760538129898499,2080.15677483656,4.4823420069981,-5.89957310487277,12.6931484621538,730.290868356962
1760,3875,2436,"CMPD","Dalianhai Lake","Dalianhai Lake 04",31.9803,99.9708,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.759184910093488,2090.37349610163,4.52160543387345,-5.86254469476224,12.7330000963868,730.148367132141
1760,3876,2437,"CMPD","Dalianhai Lake","Dalianhai Lake 05",31.9693,99.9638,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757963726031506,2097.90530834321,4.55023825795523,-5.83590035370106,12.762616098111,729.91178216432
1760,3877,2438,"CMPD","Dalianhai Lake","Dalianhai Lake 06",31.9665,99.9569,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757154021824579,2105.11450258134,4.5780503378863,-5.80924353447971,12.7903803206444,729.891528549498
1760,3878,2439,"CMPD","Dalianhai Lake","Dalianhai Lake 07",31.9637,99.9555,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.756880865413022,2106.64477088579,4.58382295483684,-5.80389321038921,12.7964031839504,729.828285314004
1760,3879,2440,"CMPD","Dalianhai Lake","Dalianhai Lake 08",31.9596,99.9541,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.756544502103111,2108.21194256686,4.58967424174337,-5.79857033891909,12.8026533402225,729.73074267691
1760,3880,2441,"CMPD","Dalianhai Lake","Dalianhai Lake 09",31.9638,99.9666,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757967640294107,2095.16112452287,4.53930195775569,-5.84696718248331,12.7525012132649,729.743361657171
1760,3881,2442,"CMPD","Dalianhai Lake","Dalianhai Lake 10",31.9527,99.9707,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757824138507077,2091.22488362995,4.52340457937619,-5.86335891326377,12.738196200424,729.414594590041
1760,3882,2443,"CMPD","Dalianhai Lake","Dalianhai Lake 11",31.9417,99.9706,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757277704380613,2091.62214825444,4.52435461993871,-5.86344714785873,12.7404868368983,729.122911429323
1760,3883,2444,"CMPD","Dalianhai Lake","Dalianhai Lake 12",31.9251,99.9678,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.75619841633464,2094.96163642296,4.53646323498748,-5.85319467960557,12.7544223364942,728.706005989043
1760,3884,2445,"CMPD","Dalianhai Lake","Dalianhai Lake 13",31.9141,99.965,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.755393658533397,2098.16016647941,4.54831581778728,-5.84263753808388,12.7673889648728,728.438639082305
1760,3885,2446,"CMPD","Dalianhai Lake","Dalianhai Lake 14",31.9085,99.9635,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.754977407713448,2099.86628682824,4.55465880929493,-5.83694588988109,12.7742820209384,728.303441971045
1760,3886,2447,"CMPD","Dalianhai Lake","Dalianhai Lake 15",31.9058,99.9608,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.754585544662021,2102.74141138887,4.56570137458406,-5.82641352209932,12.7854335902484,728.255324759426
1760,3887,2448,"CMPD","Dalianhai Lake","Dalianhai Lake 16",31.9665,99.9804,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.7594423397445,2080.84656627495,4.48376595629843,-5.90036231387711,12.6973791551978,729.700723931443
1760,3888,2449,"CMPD","Dalianhai Lake","Dalianhai Lake 17",31.9472,99.9804,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.758496994863945,2081.35139279316,4.48464280496197,-5.90138709910198,12.7006949321101,729.184997211872
1760,3889,2450,"CMPD","Dalianhai Lake","Dalianhai Lake 18",31.9376,99.9817,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.758153813366989,2080.2551215434,4.47983368630421,-5.90697066696,12.6971746308743,728.91710505598
1760,3890,2451,"CMPD","Dalianhai Lake","Dalianhai Lake 19",31.9265,99.9817,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757612272841893,2080.53966858801,4.48032216841466,-5.90756889018733,12.6990581962635,728.620755597899
1760,3891,2452,"CMPD","Dalianhai Lake","Dalianhai Lake 20",31.9182,99.9816,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.757198393325838,2080.85479585873,4.48108952558699,-5.90762132873166,12.7008576068559,728.400240585971
1760,3892,2453,"CMPD","Dalianhai Lake","Dalianhai Lake 21",31.9072,99.983,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.756798736543404,2079.68198302664,4.47590557386173,-5.91371223865958,12.6971476983078,728.09404051803
1760,3893,2454,"CMPD","Dalianhai Lake","Dalianhai Lake 22",31.9624,99.9998,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.761122203944501,2060.89769728653,4.40592100460373,-5.97583324022067,12.6210743627694,729.418247977047
1760,3894,2455,"CMPD","Dalianhai Lake","Dalianhai Lake 23",31.9486,100.001,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.760559386490373,2059.99368709281,4.40157608331839,-5.98149915089018,12.6186361813259,729.035018894409
1760,3895,2456,"CMPD","Dalianhai Lake","Dalianhai Lake 24",31.939,100.001,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.760087994899005,2060.22746901061,4.4019123214428,-5.98219993615317,12.6202510134413,728.776341397883
1760,3896,2457,"CMPD","Dalianhai Lake","Dalianhai Lake 25",31.9293,100.001,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.759612482238578,2060.46253177254,4.40225090953282,-5.98290409342057,12.6218768156318,728.515149127761
1760,3897,2458,"CMPD","Dalianhai Lake","Dalianhai Lake 26",31.9169,100.004,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.759294483344492,2057.65123189389,4.39053734295012,-5.99556174790825,12.612002280758,728.151946309994
1760,3898,2459,"CMPD","Dalianhai Lake","Dalianhai Lake 27",31.9045,100.002,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.758496630035035,2060.01916949815,4.39906050588042,-5.98861496396444,12.6220256837958,727.838386168296
1760,3899,2460,"CMPD","Dalianhai Lake","Dalianhai Lake 28",31.9611,100.021,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.763105404683524,2039.09212988588,4.32053627675757,-6.05812555815574,12.5369203451893,729.179035471616
1760,3900,2461,"CMPD","Dalianhai Lake","Dalianhai Lake 29",31.9431,100.021,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.762216431184082,2039.50831638392,4.32099195373667,-6.05979845961788,12.5399097344799,728.689551570602
1760,3901,2462,"CMPD","Dalianhai Lake","Dalianhai Lake 30",31.9556,100.04,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.764659468968863,2019.63822257141,4.24394337854381,-6.1323408343744,12.4620287689318,728.831963148099
1760,3902,2463,"CMPD","Dalianhai Lake","Dalianhai Lake 31",31.9473,100.041,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.764343725560382,2018.78919550511,4.24003003694372,-6.13715220578938,12.4593901284195,728.593593607981
1760,3903,2464,"CMPD","Dalianhai Lake","Dalianhai Lake 32",31.9363,100.036,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.763320339990767,2024.17985400425,4.26045268047607,-6.11890092361461,12.4811622218947,728.346597395591
1760,3904,2465,"CMPD","Dalianhai Lake","Dalianhai Lake 33",31.9349,100.033,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.762963762460411,2027.30974893456,4.27262751122414,-6.10735449805936,12.4933739754198,728.340640190044
1760,3905,2466,"CMPD","Dalianhai Lake","Dalianhai Lake 34",31.9527,99.9415,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.770565228948008,2186.74403005051,4.89974352260025,-5.49561455172013,13.0729469822009,741.45122573896
1760,3906,2467,"CMPD","Dalianhai Lake","Dalianhai Lake 35",31.9582,99.918,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.768391002536031,2212.78282763702,4.99905055965259,-5.39855901218222,13.1699042087442,741.794186424586
1760,3907,2468,"CMPD","Dalianhai Lake","Dalianhai Lake 36",31.9236,99.8915,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.76381481419973,2242.8798300826,5.11159667423652,-5.29159767946356,13.2847056095561,740.968456516586
1760,3908,2469,"CMPD","Dalianhai Lake","Dalianhai Lake 37",31.9236,99.8748,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.762063427213867,2261.50561694055,5.18202068811818,-5.2224582654849,13.3536431701451,741.075555996523
1760,3909,2470,"CMPD","Dalianhai Lake","Dalianhai Lake 38",31.9291,99.8416,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.758854790296037,2298.36785407449,5.32120957261462,-5.08507568939004,13.4891712475216,741.414659465112
1760,3910,2471,"CMPD","Dalianhai Lake","Dalianhai Lake 39",31.929,99.8069,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.755193556749235,2337.01851228469,5.4660301198196,-4.94188362434918,13.6306023959769,741.558708455218
1760,3911,2472,"CMPD","Dalianhai Lake","Dalianhai Lake 40",31.9428,99.7626,2925,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.751207736324342,2385.83100758677,5.64826130167834,-4.76059290542415,13.807194062147,742.060252006246
1760,3912,2473,"CMPD","Dalianhai Lake","Dalianhai Lake 41",31.9634,99.7114,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.699430608427243,3081.2358918461,8.00862831611911,-2.7691688887208,16.2864887143718,747.680446334676
1760,3913,2474,"CMPD","Dalianhai Lake","Dalianhai Lake 42",31.9896,99.6657,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.696600473084358,3116.29638660296,8.1260268585646,-2.65905437614632,16.4059819217041,747.46173295908
1760,3914,2475,"CMPD","Dalianhai Lake","Dalianhai Lake 43",31.966,99.5879,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.689866167171506,3180.16202834515,8.34413100147507,-2.42758594827082,16.6121176510789,746.329945922414
1760,3915,2476,"CMPD","Dalianhai Lake","Dalianhai Lake 44",31.9687,99.5311,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.68545182016247,3223.67598358881,8.49056751456501,-2.27694752560216,16.7542406987823,745.505213195905
1760,3916,2477,"CMPD","Dalianhai Lake","Dalianhai Lake 45",31.9645,99.4867,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.681850298575036,3257.66935373047,8.60502718584008,-2.15543542765548,16.8633018634477,744.762392169214
1760,3917,2478,"CMPD","Dalianhai Lake","Dalianhai Lake 46",31.9685,99.4298,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.677414313313064,3298.71980365921,8.74202674612264,-2.01270023304982,16.9962999761989,743.699563735416
1760,3918,2479,"CMPD","Dalianhai Lake","Dalianhai Lake 47",31.9726,99.3758,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.673182963846308,3336.19511107974,8.86648385193521,-1.88214076771759,17.1172437774727,742.551798191415
1760,3919,2480,"CMPD","Dalianhai Lake","Dalianhai Lake 48",31.9683,99.244,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.609819151035705,4010.49642291651,10.9745623713878,0.281365369662217,19.196461589812,725.56979941692
1760,3920,2481,"CMPD","Dalianhai Lake","Dalianhai Lake 49",32.0013,99.1345,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.602883357209618,3994.58517412743,10.9279726662543,0.22929376186075,19.1764805692313,718.939586099446
1760,3921,2482,"CMPD","Dalianhai Lake","Dalianhai Lake 50",32.0481,99.0363,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.595563108639131,3964.7759101528,10.8383148871905,0.113233813298271,19.1300590682973,711.178773167853
1760,3922,2483,"CMPD","Dalianhai Lake","Dalianhai Lake 51",32.1742,99.4432,2965,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.680140898458634,3226.75312169989,8.48198565699415,-2.37261677883121,16.8167909368886,740.77250664451
1760,3923,2484,"CMPD","Dalianhai Lake","Dalianhai Lake 52",32.1922,99.4419,2965,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.680350154774045,3224.54464646396,8.47269163878602,-2.39093510155374,16.8138522601105,740.662202729562
1760,3924,2485,"CMPD","Dalianhai Lake","Dalianhai Lake 53",32.3469,99.5494,3045,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.652050993793034,2977.19145020285,7.490174879635,-3.89274519202116,16.2833426710887,703.527773970979
1760,3925,2486,"CMPD","Dalianhai Lake","Dalianhai Lake 54",32.3524,99.5258,3045,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.649477988851198,2985.73311027658,7.5155173968465,-3.88438348122797,16.3220871697244,701.944354269322
1761,3926,2487,"CMPD","Dalijia","Dalijia 1",35.56,102.84,2760,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.40851765794482,2233.75037160956,4.12854581755674,-8.58991110861155,14.781501635963,420.268621290798
1761,3927,2488,"CMPD","Dalijia","Dalijia 2",35.57,102.79,3064,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.423498470314282,1979.11666077288,3.21161082453619,-9.13427929496173,13.510275086601,431.735774484389
1761,3928,2489,"CMPD","Dalijia","Dalijia 3",35.57,102.74,3612,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.436417021536713,1518.27076206019,1.39715673060164,-10.4099402021086,11.1915926664042,438.229973233196
1762,3929,18629,"SMPDSv1","Dallican Water","EPDcoretop_E196",60.391667,-1.1,56,"0.1","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.5028473292511,2581.55038607426,7.0727407837651,3.20326918283189,11.9303506292227,1142.61993395604
1763,3930,18631,"SMPDSv1","Dalmutladdo","Bjune_a300",69.1666666666666,20.7166666666666,355,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.06557117335191,1074.37777847959,-1.95112348942895,-13.0510912699436,10.996590641568,741.277360645473
1763,3931,18630,"SMPDSv1","Dalmutladdo","EPDcoretop_E39",69.166667,20.716667,355,"0.072","lake","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.06557130250275,1074.37776428364,-1.95112355636714,-13.0510912540231,10.996590561488,741.277394277155
1764,3932,12469,"Neotoma","Dalton Lake","DALTON",46.173889,-95.915278,418,"not known","lake","core","-12","Unpublished data",,22,"steppe",0.729146433560968,3129.05512522783,5.26448116234543,-13.7772009802912,21.3292257299776,609.123598196212
1764,3932,12470,"Neotoma","Dalton Lake","DALTON",46.173889,-95.915278,418,"not known","lake","core","11","Unpublished data",,22,"steppe",0.729146433560968,3129.05512522783,5.26448116234543,-13.7772009802912,21.3292257299776,609.123598196212
1764,3932,12471,"Neotoma","Dalton Lake","DALTON",46.173889,-95.915278,418,"not known","lake","core","37","Unpublished data",,22,"steppe",0.729146433560968,3129.05512522783,5.26448116234543,-13.7772009802912,21.3292257299776,609.123598196212
1765,3933,2490,"CMPD","Daluoba","Daluoba",48,88,2020,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.307081712582517,1534.76512474785,-3.59833534767319,-22.5551145129949,13.1604176074311,270.870761697878
1766,3934,2491,"CMPD","Daluoshan","Daluoshan 01",37.2686111111111,106.282361111111,2598,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.552035494839984,2051.57852218523,3.80842943941245,-7.28084836220255,14.3683234829635,515.14702872306
1766,3935,2492,"CMPD","Daluoshan","Daluoshan 02",37.2993055555556,106.285111111111,2580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.547253143480253,2073.65811189767,3.87381441248902,-7.28603723315655,14.4857509112389,512.032298504944
1766,3936,2493,"CMPD","Daluoshan","Daluoshan 03",37.2995833333333,106.285277777778,2573,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.545255458298589,2081.53581429957,3.89696820820487,-7.28981462489871,14.5274917399126,510.707694919797
1766,3937,2494,"CMPD","Daluoshan","Daluoshan 04",37.3138611111111,106.277694444444,2411,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.499607104192114,2266.09501600412,4.43626054654805,-7.38050333352565,15.5014282549747,479.619096734232
1766,3938,2495,"CMPD","Daluoshan","Daluoshan 05",37.3121388888889,106.278777777778,2550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.53841703642442,2108.87520861588,3.97691958969374,-7.30325732072456,14.6726098807041,506.143214125578
1766,3939,2496,"CMPD","Daluoshan","Daluoshan 06",37.2992222222222,106.278972222222,2525,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.53129292348631,2136.13698417292,4.05692563706469,-7.31791100801443,14.8164704757128,501.351937945809
1766,3940,2497,"CMPD","Daluoshan","Daluoshan 07",37.3146666666667,106.275083333333,2489,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.521035144115879,2178.13605238329,4.17954123472959,-7.33789849880041,15.0385601805321,494.392496264357
1766,3941,2498,"CMPD","Daluoshan","Daluoshan 08",37.3146666666667,106.275083333333,2489,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.521035144115879,2178.13605238329,4.17954123472959,-7.33789849880041,15.0385601805321,494.392496264357
1766,3942,2499,"CMPD","Daluoshan","Daluoshan 09",37.2855555555556,106.280972222222,2475,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.517332749312519,2191.53905671946,4.21926835164244,-7.34565426910133,15.1085297506484,491.875064527332
1766,3943,2500,"CMPD","Daluoshan","Daluoshan 10",37.2672222222222,106.280805555556,2236,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.45328420338675,2462.82471814317,5.00786344486207,-7.47471504045009,16.527900797896798,446.550336152598
1766,3944,2501,"CMPD","Daluoshan","Daluoshan 11",37.3168333333333,106.272,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.469526936340527,2392.99740846482,4.80415042801406,-7.44333302136073,16.1656892994351,458.263960873274
1766,3945,2502,"CMPD","Daluoshan","Daluoshan 12",37.3159722222222,106.273027777778,2328,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.477004232054595,2360.92074293623,4.71144368753366,-7.42757293956086,15.9983139794988,463.637931278771
1766,3946,2503,"CMPD","Daluoshan","Daluoshan 13",37.2729722222222,106.283,2318,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.474816187894358,2369.10739591717,4.73652418256634,-7.43045487611015,16.0396418176022,462.143801312718
1766,3947,2504,"CMPD","Daluoshan","Daluoshan 14",37.2729722222222,106.283388888889,2331,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.478281068723446,2354.23149750478,4.69339047208262,-7.42339317948708,15.9619405359605,464.619890474342
1766,3948,2505,"CMPD","Daluoshan","Daluoshan 15",37.2941388888889,106.280555555556,2499,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.524040582754383,2164.99527416724,4.14155341440146,-7.33209940597191,14.968754370253,496.447064267185
1766,3949,2506,"CMPD","Daluoshan","Daluoshan 16",37.2733333333333,106.283,2319,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.47508133581914,2367.98274767126,4.73326211832044,-7.4299149428455,16.0337895978338,462.333216386535
1766,3950,2507,"CMPD","Daluoshan","Daluoshan 17",37.2791388888889,106.282416666667,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.496785099208736,2276.0774124221,4.46606160459395,-7.38626502469201,15.5528429170721,477.675598527108
1766,3951,2508,"CMPD","Daluoshan","Daluoshan 18",37.2635277777778,106.281611111111,2198,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44356149683573,2506.25711891003,5.1332187291815,-7.49470157033126,16.7532201603853,439.393839630431
1766,3952,2509,"CMPD","Daluoshan","Daluoshan 19",37.30275,106.281555555556,2598,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.552274945012808,2054.00201027842,3.81586181448768,-7.27677845726156,14.3816314968547,515.34759614432
1766,3953,2510,"CMPD","Daluoshan","Daluoshan 20",37.2991944444444,106.284833333333,2580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.547238444689958,2073.67663528547,3.87385413559261,-7.28612576517857,14.4858474428958,512.021833687579
1766,3954,2511,"CMPD","Daluoshan","Daluoshan 21",37.3168611111111,106.272027777778,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.469528006217282,2392.99672404549,4.80414844884997,-7.443328630476,16.1656871716244,458.264768038937
1766,3955,2512,"CMPD","Daluoshan","Daluoshan 22",37.3138333333333,106.280611111111,2490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.521579962138111,2176.45224473074,4.17488688698746,-7.3359529722215,15.0296652272569,494.777317261854
1766,3956,2513,"CMPD","Daluoshan","Daluoshan 23",37.316,106.272805555556,2328,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.476994541846788,2360.94074257217,4.71149298843462,-7.42762086979584,15.9984177140789,463.630376399703
1766,3957,2514,"CMPD","Daluoshan","Daluoshan 24",37.3140277777778,106.280333333333,2489,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.521287189392835,2177.61936503649,4.17828334756549,-7.33657178548843,15.035825808518,494.577115415461
1766,3958,2515,"CMPD","Daluoshan","Daluoshan 25",37.3121666666667,106.278805555556,2550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.538418516668344,2108.87455446502,3.97691890998416,-7.30324778346701,14.6726070563805,506.144285217557
1766,3959,2516,"CMPD","Daluoshan","Daluoshan 26",37.2659166666667,106.281361111111,2242,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.454858380870074,2455.83631655246,4.98772115289234,-7.47138263504199,16.491513216955,447.706400915583
1766,3960,2517,"CMPD","Daluoshan","Daluoshan 27",37.2647222222222,106.274694444444,2129,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.425856886562965,2586.21563106662,5.36330995691354,-7.53252282104584,17.1676460887713,426.122814957335
1766,3961,2518,"CMPD","Daluoshan","Daluoshan 28",37.2640833333333,106.273888888889,2112,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.4215871453701,2605.85913507585,5.41973497351209,-7.5416066810605,17.2691377769365,422.886316206708
1766,3962,2519,"CMPD","Daluoshan","Daluoshan 29",37.2667777777778,106.280833333333,2247,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.456131508532131,2450.19825554999,4.97136011669874,-7.46882822069891,16.4621455743905,448.634565247661
1766,3963,2520,"CMPD","Daluoshan","Daluoshan 30",37.3089444444444,106.281888888889,2557,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.540556439673398,2100.49488400923,3.9524796673362,-7.29876026165025,14.6281329548456,507.578634776386
1766,3964,2521,"CMPD","Daluoshan","Daluoshan 31",37.29925,106.279,2525,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.531294387925401,2136.13629549681,4.05692483620926,-7.3179016574774,14.8164674566846,501.353002073846
1766,3965,2522,"CMPD","Daluoshan","Daluoshan 32",37.2855833333333,106.281,2475,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.517334158955104,2191.5383256227,4.21926729685467,-7.34564560204363,15.1085265913985,491.876098070133
1766,3966,2523,"CMPD","Daluoshan","Daluoshan 33",37.2729444444444,106.283361111111,2331,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.478279871441011,2354.23227125699,4.69339226850408,-7.42339914633398,15.9619434999514,464.618990707432
1766,3967,2524,"CMPD","Daluoshan","Daluoshan 34",37.2644444444444,106.276833333333,2186,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44031964426426,2520.45096982894,5.17400718385462,-7.50189999194245,16.8268499044076,436.973228161942
1766,3968,2525,"CMPD","Daluoshan","Daluoshan 35",37.2643055555556,106.274805555556,2142,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429121958504199,2571.19583011398,5.32017762894978,-7.52557312636289,17.0899670152036,428.587796047874
1766,3969,2526,"CMPD","Daluoshan","Daluoshan 36",37.2500555555556,106.267972222222,1956,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.383526252566285,2786.27650982076,5.9370936842753,-7.62268619915196,18.1979314337544,393.355968980657
1766,3970,2527,"CMPD","Daluoshan","Daluoshan 37",37.2528055555556,106.269833333333,2002,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.394574037414142,2732.88242796593,5.78433952010382,-7.59884302625307,17.9236524905996,402.064652716441
1766,3971,2528,"CMPD","Daluoshan","Daluoshan 38",37.4973055555556,106.07425,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.237003191165866,3476.49666060745,7.86128721307938,-8.03386097582711,21.7187204952786,262.888112834265
1766,3972,2529,"CMPD","Daluoshan","Daluoshan 39",37.52225,106.081694444444,1433,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.248101001353344,3417.4327351109,7.69768789490756,-8.00017989483574,21.4173857384499,273.341809846428
1766,3973,2530,"CMPD","Daluoshan","Daluoshan 40",37.5421666666667,106.090361111111,1447,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.250961335613814,3401.64714487331,7.65259946554671,-7.99601800265402,21.3385574131993,275.974952187308
1766,3974,2531,"CMPD","Daluoshan","Daluoshan 41",37.5748611111111,106.099888888889,1384,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.237130702816968,3471.05959989161,7.8390578619125,-8.05790942903644,21.7002187776384,262.77349584582697
1766,3975,2532,"CMPD","Daluoshan","Daluoshan 42",37.6015,106.075527777778,1347,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.228508343170737,3512.92555262541,7.95145500514284,-8.09470524335337,21.9171232779249,254.363182277333
1766,3976,2533,"CMPD","Daluoshan","Daluoshan 43",37.5044722222222,106.079527777778,1407,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.24275846736234,3446.28229255604,7.77812323714341,-8.0149625417674,21.5641767892539,268.351032482362
1766,3977,2534,"CMPD","Daluoshan","Daluoshan 44",37.5134444444444,106.087361111111,1421,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.245769730071107,3430.43221939275,7.73387552325154,-8.00716065485495,21.4838443899961,271.184194307504
1766,3978,2535,"CMPD","Daluoshan","Daluoshan 45",37.4951111111111,106.10125,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.235193821761257,3487.58825040093,7.89121299164687,-8.04348257385806,21.7771260999084,261.215651896684
1766,3979,2536,"CMPD","Daluoshan","Daluoshan 46",37.4870555555556,106.090166666667,1364,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.234052459966071,3493.61765450376,7.90860242309855,-8.04411929190637,21.8067058526235,260.131229368255
1766,3980,2537,"CMPD","Daluoshan","Daluoshan 47",37.4789722222222,106.098888888889,1345,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.230305207080508,3514.42914824766,7.96593537400468,-8.0571109031572,21.9134996450568,256.57615110823
1766,3981,2538,"CMPD","Daluoshan","Daluoshan 48",37.46425,106.080805555556,1345,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.230204927996342,3515.18338739444,7.96966999562729,-8.05101578553125,21.9148450643086,256.499838868066
1766,3982,2539,"CMPD","Daluoshan","Daluoshan 49",37.4555277777778,106.106083333333,1335,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.228680742533431,3525.34223321262,7.99769153627412,-8.0575411867388,21.9676232884082,255.109279719936
1766,3983,2540,"CMPD","Daluoshan","Daluoshan 50",37.4458888888889,106.107027777778,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.22779044626029,3530.91408560765,8.01375577432401,-8.05826801100097,21.9953418029622,254.286731929925
1766,3984,2541,"CMPD","Daluoshan","Daluoshan 51",37.4248888888889,106.118777777778,1335,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.229394169104858,3524.90148246611,7.99904177650324,-8.04771442814445,21.962826953683,255.934738946009
1766,3985,2542,"CMPD","Daluoshan","Daluoshan 52",37.4165,106.127666666667,1349,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.232668391332189,3508.86593182834,7.95586838127636,-8.0341775623835,21.879915951478,259.135132506038
1766,3986,2543,"CMPD","Daluoshan","Daluoshan 53",37.3924722222222,106.149,1388,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.241828187272532,3464.16103665113,7.83559780717247,-7.99601892644599,21.6485978256462,268.022421444455
1766,3987,2544,"CMPD","Daluoshan","Daluoshan 54",37.3758611111111,106.167361111111,1438,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.253335537876819,3407.00535793414,7.68061202030609,-7.95152424662158,21.353876271924,278.990042679348
1766,3988,2545,"CMPD","Daluoshan","Daluoshan 55",37.3633055555556,106.177555555556,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263010243004882,3359.14134332228,7.55060554941667,-7.91441514921672,21.1066937619349,288.084406897284
1766,3989,2546,"CMPD","Daluoshan","Daluoshan 56",37.3655555555556,106.184027777778,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.265323102938528,3347.58954433235,7.51862490310021,-7.90748341258017,21.047730344747,290.230322098598
1766,3990,2547,"CMPD","Daluoshan","Daluoshan 57",37.3645,106.192388888889,1516,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271316299580136,3317.89144110165,7.43718933680769,-7.88677383765779,20.8949678944593,295.775537778493
1766,3991,2548,"CMPD","Daluoshan","Daluoshan 58",37.3601944444444,106.200361111111,1559,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.281249572283163,3268.99000133849,7.30343490447552,-7.85141216816917,20.6428419250025,304.881189913679
1766,3992,2549,"CMPD","Daluoshan","Daluoshan 59",37.35425,106.208555555556,1624,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.296400841838687,3195.26530643453,7.10154870252913,-7.79799426143941,20.2621400007814,318.561247665049
1766,3993,2550,"CMPD","Daluoshan","Daluoshan 60",37.3549444444444,106.219972222222,1680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.30968122058672,3131.63274829246,6.92638860777392,-7.75369047871492,19.9337694648869,330.342516522999
1766,3994,2551,"CMPD","Daluoshan","Daluoshan 61",37.3538333333333,106.229777777778,1742,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.324606266994428,3061.26627468938,6.73281407010752,-7.70385085864482,19.5701432103276,343.374226251935
1766,3995,2552,"CMPD","Daluoshan","Daluoshan 62",37.354,106.240388888889,1811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.341505931616564,2983.13265558401,6.51719104203171,-7.64853464846077,19.1653912067879,357.860821444363
1766,3996,2553,"CMPD","Daluoshan","Daluoshan 63",37.2553611111111,106.312444444444,1845,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.358822418704464,2912.97625924634,6.29799028801016,-7.67863519933201,18.8491740415958,373.575959248325
1766,3997,2554,"CMPD","Daluoshan","Daluoshan 64",37.2323333333333,106.328027777778,1654,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.331855093254655,3142.56673015591,7.02369661721779,-7.51099515296936,19.9406071755144,353.019997444499
1766,3998,2555,"CMPD","Daluoshan","Daluoshan 65",37.2275555555556,106.336555555556,1607,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.322354163422581,3198.91062845264,7.1862738778923,-7.51891816279614,20.2218241328165,345.059781450858
1766,3999,2556,"CMPD","Daluoshan","Daluoshan 66",37.2270833333333,106.346611111111,1580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.317056319284335,3231.11472468054,7.2790035511330196,-7.52392205816278,20.3828966904032,340.588761652909
1766,4000,2557,"CMPD","Daluoshan","Daluoshan 67",37.2251944444444,106.355944444444,1553,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.311834589205009,3263.43711029913,7.37221507525005,-7.52801039104613,20.54410030439,336.16294523481
1766,4001,2558,"CMPD","Daluoshan","Daluoshan 68",37.2233055555556,106.364166666667,1534,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.308258320014238,3286.19789019448,7.43787984057475,-7.53031205540003,20.6573625664228,333.128725447457
1766,4002,2559,"CMPD","Daluoshan","Daluoshan 69",37.2202777777778,106.376388888889,1514,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.304661575628296,3310.10970184901,7.50703566870429,-7.53171911512259,20.7761575294649,330.091108714134
1767,4003,2560,"CMPD","Daming Mt","Daming Mt 1",23.51,108.39,1263,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.677103867720133,6467.60837443419,17.7194749984498,7.72748454176084,25.784481755569,784.520369984729
1767,4004,2561,"CMPD","Daming Mt","Daming Mt 2",23.51,108.38,1165,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.726531846514091,6591.35636274106,18.0585105828522,8.15095360144758,26.0277092938416,843.682206450111
1767,4005,2562,"CMPD","Daming Mt","Daming Mt 3",23.51,108.39,1278,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.669632802341595,6448.72726281891,17.6677459255313,7.66335927698957,25.7467520881692,775.596863899237
1767,4006,2563,"CMPD","Daming Mt","Daming Mt 4",23.49,108.42,1241,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.684061532754471,6494.51100360179,17.7931808317857,7.80149640600501,25.8614570250367,793.201871767408
1768,4007,8302,"EMPDv2","Dammbruch","Mrotzek_a1",54.1336444444444,13.2696138888889,7,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.853097333707144,3077.93270376464,8.31888763362961,-0.846656429211593,17.3451284322981,592.644192656009
1769,4008,18632,"SMPDSv1","Dana","Jordan-10",30.67,35.65,1237,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.0198241444402353,6315.14869327473,17.3017772418486,6.88615190363024,25.8677647009928,38.7808774945582
1770,4009,539,"Australian pollen","Danbulla","Danbulla",-17.183,145.6,760,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.694971579881768,7855.99311133091,21.5232687981669,16.7374606030699,24.906959011592,1257.19353580162
1771,4010,80,"APD","Dangbo","DANGBO_10",6.606944,2.011944,40,"not known","not known","core top","0","Tossou, M.G., 2002. Recherche palynologique sur la végétation Holocène du Sud-Bénin (Afrique de l'Ouest). Thèse de doctorat, Université de Lome (Togo), 133 p.",,18,"tropical savanna",0.929781854152302,9864.21548716761,27.0252479100482,25.1305279529114,28.7778076281892,1240.57066404236
1772,4011,6998,"EMPDv2","Dar Fatma","EPDcoretop_E1487",36.82,8.77,780,"0.05","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.447966625776975,5473.4778525211505,14.9958297329347,6.46444138197172,25.4269566464209,573.522415581626
1773,4012,10902,"Bush et al., 2020","Darien","Darien",7.697971,-77.713203,1528,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.36714826432638,7346.98700351108,20.1287315164687,19.5930115023973,20.5532055195211,3151.76265395907
1773,4012,10903,"Bush et al., 2020","Darien","Darien",7.701515,-77.710793,1262,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.29434524177762,7755.14844345354,21.246982036859,20.7239671483304,21.7372102405366,3138.75669745324
1773,4012,10904,"Bush et al., 2020","Darien","Darien",7.704334,-77.708175,1146,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.26328802790843,7933.26011636894,21.7349592229286,21.2175047396213,22.2581762698761,3132.36246724479
1773,4012,10905,"Bush et al., 2020","Darien","Darien",7.705815,-77.705766,1146,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.26270918902344,7933.47041333312,21.7355353789949,21.2181000059811,22.2587130205766,3131.68642588463
1773,4012,10906,"Bush et al., 2020","Darien","Darien",7.71,-77.7,867,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.19054768682463,8361.58885547321,22.9084626177348,22.4043827268596,23.5106942137146,3115.52888592098
1773,4012,10907,"Bush et al., 2020","Darien","Darien",7.76,-77.71,1009,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.22958647948193,8120.89779560622,22.2490350564554,21.7453910321357,22.8587967471671,3113.04329482627
1773,4012,10908,"Bush et al., 2020","Darien","Darien",7.716056,-77.695466,836,"not known","terrestrial","moss polster or moss","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.1813867279957,8409.45155901503,23.0395933123699,22.5371240837333,23.6506502052739,3111.98630135329
1774,4013,12472,"Neotoma","Dark Lake","DARKLAKE",45.275,-91.475,334,"not known","lake","core","10","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.932309312769128,3110.65053601142,5.78152689448273,-11.9226309240738,20.9144565383912,764.117169276404
1774,4013,12473,"Neotoma","Dark Lake","DARKLAKE",45.275,-91.475,334,"not known","lake","core","20","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.932309312769128,3110.65053601142,5.78152689448273,-11.9226309240738,20.9144565383912,764.117169276404
1774,4013,12474,"Neotoma","Dark Lake","DARKLAKE",45.275,-91.475,334,"not known","lake","core","30","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.932309312769128,3110.65053601142,5.78152689448273,-11.9226309240738,20.9144565383912,764.117169276404
1774,4013,12475,"Neotoma","Dark Lake","DARKLAKE",45.275,-91.475,334,"not known","lake","core","40","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.932309312769128,3110.65053601142,5.78152689448273,-11.9226309240738,20.9144565383912,764.117169276404
1774,4013,12476,"Neotoma","Dark Lake","DARKLAKE",45.275,-91.475,334,"not known","lake","core","50","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.932309312769128,3110.65053601142,5.78152689448273,-11.9226309240738,20.9144565383912,764.117169276404
1775,4014,10660,"Neotoma","Darko","Darko core top",49.63968,15.873705,627,"1.45","terrestrial, bog/fen/swamp","core top","-65","Roleček, J., Svitavská Svobodová, H., Jamrichová, E., Dudová, L., Hájková, P., Kletetschka, G., Kuneš, P. and Abraham, V., 2020. Conservation targets from the perspective of a palaeoecological reconstruction: the case study of Dářko peat bog in the Czech Republic. Preslia 92(2), pp.87-114.","10.23855/preslia.2020.087",9,"cool mixed forest",1.03789907819855,2730.98012361709,6.87526222758983,-3.57942633569306,16.2056394975568,764.575952960647
1776,4015,540,"Australian pollen","Darwin Crater","Darwin Crater",-42.2833,145.6667,180,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.5467110586438,3966.37769229025,10.8667881980555,7.08966085734834,14.9989454383269,1386.07882835892
1777,4016,18633,"SMPDSv1","Darzlubie Forest","EPDcoretop_E740",54.7,18.166667,40,"not known","terrestrial, blanket bog","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.867971114552509,2971.01116356532,7.84571474984341,-2.06050307125467,17.1512242740753,599.734425080345
1778,4017,17567,"Phelps et al., 2020","Dassle Rock","DASEAST_0",-23.583333,15.066667,415,"not applicable","terrestrial","midden sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.0192909698276954,7152.07275750186,19.5947198835667,16.3971650980651,22.5256992074984,32.3967455907548
1779,4018,10659,"Neotoma","Dastin","Dastin core top",48.645645,17.975875,369,"not known","terrestrial, bog/fen/swamp","core top","25","Jamrichová, E., Gálová, A., Gašpar, A., Horsák, M., Frodlová, J., Hájek, M., Hajnalová, M. and Hájková, P., 2018. Holocene development of two calcareous spring fens at the Carpathian-Pannonian interface controlled by climate and human impact. Folia Geobotanica, 53(3), pp.243-263.","10.1007/s12224-018-9324-5",9,"cool mixed forest",0.927996384052435,3119.82809229699,8.0686367647024,-3.32484671987509,17.6912415438031,735.522907095202
1780,4019,541,"Australian pollen","Davies Creek","Davies Creek",-17,145.55,760,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.698696022739184,7861.43669967094,21.5381827388245,16.7804775635945,24.9074377760171,1264.30898024811
1781,4020,11480,"Neotoma","Davis Dam","NDSLDA",46.545005,-103.658015,841,"not known","artificial water body","surface sample","-37","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807.","10.1002/joc.5296",22,"steppe",0.437185391182586,3131.53023107628,6.31347093061987,-9.95207918378134,21.7176376910085,392.185688895865
1782,4021,12477,"Neotoma","Davis Lake","DAVIS",46.591667,-122.25,282,"not known","lake","core","-8","Barnosky, C.W. 1981. A record of late Quaternary vegetation from Davis Lake, southern Puget lowland, Washington. Quaternary Research 16:221-239.",,8,"cool evergreen needleleaf forest",1.8146658349383,3628.32123142446,9.94060611349168,3.0220935935915,17.6102705751603,1474.91019971444
1783,4022,15550,"Neotoma","Davitt Pond","DCG01",42.7,-73.53,380,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.33546490368475,3128.42004767517,7.02294042577681,-7.39257225105202,20.0886916223957,1094.02276022071
1784,4023,2564,"CMPD","Daxigou","Daxigou 01",43.1,86.9,2250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.169068546793571,2278.06110887076,2.16824311157206,-14.5154423632539,16.2773949287051,169.478197881448
1784,4024,2565,"CMPD","Daxigou","Daxigou 02",43.1,86.9,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.175560096617364,2102.44889158652,1.44694585642875,-14.9399158712198,15.369011522211,174.276470970486
1784,4025,2566,"CMPD","Daxigou","Daxigou 03",43.1,86.9,2450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.177760606682034,2044.74599504451,1.20651343804765,-15.0814070405417,15.0662170533797,175.875895333498
1784,4026,2567,"CMPD","Daxigou","Daxigou 04",43.1,86.9,2550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.182218531052773,1930.55972360468,0.725648601285444,-15.3643893791856,14.4606281157169,179.074744059524
1784,4027,2568,"CMPD","Daxigou","Daxigou 05",43.1,86.9,2650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.186754586484543,1818.09932536791,0.244783764523241,-15.6473717178295,13.8550391780542,182.273592785549
1784,4028,2569,"CMPD","Daxigou","Daxigou 06",43.1,86.9,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.189052784590241,1762.55359355457,0.00435134614213897,-15.7888628871514,13.5522447092228,183.873017148562
1784,4029,2570,"CMPD","Daxigou","Daxigou 07",43.1,86.9,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.193711307988333,1652.8752473271,-0.476513490620064,-16.0718452257953,12.9466557715601,187.071865874587
1784,4030,2571,"CMPD","Daxigou","Daxigou 08",43.1,86.9,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.203287131871054,1439.25622205107,-1.43824316414447,-16.6378099030831,11.7354778962346,193.469563326637
1784,4031,2572,"CMPD","Daxigou","Daxigou 09",43.1,86.9,3100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.208210606163444,1335.4847552488,-1.91910800090668,-16.920792241727,11.1298889585719,196.668412052663
1784,4032,2573,"CMPD","Daxigou","Daxigou 10",43.1,86.9,3150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.210707638167589,1284.39362819531,-2.15954041928778,-17.062283411049,10.8270944897405,198.267836415675
1784,4033,2574,"CMPD","Daxigou","Daxigou 11",43.1,86.9,3300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.218344992901286,1134.47871887349,-2.88083767443108,-17.4867569190148,9.91871108324643,203.066109504713
1784,4034,2575,"CMPD","Daxigou","Daxigou 12",43.1,86.9,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.223562792364018,1037.42322728463,-3.36170251119329,-17.7697392576587,9.3131221455837,206.264958230738
1784,4035,2576,"CMPD","Daxigou","Daxigou 13",43.1,86.9,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.223562792364018,1037.42322728463,-3.36170251119329,-17.7697392576587,9.3131221455837,206.264958230738
1784,4036,2577,"CMPD","Daxigou","Daxigou 14",43.1,86.9,3450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.226210915718707,989.799275179278,-3.60213492957439,-17.9112304269807,9.01032767675233,207.864382593751
1785,4037,2578,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 1",49.22,119.75,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.497134067421803,2309.97023482476,-1.696061975593,-25.6166812062235,19.1365230387614,361.327873473817
1785,4038,2579,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 2",49.22,119.75,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.497134067421803,2309.97023482476,-1.696061975593,-25.6166812062235,19.1365230387614,361.327873473817
1785,4039,2580,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 3",49.22,119.75,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.480923232311677,2417.74038489498,-1.41452960922184,-25.8780870876537,19.8397754410097,345.329672812293
1785,4040,2581,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 4",49.22,119.75,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.480923232311677,2417.74038489498,-1.41452960922184,-25.8780870876537,19.8397754410097,345.329672812293
1785,4041,2582,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 5",49.43,117.9,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.388298452525932,2580.94810558669,-0.0842808213895895,-23.5794253172351,20.6514587416915,305.869272454365
1785,4042,2583,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 6",49.43,117.9,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.388298452525932,2580.94810558669,-0.0842808213895895,-23.5794253172351,20.6514587416915,305.869272454365
1785,4043,2584,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 7",48.78,119.2,655,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.437710378078564,2411.39885292654,-1.09447036371999,-24.8876547530675,19.7018859211772,334.17372613948
1785,4044,2585,"CMPD","Daxinganling Hal Dal","Daxinganling Hal Dal 8",48.78,119.2,655,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.437710378078564,2411.39885292654,-1.09447036371999,-24.8876547530675,19.7018859211772,334.17372613948
1786,4045,2586,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 01",52.27,123.92,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824369104296551,1743.91188365955,-5.23518676599676,-29.1395762101991,15.9100163894666,474.888992604725
1786,4046,2587,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 02",52.27,123.92,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824369104296551,1743.91188365955,-5.23518676599676,-29.1395762101991,15.9100163894666,474.888992604725
1786,4047,2588,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 04",52.27,123.92,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824369104296551,1743.91188365955,-5.23518676599676,-29.1395762101991,15.9100163894666,474.888992604725
1786,4048,2589,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 06",52.3,123.9,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824845565653277,1731.14239681377,-5.30673409721304,-29.2202767756496,15.8363694297756,474.859144177728
1786,4049,2590,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 07",52.3,123.9,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824845565653277,1731.14239681377,-5.30673409721304,-29.2202767756496,15.8363694297756,474.859144177728
1786,4050,2591,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 08",52.3,123.9,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824845565653277,1731.14239681377,-5.30673409721304,-29.2202767756496,15.8363694297756,474.859144177728
1786,4051,2592,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 09",52.28,123.97,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824470071608841,1744.95825756836,-5.22681919254638,-29.1309315311411,15.9151091764064,475.14754931281
1786,4052,2593,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 10",52.28,123.97,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824470071608841,1744.95825756836,-5.22681919254638,-29.1309315311411,15.9151091764064,475.14754931281
1786,4053,2594,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 11",52.28,123.97,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824470071608841,1744.95825756836,-5.22681919254638,-29.1309315311411,15.9151091764064,475.14754931281
1786,4054,2595,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 12",52.28,123.97,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.824470071608841,1744.95825756836,-5.22681919254638,-29.1309315311411,15.9151091764064,475.14754931281
1786,4055,2596,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 13",52.25,123.98,720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.822876096080923,1726.7097503869,-5.31887834354902,-29.2593846018513,15.8072413097444,475.998966218774
1786,4056,2597,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 14",52.25,123.98,720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.822876096080923,1726.7097503869,-5.31887834354902,-29.2593846018513,15.8072413097444,475.998966218774
1786,4057,2598,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 15",52.25,123.98,720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.822876096080923,1726.7097503869,-5.31887834354902,-29.2593846018513,15.8072413097444,475.998966218774
1786,4058,2599,"CMPD","Daxinganling Hu Mao","Daxinganling Hu Mao 16",52.25,123.98,720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.822876096080923,1726.7097503869,-5.31887834354902,-29.2593846018513,15.8072413097444,475.998966218774
1787,4059,2600,"CMPD","Daxinganling Mt","Daxinganling Mt A1",49.18,119.47,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.464292222673519,2405.32160918352,-1.32792459855512,-25.4948144369743,19.7302895783053,340.70882393358
1787,4060,2601,"CMPD","Daxinganling Mt","Daxinganling Mt A2",49.25,119.47,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.459883404992545,2421.34222871863,-1.32891820210611,-25.6644160912134,19.8551575187568,335.438999290264
1787,4061,2602,"CMPD","Daxinganling Mt","Daxinganling Mt A3",50.03,121.75,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.649585322147236,2156.39429804393,-1.75284930613282,-24.2369774045174,17.9523530256207,444.50570099726
1787,4062,2603,"CMPD","Daxinganling Mt","Daxinganling Mt CY1",50.05,124.3,347,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.661406519063222,2475.70493180299,-0.672669485504611,-24.5933603177306,19.7478791520899,468.644335086163
1787,4063,2604,"CMPD","Daxinganling Mt","Daxinganling Mt CY2",50.1,124.43,351,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.664603535051801,2468.6106521953,-0.729949614623445,-24.679029374167,19.7177232079115,469.789286875915
1787,4064,2605,"CMPD","Daxinganling Mt","Daxinganling Mt CY3",50.05,124.39,351,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663162910536848,2469.555058851,-0.716115421814633,-24.6510274375378,19.719633353483,469.319171334874
1787,4065,2606,"CMPD","Daxinganling Mt","Daxinganling Mt CY4",50.05,124.39,340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.660401044406674,2490.83438362856,-0.600586870343642,-24.5414024907777,19.8272315615468,469.075196180297
1787,4066,2607,"CMPD","Daxinganling Mt","Daxinganling Mt DY1",49.28,120.58,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.533134538091888,2254.95329304817,-2.13236845434775,-26.3167276955019,18.8693835984955,373.562598349504
1787,4067,2608,"CMPD","Daxinganling Mt","Daxinganling Mt GH1",50.8,121.6,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663163575544446,2038.68061763189,-3.37876401166525,-27.423571610634,17.7241352007892,416.078882642516
1787,4068,2609,"CMPD","Daxinganling Mt","Daxinganling Mt GH2",50.83,121.6,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.683014694148372,1960.77454120031,-3.80275918934589,-27.8083599578077,17.2579285829781,425.03564593563
1787,4069,2610,"CMPD","Daxinganling Mt","Daxinganling Mt GH3",50.85,121.6,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.691803716488715,1927.4006241266,-3.98715047211741,-27.9779344714194,17.0573639047248,428.87415117572
1787,4070,2611,"CMPD","Daxinganling Mt","Daxinganling Mt GH4",50.91,121.6,695,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.692333268002995,1930.10789926245,-3.98922216959533,-28.0021259825034,17.0828121648715,428.132295722908
1787,4071,2612,"CMPD","Daxinganling Mt","Daxinganling Mt GH5",50.83,121.6,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.677602197995361,1982.45852539915,-3.68668685785208,-27.706281186735,17.3899343432236,422.456011184889
1787,4072,2613,"CMPD","Daxinganling Mt","Daxinganling Mt H1",49.24,118.46,590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.415399509592989,2489.28082537301,-0.691047862077357,-24.4378489715351,20.1947182431093,316.43028138462
1787,4073,2614,"CMPD","Daxinganling Mt","Daxinganling Mt H2",49.22,118.54,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.415765139610165,2496.13822240153,-0.671668467365914,-24.4465223723435,20.238630063495,316.204205745309
1787,4074,2615,"CMPD","Daxinganling Mt","Daxinganling Mt H3",49.22,118.53,570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.413727453628718,2506.75210418287,-0.619743913075829,-24.3972636041225,20.30126203879,314.877610172839
1787,4075,2616,"CMPD","Daxinganling Mt","Daxinganling Mt H4",49.2,118.5,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.408231557311237,2530.50637203319,-0.498166816834087,-24.2712303205237,20.4392047693143,311.627412613727
1787,4076,2617,"CMPD","Daxinganling Mt","Daxinganling Mt H5",49.18,118.7,570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.418800014019978,2498.81421820244,-0.690009118745917,-24.5227187894952,20.2635244735968,317.016059529919
1787,4077,2618,"CMPD","Daxinganling Mt","Daxinganling Mt H6",49.18,118.7,570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.418800014019978,2498.81421820244,-0.690009118745917,-24.5227187894952,20.2635244735968,317.016059529919
1787,4078,2619,"CMPD","Daxinganling Mt","Daxinganling Mt HL1",49.38,120.88,610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.563201579883894,2223.93972014685,-2.19778900060847,-26.1768732668417,18.6654693598766,387.688793465404
1787,4079,2620,"CMPD","Daxinganling Mt","Daxinganling Mt HL2",49.38,120.88,610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.563201579883894,2223.93972014685,-2.19778900060847,-26.1768732668417,18.6654693598766,387.688793465404
1787,4080,2621,"CMPD","Daxinganling Mt","Daxinganling Mt KLC01",50.95,121.9,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.740790833874661,1796.86560757454,-4.64598450389663,-28.4749970409445,16.2090376770077,453.492045544254
1787,4081,2622,"CMPD","Daxinganling Mt","Daxinganling Mt KLC02",50.93,121.89,820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.743423521462691,1778.62287831355,-4.75821718914208,-28.5906693695987,16.1031516855643,454.274622716773
1787,4082,2623,"CMPD","Daxinganling Mt","Daxinganling Mt KLC03",50.93,121.9,830,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.745243975331981,1768.93995370035,-4.81925535642062,-28.6547155394246,16.0467572779746,454.797606973293
1787,4083,2624,"CMPD","Daxinganling Mt","Daxinganling Mt KLC04",50.88,121.9,880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.752237038102016,1723.10736426509,-5.10374662586927,-28.9470165041728,15.7789042681002,456.852372179047
1787,4084,2625,"CMPD","Daxinganling Mt","Daxinganling Mt KLC05",50.91,121.9,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.756349823429561,1703.45188217625,-5.23653554105728,-29.0966828424605,15.6665036246526,457.649508285717
1787,4085,2626,"CMPD","Daxinganling Mt","Daxinganling Mt KLC06",50.85,121.9,910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.756408642917721,1695.79451115028,-5.27602279761302,-29.1252335770555,15.6189387063483,457.976429343862
1787,4086,2627,"CMPD","Daxinganling Mt","Daxinganling Mt KLC07",50.88,121.9,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.763919005576102,1657.5675027979,-5.53071045515483,-29.4058222409336,15.3973846498061,459.561645827442
1787,4087,2628,"CMPD","Daxinganling Mt","Daxinganling Mt KLC08",50.93,121.9,820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.743598700391399,1778.41668717836,-4.75862438396191,-28.5898236889985,16.1013973565936,454.388055484557
1787,4088,2629,"CMPD","Daxinganling Mt","Daxinganling Mt KLC09",50.83,121.9,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.77090604644561,1612.65518049048,-5.82076808047065,-29.7080442690753,15.1320226075144,461.237204193607
1787,4089,2630,"CMPD","Daxinganling Mt","Daxinganling Mt KLC10",50.95,122,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.758914139648242,1700.08129375472,-5.26495219620352,-29.1331669615591,15.6477645194476,458.314717139321
1787,4090,2631,"CMPD","Daxinganling Mt","Daxinganling Mt KLC11",50.9,122,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.765838153331436,1654.68016124988,-5.55749871992181,-29.441387779624,15.3824908047676,459.954976126084
1787,4091,2632,"CMPD","Daxinganling Mt","Daxinganling Mt KLC12",50.93,122,970,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.770031137924444,1635.30674915579,-5.69096319784957,-29.5927775324075,15.2702268293197,460.740813600081
1787,4092,2633,"CMPD","Daxinganling Mt","Daxinganling Mt KLC13",50.96,122,990,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.774274391294691,1616.0549904364,-5.82337171863549,-29.7422701968746,15.1577219500277,461.580834492533
1787,4093,2634,"CMPD","Daxinganling Mt","Daxinganling Mt L1",49.23,118.93,540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.430363065005826,2497.32635471337,-0.858789933750258,-25.0023360022419,20.2937203525785,319.091454310395
1787,4094,2635,"CMPD","Daxinganling Mt","Daxinganling Mt L2",49.2,118.93,535,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.428160148287917,2504.57918645175,-0.82618624948916,-24.9782505189672,20.3368098016382,317.846291641831
1787,4095,2636,"CMPD","Daxinganling Mt","Daxinganling Mt L3",49.25,118.93,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429793074406783,2476.74486351029,-0.940688090657345,-25.0420994121656,20.1802455209636,318.902102212776
1787,4096,2637,"CMPD","Daxinganling Mt","Daxinganling Mt L4",49.22,118.93,540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429908337020014,2498.15480782636,-0.853539743155478,-24.9954278983507,20.2979355902895,318.930739651149
1787,4097,2638,"CMPD","Daxinganling Mt","Daxinganling Mt L6",49.22,119.01,537,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.43227626262335,2496.90522444478,-0.876285615054404,-25.0494147546827,20.2944493057734,319.846492808841
1787,4098,2639,"CMPD","Daxinganling Mt","Daxinganling Mt L7",49.22,118.97,537,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.430839731340594,2498.95106277322,-0.859984307611536,-25.0216737044598,20.3053041299126,319.157707628643
1787,4099,2640,"CMPD","Daxinganling Mt","Daxinganling Mt ML2",49.5,117.64,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429688249205047,2378.77941181075,-1.19762027305127,-24.7488062909684,19.6317792010101,314.492708517505
1787,4100,2641,"CMPD","Daxinganling Mt","Daxinganling Mt ML3",49.51,117.64,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429976469176797,2378.21983151162,-1.20147807796035,-24.7543634559489,19.6289525662084,314.574801073772
1787,4101,2642,"CMPD","Daxinganling Mt","Daxinganling Mt MT3",49.55,121.32,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.634539827228143,2092.37214784862,-2.36764612105959,-25.2746450231414,17.7349283462777,431.050883581422
1787,4102,2643,"CMPD","Daxinganling Mt","Daxinganling Mt MT4",49.5,121.32,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.633758386114448,2094.97606269723,-2.33532263699999,-25.2092124478787,17.7444322560864,431.332601946355
1787,4103,2644,"CMPD","Daxinganling Mt","Daxinganling Mt MT5",49.61,121.48,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.6459215646669,2027.57526948448,-2.6540371706057,-25.4011130273467,17.3523163032024,437.329536111014
1787,4104,2645,"CMPD","Daxinganling Mt","Daxinganling Mt MT6",49.55,121.48,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.64435858970316,2031.76331660302,-2.61024935844608,-25.3197497301175,17.3702761482859,437.394458102905
1787,4105,2646,"CMPD","Daxinganling Mt","Daxinganling Mt MY1",49.43,121.16,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.581076453090556,2179.91618886074,-2.2676601853498,-25.9047980543873,18.3655254778191,398.88402184078
1787,4106,2647,"CMPD","Daxinganling Mt","Daxinganling Mt MY2",49.45,121.16,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.581248521991397,2179.29137809214,-2.2772685079859,-25.9256422627551,18.3640469483155,398.735895345516
1787,4107,2648,"CMPD","Daxinganling Mt","Daxinganling Mt MY3",49.48,121.16,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.583884737081801,2168.32028304338,-2.32490567050769,-25.9458719441051,18.2990979103046,400.068110669575
1787,4108,2649,"CMPD","Daxinganling Mt","Daxinganling Mt NC1",49.4,121,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.574843445728414,2187.86781598634,-2.28090701745981,-26.0318778242327,18.4291147985656,395.189996231491
1787,4109,2650,"CMPD","Daxinganling Mt","Daxinganling Mt NC2",49.45,121,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.575416670129167,2186.1600561936,-2.30406118124869,-26.0797397080096,18.4241878053747,394.91392894514
1787,4110,2651,"CMPD","Daxinganling Mt","Daxinganling Mt NC3",49.43,121,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.57518903340935,2186.83592817699,-2.29488251534969,-26.0607619491152,18.4261295929101,395.024244797193
1787,4111,2652,"CMPD","Daxinganling Mt","Daxinganling Mt Q1",50.03,121.75,860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.69740831793723,1841.76576199171,-3.90032054830877,-26.9302609781473,16.3427468514945,451.500450445481
1787,4112,2653,"CMPD","Daxinganling Mt","Daxinganling Mt Q2",50.1,121.75,830,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.694357157938398,1869.57203771549,-3.71932583976771,-26.727627502517,16.4914384926158,450.908892363311
1787,4113,2654,"CMPD","Daxinganling Mt","Daxinganling Mt Q3",50.11,121.7,810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.681287387511114,1900.96586438411,-3.58924920982528,-26.7000842139849,16.692662554766,444.354067473582
1787,4114,2655,"CMPD","Daxinganling Mt","Daxinganling Mt Q4",50.05,121.67,805,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.677384720444455,1911.71594188563,-3.51254454266368,-26.5991836868422,16.7505794296277,443.394257384731
1787,4115,2656,"CMPD","Daxinganling Mt","Daxinganling Mt SL02",49.26,120.33,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.514213393511839,2314.92295515068,-1.93749974613256,-26.3837132041511,19.2424131053994,362.330443871696
1787,4116,2657,"CMPD","Daxinganling Mt","Daxinganling Mt SL03",49.23,120.33,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.520543370549973,2317.90918440741,-1.79982326632458,-25.9997221118819,19.220951785723,367.757102356536
1787,4117,2658,"CMPD","Daxinganling Mt","Daxinganling Mt SL04",49.13,120.13,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495548343227257,2354.91879852335,-1.62530624061305,-25.864916354129,19.4410447809203,356.284718133595
1787,4118,2659,"CMPD","Daxinganling Mt","Daxinganling Mt SL05",49.1,120.17,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495839705531331,2354.18924551913,-1.62557889388712,-25.8588779166908,19.4350571594561,356.647844234908
1787,4119,2660,"CMPD","Daxinganling Mt","Daxinganling Mt SL06",49.1,120.17,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.495839705531331,2354.18924551913,-1.62557889388712,-25.8588779166908,19.4350571594561,356.647844234908
1787,4120,2661,"CMPD","Daxinganling Mt","Daxinganling Mt SL07",49.13,120.17,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496943762961377,2352.16699960705,-1.63929840335781,-25.877328826453,19.4253976790372,356.933610488714
1787,4121,2662,"CMPD","Daxinganling Mt","Daxinganling Mt SL08",49.16,120.21,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.499446855317574,2347.40226979361,-1.6670952359514,-25.90821514391,19.3999822820454,357.867485395493
1787,4122,2663,"CMPD","Daxinganling Mt","Daxinganling Mt SL09",49.18,120.25,620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.520548668134808,2303.27567949413,-1.84765245330623,-25.9896008487085,19.1295565734773,368.894518749374
1787,4123,2664,"CMPD","Daxinganling Mt","Daxinganling Mt SL10",49.18,120.25,610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.51908035133258,2312.09207771245,-1.82746356999487,-26.0214568717653,19.1873288251707,367.531585358152
1787,4124,2665,"CMPD","Daxinganling Mt","Daxinganling Mt SL11",49.21,120.25,605,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.519269389279377,2314.81188562551,-1.82952869911614,-26.0544887652548,19.2083299897779,367.05189275639
1787,4125,2666,"CMPD","Daxinganling Mt","Daxinganling Mt SL12",49.08,120.13,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.493684629912163,2358.32944283119,-1.60228660538391,-25.8341430910829,19.4573778900665,355.795917087424
1787,4126,2667,"CMPD","Daxinganling Mt","Daxinganling Mt SL13",49.05,120.17,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.493970135367003,2357.61277722829,-1.60235433825486,-25.827640463839,19.4514209950732,356.158867262416
1787,4127,2668,"CMPD","Daxinganling Mt","Daxinganling Mt SL14",49.11,120.08,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.493093857869587,2359.64545257325,-1.59904875664711,-25.8374858532852,19.4667014763495,355.29079155203
1787,4128,2669,"CMPD","Daxinganling Mt","Daxinganling Mt SS1",49.43,120.92,660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.577250380267002,2170.49295380252,-2.3631953900837,-26.0851553566946,18.3290349081296,396.538259783619
1787,4129,2670,"CMPD","Daxinganling Mt","Daxinganling Mt SS2",49.4,120.92,660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.576773223493257,2171.74219297932,-2.34860461800427,-26.0568396904141,18.3334171948506,396.637238980717
1787,4130,2671,"CMPD","Daxinganling Mt","Daxinganling Mt WLQ1",50.2,121.6,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.650369365266102,2032.63739249553,-2.81497342233968,-25.9326890928161,17.4249684691417,432.734037291489
1787,4131,2672,"CMPD","Daxinganling Mt","Daxinganling Mt WLQ2",50.26,121.6,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.653850473019876,2013.53437723135,-3.07585351770974,-26.4526814714739,17.3794481949323,429.493594056328
1787,4132,2673,"CMPD","Daxinganling Mt","Daxinganling Mt WRC01",49.65,121.56,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.643013559033992,2079.72713527389,-2.36061845453321,-25.1225399479393,17.6362066692408,436.478453391835
1787,4133,2674,"CMPD","Daxinganling Mt","Daxinganling Mt WRC02",49.67,121.56,680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.64338364984492,2078.5992215599,-2.37381220482478,-25.1485841794081,17.6318117355133,436.395227882661
1787,4134,2675,"CMPD","Daxinganling Mt","Daxinganling Mt WRC03",49.65,121.58,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.645423235915709,2061.24517609867,-2.4530108141101,-25.1888181168588,17.5311184995317,437.658242059786
1787,4135,2676,"CMPD","Daxinganling Mt","Daxinganling Mt WRC04",49.65,121.63,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.646574329078371,2061.30292815388,-2.43396162002916,-25.1354293204735,17.5249441836729,438.672508390844
1787,4136,2677,"CMPD","Daxinganling Mt","Daxinganling Mt WRC05",49.66,121.58,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.645636890459542,2060.63337190578,-2.45986457305445,-25.2020278843223,17.5286154647199,437.628666406011
1787,4137,2678,"CMPD","Daxinganling Mt","Daxinganling Mt WRC07",49.63,121.67,710,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.647969257067428,2053.1834310926,-2.4584281782738,-25.118279946128,17.4738050194329,439.825724267354
1787,4138,2679,"CMPD","Daxinganling Mt","Daxinganling Mt WRC08",49.65,121.67,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.647472091753854,2061.34913109882,-2.41914248502765,-25.0939408425505,17.5201475548956,439.464661382704
1787,4139,2680,"CMPD","Daxinganling Mt","Daxinganling Mt WRC09",49.65,121.79,710,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.664617157379418,2038.83205918679,-2.46935516317614,-25.0279154957045,17.3526920279389,450.623253609338
1787,4140,2681,"CMPD","Daxinganling Mt","Daxinganling Mt WRC10",49.68,121.79,710,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.665639970164237,2036.43408880503,-2.49194333927601,-25.0676586712418,17.341400896911,450.731683898244
1787,4141,2682,"CMPD","Daxinganling Mt","Daxinganling Mt WRC11",49.71,121.79,705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.666352810336313,2038.86562962907,-2.48559611153647,-25.0774465636751,17.3555392477692,450.867185529128
1787,4142,2683,"CMPD","Daxinganling Mt","Daxinganling Mt WRC12",49.68,121.79,705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.665337626999011,2041.24285825697,-2.46316607554637,-25.0379388268262,17.3667306144057,450.76047357122
1787,4143,2684,"CMPD","Daxinganling Mt","Daxinganling Mt WS1",49.48,121.24,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.586824451542891,2165.1462689674,-2.30771736075982,-25.8606065269512,18.2698043382501,402.041448672989
1787,4144,2685,"CMPD","Daxinganling Mt","Daxinganling Mt WS2",49.46,121.24,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.586648677364121,2165.79822245781,-2.29773876652233,-25.8389420042584,18.2713937830136,402.192747425676
1787,4145,2686,"CMPD","Daxinganling Mt","Daxinganling Mt XA",50.04,121.7,720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.65633173285573,2013.36889618963,-2.87284124260728,-25.8888568493512,17.3002752174592,437.183910825638
1787,4146,2687,"CMPD","Daxinganling Mt","Daxinganling Mt YTL1",50.5,121.64,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.678874236135665,1933.61744629093,-3.61360791757363,-27.1073075545209,16.9508032548346,436.282799224378
1787,4147,2688,"CMPD","Daxinganling Mt","Daxinganling Mt YTL2",50.5,121.69,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",14,"cold deciduous forest",0.68032769251182,1932.05935470542,-3.6113618546812,-27.0863566449748,16.9367904205566,437.251627661879
1788,4148,2689,"CMPD","Dayandong","Dayandong 1",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
1789,4149,2690,"CMPD","Dayaocun","Dayaocun",40.8,111.68,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.302212757236284,2902.17736520702,4.54653190102178,-13.440147707622,20.2320192425746,326.822875782959
1790,4150,6206,"EMPDv2","Dayat Aoua, Ifrane","AlbaSanchez_a135",33.552338,-5.010915,1741,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.334277815584685,4924.54327790183,13.4918993915119,4.76951785745873,24.5653028281079,476.608010710494
1791,4151,2691,"CMPD","Dayawan","Dayawan 01",22.75,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59581580249056,8355.67858104768,22.8922700850621,15.1871812157275,28.887325645658,2074.9475061908
1791,4152,2692,"CMPD","Dayawan","Dayawan 02",22.65,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59418470589755,8358.31883712343,22.8995036633519,15.1954492987221,28.8938766499855,2074.74825811963
1791,4153,2693,"CMPD","Dayawan","Dayawan 03",22.62,114.6,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59290162101241,8358.64304343192,22.9003918998135,15.193215942189,28.8967176468118,2073.41436383009
1791,4154,2694,"CMPD","Dayawan","Dayawan 04",22.57,114.75,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.63992845731906,8393.42491960755,22.9956847112536,15.446976681108,28.8742787689008,2149.38742158137
1791,4155,2695,"CMPD","Dayawan","Dayawan 05",22.75,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59413675654903,8354.73442850598,22.8896833657698,15.1770591860939,28.8894424990886,2072.25445264978
1791,4156,2696,"CMPD","Dayawan","Dayawan 06",22.58,114.57,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59158438426573,8359.28299030214,22.90214517891,15.1926279786485,28.8999595738167,2072.26710961274
1791,4157,2697,"CMPD","Dayawan","Dayawan 07",22.72,114.62,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59372556238054,8355.57238263232,22.8919791304995,15.180091913656,28.8912664456425,2072.32298269313
1791,4158,2698,"CMPD","Dayawan","Dayawan 08",22.75,114.75,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.64032522771729,8386.32545142691,22.9762341134984,15.4151692012005,28.860720561318,2145.31852895216
1791,4159,2699,"CMPD","Dayawan","Dayawan 09",22.62,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59584980100716,8360.31565150458,22.9049743876838,15.2108118958439,28.8932370590903,2078.14799910186
1791,4160,2700,"CMPD","Dayawan","Dayawan 10",22.65,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59782212593214,8360.343883278,22.9050517350082,15.2176563145573,28.8892325027087,2080.6106819390898
1791,4161,2701,"CMPD","Dayawan","Dayawan 11",22.53,114.43,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58496020896297,8357.04952896243,22.8960261067464,15.1642334365223,28.9082487270703,2062.93163306665
1791,4162,2702,"CMPD","Dayawan","Dayawan 12",22.43,114.48,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58739231050546,8361.97151940586,22.9095110120709,15.1949096714844,28.9107147107131,2069.14841122212
1791,4163,2703,"CMPD","Dayawan","Dayawan 13",22.65,114.52,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58926148049075,8355.45894072238,22.8916683307463,15.1668993939189,28.8991917470747,2066.89347577505
1791,4164,2704,"CMPD","Dayawan","Dayawan 14",22.65,114.6,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59289162957169,8357.57941599268,22.8974778520348,15.1878062971062,28.895367575697,2072.67748852729
1791,4165,2705,"CMPD","Dayawan","Dayawan 15",22.53,114.83,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61516297925854,8379.98207383502,22.9588549968083,15.4185418362127,28.8763803061746,2116.16674465651
1791,4166,2706,"CMPD","Dayawan","Dayawan 16",22.53,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59583639735919,8363.45961071603,22.9135879745645,15.2265119252453,28.8975190566068,2080.28863494608
1791,4167,2707,"CMPD","Dayawan","Dayawan 17",22.53,114.78,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61706516422524,8381.51780929999,22.9630624912329,15.419780813323,28.8783564236309,2118.75790863598
1791,4168,2708,"CMPD","Dayawan","Dayawan 18",22.58,114.87,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61339733998271,8376.80984710006,22.9501639646577,15.4094006875549,28.8713908102346,2112.54915311893
1791,4169,2709,"CMPD","Dayawan","Dayawan 19",22.78,114.78,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61948112943137,8388.92060078927,22.9833441117514,15.4773036926806,28.8489911059183,2117.74204337243
1791,4170,2710,"CMPD","Dayawan","Dayawan 20",22.5,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59418055300344,8363.56718892516,22.913882709384,15.2217695038671,28.9008904700862,2078.33809781148
1791,4171,2711,"CMPD","Dayawan","Dayawan 21",22.68,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5958414251215,8358.18896213615,22.8991478414689,15.2000436018976,28.8904669396853,2076.68594469356
1791,4172,2712,"CMPD","Dayawan","Dayawan 22",22.58,114.6,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59290880205711,8360.05135450844,22.9042502863245,15.2003330445299,28.8985446634306,2074.38492449252
1791,4173,2713,"CMPD","Dayawan","Dayawan 23",22.68,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59782231533377,8359.28102366651,22.9021397908671,15.2122876765849,28.8878264457733,2079.88417083358
1791,4174,2714,"CMPD","Dayawan","Dayawan 24",22.57,114.55,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59068295267987,8359.10423398012,22.901655435562,15.1892036827753,28.9013353507621,2071.06757427112
1791,4175,2715,"CMPD","Dayawan","Dayawan 25",22.57,114.95,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6099276237897,8374.50152894502,22.9438398053288,15.4080056942424,28.8691339003253,2108.04791877492
1791,4176,2716,"CMPD","Dayawan","Dayawan 26",22.53,114.87,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61354472965092,8378.69668417112,22.9553333812907,15.4172978072434,28.8748297476899,2113.95647241353
1791,4177,2717,"CMPD","Dayawan","Dayawan 27",22.57,114.92,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61127860126201,8375.53092025457,22.946660055492,15.4092266638938,28.8702205036644,2109.89666504826
1791,4178,2718,"CMPD","Dayawan","Dayawan 28",22.47,114.43,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58496217790563,8359.11423749562,22.9016828424538,15.1746624096175,28.9108675099303,2064.35008049944
1791,4179,2719,"CMPD","Dayawan","Dayawan 29",22.5,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59777476976331,8365.56847845435,22.9193656943955,15.243609447769,28.8965127968793,2084.14618701655
1791,4180,2720,"CMPD","Dayawan","Dayawan 30",22.58,114.83,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61502238416139,8378.07752840741,22.9536370641299,15.4105399898797,28.8729047463917,2114.76224174761
1791,4181,2721,"CMPD","Dayawan","Dayawan 31",22.53,114.75,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.63984621515917,8394.9818712425,22.9999503321712,15.453830146983,28.8773446076888,2150.29143867322
1791,4182,2722,"CMPD","Dayawan","Dayawan 32",22.53,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59779086952096,8364.5359945025,22.9165369712397,15.2385388605681,28.8950247717283,2083.45272710872
1791,4183,2723,"CMPD","Dayawan","Dayawan 33",22.5,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59582445856724,8364.49470652126,22.9164238534829,15.2316227855028,28.8989785286996,2080.98731912569
1791,4184,2724,"CMPD","Dayawan","Dayawan 34",22.65,114.95,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6096666375487,8371.51894403051,22.9356683398096,15.3955316221374,28.8637951726241,2105.7764100903
1791,4185,2725,"CMPD","Dayawan","Dayawan 35",22.62,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59419157678641,8359.38126629758,22.9024144282125,15.2008362030377,28.8952458049602,2075.4813498254
1791,4186,2726,"CMPD","Dayawan","Dayawan 36",22.53,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5941893655521,8362.53059342811,22.9110427217209,15.2166293280888,28.8994549513887,2077.63570573912
1791,4187,2727,"CMPD","Dayawan","Dayawan 37",22.57,114.52,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58929875871887,8358.28522687651,22.8994115804836,15.1813273923371,28.9026885467957,2068.8632283811
1791,4188,2728,"CMPD","Dayawan","Dayawan 38",22.58,114.78,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6169324943628,8379.59126950099,22.9577843000027,15.4116494209732,28.874836497909,2117.35635314935
1791,4189,2729,"CMPD","Dayawan","Dayawan 39",22.72,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59415501192738,8355.81649848692,22.8926479410601,15.18264565841,28.8907512697991,2073.01041649538
1791,4190,2730,"CMPD","Dayawan","Dayawan 40",22.5,114.75,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.63978552709665,8396.14430173958,23.0031350732591,15.4589181622257,28.8796556661159,2150.9687791454
1791,4191,2731,"CMPD","Dayawan","Dayawan 41",22.57,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5958463859865,8362.0693248676,22.90977897224,15.2196017797549,28.8955977236818,2079.34530638331
1791,4192,2732,"CMPD","Dayawan","Dayawan 42",22.65,114.67,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59584725428971,8359.25527949118,22.9020692588799,15.2054576063395,28.8918432702169,2077.4203243194
1791,4193,2733,"CMPD","Dayawan","Dayawan 43",22.68,114.6,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59287784629403,8356.50962739547,22.8945469243712,15.1823356756305,28.8940352767669,2071.93318932827
1791,4194,2734,"CMPD","Dayawan","Dayawan 44",22.57,114.98,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.608531225925,8373.44688873687,22.940950380101,15.4066636385316,28.8680695832193,2106.13462015206
1791,4195,2735,"CMPD","Dayawan","Dayawan 45",22.57,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59780699590351,8363.14947806865,22.9127382960785,15.2316841420051,28.8930650258391,2082.51721038856
1791,4196,2736,"CMPD","Dayawan","Dayawan 46",22.62,114.95,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60976469050727,8372.64087304028,22.9387421179186,15.4002395381048,28.8657898839927,2106.62961614543
1791,4197,2737,"CMPD","Dayawan","Dayawan 47",22.68,114.63,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59417426145833,8357.25033949715,22.8965762725949,15.1900019549723,28.8925251377695,2074.00805069156
1791,4198,2738,"CMPD","Dayawan","Dayawan 48",22.72,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59781824971269,8357.85510461257,22.8982331633221,15.205038723142,28.8859791556399,2078.90621042294
1791,4199,2739,"CMPD","Dayawan","Dayawan 49",22.68,114.55,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59063361087198,8355.20753285687,22.8909795420736,15.1693185066791,28.8964851045509,2068.35489789431
1791,4200,2740,"CMPD","Dayawan","Dayawan 50",22.75,114.72,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59781212684214,8356.77926091595,22.8952856463451,15.1995344427573,28.884614781679,2078.16604228756
1791,4201,2741,"CMPD","Dayawan","Dayawan 51",22.5,114.78,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61714377476649,8382.6675725819,22.9662125276217,15.4246072649356,28.8804801940896,2119.5955439081
1792,4202,10643,"Neotoma","Dayet M'Had","MHD core",35.128333,-5.438611,754,"not recorded","terrestrial, marsh","core top","0","Cheddadi, R., Henrot, A.J., François, L., Boyer, F., Bush, M., Carré, M., Coissac, E., De Oliveira, P.E., Ficetola, F., Hambuckers, A. and Huang, K., Lezine, A.M., Nourelbait, M., Rhoujjati, A., Taberlet, P., Sarmiento, F., Abel-Schaad, D., Alba-Sánchez, F., Zheng, Z., 2017. Microrefugia, climate change, and conservation of Cedrus atlantica in the Rif Mountains, Morocco. Frontiers in Ecology and Evolution, 5, p.114.; 
Cheddadi, R., Nourelbait, M., Bouaissa, O., Tabel, J., Rhoujjati, A., López-Sáez, J.A., Alba-Sánchez, F., Khater, C., Ballouche, A., Dezileau, L. and Lamb, H., 2015. A history of human impact on Moroccan mountain landscapes. African Archaeological Review, 32(2), pp.233-248.","10.3389/fevo.2017.00114;
10.1007/s10437-015-9186-7",4,"warm-temperate evergreen and mixed forest",0.409109935181567,5728.57197010355,15.6947177263111,9.05424779346492,24.0869707818896,543.343219068833
1793,4203,17300,"Neotoma","Dead","TW006A",44.580556,-92.045833,269,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.876357809688165,3458.95330157112,7.1039398000832,-11.0096533435063,22.3718706291578,754.088631759779
1794,4204,13516,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","-39","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1794,4204,13517,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","-23","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1794,4204,13518,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","-7","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1794,4204,13519,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","6","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1794,4204,13520,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","15","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1794,4204,13521,"Neotoma","Dead Frog Pond","DEADFROG",42.574444,-72.508611,80,"not known","lake","core","24","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28105010387851,3739.64037522593,9.63436973015034,-3.73200160704225,22.1671210021411,1126.24802453788
1795,4205,14052,"Neotoma","Dead Horse Lake","DEADHORS",42.558,-120.775,2251,"not known","lake","core","-42","Minckley, T.A., C. Whitlock, and P.J. Bartlein. 2007. Vegetation, fire, and climate history of the northwestern Great Basin during the last 14,000 years. Quaternary Science Reviews 26:2167-2184.",,17,"temperate evergreen needleleaf open woodland",0.102806196504476,2260.44880403547,4.92118716437154,-5.45087161570083,17.4165591821217,109.146089456805
1795,4205,14053,"Neotoma","Dead Horse Lake","DEADHORS",42.558,-120.775,2251,"not known","lake","core","46","Minckley, T.A., C. Whitlock, and P.J. Bartlein. 2007. Vegetation, fire, and climate history of the northwestern Great Basin during the last 14,000 years. Quaternary Science Reviews 26:2167-2184.",,17,"temperate evergreen needleleaf open woodland",0.102806196504476,2260.44880403547,4.92118716437154,-5.45087161570083,17.4165591821217,109.146089456805
1796,4206,11656,"Neotoma","Dead Indian Lake","GPPS-29",35.74902,-99.718865,636,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.47371500507102,5658.54494531838,15.502862863886,2.03839759684942,28.0992946635687,620.21300248748
1797,4207,18634,"SMPDSv1","Dead Sea","Barboni_a849",31.75,35.5833,-400,"medium (1.1-50 km2)","lake","core","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.352162621847198,8001.74515070246,21.9225894539793,15.6034464405124,27.8795940727878,570.191091908538
1797,4208,5942,"EMBSeCBIO","Dead Sea","Dead Sea DS7-1SC core",31.493,35.4361,-402,"605","lake","profile or section","-42","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.32706226189449,7957.97453231297,21.8026699515424,15.4321708463108,27.7886978703254,530.879435923126
1798,4209,7173,"EMPDv2","Dead Sea 7","EPDcoretop_E2314",31.49,35.43,-415,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.329503149789986,7974.90958702068,21.8490673617005,15.510653672886,27.815183934489,534.239449743198
1799,4210,15000,"Neotoma","Dead Spruce Lake","DEADSPR",58.5785,-124.5495,1378,"not known","lake","core","-48","Pisaric, M.F.J. 2001. Holocene environmental change at the subarctic alpine treeline in northern British Columbia and the southern Yukon Territory, Canada. Doctoral dissertation. Queen's University, Kingston, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.01910684823106,1203.93614125278,-2.77210935318932,-17.0525405528375,10.8234388052526,525.422495585728
1800,4211,13569,"Neotoma","Deans Lake","DEANS",44.7752799999999,-93.44692,228,"not known","lake","core","-1","Unpublished data",,13,"temperate deciduous broadleaf forest",0.839502894717686,3551.06337946376,7.35770289103657,-11.1624294326382,22.9056131728283,725.603307584639
1800,4211,13570,"Neotoma","Deans Lake","DEANS",44.7752799999999,-93.44692,228,"not known","lake","core","39","Unpublished data",,13,"temperate deciduous broadleaf forest",0.839502894717686,3551.06337946376,7.35770289103657,-11.1624294326382,22.9056131728283,725.603307584639
1801,4212,15833,"Neotoma","Decatur Lake","GMP04",39.83,-88.92,198,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.964490901866059,4339.33554130149,11.2163874380215,-4.43535515077377,24.3700165037568,964.591142616986
1802,4213,12478,"Neotoma","Decoy Lake","DECOY",43.233333,-80.366667,260,"not known","lake","core","40","Szeicz, J.M., and G.M. MacDonald. 1991. Postglacial vegetation history of oak savanna in southern Ontario. Canadian Journal of Botany 69:1507-1519.",,9,"cool mixed forest",1.08622822060589,3256.56261573235,7.6149767289132,-6.30037363862709,20.5511316720072,946.422234708246
1803,4214,17568,"Phelps et al., 2020","Deelpan Meriba 1","DEELMER1_0",-29.183333,25.75,1272,"6.5","lacustrine, drained lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.26915773119729,6313.15155200064,17.2963056219196,9.32386608452344,24.259907274675,466.01652977205
1804,4215,14829,"Neotoma","Deep Bottom Cove","DEEPBTM",41.368725,-70.64218,1,"not known","not known","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36189354374851,3941.41888099829,10.5566263814966,-1.79794811294013,22.4388379685307,1238.39359464185
1804,4215,14830,"Neotoma","Deep Bottom Cove","DEEPBTM",41.368725,-70.64218,1,"not known","not known","core","-9","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36189354374851,3941.41888099829,10.5566263814966,-1.79794811294013,22.4388379685307,1238.39359464185
1804,4215,14831,"Neotoma","Deep Bottom Cove","DEEPBTM",41.368725,-70.64218,1,"not known","not known","core","14","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36189354374851,3941.41888099829,10.5566263814966,-1.79794811294013,22.4388379685307,1238.39359464185
1804,4215,14832,"Neotoma","Deep Bottom Cove","DEEPBTM",41.368725,-70.64218,1,"not known","not known","core","36","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36189354374851,3941.41888099829,10.5566263814966,-1.79794811294013,22.4388379685307,1238.39359464185
1805,4216,15719,"Neotoma","Deep Lake","DRW018",43.61873,-74.662645,789,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.4944391952236,2423.56370950145,4.0938642414291,-10.1866829481584,16.9898470964387,1125.09607474537
1806,4217,14903,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","-49","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14904,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","-34.779","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14905,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","-20.414","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14906,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","-6.048","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14907,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","8.317","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14908,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","22.683","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1806,4217,14909,"Neotoma","Deep-Falmouth Pond","DEEPFAL",41.564035,-70.63573,18,"not known","lake","core","37.048","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.35608860962836,3881.80786745022,10.3262778086258,-2.17512735703785,22.3368927174164,1224.0048497183
1807,4218,15720,"Neotoma","Deer Lake","DEER_C90",44.03971,-74.252015,509,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.33960959917921,2726.82911497842,5.18739837469931,-9.63423153320685,18.529549187754,1036.90589182314
1808,4219,12479,"Neotoma","Deer Lake Bog","DEER",44.033333,-71.833333,1325,"not known","lake","core","0","Spear, R.W. 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1808,4220,15650,"Neotoma","Deer Lake Bog","RWS007",44.033333,-71.833333,1325,"not known","terrestrial","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1808,4221,15654,"Neotoma","Deer Lake Bog","RWS008",44.033333,-71.833333,1325,"not known","terrestrial","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1808,4222,15652,"Neotoma","Deer Lake Bog","RWS009",44.033333,-71.833333,1325,"not known","terrestrial","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1808,4223,15651,"Neotoma","Deer Lake Bog","RWS011",44.033333,-71.833333,1325,"not known","terrestrial","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1808,4224,15653,"Neotoma","Deer Lake Bog","RWS013",44.033333,-71.833333,1325,"not known","terrestrial","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.62630883633941,1217.76928873857,-2.86300489406644,-18.4891081194361,10.8276742539146,1576.59576735585
1809,4225,15521,"Neotoma","Deer Park (US:Washington:Jefferson)","CJH100",47.75,-123.9,823,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.99033897875959,2964.72625668976,8.12253768956098,2.55905305195659,14.7020007999966,2323.77124370432
1810,4226,15522,"Neotoma","Deer Park (US:Washington:Kitsap)","CJH101",47.6,-123,30,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.1663493827058,3748.09241048569,10.2687463300978,4.14589493572243,16.9633715506285,1690.13602229045
1811,4227,15523,"Neotoma","Deer Park Road","CJH102",47.2,-124.12,61,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.78745974864549,3592.32900901831,9.84199728498168,4.42212042512796,15.8999071509293,2116.85305334068
1812,4228,17569,"Phelps et al., 2020","Dega Sala Swamp","DEGASALA_0",7.816667,39.333333,3311,"not known","terrestrial, bog/fen/swamp","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.86174450413137,3539.23649027242,9.69653832951348,8.73329569414873,10.9809466547235,1405.1616610573
1813,4229,542,"Australian pollen","Delegate River","Delegate River/Tea Tree Swamp",-37.25,148.833,900,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.834047409086582,3615.02558076925,9.90417967334041,3.04239788231868,16.5743799234381,957.301628714562
1813,4230,543,"Australian pollen","Delegate River","Delegate River/Tea Tree Swamp_0",-37.25,148.833,900,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.834047409086582,3615.02558076925,9.90417967334041,3.04239788231868,16.5743799234381,957.301628714562
1814,4231,12480,"Neotoma","Delorme 2","DEL2",54.423611,-69.929722,538,"not known","lake","core","0","Richard, P.J.H., A.C. Larouche, and M.A. Bouchard. 1982. Age de la déglaciation finale et histoire postglaciaire de la végétation dans la partie centrale du Nouveau-Québec. Géographie physique et Quaternaire 36:63-90.",,15,"cold evergreen needleleaf forest",1.6013281147099,1206.20785097619,-5.02978919752226,-23.9278862394092,12.4109353681818,772.15280980408
1815,4232,18635,"SMPDSv1","Delta del Rio Besos","EPDcoretop_E651",41.380278,2.248333,0,"not applicable","coastal, estuarine","core top","-24","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.498284078580107,5834.40600886221,15.9846739968828,8.91563727576097,24.1541358685485,581.684542178835
1816,4233,6008,"EMBSeCBIO","Demiryurt Golu","Demiryurt Golu Bottema Core_1",39.733333,37.383333,1659,"large (50.1-500 km2)","lake","core","-28","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.368963153317628,3258.4790674768,8.20517695541696,-4.51685484271326,19.187601358823,463.53081093485
1816,4234,6009,"EMBSeCBIO","Demiryurt Golu","Demiryurt Golu Bottema Core_10",39.733333,37.383333,1659,"large (50.1-500 km2)","lake","core","19","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.368963153317628,3258.4790674768,8.20517695541696,-4.51685484271326,19.187601358823,463.53081093485
1817,4235,12482,"Neotoma","Demont Lake","DEMONTLK",43.48,-85,248,"not known","lake","core","17","Unpublished data",,9,"cool mixed forest",0.957148156671717,3359.96296224117,7.87919616662168,-6.46369182002529,21.1961955019316,816.964656576019
1818,4236,544,"Australian pollen","Den Plain","Den Plain 1a_core",-41.5,146.2333,230,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25543218703887,4064.45798544668,11.1355013299909,6.90106220808971,15.7643224804822,1174.07420745337
1818,4237,545,"Australian pollen","Den Plain","Den Plain 1a_ss",-41.5,146.2333,230,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25543218703887,4064.45798544668,11.1355013299909,6.90106220808971,15.7643224804822,1174.07420745337
1818,4238,546,"Australian pollen","Den Plain","Den Plain 1b",-41.5,146.2333,230,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25543218703887,4064.45798544668,11.1355013299909,6.90106220808971,15.7643224804822,1174.07420745337
1818,4239,547,"Australian pollen","Den Plain","Den Plain 2",-41.5,146.2333,230,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25543218703887,4064.45798544668,11.1355013299909,6.90106220808971,15.7643224804822,1174.07420745337
1819,4240,24443,"Southern Hemisphere pollen","Denniston","Denniston moss sample 1",-41.738,171.7956,600,"small (0.01-1 km2)","terrestrial","moss polster or moss","-33","Macphail, M.K. and McQueen, D.R., 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara (Wellington)., 26(2), pp.37-59.",,7,"cool-temperate rainforest",2.79390112703485,3293.62015260259,9.02361685644544,3.47105520087334,14.2797266920991,2396.29277655887
1819,4241,24444,"Southern Hemisphere pollen","Denniston","Denniston moss sample 2",-41.738,171.7956,600,"small (0.01-1 km2)","terrestrial","moss polster or moss","-33","Macphail, M.K. and McQueen, D.R., 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara (Wellington)., 26(2), pp.37-59.",,7,"cool-temperate rainforest",2.79390112703485,3293.62015260259,9.02361685644544,3.47105520087334,14.2797266920991,2396.29277655887
1820,4242,12483,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-33","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12484,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-32","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12485,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-30","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12486,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-26","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12487,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-21","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12488,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12489,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","-9","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12490,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12491,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","26","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12492,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","37","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1820,4242,12493,"Neotoma","Denton Lake","DENTONC1",45.853965,-89.313005,500,"not known","lake","core","47","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03104249716061,2633.95801580314,3.94000001215865,-12.7915714028594,18.8442481441801,793.788285845322
1821,4243,18636,"SMPDSv1","Derekoy","Bakker_b29",37.6272833333333,30.6566333333333,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387983959082371,3885.72673082703,10.6455508757228,0.148201894128396,21.040969680255,527.809257871242
1821,4244,18637,"SMPDSv1","Derekoy","Bakker_b30",37.6347666666666,30.5032666666666,1040,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418668229846184,4663.19733385012,12.7758831064387,2.86351071849526,22.8527243882783,588.235506843612
1821,4245,18638,"SMPDSv1","Derekoy","Bakker_b31",37.6337333333333,30.65485,1036,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419988957357276,4661.95282609763,12.7724734961579,2.84860042058999,22.8480341647449,589.602496255669
1821,4246,18639,"SMPDSv1","Derekoy","Bakker_b32",37.6289,30.6594,1254,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401090862738011,4196.80358575962,11.4980920157798,1.23048575219787,21.7651624820159,552.657223453475
1821,4247,18640,"SMPDSv1","Derekoy","Bakker_b33",37.6294333333333,30.6557666666666,1244,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401929567888156,4218.43316637035,11.5573511407407,1.30588812788133,21.8156071413431,554.307238733033
1821,4248,18641,"SMPDSv1","Derekoy","Bakker_b34",37.6288166666666,30.6571166666666,1356,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391957592525339,3979.33326770543,10.9022829252204,0.474122824320738,21.2589554705748,535.271605961584
1821,4249,18642,"SMPDSv1","Derekoy","Bakker_b35",37.6375833333333,30.6600333333333,1056,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.41827892432292,4618.52122107812,12.6534827974743,2.69701271140176,22.746698077067,586.121797279265
1822,4250,6513,"EMPDv2","Derevanoi Lake","Binney2017_E2934",69.23,86.57,54,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79418160260637,983.875533745491,-9.26352019343833,-28.0907254131029,12.2920903868799,495.81840637478
1823,4251,15241,"Neotoma","Derinda","AMD008",42.27,-90.08,244,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.951716549321575,3795.93460076583,8.92136071104803,-7.83539356430215,23.050505545792,885.203869437378
1824,4252,18643,"SMPDSv1","Derry dam","Barboni_a1351",57.041458,-3.58527,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.33974613305788,1929.92064101432,5.23816336667385,-0.367498239558692,11.5576390167915,1613.59860019892
1825,4253,18644,"SMPDSv1","Derrycunihy","EPDcoretop_E200",52.016667,-9.416667,60,"3e-04","small hollow","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.79198810520402,3611.56430130542,9.89469671590526,5.5634258938878,15.0662524460015,1145.49098629455
1826,4254,18645,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a16",51.9791666666666,-9.60555555555555,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82547678267526,3602.91969976091,9.87101287605728,5.56954228369669,15.0138744849605,1167.39359971674
1826,4255,18646,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a20",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4256,18647,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a21",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4257,18648,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a22",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4258,18649,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a23",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4259,18650,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a24",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4260,18651,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a6",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4261,18652,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a7",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1826,4262,18653,"SMPDSv1","Derrycunihy wood, Killarney","Mitchell_a8",51.9722222222222,-9.59166666666666,70,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.82398988133697,3603.00377903643,9.8712432302368,5.56912090318173,15.0155836233294,1166.67797979398
1827,4263,18654,"SMPDSv1","Dervisha","BUL/MF/11",43.153889,26.758889,281,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.59601122640731,4126.92512823419,11.2814035184338,-0.273011187625899,21.7941434609516,589.265715876699
1828,4264,18655,"SMPDSv1","Dervisha Reserve","Dervisha Reserve ss",43.1575,26.765,170,"not applicable","coastal, other","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564608780753163,4279.0795797454,11.7133122408184,-0.0177292682076447,22.2273007396561,561.190662471874
1829,4265,6905,"EMPDv2","Des","Colombaroli_a20",37.1792222222222,14.8721111111111,464,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.430160634914094,5859.22747719952,16.0526780197247,9.46983055904866,24.1959140394684,584.50095404059
1830,4266,13811,"Neotoma","Deuce Lake","DEUCE",64.86412,-147.94008,170,"not known","lake","core","-46","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",0.663283138267932,1832.16735900864,-3.34023562242108,-23.1378616050667,16.2401835358624,284.57981622923
1830,4266,13812,"Neotoma","Deuce Lake","DEUCE",64.86412,-147.94008,170,"not known","lake","core","30","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",0.663283138267932,1832.16735900864,-3.34023562242108,-23.1378616050667,16.2401835358624,284.57981622923
1831,4267,18656,"SMPDSv1","Deulowitzer See","Deulowitzer_ss See",51.92377,14.6467,63,"0.139","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.755741207581173,3327.13299587353,8.99821222952235,-1.08991358610847,18.2685919380532,547.866276397911
1832,4268,12495,"Neotoma","Devils Lake","DEVILSWI",43.4178,-89.73205,294,"not known","lake","core","-4","Maher, L.J., Jr. 1982. The palynology of Devils Lake, Sauk County, Wisconsin. Pages 119-135 in J.C. Knox, L. Clayton, and D.M. Mickelson, editors. Quaternary History of the Driftless Area. Field Trip Guide Book 5. University of Wisconsin-Extension, Geological and Natural History Survey, Madison, Wisconsin, USA. Notes: Prepared for 29th Annual Meeting Midwest Friends of the Pleistocene, Prairie du Chien, Wisconsin, May 22 and 23, 1982.",,13,"temperate deciduous broadleaf forest",0.938092883475423,3362.69053166181,7.13268268383921,-9.77104918193395,21.6953085615382,814.106726424137
1832,4268,12496,"Neotoma","Devils Lake","DEVILSWI",43.4178,-89.73205,294,"not known","lake","core","5","Maher, L.J., Jr. 1982. The palynology of Devils Lake, Sauk County, Wisconsin. Pages 119-135 in J.C. Knox, L. Clayton, and D.M. Mickelson, editors. Quaternary History of the Driftless Area. Field Trip Guide Book 5. University of Wisconsin-Extension, Geological and Natural History Survey, Madison, Wisconsin, USA. Notes: Prepared for 29th Annual Meeting Midwest Friends of the Pleistocene, Prairie du Chien, Wisconsin, May 22 and 23, 1982.",,13,"temperate deciduous broadleaf forest",0.938092883475423,3362.69053166181,7.13268268383921,-9.77104918193395,21.6953085615382,814.106726424137
1832,4268,12497,"Neotoma","Devils Lake","DEVILSWI",43.4178,-89.73205,294,"not known","lake","core","46","Maher, L.J., Jr. 1982. The palynology of Devils Lake, Sauk County, Wisconsin. Pages 119-135 in J.C. Knox, L. Clayton, and D.M. Mickelson, editors. Quaternary History of the Driftless Area. Field Trip Guide Book 5. University of Wisconsin-Extension, Geological and Natural History Survey, Madison, Wisconsin, USA. Notes: Prepared for 29th Annual Meeting Midwest Friends of the Pleistocene, Prairie du Chien, Wisconsin, May 22 and 23, 1982.",,13,"temperate deciduous broadleaf forest",0.938092883475423,3362.69053166181,7.13268268383921,-9.77104918193395,21.6953085615382,814.106726424137
1832,4269,11341,"Neotoma","Devils Lake","TW057",43.4178,-89.73205,294,"not known","lake","surface sample","-17","Webb, T., III. 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.938092883475423,3362.69053166181,7.13268268383921,-9.77104918193395,21.6953085615382,814.106726424137
1833,4270,13686,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","-36","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13687,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","-26","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13688,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","-7","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13689,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","5","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13690,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","24","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13691,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","37","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4270,13692,"Neotoma","Devils Lake, Creel Bay","CREELBAY",48.0858999999999,-98.92935,443,"not known","lake","core","50","Jacobson, H.A., and D.R. Engstrom. 1989. Resolving the chronology of recent lake sediments: an example from Devils Lake, North Dakota. Journal of Paleolimnology 2(2):81-97.","10.1007/BF00177042",22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1833,4271,11515,"Neotoma","Devils Lake, Creel Bay","NDRADE",48.0858999999999,-98.92935,443,"not known","lake","surface sample","-36","Unpublished data",,22,"steppe",0.587462076217544,2841.70998412888,3.59826147807537,-16.0319030332473,20.2299432992355,475.257083223816
1834,4272,12494,"Neotoma","Devils Lake, Main Bay","DEVILSLK",48.031535,-98.9505949999999,443,"not known","lake","core","0","Unpublished data",,22,"steppe",0.586448854418481,2844.57274695766,3.61493331018967,-16.0080310372087,20.2446206212941,474.884193355403
1835,4273,11529,"Neotoma","Devils Lake, Mission Bay","NDRAMB",48.01823,-98.8868249999999,443,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.585858008949826,2846.50590451918,3.62491105634069,-15.9940244468771,20.2546487972631,474.52949787336
1836,4274,12498,"Neotoma","Devon Island Glacier","DEVON4",75.35,-82.5,1831,"not known","glacier ice","core","-23","Koerner, R.M., and D. Fisher. 1979. Discontinuous flow, ice texture, and dirt content in the basal layers of the Devon Island Ice Cap. Journal of Glaciology 23:209-222.; Lichti-Federovich, S. 1974. Pollen analysis of surface snow from the Devon Island ice cap. Geological Survey of Canada, Paper 74-1, Part A. pp.197-199.; Lichti-Federovich, S. 1975. Pollen analysis of ice core samples from the Devon Island ice cap. Geological Survey of Canada, Paper 75-1, Part A. pp.441-444.; Lichti-Federovich, S. 1975. Pollen analysis of surface snow from five Canadian arctic ice caps. Geological Survey of Canada, Paper 75-1, Part B. pp.135-137.; McAndrews, J.H. 1984. Pollen analysis of the 1973 core from Devon Island Glacier, Canada. Quaternary Research 22:68-76.",,,"not applicable",1.82970580023035,0.471882500412069,-21.9848883695051,-37.1121552022134,-0.428399887035947,357.209313430033
1836,4274,12499,"Neotoma","Devon Island Glacier","DEVON4",75.35,-82.5,1831,"not known","glacier ice","core","7","Koerner, R.M., and D. Fisher. 1979. Discontinuous flow, ice texture, and dirt content in the basal layers of the Devon Island Ice Cap. Journal of Glaciology 23:209-222.; Lichti-Federovich, S. 1974. Pollen analysis of surface snow from the Devon Island ice cap. Geological Survey of Canada, Paper 74-1, Part A. pp.197-199.; Lichti-Federovich, S. 1975. Pollen analysis of ice core samples from the Devon Island ice cap. Geological Survey of Canada, Paper 75-1, Part A. pp.441-444.; Lichti-Federovich, S. 1975. Pollen analysis of surface snow from five Canadian arctic ice caps. Geological Survey of Canada, Paper 75-1, Part B. pp.135-137.; McAndrews, J.H. 1984. Pollen analysis of the 1973 core from Devon Island Glacier, Canada. Quaternary Research 22:68-76.",,,"not applicable",1.82970580023035,0.471882500412069,-21.9848883695051,-37.1121552022134,-0.428399887035947,357.209313430033
1837,4275,24445,"Southern Hemisphere pollen","Dew Lakes","Dew Lakes core",-41.326746,173.410263,600,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core top","31","Dodson, J.R., 1978. A vegetation history from north-east Nelson, New Zealand. New Zealand Journal of Botany, 16(3), pp.371-378.","10.1080/0028825X.1978.10425144",7,"cool-temperate rainforest",1.86494104133242,3387.78338429417,9.28159831313472,3.70686490710519,14.5387694150899,1658.76712785387
1838,4276,16459,"Neotoma","Dewar Lakes","JTA273",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4277,16450,"Neotoma","Dewar Lakes","JTA274",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4278,16454,"Neotoma","Dewar Lakes","JTA275",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4279,16453,"Neotoma","Dewar Lakes","JTA276",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4280,16451,"Neotoma","Dewar Lakes","JTA277",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4281,16457,"Neotoma","Dewar Lakes","JTA278",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4282,16456,"Neotoma","Dewar Lakes","JTA279",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4283,16455,"Neotoma","Dewar Lakes","JTA280",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4284,16452,"Neotoma","Dewar Lakes","JTA281",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1838,4285,16458,"Neotoma","Dewar Lakes","JTA282",68.62,-71.17,220,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.829590835884048,435.953139052189,-11.561298835202,-27.1116436466685,6.76076908393274,234.585811570601
1839,4286,12500,"Neotoma","Diana 375","DIA375",60.9875,-69.958333,114,"not known","not known","core","0","Richard, P.J.H. 1981. Paléophytogéographie postglaciaire en Ungava par l'analyse pollinique. Collection Paléo-Québec, no. 13, 154 pages.",,31,"tundra",1.21398684704383,594.433475189886,-7.82399730719613,-23.775178719256,7.04191588386072,419.568588797866
1840,4287,2742,"CMPD","Dianchi","Dianchi",25,102.67,1893,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.821457837713379,5716.29296724377,15.6610766225857,8.57550225455007,20.7727998474905,1073.27339242653
1841,4288,15251,"Neotoma","Dickey Valley","AMD018",42.62,-90.58,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.918362695887991,3531.07696574547,7.74985837288517,-9.42708038664842,22.2503927339944,830.792535140989
1842,4289,6010,"EMBSeCBIO","Didachara","Didachara core_1",41.683889,42.496944,2000,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-62","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.648871225847729,2204.6276550172,3.29511149212301,-10.9527150388216,15.5196370513953,658.905379393158
1842,4290,6011,"EMBSeCBIO","Didachara","Didachara core_2",41.683889,42.496944,2000,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","21","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.648871225847729,2204.6276550172,3.29511149212301,-10.9527150388216,15.5196370513953,658.905379393158
1843,4291,6988,"EMPDv2","Die Seelohe","EPDcoretop_E1429",50.03,11.86,778,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.1037455563438,2599.2842934399,6.48145063787836,-3.58688427196858,15.7017646258628,780.493194232288
1844,4292,6989,"EMPDv2","Die Wolfslohe im Steinwald","EPDcoretop_E1430",49.91,12.04,718,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06437859152102,2661.22788512142,6.72107685297305,-3.30824174440225,15.9217849844355,756.024546217661
1845,4293,12002,"Neotoma","Diemer Lake","SM-DMR",39.334585,-106.60696,2869,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.498412869210832,1573.61161830666,0.999252989000119,-10.7508700233599,12.9812442947158,488.316501086752
1846,4294,7934,"EMPDv2","Difesa San Biagio","Mercuri_i15",40.505019,16.681877,123,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.584010810498215,5774.84859525907,15.8215030007098,8.31021965806193,24.3519906955115,708.845619121612
1847,4295,548,"Australian pollen","Digger's Creek","Digger's Creek Mire core_0",-36.3833333333333,148.483333333333,1690,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0379467627724701,2233.02327901464,5.78181496258792,-2.31913043539328,13.775814995753,1250.36666911292
1847,4296,549,"Australian pollen","Digger's Creek","Digger's Creek Mire core_5",-36.3833333333333,148.483333333333,1690,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0379467627724701,2233.02327901464,5.78181496258792,-2.31913043539328,13.775814995753,1250.36666911292
1848,4297,7165,"EMPDv2","Diheen","EPDcoretop_E2245",52.37,-8.17,554,"0.0079","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.19088658685216,2574.72280474818,7.05403508150187,2.45521759342604,12.904672199594,1285.70562585442
1849,4298,7071,"EMPDv2","Dikikh Olyenyeii Lake","EPDcoretop_E1838",67.75,-178.83,300,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38435108119097,357.491470521904,-10.8045630588242,-24.9893636543595,5.01022664864947,381.956146701689
1850,4299,2743,"CMPD","Dingbian","Dingbian 01",37.4424166666667,107.727833333333,1590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.362813983750281,3150.90581285157,6.97257912255117,-7.74103264126902,20.1127040768283,386.878943559682
1850,4300,2744,"CMPD","Dingbian","Dingbian 02",37.35925,107.827972222222,1712,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.376675634818106,2995.84856737712,6.53110032123561,-7.64776095725931,19.3576349052204,394.500277326552
1850,4301,2745,"CMPD","Dingbian","Dingbian 03",37.3381388888889,107.896861111111,1542,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35540306626517,3212.47517907296,7.13266975733433,-7.81464554327384,20.4428848704796,382.687499081369
1850,4302,2746,"CMPD","Dingbian","Dingbian 04",37.2748611111111,107.912138888889,1641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.367162707843382,3086.8453446959,6.78350635676458,-7.71919041470575,19.8157034547698,389.469781268261
1850,4303,2747,"CMPD","Dingbian","Dingbian 05",37.2759444444444,107.910333333333,1636,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36662301382716,3093.20765204906,6.80155264867175,-7.72275931666802,19.8470939964935,389.194471606193
1850,4304,2748,"CMPD","Dingbian","Dingbian 06",37.1662777777778,108.023305555555,1412,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372721316837369,3429.29248163135,7.92120211117619,-7.23547774161365,21.3117342305831,407.633668356584
1850,4305,2749,"CMPD","Dingbian","Dingbian 07",37.0791111111111,108.110777777778,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.377720060008379,3438.17026903779,7.97045695996066,-7.14308386474401,21.3252344154052,413.273032105581
1850,4306,2750,"CMPD","Dingbian","Dingbian 08",37.0699444444444,108.120222222222,1382,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.380821476347195,3484.3832340439,8.13340443199333,-7.03179804123105,21.5109394338557,417.965342380405
1850,4307,2751,"CMPD","Dingbian","Dingbian 09",36.9202222222222,108.172222222222,1325,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.394949592723695,3592.72302064678,8.55092162490546,-6.61490292837552,21.8971942186536,436.062275230345
1850,4308,2752,"CMPD","Dingbian","Dingbian 10",36.7834722222222,108.293944444444,1317,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.407736986660504,3602.10563738407,8.60473093796286,-6.51578617398425,21.8799689083653,450.225835091141
1850,4309,2753,"CMPD","Dingbian","Dingbian 11",36.7841666666667,108.293805555556,1284,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.412884048358768,3652.5708464966,8.78535742411769,-6.37653397678471,22.06525919803,456.975305883223
1850,4310,2754,"CMPD","Dingbian","Dingbian 12",36.6766944444444,108.163805555556,1343,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.432881870949738,3612.63856673326,8.80309157512571,-5.78874720923389,21.7710080204457,472.513553582433
1850,4311,2755,"CMPD","Dingbian","Dingbian 13",36.5953611111111,108.058861111111,1666,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.348969883455487,3034.08634648481,6.50000458071734,-8.20595175402089,19.6439295345377,374.215399072343
1850,4312,2756,"CMPD","Dingbian","Dingbian 14",36.5956111111111,108.058583333333,1663,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349781703076373,3039.24316174038,6.52172407824376,-8.18256079340732,19.6636584415096,375.149140475834
1850,4313,2757,"CMPD","Dingbian","Dingbian 15",36.5241944444444,108.186083333333,1714,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.336956917118849,2960.20580779459,6.17765977248263,-8.57578214128565,19.3643082542634,361.125015721288
1850,4314,2758,"CMPD","Dingbian","Dingbian 16",36.4003055555556,108.13525,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.38471938972894,3249.0637358501,7.40210254114862,-7.19401932186726,20.4318761938328,416.009434436195
1850,4315,2759,"CMPD","Dingbian","Dingbian 17",36.4035,108.13425,1595,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372116458432894,3169.15767756134,7.07281801117322,-7.55763126871954,20.1375149854857,401.493496848286
1850,4316,2760,"CMPD","Dingbian","Dingbian 18",36.4534166666667,107.994083333333,1403,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.424160742620439,3514.07994953183,8.46408254085346,-6.01724975418209,21.3818962369184,461.236913258767
1850,4317,2761,"CMPD","Dingbian","Dingbian 19",37.8514166666667,107.244833333333,1553,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.307616302711719,3205.41800995586,6.96987978257839,-8.34197858882393,20.5569880144034,332.388210247337
1850,4318,2762,"CMPD","Dingbian","Dingbian 20",37.7374166666667,107.537722222222,1299,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.270806624280743,3514.73031993214,7.85285414660209,-8.48399242012024,22.1026914468829,303.532467541008
1850,4319,2763,"CMPD","Dingbian","Dingbian 21",37.7368888888889,107.539916666667,1299,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.270888150966352,3514.71942190814,7.85285059928106,-8.4838354248126,22.1026133047134,303.624893999586
1850,4320,2764,"CMPD","Dingbian","Dingbian 22",37.7314444444444,107.546,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271530115740616,3513.62630689372,7.85098638664945,-8.47845818737867,22.0957894539402,304.301490086898
1850,4321,2765,"CMPD","Dingbian","Dingbian 23",37.2686111111111,106.282361111111,2598,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.552035494839984,2051.57852218523,3.80842943941245,-7.28084836220255,14.3683234829635,515.14702872306
1850,4322,2766,"CMPD","Dingbian","Dingbian 24",37.2941388888889,106.280555555556,2499,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.524040582754383,2164.99527416724,4.14155341440146,-7.33209940597191,14.968754370253,496.447064267185
1850,4323,2767,"CMPD","Dingbian","Dingbian 25",37.2733333333333,106.283,2319,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.47508133581914,2367.98274767126,4.73326211832044,-7.4299149428455,16.0337895978338,462.333216386535
1851,4324,2768,"CMPD","Dinghu","Dinghu 1",23.25,112.58,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.354884863595,5514.68323433209,15.1087211899509,3.94316392999242,24.7801111457382,1449.98173313229
1851,4325,2769,"CMPD","Dinghu","Dinghu 2",23.18,112.55,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.51236634856754,8269.03792947166,22.6548984369087,14.6908922407453,28.8230726781784,1907.72658064373
1852,4326,2770,"CMPD","Dingnan","Dingnan",24.75,115.033,274,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38511149241733,7363.28655667981,20.17338782652,10.7382241865888,28.0135369626655,1680.83359828445
1853,4327,2771,"CMPD","Dingqing Dangdui","Dingqing Dangdui 01",31.1863333333333,95.3956944444445,4740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.414913497867132,792.928754713735,-1.97991973097588,-11.923117665269,7.1619783591557,438.149353815254
1853,4328,2772,"CMPD","Dingqing Dangdui","Dingqing Dangdui 02",31.1862222222222,95.3946388888889,4688,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.423134854128221,836.039106370987,-1.67223812986683,-11.5592600590337,7.40245028693823,448.784078563537
1853,4329,2773,"CMPD","Dingqing Dangdui","Dingqing Dangdui 03",31.186,95.3927777777778,4637,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.431139995796419,879.50104178543,-1.36968616226319,-11.2016709846559,7.63905870794796,459.227327421012
1853,4330,2774,"CMPD","Dingqing Dangdui","Dingqing Dangdui 04",31.1856666666667,95.3915277777778,4575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.440812829648053,933.629123253024,-1.00245161412351,-10.7673009505402,7.92600418810811,471.929903305293
1853,4331,2775,"CMPD","Dingqing Dangdui","Dingqing Dangdui 05",31.1853611111111,95.3892222222222,4530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.447780681106458,974.170812503531,-0.734498330433821,-10.4507419319474,8.13565069862968,481.170939761642
1853,4332,2776,"CMPD","Dingqing Dangdui","Dingqing Dangdui 06",31.1851666666667,95.3872777777778,4464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.457934489059847,1034.95628062973,-0.342531013181416,-9.98731026305626,8.44206238451258,494.715153876206
1853,4333,2777,"CMPD","Dingqing Dangdui","Dingqing Dangdui 07",31.1850833333333,95.3850833333334,4419,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.464809219430018,1077.63369058473,-0.0742509290516878,-9.67034975749725,8.65195298982439,503.968276396738
1853,4334,2778,"CMPD","Dingqing Dangdui","Dingqing Dangdui 08",31.1864444444444,95.3826666666667,4346,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.475849600985873,1148.52403095862,0.359488347946459,-9.15784606419875,8.99126666350192,518.917457475074
1853,4335,2779,"CMPD","Dingqing Dangdui","Dingqing Dangdui 09",31.1878333333333,95.3804444444444,4301,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482596769028726,1193.5366091131,0.627447456330382,-8.84144533839717,9.20105025658333,528.130169725346
1853,4336,2780,"CMPD","Dingqing Dangdui","Dingqing Dangdui 10",31.1900555555556,95.37925,4250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.490185739518757,1245.26085675472,0.929225382935993,-8.48479081795667,9.43708017243976,538.519864182834
1853,4337,2781,"CMPD","Dingqing Dangdui","Dingqing Dangdui 11",31.19975,95.3729444444444,3866,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.546248071529664,1673.78169366643,3.19880421754102,-5.79858282205946,11.2090740432371,616.987717925899
1853,4338,2782,"CMPD","Dingqing Dangdui","Dingqing Dangdui 12",31.1996111111111,95.3744166666667,3920,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.538450838774196,1608.56129732488,2.87782321073174,-6.17859840205758,10.9585710107875,605.865910687711
1853,4339,2783,"CMPD","Dingqing Dangdui","Dingqing Dangdui 13",31.1990555555556,95.3749166666666,3952,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.53382861030115,1570.9100499477,2.68869870633848,-6.40256184150406,10.8110080085239,599.316705075841
1853,4340,2784,"CMPD","Dingqing Dangdui","Dingqing Dangdui 14",31.1981388888889,95.3759444444444,4006,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.525995068763346,1508.54454308108,2.36923014025885,-6.78079937535283,10.5616837993942,588.258534068982
1853,4341,2785,"CMPD","Dingqing Dangdui","Dingqing Dangdui 15",31.1975555555556,95.3771388888889,4056,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.518697071070267,1452.0551266469,2.07284309839123,-7.13162552824267,10.3303109539377,578.000736356332
1853,4342,2786,"CMPD","Dingqing Dangdui","Dingqing Dangdui 16",31.1970833333333,95.378,4109,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.510920983155273,1393.57655920795,1.75913776616688,-7.50301785976513,10.085463023799,567.136671869296
1853,4343,2787,"CMPD","Dingqing Dangdui","Dingqing Dangdui 17",31.1968055555556,95.3788055555556,4143,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.505908460866124,1356.7216331617,1.55755916651762,-7.7415906666595,9.92807629926712,560.16047165806
1853,4344,2788,"CMPD","Dingqing Dangdui","Dingqing Dangdui 18",31.1956388888889,95.3817222222222,4205,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.496736104121186,1290.64231250946,1.18869190395704,-8.17767603979431,9.63972196541966,547.437244344129
1853,4345,2789,"CMPD","Dingqing Dangdui","Dingqing Dangdui 19",31.2246388888889,95.3999722222222,3693,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.569875622615288,1874.362147325,4.13869272664113,-4.67801976053295,11.9370621690791,649.609457108641
1854,4346,2790,"CMPD","Dingqing Sangduo","Dingqing Sangduo 01",31.1552222222222,95.7803888888889,4693,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.429500133146988,753.236750470949,-2.13717427333009,-11.9018830524058,6.88895216091448,447.371715427897
1854,4347,2791,"CMPD","Dingqing Sangduo","Dingqing Sangduo 02",31.1552222222222,95.7787222222222,4649,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.435597181018072,783.695750852614,-1.91705755505376,-11.6429619069518,7.06219288370204,454.884017599535
1854,4348,2792,"CMPD","Dingqing Sangduo","Dingqing Sangduo 03",31.1545833333333,95.7784166666667,4597,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.442816764663868,820.141032747733,-1.65801385087239,-11.3375240873308,7.26550272136044,463.790020504849
1854,4349,2793,"CMPD","Dingqing Sangduo","Dingqing Sangduo 04",31.154,95.7783055555555,4549,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.449453838110233,854.498577648231,-1.4188813333936,-11.0555454066391,7.45317174241519,472.013758021837
1854,4350,2794,"CMPD","Dingqing Sangduo","Dingqing Sangduo 05",31.1531944444444,95.7785833333333,4499,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.456347266828565,890.937801256851,-1.1699913277818,-10.7619200532341,7.64838998358633,480.586746690454
1854,4351,2795,"CMPD","Dingqing Sangduo","Dingqing Sangduo 06",31.1523888888889,95.7778055555555,4444,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.463887936371599,932.045869423543,-0.894961433318533,-10.4378233320727,7.86439405348177,490.030896913868
1854,4352,2796,"CMPD","Dingqing Sangduo","Dingqing Sangduo 07",31.1523333333333,95.3850833333334,4399,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.468765089757621,1098.00185058654,0.0559218626304445,-9.50939179609494,8.74801857763768,509.325540105417
1854,4353,2797,"CMPD","Dingqing Sangduo","Dingqing Sangduo 08",31.1522777777778,95.7756111111111,4356,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.475848123521394,999.936223938136,-0.45366441410541,-9.91840279125111,8.21144756025049,505.128042447112
1854,4354,2798,"CMPD","Dingqing Sangduo","Dingqing Sangduo 09",31.1518333333333,95.7745277777778,4292,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.484512417969508,1050.78384413877,-0.132769561503069,-9.54047452969219,8.46363675156219,516.128929006325
1854,4355,2799,"CMPD","Dingqing Sangduo","Dingqing Sangduo 10",31.1603333333333,95.7746111111111,4258,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.488808241179956,1077.39812664171,0.031313476368001,-9.34874253762043,8.59376177065494,521.539332227451
1854,4356,2800,"CMPD","Dingqing Sangduo","Dingqing Sangduo 11",31.1604722222222,95.7724166666667,4201,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.496463226701129,1124.40004134279,0.317771840777684,-9.01151607426337,8.81898394334558,531.340132430911
1854,4357,2801,"CMPD","Dingqing Sangduo","Dingqing Sangduo 12",31.1656388888889,95.7744166666667,4096,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.510285756808244,1211.34777187617,0.832021939960257,-8.405191590366,9.22260526628453,548.938861310362
1854,4358,2802,"CMPD","Dingqing Sangduo","Dingqing Sangduo 13",31.16575,95.7739166666667,4071,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513605847034016,1232.93468291213,0.956768653249333,-8.25815000480194,9.32054060915736,553.219391044472
1854,4359,2803,"CMPD","Dingqing Sangduo","Dingqing Sangduo 14",31.17025,95.77275,4000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.522870163088837,1294.45917348655,1.3057607023324,-7.84693662865657,9.59462688953574,565.125522046782
1854,4360,2804,"CMPD","Dingqing Sangduo","Dingqing Sangduo 15",31.1714444444444,95.7736388888889,3950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.529410309785069,1338.48734925743,1.55037096378979,-7.55808247881571,9.78626505014144,573.540178109671
1854,4361,2805,"CMPD","Dingqing Sangduo","Dingqing Sangduo 16",31.1737222222222,95.7744722222222,3894,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.536679480218541,1388.52914735321,1.82284116556004,-7.23629984491583,9.99970055400045,582.8998964859
1854,4362,2806,"CMPD","Dingqing Sangduo","Dingqing Sangduo 17",31.1746666666667,95.7741111111111,3852,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.542154533428226,1427.21763197356,2.02981547144075,-6.99200548425046,10.1619295612875,590.011955544814
1854,4363,2807,"CMPD","Dingqing Sangduo","Dingqing Sangduo 18",31.1759166666667,95.7735,3795,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.549567695801092,1480.73432825325,2.31081176442763,-6.66029592741267,10.3821385015279,599.671109367844
1854,4364,2808,"CMPD","Dingqing Sangduo","Dingqing Sangduo 19",31.1759166666667,95.7722777777778,3749,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.555580179331998,1525.4014420927,2.54071561688135,-6.38905719867158,10.5624247063591,607.580354637805
1854,4365,2809,"CMPD","Dingqing Sangduo","Dingqing Sangduo 20",31.17675,95.7719722222222,3699,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.562052469367861,1574.18205504517,2.78704828170225,-6.09814777169517,10.7553771183595,616.059914107609
1854,4366,2810,"CMPD","Dingqing Sangduo","Dingqing Sangduo 21",31.1775833333333,95.7720833333333,3653,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.567980333741591,1619.68646735703,3.01254870726511,-5.8317186921556,10.931921315662,623.828344704808
1854,4367,2811,"CMPD","Dingqing Sangduo","Dingqing Sangduo 22",31.1792222222222,95.7728611111111,3602,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.574497024603584,1670.43021030839,3.25936677007304,-5.5398294732572,11.1249464946745,632.335486327577
1854,4368,2812,"CMPD","Dingqing Sangduo","Dingqing Sangduo 23",31.1795,95.7721388888889,3556,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580432117993554,1718.34898319885,3.48756169758278,-5.27036459790133,11.3037044664371,640.197403289121
1854,4369,2813,"CMPD","Dingqing Sangduo","Dingqing Sangduo 24",31.1798888888889,95.7700277777778,3510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.586392129871488,1767.90638243331,3.71898137417784,-4.9972809900369,11.4851089540752,648.161074681705
1855,4370,2814,"CMPD","Dingqing Silangka","Dingqing Silangka 01",31.25425,95.2515833333333,4985,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.371486255438917,635.727091137307,-3.293993222582,-13.6401481501907,6.26130302650941,387.417861811727
1855,4371,2815,"CMPD","Dingqing Silangka","Dingqing Silangka 02",31.2558333333333,95.2495277777778,4937,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373183810464511,676.729720787328,-3.02795212349267,-13.4175457317098,6.53074235840337,391.276558705274
1855,4372,2816,"CMPD","Dingqing Silangka","Dingqing Silangka 03",31.2563333333333,95.2481666666667,4886,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.380205045298158,713.826655837777,-2.73592919337964,-13.0668679557086,6.75700707964166,400.213436332028
1855,4373,2817,"CMPD","Dingqing Silangka","Dingqing Silangka 04",31.2568055555556,95.2466111111111,4839,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.386634892362163,748.880632451271,-2.46657005663831,-12.7434898300014,6.96576833922481,408.451488130359
1855,4374,2818,"CMPD","Dingqing Silangka","Dingqing Silangka 05",31.2575,95.2451944444444,4757,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.397776571499997,812.004620953031,-1.99663614015465,-12.1790948360516,7.32981363125201,422.834508863644
1855,4375,2819,"CMPD","Dingqing Silangka","Dingqing Silangka 06",31.2582222222222,95.2431111111111,4734,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.400860004382682,830.29983027701,-1.86418566478149,-12.020518617883999,7.43279227685207,426.855482939267
1855,4376,2820,"CMPD","Dingqing Silangka","Dingqing Silangka 07",31.2588333333333,95.2419444444444,4683,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.407711201754983,871.349642485993,-1.5715225651509,-11.6691868165013,7.65962321285109,435.80046833622
1855,4377,2821,"CMPD","Dingqing Silangka","Dingqing Silangka 08",31.2536388888889,95.2412222222222,4651,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.412152277334203,897.822668002123,-1.38543367094809,-11.4444347535511,7.80268644168765,441.627463341266
1855,4378,2822,"CMPD","Dingqing Silangka","Dingqing Silangka 09",31.2592222222222,95.2402777777778,4599,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.418928594994168,941.150146719446,-1.08906860783719,-11.0898586259181,8.03341130494285,450.560515877252
1855,4379,2823,"CMPD","Dingqing Silangka","Dingqing Silangka 10",31.2600833333333,95.2387222222222,4552,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.425138731154008,981.456236505468,-0.818815402614664,-10.7656788530954,8.24305095462089,458.801140179965
1855,4380,2824,"CMPD","Dingqing Silangka","Dingqing Silangka 11",31.2604722222222,95.2373333333333,4509,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.430805057159826,1019.1597123002,-0.571212213548954,-10.4685953403296,8.43505277705797,466.359181306382
1855,4381,2825,"CMPD","Dingqing Silangka","Dingqing Silangka 12",31.2605,95.2356944444444,4457,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.437637147411597,1065.77831616464,-0.271303690415338,-10.1086865223777,8.66755188288471,475.522253632858
1855,4382,2826,"CMPD","Dingqing Silangka","Dingqing Silangka 13",31.2607222222222,95.2335555555556,4408,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.444034626131999,1110.84165773873,0.0120406014495752,-9.76891922649081,8.88739892060659,484.160891738721
1855,4383,2827,"CMPD","Dingqing Silangka","Dingqing Silangka 14",31.2596666666667,95.2320277777778,4346,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.452130079994018,1169.22172057806,0.370772456921882,-9.33820026202273,9.16532055490808,495.146142507542
1855,4384,2828,"CMPD","Dingqing Silangka","Dingqing Silangka 15",31.259,95.2305277777778,4318,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.455774637784188,1196.3815160311,0.534053407028682,-9.1424098232647,9.29199786855947,500.13343810792003
1855,4385,2829,"CMPD","Dingqing Silangka","Dingqing Silangka 16",31.259,95.2286666666667,4268,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.462223421246339,1245.39129393442,0.824010640307181,-8.7947321290388,9.51698601716938,508.973966600272
1855,4386,2830,"CMPD","Dingqing Silangka","Dingqing Silangka 17",31.2600277777778,95.2261388888889,4227,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.467453865207198,1286.536220622,1.06240153102903,-8.50945627695886,9.70237678152148,516.194058128551
1855,4387,2831,"CMPD","Dingqing Silangka","Dingqing Silangka 18",31.2610833333333,95.2246944444444,4128,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.480058816423816,1387.91594221288,1.63356354804026,-7.82416157091483,10.1452607001905,533.616934067902
1855,4388,2832,"CMPD","Dingqing Silangka","Dingqing Silangka 19",31.2612777777778,95.2241944444444,4106,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482845879699298,1411.11806136551,1.76084402561078,-7.6715173590323404,10.244002134776,537.495508410382
1855,4389,2833,"CMPD","Dingqing Silangka","Dingqing Silangka 20",31.2589166666667,95.2224722222222,4047,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.490388649115299,1475.11007396005,2.10624936732728,-7.25705376382979,10.511781556862,548.075100893959
1855,4390,2834,"CMPD","Dingqing Silangka","Dingqing Silangka 21",31.2592777777778,95.221,3994,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.497052158021838,1533.53428633624,2.41398933245541,-6.88817162396716,10.7506495218747,557.4427973798
1855,4391,2835,"CMPD","Dingqing Silangka","Dingqing Silangka 22",31.2595833333333,95.2204722222222,3964,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.500808703642105,1567.12522996766,2.58760847005375,-6.67995664318723,10.885341349116,562.732301975243
1855,4392,2836,"CMPD","Dingqing Silangka","Dingqing Silangka 23",31.2593888888889,95.2190833333333,3914,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.507072207692032,1624.47297678746,2.87892025306154,-6.330754183932,11.1114459939283,571.607733586221
1856,4393,2837,"CMPD","Dingri","Dingri 1",28.5,86.8,5000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.862389601632056,676.358771728551,-2.88079618795454,-12.6134079587639,6.49807934487053,919.16806789753
1856,4394,2838,"CMPD","Dingri","Dingri 2",28.3,86.4,4500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.938511456106436,985.851655104939,-0.570278176844831,-10.0274440899756,8.24848698764147,1035.36561998781
1857,4395,12502,"Neotoma","Dinkey Meadow","DINKEY",37,-119.083333,1683,"not known","terrestrial","core","-35","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Davis, O.K., and M.J. Moratto. 1988. Evidence for a warm dry early Holocene in the western Sierra Nevada of California: pollen and plant macrofossil analysis of Dinkey and Exchequer Meadows. Madroño 35:132-149.",,8,"cool evergreen needleleaf forest",0.428392716754017,3736.34487689746,10.2365613065684,1.75365466859582,20.4396551127734,561.838244152212
1858,4396,17570,"Phelps et al., 2020","Diogo 01","01DIOGO_2",15.266667,-16.8,14,"not known","not known","not known","19","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.258957339328571,9710.2662093346,26.6034690666701,23.003091449596,28.4577743598276,524.729567982112
1859,4397,17571,"Phelps et al., 2020","Diogo 02","02DIOGO_1",15.266944,-16.8,12,"not known","not known","not known","16","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.262600695866652,9710.06431828717,26.6029159405128,22.9966295371521,28.4623868237956,532.21726883547
1860,4398,550,"Australian pollen","Diprose Cave","Diprose Cave",-30.95,131.3833,100,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.159267165502891,6568.91268786604,17.9970210626467,11.4713944443401,23.9674836522853,237.150601968917
1861,4399,15525,"Neotoma","Discovery Bay","CJH104",47.2,-123.95,107,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.73033506730859,3566.93112783103,9.77241404885213,4.28033313453815,15.9170231054967,2083.75182681473
1861,4400,551,"Australian pollen","Discovery Bay","DB 1",-38.312,141.388,5,"not applicable","terrestrial","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738846701582434,5160.90140776601,14.1394559116877,10.0628363310845,18.5425870983027,747.621773558759
1861,4401,552,"Australian pollen","Discovery Bay","DB 2",-38.312,141.388,5,"not applicable","terrestrial","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738846701582434,5160.90140776601,14.1394559116877,10.0628363310845,18.5425870983027,747.621773558759
1861,4402,553,"Australian pollen","Discovery Bay","DB 3",-38.312,141.388,5,"not applicable","terrestrial","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738846701582434,5160.90140776601,14.1394559116877,10.0628363310845,18.5425870983027,747.621773558759
1861,4403,554,"Australian pollen","Discovery Bay","DB 4",-38.312,141.388,5,"not applicable","terrestrial","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738846701582434,5160.90140776601,14.1394559116877,10.0628363310845,18.5425870983027,747.621773558759
1861,4404,555,"Australian pollen","Discovery Bay","DB 5",-38.312,141.388,5,"not applicable","terrestrial","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.738846701582434,5160.90140776601,14.1394559116877,10.0628363310845,18.5425870983027,747.621773558759
1862,4405,15655,"Neotoma","Dismal Swamp (4)","DRW051",36.65,-76.479167,7,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Whitehead, D.R., 1972. Developmental and environmental history of the Dismal Swamp. Ecological Monographs, 42(3), pp.301-315.","10.2307/1942212",4,"warm-temperate evergreen and mixed forest",1.09881937565083,5570.12551560011,15.2606178509592,4.1119724827061,25.5885737733462,1214.4750275515
1863,4406,15656,"Neotoma","Dismal Swamp (6)","DRW050",36.666667,-76.366667,4,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Whitehead, D.R., 1972. Developmental and environmental history of the Dismal Swamp. Ecological Monographs, 42(3), pp.301-315.","10.2307/1942212",4,"warm-temperate evergreen and mixed forest",1.10388201731179,5581.68915319159,15.29229904984,4.19618265671877,25.5834548448686,1220.15997114404
1864,4407,12503,"Neotoma","Dismal Swamp (91)","DISMAL",36.583333,-76.45,6,"not known","terrestrial, bog/fen/swamp","core","39","Whitehead, D.R. 1972. Developmental and environmental history of the Dismal Swamp. Ecological Monographs 42(3):301-315.","10.2307/1942212",4,"warm-temperate evergreen and mixed forest",1.10040484057582,5586.03318649441,15.3042005109436,4.1915015459873,25.6005397628448,1218.29282259081
1865,4408,11865,"Neotoma","Ditch by cornfield","KKMFA13",39.77361111,-82.99416667,206,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.03929035224663,4323.17991575642,11.5911940551463,-2.09024513241082,23.5458140994956,996.871059145324
1866,4409,14109,"Neotoma","Divers Lake","DIVERS",43.04099,-78.399245,239,"not known","lake","core","-46","Miller, N.G., and R.P. Futyma. 2003. Extending the paleobotanical records at the Hiscock Site, New York: Correlations among stratigraphic pollen assemblages from nearby lake and wetland basins. Pages 43-62 in The Hiscock Site: Late Pleistocene and Holocene Paleoecology and Archaeology of Western New York State. Bulletin of the Buffalo Society of Natural Sciences 37.",,9,"cool mixed forest",1.05974430391592,3294.49772841318,7.77907982795824,-6.07517914396129,20.7884030493971,900.720703409103
1866,4409,14110,"Neotoma","Divers Lake","DIVERS",43.04099,-78.399245,239,"not known","lake","core","-22","Miller, N.G., and R.P. Futyma. 2003. Extending the paleobotanical records at the Hiscock Site, New York: Correlations among stratigraphic pollen assemblages from nearby lake and wetland basins. Pages 43-62 in The Hiscock Site: Late Pleistocene and Holocene Paleoecology and Archaeology of Western New York State. Bulletin of the Buffalo Society of Natural Sciences 37.",,9,"cool mixed forest",1.05974430391592,3294.49772841318,7.77907982795824,-6.07517914396129,20.7884030493971,900.720703409103
1866,4409,14111,"Neotoma","Divers Lake","DIVERS",43.04099,-78.399245,239,"not known","lake","core","19","Miller, N.G., and R.P. Futyma. 2003. Extending the paleobotanical records at the Hiscock Site, New York: Correlations among stratigraphic pollen assemblages from nearby lake and wetland basins. Pages 43-62 in The Hiscock Site: Late Pleistocene and Holocene Paleoecology and Archaeology of Western New York State. Bulletin of the Buffalo Society of Natural Sciences 37.",,9,"cool mixed forest",1.05974430391592,3294.49772841318,7.77907982795824,-6.07517914396129,20.7884030493971,900.720703409103
1867,4410,12504,"Neotoma","Divide Lake","DIVIDE",43.933333,-110.233333,2628,"not known","lake","core","0","Steventon, R.L., and J.E. Kutzbach. 1987. University of Wisconsin radiocarbon dates XXIV. Radiocarbon 29:397-415. Steventon, R.L., and J.E. Kutzbach. 1988. University of Wisconsin radiocarbon dates XXV. Radiocarbon 30:367-383.; Whitlock, C. 1993. Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63:173-198.; Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.","10.1017/S0033822200043794",17,"temperate evergreen needleleaf open woodland",0.529301961088284,1676.56096226914,1.61292695230457,-9.45892083118741,14.1314409908578,464.889454145568
1868,4411,7001,"EMPDv2","Djebel El Ghorra","EPDcoretop_E1495",36.6,8.39,1203,"not known","not known","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.373935900551667,4912.10202172188,13.4578137581421,4.04222330376427,24.8952431526109,481.341053277402
1869,4412,7969,"EMPDv2","Djimdan_1","Mikishin-Gvozdeva_a29",51.8319444444444,143.115555555556,4,"4.87","fluvial","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.20932158953986,1877.57443498506,-0.539060793784883,-18.8087160020055,15.4645469569809,652.459501317576
1870,4413,7970,"EMPDv2","Djimdan_2","Mikishin-Gvozdeva_a30",51.8372222222222,143.118888888889,10,"not applicable","terrestrial","litter","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2121092308916,1871.31557864583,-0.562878658554295,-18.8191694345475,15.4311496636158,653.539454538337
1871,4414,18657,"SMPDSv1","Djupavatn","Bjune_a78",59.34417458,6.16882319,378,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.37333150192928,2164.85890147402,5.64254768699195,-1.73566473035683,13.3632043537475,1841.37898532458
1872,4415,23161,"SMPDSv1","Djupetjonn","Bjune_a202",59.56,7.34666666666666,780,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.33650235208065,1686.51770331629,3.07893355960896,-5.9098251058153,12.2025698881087,1288.82227086691
1873,4416,5943,"EMBSeCBIO","DM-13","DM-13 core top",40.5,27.53,0,"not applicable","marine","marine core","-48","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1874,4417,8191,"EMPDv2","Dmitrievka_ozertso","Mikishin-Gvozdeva_b22",44.4013888888889,132.665833333333,80,"0.01","lake","sediment sample","-31","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.839928079380848,3069.76549452617,4.46211144816055,-15.6695389692008,20.9777346105452,643.390451085843
1875,4418,8199,"EMPDv2","Dmitrievka_Rechka","Mikishin-Gvozdeva_b30",44.41,132.644444444444,80,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.839599510302114,3070.34025761524,4.46453026212721,-15.6669315363648,20.9817947657915,643.153856821279
1876,4419,18658,"SMPDSv1","Doda Pili","Doda Pili core top",46.64222222222,22.859444,1033,"0.006","terrestrial, other sediments","core top","7","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14302193125718,2370.49470921766,5.25112259830281,-6.22583975737965,14.6398563458978,895.948421371862
1877,4420,14910,"Neotoma","Doe Pond","DOEPOND",42.17535,-72.7017999999999,77,"not known","lake","core","-52.084","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.27176262834947,3827.10877940668,9.99326126724347,-3.17739712702437,22.355508168609,1138.13500680614
1877,4420,14911,"Neotoma","Doe Pond","DOEPOND",42.17535,-72.7017999999999,77,"not known","lake","core","-21.188","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.27176262834947,3827.10877940668,9.99326126724347,-3.17739712702437,22.355508168609,1138.13500680614
1877,4420,14912,"Neotoma","Doe Pond","DOEPOND",42.17535,-72.7017999999999,77,"not known","lake","core","9.708","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.27176262834947,3827.10877940668,9.99326126724347,-3.17739712702437,22.355508168609,1138.13500680614
1877,4420,14913,"Neotoma","Doe Pond","DOEPOND",42.17535,-72.7017999999999,77,"not known","lake","core","40.604","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.27176262834947,3827.10877940668,9.99326126724347,-3.17739712702437,22.355508168609,1138.13500680614
1878,4421,11490,"Neotoma","Dog Ear Lake","SDTRDE",43.170225,-99.893725,699,"not known","lake","surface sample","-34","Unpublished data",,22,"steppe",0.516016853901123,3597.25807344445,8.2933371014378,-7.56174969823514,23.6381651858846,512.475370156012
1879,4422,11958,"Neotoma","Dog Lake","DOGLAKP1",36.42207,-112.08966,2682,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.392077627918972,2248.4215903464,5.17839960691823,-4.21379138386587,16.4007260755987,475.22443950193
1879,4423,13776,"Neotoma","Dog Lake","DOGLKBC",50.780545,-115.929769999999,1183,"not known","lake","core","16","Hallett, D.J., and L.V. Hills. 2006. Holocene vegetation dynamics, fire history, lake level and climate change in the Kootenay Valley, southeastern British Columbia, Canada. Journal of Paleolimnology 35:351-371.",,15,"cold evergreen needleleaf forest",1.00772794434141,1931.28416294391,2.61838141695266,-10.0396560995883,14.2777229636266,740.958820841706
1880,4424,556,"Australian pollen","Doge-Doge Swamp","Doge-Doge Swamp core",-18.06,177.3352,8,"not known","terrestrial, bog/fen/swamp","core top","15","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.81584258458803,8975.91279880061,24.5915419145222,22.5640091956166,26.4645293656072,2510.04496805624
1881,4425,12505,"Neotoma","Dogfish Lake","DOGFISH",48.183333,-92.183333,403,"not known","lake","core","-40","Unpublished data",,9,"cool mixed forest",0.98284682910194,2511.32538770725,2.83221789857712,-15.6985554122249,18.4388388107113,727.483503463702
1881,4425,12506,"Neotoma","Dogfish Lake","DOGFISH",48.183333,-92.183333,403,"not known","lake","core","-8","Unpublished data",,9,"cool mixed forest",0.98284682910194,2511.32538770725,2.83221789857712,-15.6985554122249,18.4388388107113,727.483503463702
1881,4425,12507,"Neotoma","Dogfish Lake","DOGFISH",48.183333,-92.183333,403,"not known","lake","core","22","Unpublished data",,9,"cool mixed forest",0.98284682910194,2511.32538770725,2.83221789857712,-15.6985554122249,18.4388388107113,727.483503463702
1881,4425,12508,"Neotoma","Dogfish Lake","DOGFISH",48.183333,-92.183333,403,"not known","lake","core","41","Unpublished data",,9,"cool mixed forest",0.98284682910194,2511.32538770725,2.83221789857712,-15.6985554122249,18.4388388107113,727.483503463702
1882,4426,9108,"EMPDv2","DOKSY 54A M","Svobodova_b1",50.5864697,14.725233,310,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.848815009476037,3130.01267736767,8.30217647532198,-2.04163454080705,17.6733501142772,622.018193859296
1883,4427,9109,"EMPDv2","DOKSY 54B M","Svobodova_b2",50.5864697,14.725233,310,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.848815009476037,3130.01267736767,8.30217647532198,-2.04163454080705,17.6733501142772,622.018193859296
1884,4428,9110,"EMPDv2","DOKSY 54C M","Svobodova_b3",50.5864697,14.725233,310,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.848815009476037,3130.01267736767,8.30217647532198,-2.04163454080705,17.6733501142772,622.018193859296
1885,4429,9111,"EMPDv2","DOKSY 54D M","Svobodova_b4",50.5864697,14.725233,310,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.848815009476037,3130.01267736767,8.30217647532198,-2.04163454080705,17.6733501142772,622.018193859296
1886,4430,9112,"EMPDv2","DOKSY 55A M","Svobodova_b5",50.5848894,14.7267778,287,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.836598068187286,3158.19236566448,8.39744813965862,-1.94546618659714,17.7698279305495,613.628691509255
1887,4431,9113,"EMPDv2","DOKSY 55B M","Svobodova_b6",50.5848894,14.7267778,287,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.836598068187286,3158.19236566448,8.39744813965862,-1.94546618659714,17.7698279305495,613.628691509255
1888,4432,9114,"EMPDv2","DOKSY 55C M","Svobodova_b7",50.5848894,14.7267778,287,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.836598068187286,3158.19236566448,8.39744813965862,-1.94546618659714,17.7698279305495,613.628691509255
1889,4433,9115,"EMPDv2","DOKSY 55D M","Svobodova_b8",50.5848894,14.7267778,287,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.836598068187286,3158.19236566448,8.39744813965862,-1.94546618659714,17.7698279305495,613.628691509255
1890,4434,9116,"EMPDv2","DOKSY 56A M","Svobodova_b9",50.5846442,14.722615,280,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.832743941683548,3166.85352418468,8.42672727983752,-1.91555967291838,17.7994501185612,610.961863601986
1891,4435,9117,"EMPDv2","DOKSY 56B M","Svobodova_b10",50.5846442,14.722615,280,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.832743941683548,3166.85352418468,8.42672727983752,-1.91555967291838,17.7994501185612,610.961863601986
1892,4436,9118,"EMPDv2","DOKSY 56C M","Svobodova_b11",50.5846442,14.722615,280,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.832743941683548,3166.85352418468,8.42672727983752,-1.91555967291838,17.7994501185612,610.961863601986
1893,4437,9119,"EMPDv2","DOKSY 56D M","Svobodova_b12",50.5846442,14.722615,280,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.832743941683548,3166.85352418468,8.42672727983752,-1.91555967291838,17.7994501185612,610.961863601986
1894,4438,9120,"EMPDv2","DOKSY 57A M","Svobodova_b13",50.5853253,14.7235592,279,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.83227322975095,3168.05850673206,8.43079799571059,-1.91145569535293,17.803548610589498,610.633430660648
1895,4439,9121,"EMPDv2","DOKSY 57B M","Svobodova_b14",50.5853253,14.7235592,279,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.83227322975095,3168.05850673206,8.43079799571059,-1.91145569535293,17.803548610589498,610.633430660648
1896,4440,9122,"EMPDv2","DOKSY 57C M","Svobodova_b15",50.5853253,14.7235592,279,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.83227322975095,3168.05850673206,8.43079799571059,-1.91145569535293,17.803548610589498,610.633430660648
1897,4441,9123,"EMPDv2","DOKSY 57D M","Svobodova_b16",50.5853253,14.7235592,279,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.83227322975095,3168.05850673206,8.43079799571059,-1.91145569535293,17.803548610589498,610.633430660648
1898,4442,9124,"EMPDv2","DOKSY 58A M","Svobodova_b17",50.5851617,14.7244175,291,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.838649902876837,3153.31841892459,8.38101237702012,-1.96190311458967,17.7531744777772,615.032313641341
1899,4443,9125,"EMPDv2","DOKSY 58B M","Svobodova_b18",50.5851617,14.7244175,291,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.838649902876837,3153.31841892459,8.38101237702012,-1.96190311458967,17.7531744777772,615.032313641341
1900,4444,9126,"EMPDv2","DOKSY 58C M","Svobodova_b19",50.5851617,14.7244175,291,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.838649902876837,3153.31841892459,8.38101237702012,-1.96190311458967,17.7531744777772,615.032313641341
1901,4445,9127,"EMPDv2","DOKSY 58D M","Svobodova_b20",50.5851617,14.7244175,291,"not known","terrestrial","moss polster or moss","-5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.838649902876837,3153.31841892459,8.38101237702012,-1.96190311458967,17.7531744777772,615.032313641341
1902,4446,9516,"EMPDv2","Dolgaya kosa","Novenko_c127",46.6844,37.7336,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.584925238663712,4119.08171568472,11.0122829853487,-2.10234429536714,23.1516818025562,579.433825466995
1902,4447,9517,"EMPDv2","Dolgaya kosa","Novenko_c128",46.68444,37.7336,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.584924873193083,4119.07903495842,11.0122715403308,-2.10236992590931,23.1516783968035,579.432991559525
1902,4448,9518,"EMPDv2","Dolgaya kosa","Novenko_c129",46.6844,37.7336,25,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.584652179620141,4115.09463036565,10.9978673502264,-2.1240754539397,23.1409983347545,578.977299545547
1903,4449,18659,"SMPDSv1","Dolgoe","EPDcoretop_E203",55.233333,28.183333,173,"2.6","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.935136237576983,2689.5532169156,5.72775236932975,-7.32055796655631,17.2294456403055,633.716824249999
1904,4450,18660,"SMPDSv1","Dolgoe lake","Dolgoe lake_SS",48.9024999999999,24.1,173,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830923638439327,3283.13908255242,8.35407229143795,-4.16578842763143,18.6512158193487,657.153719986582
1905,4451,6650,"EMPDv2","DOLGOZ0K","Binney2017_E3415",71.87,127.07,40,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.807287203485488,1050.07803137405,-16.7623189711367,-46.0363442756259,13.4529233281161,263.8855321501
1906,4452,15962,"Neotoma","Dolly Sods","JAMMBD4",39.1,-79.6,1204,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",1.461803503677,3163.58041218917,7.99165197442045,-4.02477739615044,18.6543289807903,1290.45478562528
1907,4453,12509,"Neotoma","Dome Creek Meadow","DOME",40.024167,-107.050833,3165,"not known","terrestrial","core","11","Feiler, E.J., R.S. Anderson, and P.A. Koehler. 1997. Late Quaternary paleoenvironments of the White River plateau, Colorado, U.S.A. Arctic and Alpine Research 29:53-62..",,17,"temperate evergreen needleleaf open woodland",0.588861601637957,1171.86864061395,-1.00561871563419,-12.1215752277832,10.6428176561662,541.38932254582
1908,4454,18661,"SMPDSv1","Domsvatnet","EPDcoretop_E17",70.316667,31.033333,120,"0.09","lake","lacustrine core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.5551184340444,1185.17140381245,-0.693845172210026,-10.9911440357851,11.6604176851699,535.168318082316
1909,4455,9482,"EMPDv2","Don-tu lake-1(16)","Novenko_c188",61.36,54.7,163,"not known","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29378313338153,1942.11799691859,0.293562923658545,-17.4234416987982,17.3330478492393,637.816107276192
1910,4456,9483,"EMPDv2","Don-tu lake-2(5)","Novenko_c189",61.37,53.53,160,"not known","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27226060434,1963.84876712993,0.470561940259016,-17.1543267216413,17.4084337223722,620.187292711502
1911,4457,14054,"Neotoma","Donard Lake","DONARD",66.662,-61.7878,424,"not known","lake","core","-10","Miller, G.H., A.P. Wolfe, J.P. Briner, P.E. Sauer, and A. Nestje. 2005. Holocene glaciation and climate evolution of Baffin Island, Arctic Canada. Quaternary Science Reviews 24:1703-1721.",,30,"tundra",1.81085005665289,283.342893818731,-10.3888676521392,-23.3725242369246,4.54238346937473,532.879508227837
1912,4458,2839,"CMPD","Dongchuan","Dongchuan CQ 01",26.2618333333333,103.130333333333,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.867767486515839,6022.45906134037,16.4998878392887,8.34390039906744,22.7090130406896,1088.74081089578
1912,4459,2840,"CMPD","Dongchuan","Dongchuan CQ 02",26.2618333333333,103.130333333333,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.867767486515839,6022.45906134037,16.4998878392887,8.34390039906744,22.7090130406896,1088.74081089578
1912,4460,2841,"CMPD","Dongchuan","Dongchuan CQ 03",26.2618333333333,103.130333333333,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.867767486515839,6022.45906134037,16.4998878392887,8.34390039906744,22.7090130406896,1088.74081089578
1912,4461,2842,"CMPD","Dongchuan","Dongchuan CQ 04",26.2618333333333,103.130333333333,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.867767486515839,6022.45906134037,16.4998878392887,8.34390039906744,22.7090130406896,1088.74081089578
1912,4462,2843,"CMPD","Dongchuan","Dongchuan CQ 05",26.2618333333333,103.130333333333,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.867767486515839,6022.45906134037,16.4998878392887,8.34390039906744,22.7090130406896,1088.74081089578
1912,4463,2844,"CMPD","Dongchuan","Dongchuan DA 01",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4464,2845,"CMPD","Dongchuan","Dongchuan DA 02",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4465,2846,"CMPD","Dongchuan","Dongchuan DA 03",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4466,2847,"CMPD","Dongchuan","Dongchuan DA 04",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4467,2848,"CMPD","Dongchuan","Dongchuan DA 05",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4468,2849,"CMPD","Dongchuan","Dongchuan DA 06",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4469,2850,"CMPD","Dongchuan","Dongchuan DA 08",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4470,2851,"CMPD","Dongchuan","Dongchuan DA 09",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4471,2852,"CMPD","Dongchuan","Dongchuan DA 10",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4472,2853,"CMPD","Dongchuan","Dongchuan DA 11",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4473,2854,"CMPD","Dongchuan","Dongchuan DA 13",26.2535,103.125833333333,1251,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.879025849111217,6418.15378193763,17.5839829642127,9.29486218433492,23.8290807669397,1109.20329392047
1912,4474,2855,"CMPD","Dongchuan","Dongchuan DZ 01",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4475,2856,"CMPD","Dongchuan","Dongchuan DZ 02",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4476,2857,"CMPD","Dongchuan","Dongchuan DZ 03",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4477,2858,"CMPD","Dongchuan","Dongchuan DZ 04",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4478,2859,"CMPD","Dongchuan","Dongchuan DZ 05",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4479,2860,"CMPD","Dongchuan","Dongchuan DZ 06",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4480,2861,"CMPD","Dongchuan","Dongchuan DZ 07",26.2463333333333,103.141833333333,1677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.846830160702731,6051.14986022686,16.5784927677448,8.98002889886228,22.0856499213441,1091.25014225151
1912,4481,2862,"CMPD","Dongchuan","Dongchuan MQ 01",26.2556666666667,103.141,1570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.863596777642483,5865.07058626371,16.0686865377088,7.96668191087502,22.2615383377964,1080.91177035404
1912,4482,2863,"CMPD","Dongchuan","Dongchuan MQ 02",26.2556666666667,103.141,1570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.863596777642483,5865.07058626371,16.0686865377088,7.96668191087502,22.2615383377964,1080.91177035404
1912,4483,2864,"CMPD","Dongchuan","Dongchuan MQ 03",26.2556666666667,103.141,1570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.863596777642483,5865.07058626371,16.0686865377088,7.96668191087502,22.2615383377964,1080.91177035404
1912,4484,2865,"CMPD","Dongchuan","Dongchuan MQ 04",26.2556666666667,103.141,1570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.863596777642483,5865.07058626371,16.0686865377088,7.96668191087502,22.2615383377964,1080.91177035404
1913,4485,2866,"CMPD","Dongfuyechi","Dongfuyechi",33.9356,107.4202,3410,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.607378037273942,1300.27144170991,0.566620166174007,-9.96294022983837,10.7091481134982,557.85364332299
1914,4486,2867,"CMPD","Donghai","Donghai 1",31.13,122.53,-35,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
1914,4487,2868,"CMPD","Donghai","Donghai 2",31.25,122.72,-45,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
1914,4488,2869,"CMPD","Donghai","Donghai 3",31.17,122.75,-50,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
1915,4489,2870,"CMPD","Dongling Mt","Dongling Mt 01",40.03,115.45,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.390210838207538,1552.16552527037,-2.30906475205992,-20.6020303719426,13.6370097879976,362.547945140954
1915,4490,2871,"CMPD","Dongling Mt","Dongling Mt 02",40.03,115.45,2280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.390979730141493,1573.68177363758,-2.17965933523764,-20.4553391763972,13.749458265842,363.91429531485
1915,4491,2872,"CMPD","Dongling Mt","Dongling Mt 03",40.03,115.45,1730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.411756730983764,2209.8439006238,1.37898962737508,-16.4213312988986,16.8417914065647,401.488925096975
1915,4492,2873,"CMPD","Dongling Mt","Dongling Mt 04",40.03,115.45,1560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.418077939900637,2423.1804204823,2.47893567036446,-15.1744561367627,17.7976034682427,413.102901575087
1915,4493,2874,"CMPD","Dongling Mt","Dongling Mt 05",40.03,115.45,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.420302379812822,2500.3090978629,2.8671519208313,-14.7343825501264,18.134948901776,417.201952096773
1915,4494,2875,"CMPD","Dongling Mt","Dongling Mt 06",40.03,115.45,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.423264418873387,2604.65277744119,3.38477358812042,-14.1476177679448,18.5847428131539,422.667352792355
1915,4495,2876,"CMPD","Dongling Mt","Dongling Mt 07",40.03,115.45,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.427701767109273,2764.47229582016,4.1612060890541,-13.2674705946724,19.2594336802207,430.865453835728
1915,4496,2877,"CMPD","Dongling Mt","Dongling Mt 08",40.03,115.45,1140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.433613877949001,2983.878873417,5.19644942363235,-12.0939410303092,20.1590215029764,441.796255226892
1915,4497,2878,"CMPD","Dongling Mt","Dongling Mt 09",40.03,115.45,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.434352961965386,3011.84083440577,5.32585484045463,-11.9472498347638,20.2714699808208,443.162605400787
1915,4498,2879,"CMPD","Dongling Mt","Dongling Mt 10",40.03,115.45,1030,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.437680024489464,3139.14697433586,5.90817921615489,-11.2871394548094,20.7774881311209,449.311181183317
1916,4499,2880,"CMPD","Donglingshan","Donglingshan",40,115.43,1030,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.437831960669346,3140.7634959992,5.91673251177843,-11.2763306357614,20.7816737950202,449.66646285935
1917,4500,18662,"SMPDSv1","Donnersberg","Dambach_a301",49.0577,8.2062,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792661445151189,3669.75532247545,10.0541241711656,0.822053591816853,18.9811697226371,608.069897616815
1917,4501,18663,"SMPDSv1","Donnersberg","Dambach_a302",49.6063,7.9018,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20467911907215,3047.54142668534,8.30564762832792,-0.470822893295742,16.9207881798659,883.826571136898
1917,4502,18664,"SMPDSv1","Donnersberg","Dambach_a303",49.6063,7.9018,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20467911907215,3047.54142668534,8.30564762832792,-0.470822893295742,16.9207881798659,883.826571136898
1917,4503,18665,"SMPDSv1","Donnersberg","Dambach_a304",49.6063,7.9018,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20467911907215,3047.54142668534,8.30564762832792,-0.470822893295742,16.9207881798659,883.826571136898
1917,4504,18666,"SMPDSv1","Donnersberg","Dambach_a305",49.6063,7.9018,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20467911907215,3047.54142668534,8.30564762832792,-0.470822893295742,16.9207881798659,883.826571136898
1917,4505,18667,"SMPDSv1","Donnersberg","Dambach_a306",49.6064,7.9067,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14962950504812,3131.5304061624,8.55589093442308,-0.276001902203522,17.2013144075221,846.170477239046
1917,4506,18668,"SMPDSv1","Donnersberg","Dambach_a307",49.6064,7.9067,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14962950504812,3131.5304061624,8.55589093442308,-0.276001902203522,17.2013144075221,846.170477239046
1917,4507,18669,"SMPDSv1","Donnersberg","Dambach_a308",49.6064,7.9067,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14962950504812,3131.5304061624,8.55589093442308,-0.276001902203522,17.2013144075221,846.170477239046
1917,4508,18670,"SMPDSv1","Donnersberg","Dambach_a309",49.6064,7.9067,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14962950504812,3131.5304061624,8.55589093442308,-0.276001902203522,17.2013144075221,846.170477239046
1917,4509,18671,"SMPDSv1","Donnersberg","Dambach_a310",49.6075,7.9044,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18626822582354,3075.31119810659,8.38886418200402,-0.40607959232961,17.014033256467,871.230219214656
1917,4510,18672,"SMPDSv1","Donnersberg","Dambach_a311",49.6075,7.9044,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18626822582354,3075.31119810659,8.38886418200402,-0.40607959232961,17.014033256467,871.230219214656
1917,4511,18673,"SMPDSv1","Donnersberg","Dambach_a312",49.6075,7.9044,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18626822582354,3075.31119810659,8.38886418200402,-0.40607959232961,17.014033256467,871.230219214656
1917,4512,18674,"SMPDSv1","Donnersberg","Dambach_a313",49.6116,7.9325,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06737674032727,3260.27518078032,8.92922000040355,0.0112469111138613,17.621770386057,789.343247516092
1917,4513,18675,"SMPDSv1","Donnersberg","Dambach_a314",49.6116,7.9325,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06737674032727,3260.27518078032,8.92922000040355,0.0112469111138613,17.621770386057,789.343247516092
1917,4514,18676,"SMPDSv1","Donnersberg","Dambach_a315",49.6116,7.9325,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06737674032727,3260.27518078032,8.92922000040355,0.0112469111138613,17.621770386057,789.343247516092
1917,4515,18677,"SMPDSv1","Donnersberg","Dambach_a316",49.6116,7.9325,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06737674032727,3260.27518078032,8.92922000040355,0.0112469111138613,17.621770386057,789.343247516092
1917,4516,18678,"SMPDSv1","Donnersberg","Dambach_a317",49.612,7.9265,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11280243745917,3187.96877366772,8.72109947487817,-0.150267467575305,17.388127904037,820.735583441365
1917,4517,18679,"SMPDSv1","Donnersberg","Dambach_a318",49.612,7.9265,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11280243745917,3187.96877366772,8.72109947487817,-0.150267467575305,17.388127904037,820.735583441365
1917,4518,18680,"SMPDSv1","Donnersberg","Dambach_a319",49.612,7.9265,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11280243745917,3187.96877366772,8.72109947487817,-0.150267467575305,17.388127904037,820.735583441365
1917,4519,18681,"SMPDSv1","Donnersberg","Dambach_a320",49.612,7.9265,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11280243745917,3187.96877366772,8.72109947487817,-0.150267467575305,17.388127904037,820.735583441365
1917,4520,18682,"SMPDSv1","Donnersberg","Dambach_a321",49.6136,7.9254,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14923685012812,3131.05292248248,8.55418349014832,-0.280406060736791,17.2010657369744,845.759781056203
1917,4521,18683,"SMPDSv1","Donnersberg","Dambach_a322",49.6136,7.9254,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14923685012812,3131.05292248248,8.55418349014832,-0.280406060736791,17.2010657369744,845.759781056203
1917,4522,18684,"SMPDSv1","Donnersberg","Dambach_a323",49.6136,7.9254,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14923685012812,3131.05292248248,8.55418349014832,-0.280406060736791,17.2010657369744,845.759781056203
1917,4523,18685,"SMPDSv1","Donnersberg","Dambach_a324",49.6136,7.9254,460,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14923685012812,3131.05292248248,8.55418349014832,-0.280406060736791,17.2010657369744,845.759781056203
1917,4524,18686,"SMPDSv1","Donnersberg","Dambach_a325",49.6144,7.9259,486,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17296634599698,3094.49088700944,8.44570157171386,-0.365247447295315,17.0796882091271,862.006502568199
1917,4525,18687,"SMPDSv1","Donnersberg","Dambach_a326",49.6144,7.9259,486,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17296634599698,3094.49088700944,8.44570157171386,-0.365247447295315,17.0796882091271,862.006502568199
1917,4526,18688,"SMPDSv1","Donnersberg","Dambach_a327",49.6144,7.9259,486,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17296634599698,3094.49088700944,8.44570157171386,-0.365247447295315,17.0796882091271,862.006502568199
1917,4527,18689,"SMPDSv1","Donnersberg","Dambach_a328",49.6144,7.9259,486,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17296634599698,3094.49088700944,8.44570157171386,-0.365247447295315,17.0796882091271,862.006502568199
1917,4528,18690,"SMPDSv1","Donnersberg","Dambach_a329",49.6151,7.9233,450,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14019043179296,3145.09359375039,8.59563857533428,-0.247356954191676,17.2468962053522,839.49518834377
1917,4529,18691,"SMPDSv1","Donnersberg","Dambach_a330",49.6151,7.9233,450,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14019043179296,3145.09359375039,8.59563857533428,-0.247356954191676,17.2468962053522,839.49518834377
1917,4530,18692,"SMPDSv1","Donnersberg","Dambach_a331",49.6151,7.9233,450,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14019043179296,3145.09359375039,8.59563857533428,-0.247356954191676,17.2468962053522,839.49518834377
1917,4531,18693,"SMPDSv1","Donnersberg","Dambach_a332",49.6151,7.9233,450,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14019043179296,3145.09359375039,8.59563857533428,-0.247356954191676,17.2468962053522,839.49518834377
1917,4532,18694,"SMPDSv1","Donnersberg","Dambach_a333",49.6212,7.9111,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29663476293593,2909.84511195718,7.88603578727716,-0.798383975459855,16.450116921127,945.710059583538
1917,4533,18695,"SMPDSv1","Donnersberg","Dambach_a334",49.6212,7.9111,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29663476293593,2909.84511195718,7.88603578727716,-0.798383975459855,16.450116921127,945.710059583538
1917,4534,18696,"SMPDSv1","Donnersberg","Dambach_a335",49.6212,7.9111,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29663476293593,2909.84511195718,7.88603578727716,-0.798383975459855,16.450116921127,945.710059583538
1917,4535,18697,"SMPDSv1","Donnersberg","Dambach_a336",49.6212,7.9111,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29663476293593,2909.84511195718,7.88603578727716,-0.798383975459855,16.450116921127,945.710059583538
1917,4536,18698,"SMPDSv1","Donnersberg","Dambach_a337",49.6223,7.9116,605,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28271408396797,2930.08375384281,7.94840142230456,-0.749567468051858,16.5197736773938,936.287585830209
1917,4537,18699,"SMPDSv1","Donnersberg","Dambach_a338",49.6223,7.9116,605,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28271408396797,2930.08375384281,7.94840142230456,-0.749567468051858,16.5197736773938,936.287585830209
1917,4538,18700,"SMPDSv1","Donnersberg","Dambach_a339",49.6223,7.9116,605,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28271408396797,2930.08375384281,7.94840142230456,-0.749567468051858,16.5197736773938,936.287585830209
1917,4539,18701,"SMPDSv1","Donnersberg","Dambach_a340",49.6223,7.9116,605,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28271408396797,2930.08375384281,7.94840142230456,-0.749567468051858,16.5197736773938,936.287585830209
1917,4540,18702,"SMPDSv1","Donnersberg","Dambach_a341",49.6223,7.9116,605,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28271408396797,2930.08375384281,7.94840142230456,-0.749567468051858,16.5197736773938,936.287585830209
1917,4541,18703,"SMPDSv1","Donnersberg","Dambach_a342",49.6469,7.881,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06940293920824,3258.61000004099,8.9251616411924,0.02195562993384,17.6053603768817,789.700802470792
1917,4542,18704,"SMPDSv1","Donnersberg","Dambach_a343",49.6481,7.8799,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13247533021718,3157.30700875299,8.63271716956303,-0.205330382660664,17.277195937581,833.118449922417
1917,4543,18705,"SMPDSv1","Donnersberg","Dambach_a344",49.6481,7.8799,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13247533021718,3157.30700875299,8.63271716956303,-0.205330382660664,17.277195937581,833.118449922417
1917,4544,18706,"SMPDSv1","Donnersberg","Dambach_a345",49.6481,7.8799,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13247533021718,3157.30700875299,8.63271716956303,-0.205330382660664,17.277195937581,833.118449922417
1917,4545,18707,"SMPDSv1","Donnersberg","Dambach_a346",49.65,7.8731,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06966336404827,3258.5110890525,8.92496491288093,0.0237243256568728,17.6036171821344,789.780401487049
1917,4546,18708,"SMPDSv1","Donnersberg","Dambach_a347",49.65,7.8731,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06966336404827,3258.5110890525,8.92496491288093,0.0237243256568728,17.6036171821344,789.780401487049
1917,4547,18709,"SMPDSv1","Donnersberg","Dambach_a348",49.65,7.8731,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06966336404827,3258.5110890525,8.92496491288093,0.0237243256568728,17.6036171821344,789.780401487049
1917,4548,18710,"SMPDSv1","Donnersberg","Dambach_a349",49.65,7.8731,370,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06966336404827,3258.5110890525,8.92496491288093,0.0237243256568728,17.6036171821344,789.780401487049
1917,4549,18711,"SMPDSv1","Donnersberg","Dambach_a350",49.6531,7.8822,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11443103910582,3185.58055368066,8.71524743999945,-0.141029008113357,17.3693401331365,820.591768123833
1917,4550,18712,"SMPDSv1","Donnersberg","Dambach_a351",49.6531,7.8822,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11443103910582,3185.58055368066,8.71524743999945,-0.141029008113357,17.3693401331365,820.591768123833
1917,4551,18713,"SMPDSv1","Donnersberg","Dambach_a352",49.6531,7.8822,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11443103910582,3185.58055368066,8.71524743999945,-0.141029008113357,17.3693401331365,820.591768123833
1917,4552,18714,"SMPDSv1","Donnersberg","Dambach_a353",49.6531,7.8822,420,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11443103910582,3185.58055368066,8.71524743999945,-0.141029008113357,17.3693401331365,820.591768123833
1917,4553,18715,"SMPDSv1","Donnersberg","Dambach_a354",49.6546,7.88,385,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08303734072941,3236.13554258008,8.86118067631854,-0.0269107919226061,17.5324730671903,798.918642486466
1917,4554,18716,"SMPDSv1","Donnersberg","Dambach_a355",49.6546,7.88,385,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08303734072941,3236.13554258008,8.86118067631854,-0.0269107919226061,17.5324730671903,798.918642486466
1917,4555,18717,"SMPDSv1","Donnersberg","Dambach_a356",49.6546,7.88,385,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08303734072941,3236.13554258008,8.86118067631854,-0.0269107919226061,17.5324730671903,798.918642486466
1917,4556,18718,"SMPDSv1","Donnersberg","Dambach_a357",49.659,7.954,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13082608440892,3156.28974357267,8.62842095707474,-0.223099814206177,17.2815656149252,831.915678541389
1917,4557,18719,"SMPDSv1","Donnersberg","Dambach_a358",49.659,7.954,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13082608440892,3156.28974357267,8.62842095707474,-0.223099814206177,17.2815656149252,831.915678541389
1917,4558,18720,"SMPDSv1","Donnersberg","Dambach_a359",49.659,7.954,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13082608440892,3156.28974357267,8.62842095707474,-0.223099814206177,17.2815656149252,831.915678541389
1917,4559,18721,"SMPDSv1","Donnersberg","Dambach_a360",49.659,7.954,440,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13082608440892,3156.28974357267,8.62842095707474,-0.223099814206177,17.2815656149252,831.915678541389
1917,4560,18722,"SMPDSv1","Donnersberg","Dambach_a361",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4561,18723,"SMPDSv1","Donnersberg","Dambach_a362",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4562,18724,"SMPDSv1","Donnersberg","Dambach_a363",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4563,18725,"SMPDSv1","Donnersberg","Dambach_a364",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4564,18726,"SMPDSv1","Donnersberg","Dambach_a365",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4565,18727,"SMPDSv1","Donnersberg","Dambach_a366",49.6596,7.9547,435,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12630026559436,3163.33276404791,8.64907441407259,-0.207116222948731,17.3047331282246,828.792933862294
1917,4566,18728,"SMPDSv1","Donnersberg","Dambach_a367",49.6613,7.9352,415,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10876651622933,3191.84639517236,8.73265162781084,-0.137790043603924,17.3953565152298,816.62919325984
1917,4567,18729,"SMPDSv1","Donnersberg","Dambach_a368",49.6613,7.9352,415,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10876651622933,3191.84639517236,8.73265162781084,-0.137790043603924,17.3953565152298,816.62919325984
1917,4568,18730,"SMPDSv1","Donnersberg","Dambach_a369",49.6613,7.9352,415,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10876651622933,3191.84639517236,8.73265162781084,-0.137790043603924,17.3953565152298,816.62919325984
1917,4569,18731,"SMPDSv1","Donnersberg","Dambach_a370",49.6613,7.9352,415,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10876651622933,3191.84639517236,8.73265162781084,-0.137790043603924,17.3953565152298,816.62919325984
1917,4570,18732,"SMPDSv1","Donnersberg","Dambach_a371",49.6646,7.9308,430,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12242848984637,3170.23532391736,8.66977178773826,-0.185363229116134,17.3237201307511,825.91628218056
1917,4571,18733,"SMPDSv1","Donnersberg","Dambach_a372",49.6646,7.9308,430,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12242848984637,3170.23532391736,8.66977178773826,-0.185363229116134,17.3237201307511,825.91628218056
1917,4572,18734,"SMPDSv1","Donnersberg","Dambach_a373",49.6646,7.9308,430,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12242848984637,3170.23532391736,8.66977178773826,-0.185363229116134,17.3237201307511,825.91628218056
1917,4573,18735,"SMPDSv1","Donnersberg","Dambach_a374",49.6646,7.9308,430,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12242848984637,3170.23532391736,8.66977178773826,-0.185363229116134,17.3237201307511,825.91628218056
1918,4574,12510,"Neotoma","Donut Pond Bog","DONUT",41.275,-70.058333,4,"not known","terrestrial, bog/fen/swamp","core","-30","Dunwiddie, P.W. 1989. Forest and health: the shaping of the vegetation on Nantucket Island. Journal of Forest History 33:126-133.; Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41785865587567,3987.18212092257,10.7307673134418,-1.52097205839731,22.4239512444241,1292.14874114259
1918,4574,12511,"Neotoma","Donut Pond Bog","DONUT",41.275,-70.058333,4,"not known","terrestrial, bog/fen/swamp","core","-13","Dunwiddie, P.W. 1989. Forest and health: the shaping of the vegetation on Nantucket Island. Journal of Forest History 33:126-133.; Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41785865587567,3987.18212092257,10.7307673134418,-1.52097205839731,22.4239512444241,1292.14874114259
1918,4574,12512,"Neotoma","Donut Pond Bog","DONUT",41.275,-70.058333,4,"not known","terrestrial, bog/fen/swamp","core","3","Dunwiddie, P.W. 1989. Forest and health: the shaping of the vegetation on Nantucket Island. Journal of Forest History 33:126-133.; Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41785865587567,3987.18212092257,10.7307673134418,-1.52097205839731,22.4239512444241,1292.14874114259
1919,4575,18736,"SMPDSv1","Donvold","EPDcoretop_E787",68.133333,13.583333,10,"0.25","terrestrial, blanket bog","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.54773007582051,1531.55077435964,3.46313522504599,-2.69935490202882,11.3003192704942,1340.92925428883
1920,4576,18737,"SMPDSv1","Doogary wood, Killarney","Mitchell_a17",51.9722222222222,-9.59166666666666,40,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.76110300089539,3656.07328912441,10.0166391482861,5.67524501411277,15.1732704998799,1129.01218104248
1921,4577,14738,"Neotoma","Doolittle Ranch Meadow","DOOLITL",39.67664,-105.60406,2975,"not known","terrestrial","core","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.471706241265068,1477.47696829769,0.707997242589858,-10.4598781500134,12.4275705848695,454.614252709071
1922,4578,8220,"EMPDv2","Doritsine_7","Mikishin-Gvozdeva_b51",42.445,130.656944444444,2,"4.2","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.842489091117026,3300.48768898222,6.43515288634222,-11.5482314179464,21.912920905316,697.848592682797
1923,4579,9768,"Herzschuh et al., 2019","Doroo nuur. 26A","Doroo nuur. 26A",48.23734,90.66409,2896,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.292889805942147,836.093971235257,-7.99030074422691,-27.2083512118217,8.70387155362241,245.167631229494
1924,4580,18738,"SMPDSv1","Dortmunder Hutte","EPDcoretop_E1179",47.210972,11.001389,1880,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.52134040227579,1123.80374480714,0.958584778795228,-6.62243369506902,8.75886282206559,1743.50382884344
1925,4581,15703,"Neotoma","Dosquet","PJHR038",46.45,-71.5,140,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.56497538981055,2596.64642150263,3.93041823040869,-12.6248285024428,18.563933219388,1149.33505179484
1926,4582,18739,"SMPDSv1","Dossaccio, Bormio","EPDcoretop_E1079",46.281389,10.201389,1730,"0.015","terrestrial, bog/fen/swamp","peat core top","-29","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.53637217830996,1270.90053353938,1.72800287040934,-5.90472126354656,9.59892655001875,1812.71900829139
1927,4583,17429,"Neotoma","Douglas Lake","TW138",45.58,-84.67,215,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04300432284181,2821.1467402533,5.42010701483793,-9.55532250140487,19.0474488329245,818.54832905135
1928,4584,11816,"Neotoma","Douglas State Forest Pond, MA","SJNE2",42.0696805,-71.793893,221,"not known","lake","surface sample","-36","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,9,"cool mixed forest",1.3160620785669,3448.98965118038,8.4632827524663,-5.30670257733058,21.2319722674561,1129.31428317575
1929,4585,2881,"CMPD","Doupeng Mt","Doupeng Mt 1",26.35,107.45,873,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11269222849618,5903.54821710809,16.1741047044057,5.78111198592098,25.1104346916914,1195.89874781799
1929,4586,2882,"CMPD","Doupeng Mt","Doupeng Mt 2",26.35,107.37,999,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.09244906698592,5729.43486262933,15.6970818154228,5.4035055240303,24.5249762522026,1168.87600174739
1930,4587,18740,"SMPDSv1","Dovinsee","Dovinsee_ss",52.99795,13.7881,70,"0.208","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789693052184705,3301.36526682304,8.95122824506836,-0.88882223488864,18.0883063143546,557.789126503208
1931,4588,18741,"SMPDSv1","Dovjok Swamp","EPDcoretop_E1134",48.75,28.25,274,"0.02","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.668558903201516,3377.23260619792,8.42707017519725,-4.83835816303167,19.8559041137158,567.737467075076
1932,4589,557,"Australian pollen","Downfall Creek","Downfall Creek",-17.133,145.583,700,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.735205832495093,7953.64984178566,21.7908214843443,17.0906433018479,25.1121482161953,1322.65617317252
1933,4590,558,"Australian pollen","Draepi Swamp","Draepi Swamp 12",-5.75,144,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
1933,4591,559,"Australian pollen","Draepi Swamp","Draepi Swamp 13",-5.75,144,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
1933,4592,560,"Australian pollen","Draepi Swamp","Draepi Swamp 159",-5.65,144.183,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.06912045069131,7726.61290865684,21.1688024894708,20.2281043579972,21.6962159442627,2902.74269134246
1933,4593,561,"Australian pollen","Draepi Swamp","Draepi Swamp 40A",-5.65,144.183,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.06912045069131,7726.61290865684,21.1688024894708,20.2281043579972,21.6962159442627,2902.74269134246
1933,4594,562,"Australian pollen","Draepi Swamp","Draepi Swamp 40B",-5.65,144.183,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.06912045069131,7726.61290865684,21.1688024894708,20.2281043579972,21.6962159442627,2902.74269134246
1933,4595,563,"Australian pollen","Draepi Swamp","Draepi Swamp WII29",-5.65,144.183,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.06912045069131,7726.61290865684,21.1688024894708,20.2281043579972,21.6962159442627,2902.74269134246
1933,4596,564,"Australian pollen","Draepi Swamp","Draepi WiiPW",-5.65,144.183,1885,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.06912045069131,7726.61290865684,21.1688024894708,20.2281043579972,21.6962159442627,2902.74269134246
1934,4597,10909,"Bush et al., 2020","Dragao.Pata","Dragao.Pata",0.285879,-66.679632,298,"not known","terrestrial","moss polster or moss","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05343257024001,8969.15486344066,24.5730270231251,23.6602143014637,25.1014733490989,2890.04865703395
1935,4598,10910,"Bush et al., 2020","Dragao1","Dragao1",0.285721,-66.68307,298,"not known","terrestrial","moss polster or moss","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05355716824495,8969.31609563111,24.5734687551537,23.6605829222121,25.1019323143186,2890.26711495046
1936,4599,10911,"Bush et al., 2020","Dragao2","Dragao2",0.28577,-66.68206,298,"not known","terrestrial","moss polster or moss","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.0535206133215,8969.2686764194,24.5733388395052,23.660474422625,25.101797459541,2890.20306074589
1937,4600,565,"Australian pollen","Dragon Tree Soak","Dragon Tree Soak_1",-19.67,123.612,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.232790116923987,9704.80889439487,26.5885175188901,19.3205453491641,31.6233709653865,458.152424346089
1937,4601,566,"Australian pollen","Dragon Tree Soak","Dragon Tree Soak_2",-19.67,123.612,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.232790116923987,9704.80889439487,26.5885175188901,19.3205453491641,31.6233709653865,458.152424346089
1937,4602,567,"Australian pollen","Dragon Tree Soak","Dragon Tree Soak_3",-19.67,123.612,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.232790116923987,9704.80889439487,26.5885175188901,19.3205453491641,31.6233709653865,458.152424346089
1937,4603,568,"Australian pollen","Dragon Tree Soak","Dragon Tree Soak_4",-19.67,123.612,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.232790116923987,9704.80889439487,26.5885175188901,19.3205453491641,31.6233709653865,458.152424346089
1937,4604,569,"Australian pollen","Dragon Tree Soak","Dragon Tree Soak_5",-19.67,123.612,200,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.232790116923987,9704.80889439487,26.5885175188901,19.3205453491641,31.6233709653865,458.152424346089
1938,4605,9600,"Gaillard et al., 1992","Drakamolla","Drakamolla",55.849858,14.131357,23,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.935715452640306,2913.06730591748,7.79874024168158,-1.19585404222658,16.8312524880657,628.246321151996
1939,4606,18742,"SMPDSv1","Drangstedt, Cuxhaven, Germany","Kuehl_a2",53.61578,8.7378,10,"0.004","terrestrial, blanket bog","peat core top","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21390754736018,3186.35792521254,8.72974774030834,0.726942784593442,16.608368756204,783.806926960054
1940,4607,14547,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-52","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14548,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-47","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14549,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-43","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14550,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-38","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14551,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-34","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14552,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-29","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14553,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-24","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14554,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-19","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14555,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-14","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14556,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-9","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14557,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-6","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14558,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","-3","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14559,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","0","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14560,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","3","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14561,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","6","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14562,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","9","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14563,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","13","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14564,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","16","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14565,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","20","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14566,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","23","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14567,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","27","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14568,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","31","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14569,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","34","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14570,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","38","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14571,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","42","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14572,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","45","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1940,4607,14573,"Neotoma","Drizzle Bog","DRIZZLE",53.935385,-132.10562,62,"not known","terrestrial, bog/fen/swamp","core","49","Huntley, M.J., R. Mathewes, and W. Shotyk. 2013. High-resolution palynology, climate change and human impact on a late Holocene peat bog on Haida Gwaii, British Columbia, Canada. The Holocene 23(11):12.","10.1177/0959683613499051",8,"cool evergreen needleleaf forest",3.40329725261999,2740.39069415236,7.50791971000646,2.02555183642004,13.8373847496578,1992.76161012428
1941,4608,6012,"EMBSeCBIO","Dry Lake","Dry Lake 2_10",42.038,23.533,1900,"0.02","lake","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.93071363500589,2012.48036508083,3.78182242558927,-7.29505166412908,13.576895563522,806.502761699615
1941,4609,6013,"EMBSeCBIO","Dry Lake","Dry Lake 2_12",42.038,23.533,1900,"0.02","lake","core","24","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.93071363500589,2012.48036508083,3.78182242558927,-7.29505166412908,13.576895563522,806.502761699615
1942,4610,11942,"Neotoma","Dry Park Lake North","DRPKNP1",36.419525,-112.233475,2573,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.368893641758396,2424.4839589573,5.83184701941321,-3.84449766416899,17.2126081649618,453.254030381536
1943,4611,11943,"Neotoma","Dry Park Lake South","DRPKSP1",36.4191299999999,-112.233305,2573,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.368933099679001,2424.42392299248,5.83171990897977,-3.84423919280375,17.2122198948617,453.305806108939
1944,4612,570,"Australian pollen","Dryandra State Forest","Dryandra State Forest (13)",-32.783,116.883,360,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.304513359666316,5794.8346682628,15.8762593651036,9.35410394064817,23.1022752891325,418.031969944202
1944,4613,571,"Australian pollen","Dryandra State Forest","Dryandra State Forest (14)",-32.817,116.867,300,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.37697671815774503,5866.57134609535,16.0727982084804,9.9716230065353,22.8939178487062,515.72728176047406
1944,4614,572,"Australian pollen","Dryandra State Forest","Dryandra State Forest (15)",-32.083,116.817,320,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.29790448255988,6162.28179625462,16.8829638253551,10.1949890322826,24.3114102677383,431.992964062248
1945,4615,8468,"EMPDv2","Dubik","Novenko_c8",53.6411,38.7033,173,"0.01","terrestrial, soil","soil sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.773845704650884,2835.75351186737,5.20910925167235,-10.1241215911809,18.9626708062686,562.287615573819
1946,4616,8238,"EMPDv2","Dubky","Mikishin-Gvozdeva_b69",43.2527777777778,131.765555555556,0,"0.16","coastal, lacustrine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.933649966976413,3201.81481471543,6.00504025965977,-12.0554905275847,21.5498863991445,738.779599277576
1947,4617,573,"Australian pollen","Dublin Bog","Dublin Bog",-41.717,146.233,575,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.39247274784453,3283.77064625897,8.99663190755882,4.513277051432,13.9869583079043,1294.60263546017
1948,4618,17334,"Neotoma","Duck","TW037",45.382778,-89.250833,523,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03678399413115,2551.9457679826,3.55754490568045,-13.180315239556,18.4817554565078,795.972279129705
1949,4619,11595,"Neotoma","Duck Lake","DUC-1C",44.21785,-93.815785,308,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.844628943956721,3497.2006108209,7.1152860197696,-11.3051657937272,22.6493560660877,740.138073467203
1949,4620,11596,"Neotoma","Duck Lake","DUC-1M",44.21785,-93.815785,308,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.844628943956721,3497.2006108209,7.1152860197696,-11.3051657937272,22.6493560660877,740.138073467203
1949,4621,17401,"Neotoma","Duck Lake","TW108",43.35,-86.08,235,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.971885425523459,3388.77675070887,7.94330557257928,-6.61438287058901,21.3362581258737,833.608444962292
1950,4622,16518,"Neotoma","Duck Lake (US:Maine)","KG015",45.35,-68.05,91,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50646959382305,2736.97110002085,5.52099269686419,-8.65460959167615,18.65522617459,1147.39663349846
1951,4623,12515,"Neotoma","Duck Pond","DUCKPOND",41.9327,-70.0005,2,"not known","lake","core","assumed modern","Winkler, M.G. 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research 23:301-312.; Winkler, M.G. 1988. Paleolimnology of a Cape Cod kettle pond: diatoms and reconstructed pH. Ecological Monographs 58:197-214.",,9,"cool mixed forest",1.40292075585372,3936.34761027054,10.520616361021,-1.92836628254339,22.4513136738876,1263.25991706386
1951,4623,12516,"Neotoma","Duck Pond","DUCKPOND",41.9327,-70.0005,2,"not known","lake","core","assumed modern","Winkler, M.G. 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research 23:301-312.; Winkler, M.G. 1988. Paleolimnology of a Cape Cod kettle pond: diatoms and reconstructed pH. Ecological Monographs 58:197-214.",,9,"cool mixed forest",1.40292075585372,3936.34761027054,10.520616361021,-1.92836628254339,22.4513136738876,1263.25991706386
1951,4624,15753,"Neotoma","Duck Pond","MGW001",41.9327,-70.0005,2,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.40292075585372,3936.34761027054,10.520616361021,-1.92836628254339,22.4513136738876,1263.25991706386
1951,4625,15752,"Neotoma","Duck Pond","MGW013",41.9327,-70.0005,2,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.40292075585372,3936.34761027054,10.520616361021,-1.92836628254339,22.4513136738876,1263.25991706386
1952,4626,11625,"Neotoma","Dudley","DUD-1C",44.6691249999999,-98.29587,423,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.562198222850948,3482.02703193743,7.08958744810704,-11.0231047073216,23.1957434336073,512.897794251483
1952,4627,11626,"Neotoma","Dudley","DUD-1M",44.6691249999999,-98.29587,423,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.562198222850948,3482.02703193743,7.08958744810704,-11.0231047073216,23.1957434336073,512.897794251483
1952,4628,11597,"Neotoma","Dudley","DUL-1C",44.35577,-93.3623499999999,351,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.87175332338729,3437.73867861805,6.93579962181991,-11.2410206513852,22.3255856463712,760.024165387894
1952,4629,11598,"Neotoma","Dudley","DUL-1M",44.35577,-93.3623499999999,351,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.87175332338729,3437.73867861805,6.93579962181991,-11.2410206513852,22.3255856463712,760.024165387894
1953,4630,14229,"Neotoma","Dugas Bay Bog","DUGASBAY",46.3016988888889,-79.38262,202,"not known","terrestrial, bog/fen/swamp","core","-31","Unpublished data",,9,"cool mixed forest",1.11726397699686,2746.27482406581,4.43836392811665,-12.4485374288469,19.2276652605364,880.285981689203
1954,4631,6227,"EMPDv2","Duguldzery","Binney2017_E2184",54.45,109.53,462,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.584003113761678,1982.22146561729,-2.64317728661319,-25.554653778707898,17.6312579694196,345.750883911518
1955,4632,574,"Australian pollen","Dukes Tarn","DUKES_12",-44.96404,168.4928,830,"not known","lake","core","35","McWethy, D.B., J.M. Wilmshurst, C. Whitlock, J.R. Wood, and M.S. McGlone. 2014. A high-resolution chronology of rapid forest transitions following Polynesian arrival in New Zealand. PLoS ONE 9(11):e111328. [DOI: 10.1371/journal.pone.0111328]","10.21233/zjqh-j697",22,"steppe",3.22182832560181,2284.96168821747,6.26016900881498,0.198290165708653,11.9954376722728,2513.9188501467
1955,4633,575,"Australian pollen","Dukes Tarn","DUKES_8",-44.96404,168.4928,830,"not known","lake","core","3","McWethy, D.B., C. Whitlock, J.M. Wilmshurst, M.S. McGlone, M. Fromont, X. Li, A. Dieffenbacher-Krall, W.O. Hobbs, S.C. Fritz, and E.R. Cook. 2010. Rapid landscape transformation in South Island, New Zealand, following initial Polynesian settlement. Proceedings of the National Academy of Sciences of the United States of America 107(50):21343-21348. [DOI: 10.1073/pnas.1011801107]","10.21233/zjqh-j697",22,"steppe",3.22182832560181,2284.96168821747,6.26016900881498,0.198290165708653,11.9954376722728,2513.9188501467
1956,4634,2883,"CMPD","Dulan","Dulan 1",36.19,98.17,3360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188221242314906,1710.94343572538,1.20625989303547,-12.2793491029562,13.1395273552618,207.918724195662
1956,4635,2884,"CMPD","Dulan","Dulan 2",36.06,98.06,3290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.184326516060508,1816.10242105785,1.69817621433554,-11.8523860712837,13.6671483038465,206.147973139748
1957,4636,6228,"EMPDv2","Dulikha Bog","Binney2017_E2186",51.52,105,457,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.802394005767792,2340.82458246875,0.328737216608607,-20.5738328294626,18.861687462905,469.031716355388
1958,4637,11819,"Neotoma","DuMoulin Pond, RI","SJNE5",41.4032745,-71.544198,15,"not known","lake","surface sample","-36","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,13,"temperate deciduous broadleaf forest",1.30993693883863,3915.77417146193,10.4466220663291,-2.02725082814304,22.4369813475322,1190.93547136412
1959,4638,2885,"CMPD","Dunde","Dunde",38.1,96.4,5325,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.040739667640396,0,-14.7220875671292,-27.0005674138347,-2.08182474140409,29.9358857011548
1960,4639,16695,"Neotoma","Dune du sud","PJHR056",-47.242482,-61.957192,-52,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,,"not applicable",,,,,,
1961,4640,14055,"Neotoma","Dune Lake","DUNEAK",64.4209999999999,-149.897625,134,"not known","lake","core","-45","Bigelow, N.H. 1997. Late-Quaternary vegetation and climate in Central Alaska. Doctoral dissertation. University of Alaska, Fairbanks, Alaska, USA.; Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",0.866135744116847,1815.6235653201,-2.75417799760265,-21.3407507976976,16.0919644118906,368.607915826723
1962,4641,15721,"Neotoma","Dunk Pond","DUNK_C90",43.8318699999999,-74.170175,474,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34376662315406,2753.20984369235,5.28215731002945,-9.5995123606151,18.6686462275202,1043.62042765999
1963,4642,12518,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-32","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12519,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-29","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12520,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-24","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12521,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-20","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12522,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12523,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","-10","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12524,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","1","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12525,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","7","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12526,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","19","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12527,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","28","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1963,4642,12528,"Neotoma","Dunnigan Lake","DUNNIC1",47.70721,-91.63116,506,"not known","lake","core","40","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.01690900983167,2353.4584630817,2.21445978062734,-16.1218911963725,17.6065201430307,745.20180517201
1964,4643,18743,"SMPDSv1","Dunum (Hilliges Moor)","EPDcoretop_E207",53.583333,7.633333,5,"0.01","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21935983531269,3228.73037282377,8.84583663787335,1.1224243616972,16.528168827599,772.421152953314
1965,4644,18744,"SMPDSv1","Duommajavri","Bjune_a18",69.2008841,23.74625061,349,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39112528218148,1200.90107473934,-2.84750450518512,-16.8053728022722,12.2251126149802,519.754842821698
1966,4645,18745,"SMPDSv1","Dura-Moor","EPDcoretop_E1195",46.64,11.45888889,2080,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.65850932800242,836.712343477583,-0.499276737602991,-7.79331780964412,7.1036203831124904,1755.2337331128
1967,4646,11813,"Neotoma","Durango City Reservoir","LMSJ25",37.2912199999999,-107.84553,2119,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.29391072771666,3294.61866212824,8.24992136226197,-4.80813691305083,21.0966011308109,366.140113009074
1968,4647,11489,"Neotoma","Durkee Lake","SDMEDU",44.98107,-102.052575,740,"not known","lake","surface sample","-37","Unpublished data",,22,"steppe",0.441168378401525,3391.12141519502,7.49860905475493,-8.37516291887524,22.8011268670154,415.138631858132
1969,4648,18746,"SMPDSv1","Durnoe boloto","Durnoe boloto_SS. (Novenko_c269)",55.0881,40.8825,118,"0.1","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.834647382534706,2749.46190111119,4.74153864368046,-11.0140530854947,18.9007128733828,582.044838568539
1970,4649,9080,"EMPDv2","Durrenbuhl","Stojakowits_a4",47.70553,10.43175,924,"0.07","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.47546756621306,2500.04402609531,6.38601738598896,-2.64379846039269,15.1445139397016,1135.14563353529
1970,4650,9081,"EMPDv2","Durrenbuhl","Stojakowits_a5",47.70553,10.43175,924,"0.07","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.47546756621306,2500.04402609531,6.38601738598896,-2.64379846039269,15.1445139397016,1135.14563353529
1970,4651,9082,"EMPDv2","Durrenbuhl","Stojakowits_a6",47.70553,10.43175,924,"0.07","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.47546756621306,2500.04402609531,6.38601738598896,-2.64379846039269,15.1445139397016,1135.14563353529
1971,4652,18747,"SMPDSv1","Durrenecksee-Moor","EPDcoretop_E208",47.166667,13.866667,1700,"0.15","terrestrial, bog/fen/swamp","peat core top","-34","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.3479454665884,1277.00837487799,1.44747393270509,-6.59683625607832,9.56373480601933,1642.71113774234
1972,4653,18748,"SMPDSv1","Dury","EPDcoretop_E1007",53.638889,18.358333,95,"0.0254","terrestrial, bog/fen/swamp","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81514827535375,3001.00849828207,7.89989961710169,-2.31564700928142,17.2459082116221,578.876388058367
1973,4654,18749,"SMPDSv1","Dvigrad","Barboni_a1459",45.1833,13.7833,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.34618533484794,4065.43259840592,11.138171502482,1.63161159228146,20.3254275127848,1300.98290223471
1974,4655,18750,"SMPDSv1","Dvorishchanskoe lake","Dvorishchanskoe lake_SS",51.703925,23.9910194444444,155,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.755061378530046,3049.37812890445,7.51980171975567,-4.79749323527662,18.0870757444363,550.784993606585
1975,4656,7050,"EMPDv2","Dyanushka K7P2","EPDcoretop_E1707",65.04,125.04,123,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.653586995164294,1537.02412343038,-11.140727049348,-40.0618493620073,16.6354323051389,284.292432874676
1976,4657,13837,"Neotoma","Dye Lower Water Lake (Dyer Lake)","DYER",66.6224599999999,-61.6492499999999,323,"not known","lake","core","-43","Miller, G.H., A.P. Wolfe, J.P. Briner, P.E. Sauer, and A. Nestje. 2005. Holocene glaciation and climate evolution of Baffin Island, Arctic Canada. Quaternary Science Reviews 24:1703-1721.",,30,"tundra",1.84112941690428,315.397509309396,-9.74405297090889,-22.5480157362947,4.82279355041435,551.491218444585
1977,4658,7431,"EMPDv2","Dyngelandsvatnet","Hjelle_a20",60.3213528,5.3936556,71,"0.044","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.14905271020131,2583.13686251679,7.07708729456656,0.792540371979978,13.9700606770807,2172.86390045532
1978,4659,8029,"EMPDv2","Dyuna","Mikishin-Gvozdeva_a91",48.0661111111111,142.183055555556,5,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63800919922989,2015.63590901886,1.65046770878187,-13.8356542321535,16.0432610586649,962.71280260556
1979,4660,7220,"EMPDv2","Dzelve Bog","EPDcoretop_E2591",57.23,24.5,31,"2.6938","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.985214053365426,2615.70631278658,5.9626811945461196,-5.39608583800488,16.7776367277338,624.684684251568
1980,4661,6229,"EMPDv2","Dzhangyskol","Binney2017_E2187",50.19,87.73,1800,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.588195082303436,1390.56224334533,-4.52751348936816,-23.232978651012,12.6253918421944,449.576424813197
1981,4662,12540,"Neotoma","E Lake","ELAKE68",50.69095,-99.65835,735,"not known","lake","core","-18","Ritchie, J.C. 1964. Contributions to the Holocene paleoecology of west central Canada. 1. The Riding Mountain area. Canadian Journal of Botany 42(2):181-196.; Ritchie, J.C. 1969. Absolute pollen frequencies and carbon-14 age of a section of Holocene lake sediment from the Riding Mountain area of Manitoba. Canadian Journal of Botany 47(9):1345-1349. Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b69-192;
10.1139/b76-194",9,"cool mixed forest",0.651769909986532,2307.37791425529,1.08782939575935,-18.2623305377938,17.3116990414427,487.345156617206
1981,4663,15766,"Neotoma","E Lake","LFR68092",50.69095,-99.65835,735,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.651769909986532,2307.37791425529,1.08782939575935,-18.2623305377938,17.3116990414427,487.345156617206
1982,4664,10912,"Bush et al., 2020","E_gray","E_gray",-11.97,-71.2559,328,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.09104215618466,9013.45915347906,24.6944086396687,22.8987346496466,25.6170414902826,3025.33912099049
1983,4665,10913,"Bush et al., 2020","E_lag2","E_lag2",-11.983,-71.238,337,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.08565564267689,8998.8098876231,24.6542736647208,22.8093475471118,25.5886337715887,3029.37312067953
1984,4666,10914,"Bush et al., 2020","E-isla","E-isla",-12.035,-71.165,330,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.10025599664795,9002.6447270073,24.6647800739926,22.8121746853579,25.6016501519712,3053.43520393644
1985,4667,10915,"Bush et al., 2020","E-lag","E-lag",-12.041,-71.155,351,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.09202243095042,8971.26418596128,24.578805988935,22.7251737873107,25.5195315216992,3043.28026305443
1986,4668,10916,"Bush et al., 2020","E-paki","E-paki",-12.126,-71.815,619,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",1.85073907445287,8588.04738478911,23.5288969446277,21.8136728887923,24.4986656925398,2674.02155206459
1987,4669,5944,"EMBSeCBIO","E. Marmara basin","Marmara DM-13",40.4,27.6,0,"not applicable","marine","marine core","-51","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
1988,4670,18751,"SMPDSv1","E061 (EMBSECBIO)","E061",43.2,43.25,1800,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02940534821559,2087.25007377172,2.78667971829536,-11.1658956871307,15.0553634058935,933.771394903769
1989,4671,11832,"Neotoma","Eagle Lake","BU727",44.3635699999999,-68.250315,84,"not known","lake","surface sample","-15","Davis, R.B. 1967. Pollen studies of near-surface sediments in Maine Lakes. Pages 143-173 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Volume 7. Proceedings of the VII Congress of the International Association for Quaternary Research. Yale University Press, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.47831283437397,2856.03766518447,6.08174976690052,-7.90337371060382,19.0865907011341,1154.54843933954
1989,4672,11833,"Neotoma","Eagle Lake","BU728",44.3635699999999,-68.250315,84,"not known","lake","surface sample","-15","Davis, R.B. 1967. Pollen studies of near-surface sediments in Maine Lakes. Pages 143-173 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary paleoecology. Volume 7. Proceedings of the VII Congress of the International Association for Quaternary Research. Yale University Press, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.47831283437397,2856.03766518447,6.08174976690052,-7.90337371060382,19.0865907011341,1154.54843933954
1989,4673,13707,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13708,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","-14","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13709,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","-3","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13710,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","8","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13711,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","18","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13712,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","29","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13713,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","39","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4673,13714,"Neotoma","Eagle Lake","EAGLEAB",51,-113.323611111111,922,"not known","lake","core","50","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",22,"steppe",0.516477450828663,2458.16967054648,3.77217911831151,-11.5828782444298,17.1169933011004,406.912386266458
1989,4674,13896,"Neotoma","Eagle Lake","EAGLEBC",51.040645,-118.153764999999,1845,"not known","lake","core","-50","Rosenberg, S.M., I.R. Walker, and R.W. Mathewes. 2003. Postglacial spread of hemlock (Tsuga) and vegetation history in Mount Revelstoke National Park, British Columbia, Canada. Canadian Journal of Botany 81:139-151.",,9,"cool mixed forest",2.17141930544777,1136.39144715871,-0.731973225875759,-11.0864331783216,10.1207343583119,1413.43148165183
1989,4675,12530,"Neotoma","Eagle Lake","EAGLELK",53.233333,-58.55,400,"not known","lake","core","20","Lamb, H.F. 1978. Post-glacial vegetation change in southeastern Labrador. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Lamb, H.F. 1980. Late Quaternary vegetational history of southeastern Labrador. Arctic and Alpine Research 12:117-135.",,15,"cold evergreen needleleaf forest",2.23921918070737,1239.93995077597,-1.86922361722601,-16.359936537507,11.8899221535025,1132.49015712905
1989,4676,11997,"Neotoma","Eagle Lake","SM-EGL",40.211145,-105.650725,3074,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.487176522554994,1327.70767993239,-0.0800333360153804,-11.09559855901,11.6516646414909,456.444104557533
1990,4677,12529,"Neotoma","Eagle Lake Bog","EAGLE",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","core","0","Spear, R.W. 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4678,15755,"Neotoma","Eagle Lake Bog","RWS002",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4679,15754,"Neotoma","Eagle Lake Bog","RWS005",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4680,15757,"Neotoma","Eagle Lake Bog","RWS006",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4681,15758,"Neotoma","Eagle Lake Bog","RWS010",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4682,15759,"Neotoma","Eagle Lake Bog","RWS014",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4683,15756,"Neotoma","Eagle Lake Bog","RWS016",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1990,4684,15760,"Neotoma","Eagle Lake Bog","RWS018",44.166667,-71.666667,1275,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.3711588127475,1277.11488971244,-2.91839314188296,-19.2401423917063,11.2834297606476,1438.30260677065
1991,4685,576,"Australian pollen","Eagle Tarn","Eagle Tarn core",-42.6833,146.5833,1033,"small (0.01-1 km2)","lake","core top","-23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41406731519898,2437.23755312253,6.67736315923981,1.52645153268082,12.4992769706436,1329.56783646511
1991,4686,577,"Australian pollen","Eagle Tarn","Eagle Tarn ss",-42.6833,146.5833,1033,"small (0.01-1 km2)","lake","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41406731519898,2437.23755312253,6.67736315923981,1.52645153268082,12.4992769706436,1329.56783646511
1992,4687,12531,"Neotoma","Eaglenest Lake","EAGLENES",57.766667,-112.1,725,"not known","lake","core","-32","Vance, R.E. 1986. Pollen stratigraphy of Eaglenest Lake, northeastern Alberta. Canadian Journal of Earth Sciences 23:11-20.",,15,"cold evergreen needleleaf forest",0.800558973539661,1845.04250842814,-1.46185806490603,-21.8403190797484,14.952719255187,468.813881391436
1993,4688,15762,"Neotoma","Easel","EAS1",54.766667,-66.766667,505,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.64481731159968,1132.21888152406,-5.28918449815232,-23.571250684726,11.9713793628419,768.231003679532
1993,4689,15763,"Neotoma","Easel","EAS2",54.766667,-66.766667,505,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.64481731159968,1132.21888152406,-5.28918449815232,-23.571250684726,11.9713793628419,768.231003679532
1993,4690,15761,"Neotoma","Easel","EAS3",54.766667,-66.766667,505,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.64481731159968,1132.21888152406,-5.28918449815232,-23.571250684726,11.9713793628419,768.231003679532
1994,4691,12533,"Neotoma","East Baltic Bog","EBALTIC",46.408333,-62.15,45,"not known","terrestrial, bog/fen/swamp","core","-20","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.84256270471422,2522.66495816746,5.25830385018421,-7.11630783534965,17.4816383484807,1310.1246366573
1994,4691,12534,"Neotoma","East Baltic Bog","EBALTIC",46.408333,-62.15,45,"not known","terrestrial, bog/fen/swamp","core","18","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.84256270471422,2522.66495816746,5.25830385018421,-7.11630783534965,17.4816383484807,1310.1246366573
1995,4692,15722,"Neotoma","East Copperas Pond","ECOP_C90",44.31315,-74.3717949999999,480,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.3287851996456,2713.11929653983,5.04389189864172,-9.98534108003835,18.5380936129831,1027.0443942749
1996,4693,15480,"Neotoma","East Fork Humptulips River","CJH059",47.3,-123.7,183,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.59658052985428,3524.1218618552102,9.65512838864441,3.89198677291404,16.1074690268871,2001.32534885293
1997,4694,11869,"Neotoma","East Fork old field","KKMFA17",39.01611111,-84.13861111,252,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.07515382069485,4456.63722521125,12.0184612549577,-1.73077747163859,23.9183341673438,1063.67578610846
1998,4695,14597,"Neotoma","East Glacier Lake","EGLACIER",41.37778,-106.255405,3282,"not known","lake","core","-56","Mensing, S., J. Korfmacher, T. Minckley, and R. Musselman. 2012. A 15,000 year record of vegetation and climate change from a treeline lake in the Rocky Mountains, Wyoming, USA. The Holocene 22(7):739-748. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1177/0959683611430339;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.556590594111494,1079.85438073093,-1.5130483753872,-12.4833219264089,10.1963548379095,496.866086701214
1999,4696,11940,"Neotoma","East Lake","EASTP1",36.57008,-112.18062,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.373226147808676,2291.2491149478,5.29824835843188,-4.28779810326347,16.6470065671204,451.756463416512
1999,4697,11941,"Neotoma","East Lake","EASTP2",36.57008,-112.18062,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.373226147808676,2291.2491149478,5.29824835843188,-4.28779810326347,16.6470065671204,451.756463416512
1999,4698,17378,"Neotoma","East Lake","TW084",44.636667,-85.156111,315,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.958788047838601,3013.93120574589,6.4506942389009,-7.83104686354172,19.8963744637362,780.009626217065
2000,4699,15764,"Neotoma","East Mountain Lake","EASTMTN",65.683333,-128.566667,122,"not known","lake","surface sample","Modern","Rowe, J.S., Spittlehouse, D., Johnson, E., Jasieniuk, M., 1975. Fire studies in the Upper Mackenzie Valley and adjacent precambrian uplands. Department of Indian and Northern Affairs, Ottawa, Canada. INA Publication No. QS-8045-000-EE-A1.",,15,"cold evergreen needleleaf forest",0.65233541833987,1553.9168683474,-7.27040635525078,-29.4064503387686,15.7909348035374,282.553441297591
2001,4700,16520,"Neotoma","East Musquash Lake","KG017",45.4,-67.8,113,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.51128993547554,2695.17770339712,5.26439218477255,-9.12100499066478,18.5525296607726,1145.82414722808
2002,4701,18752,"SMPDSv1","East of Loch nan Claidhmhnean","Bunting_b8",58.239225636121,-5.129275230879,900,"0.003","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",5.86303473002749,1286.62777008191,2.27363837132287,-4.40401618682148,9.55300871750925,2497.33963043809
2003,4702,11548,"Neotoma","East Stump Lake","NDNEES",47.881285,-98.357165,423,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.582927603927387,2884.15760896585,3.78564088985481,-15.8616273156922,20.4264318853479,473.506068538824
2004,4703,11817,"Neotoma","East Thompson Pond, CT","SJNE3",42.01506353,-71.813177165,156,"not known","lake","surface sample","-37","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,9,"cool mixed forest",1.30872396550049,3580.65314720172,9.05102840641264,-4.35552724491577,21.6163804157887,1141.46070961618
2005,4704,12532,"Neotoma","East Twin Lake","EASTTWIN",45.333333,-93.508333,281,"not known","lake","core","-5","Unpublished data",,9,"cool mixed forest",0.864142707218573,3455.12389184291,6.98502361174033,-11.38128680158,22.4855224369497,737.239370795553
2005,4705,13813,"Neotoma","East Twin Lake","ETWINOH",41.196155,-81.334765,321,"not known","lake","core","40","Shane, L.C.K. 1989. The history of vegetation, climate, and relict plant paxa: palynology of the Gott Fen/Frame Lake Area, Portage Co., Ohio. Final Report to the Ohio Department of Natural Resources on 1988 Grant, Limnological Research Center, University of Minnesota, Minneapolis, Minnesota, USA.; Shane, L.C.K., and K.H. Anderson. 1993. Intensity, gradients and reversals in late glacial environmental change in East-Central North America. Quaternary Science Reviews 12:307-320.",,13,"temperate deciduous broadleaf forest",1.09864994269603,3795.10601594769,9.77160682896992,-3.96870087541236,21.8545595129543,981.526639047657
2006,4706,18753,"SMPDSv1","EASTERN HIGH ATLAS","24",32.7417258841,-5.03686776354,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.309786365587153,5333.46495210828,14.6122327455021,5.88879588086719,25.3266413366658,449.893754629844
2006,4707,18754,"SMPDSv1","EASTERN HIGH ATLAS","25",32.7631410332,-4.91408757564,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.322175746241179,5026.80644709546,13.7720724577958,4.92815572307246,24.7958289365496,465.397913360993
2006,4708,18755,"SMPDSv1","EASTERN HIGH ATLAS","26",32.7488642672,-4.80843950698,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.316441206307327,5060.78553236466,13.8651658420949,4.96433929652436,24.9332757153506,458.61703397266
2006,4709,18756,"SMPDSv1","EASTERN HIGH ATLAS","27",32.5618386321,-4.64853972739,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.30403871862613,5164.30701037836,14.1487863298037,5.18913111656922,25.2606599390541,443.928777920722
2006,4710,18757,"SMPDSv1","EASTERN HIGH ATLAS","28",32.5432788363,-4.87125727753,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.315899613445841,5006.17403723684,13.7155453074982,4.73546281054958,24.8767355589444,459.033564675045
2006,4711,18758,"SMPDSv1","EASTERN HIGH ATLAS","29",32.5432788363,-5.00403120166,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.310925307213648,5151.90370564216,14.1148046729922,5.20229889738098,25.1197399198976,452.714051027221
2006,4712,18759,"SMPDSv1","EASTERN HIGH ATLAS","30",32.504731568,-5.3466735865,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.323676498970683,4926.04565457837,13.4960154919955,4.51525411370491,24.637457357607,468.797968582621
2006,4713,18760,"SMPDSv1","EASTERN HIGH ATLAS","31",32.5175806574,-5.20961663256,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.321003650630812,4930.52271084951,13.5082813995877,4.50429581728451,24.6980397424575,465.518261379342
2006,4714,18761,"SMPDSv1","EASTERN HIGH ATLAS","32",32.4447691506,-5.07113200202,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.321831726685449,4863.88024141441,13.3256992915463,4.27194086139438,24.6107517230675,466.94117742819
2006,4715,18762,"SMPDSv1","EASTERN HIGH ATLAS","33",32.3519701714,-5.17820774729,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330184555314249,4648.41498587696,12.7353835229506,3.57712133267671,24.2257275641064,477.767711259318
2006,4716,18763,"SMPDSv1","EASTERN HIGH ATLAS","34",32.2677372518,-5.37665479517,2250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.336294633791426,4343.77509441467,11.9007536833279,2.43929147671122,23.8920179585128,486.625646523254
2006,4717,18764,"SMPDSv1","EASTERN HIGH ATLAS","35",32.2962907839,-5.26244066689,2050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.32941715924225,4605.1953974259,12.6169736915778,3.3599409190872,24.2403759631366,477.505021957632
2006,4718,18765,"SMPDSv1","EASTERN HIGH ATLAS","36",32.2187203551,-4.47912210377,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.299839358218289,5125.60539036741,14.0427544941573,4.95568697085224,25.2838164620306,440.468241936076
2006,4719,18766,"SMPDSv1","EASTERN HIGH ATLAS","37",32.272972066,-4.22071263854,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.269306839554221,5502.67867895002,15.0758319971233,5.97140013772603,26.2646409954978,401.224651310103
2006,4720,18767,"SMPDSv1","EASTERN HIGH ATLAS","38",32.1723208655,-5.45136987076,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.314418097154479,4919.46958969217,13.477998875869,4.35992104568346,24.7547165294861,459.106542881466
2006,4721,18768,"SMPDSv1","EASTERN HIGH ATLAS","39",32.1066477417,-5.63696782921,2252,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.345004896705073,4288.47702519776,11.7492521238295,2.43248492492095,23.5743157256647,496.809651758031
2007,4722,17572,"Phelps et al., 2020","Eastern Niger Delta","NIGERDC2_0",4.55,6.433333,5,"not applicable","fluvial","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",2,"tropical semi-evergreen broadleaf forest",1.70611426313917,9744.41717293649,26.6970333505109,25.1931486512225,28.3857042924429,2103.11560376376
2008,4723,17303,"Neotoma","Eau Galle","TW008",44.7,-92,231,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.85934676247058,3543.37732396704,7.41290465574871,-10.8365415071663,22.7415981972386,743.704882586777
2009,4724,18769,"SMPDSv1","Eberswalder Urstromtal","Dambach_a375",52.7277,13.9981,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804225503123501,3332.85473927969,9.01234120812443,-1.07269879073127,18.274460344066,568.17953055452
2009,4725,18770,"SMPDSv1","Eberswalder Urstromtal","Dambach_a376",52.7344,14.0554,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.800354742151448,3316.77188530446,8.97209318877849,-1.04668779697732,18.2048117933697,566.660953010814
2009,4726,18771,"SMPDSv1","Eberswalder Urstromtal","Dambach_a377",52.7344,14.0554,120,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.800354742151448,3316.77188530446,8.97209318877849,-1.04668779697732,18.2048117933697,566.660953010814
2009,4727,18772,"SMPDSv1","Eberswalder Urstromtal","Dambach_a378",52.7537,13.9841,160,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.754389285582186,3534.65744955702,9.58389261228393,-1.00220674757601,18.927791202728798,529.709793398167
2009,4728,18773,"SMPDSv1","Eberswalder Urstromtal","Dambach_a379",52.7548,14.0114,150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.75748877011283,3508.43612469608,9.51219733317465,-1.00069426055517,18.8385938967172,532.786478605053
2009,4729,18774,"SMPDSv1","Eberswalder Urstromtal","Dambach_a381",52.7579,13.9802,160,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.754464472048595,3534.66323940794,9.58404892690609,-1.00111164542038,18.9269066360208,529.694120802087
2009,4730,18775,"SMPDSv1","Eberswalder Urstromtal","Dambach_a382",52.887,13.9671,10,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.806879102531832,3154.75562548802,8.534765323707,-0.889842099293152,17.5891521319576,575.409382558219
2009,4731,18776,"SMPDSv1","Eberswalder Urstromtal","Dambach_a383",52.887,13.9671,10,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.806879102531832,3154.75562548802,8.534765323707,-0.889842099293152,17.5891521319576,575.409382558219
2009,4732,18777,"SMPDSv1","Eberswalder Urstromtal","Dambach_a384",52.8911,13.9182,100,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.776573508593066,3379.31263950997,9.16296026869868,-0.939181643220834,18.3708664572463,547.986495668169
2009,4733,18778,"SMPDSv1","Eberswalder Urstromtal","Dambach_a385",52.8996,14.0237,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.779479526306922,3352.07628873292,9.08529173091155,-0.955167354433376,18.2834477303601,551.099868429348
2009,4734,18779,"SMPDSv1","Eberswalder Urstromtal","Dambach_a386",52.8996,14.0237,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.779479526306922,3352.07628873292,9.08529173091155,-0.955167354433376,18.2834477303601,551.099868429348
2009,4735,18780,"SMPDSv1","Eberswalder Urstromtal","Dambach_a387",52.9078,14.0269,95,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.777934966013782,3364.29430003098,9.11897588918682,-0.958874756410904,18.325213627438,549.602782281919
2009,4736,18781,"SMPDSv1","Eberswalder Urstromtal","Dambach_a388",52.909,13.9255,100,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.776892399961188,3378.56678824683,9.1608385866291009,-0.940098171083092,18.3673648446848,548.059746343427
2009,4737,18782,"SMPDSv1","Eberswalder Urstromtal","Dambach_a389",52.9129,14.0164,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.77977661836366,3351.74210216382,9.08462686430643,-0.953170595196975,18.2809353300293,551.14494586119
2009,4738,18783,"SMPDSv1","Eberswalder Urstromtal","Dambach_a390",52.913,14.0216,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.779749075595669,3351.65062332177,9.08424091267485,-0.954311382271003,18.2809594955446,551.146412780358
2009,4739,18784,"SMPDSv1","Eberswalder Urstromtal","Dambach_a391",52.9156,14.0125,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.77985115145671,3351.71380842843,9.0846634275381,-0.95223273644456,18.2803994724078,551.153912030629
2009,4740,18785,"SMPDSv1","Eberswalder Urstromtal","Dambach_a392",52.923,13.6515,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789655140165386,3313.5341021306,9.00374617664205,-0.729464197344378,18.0814835351568,555.911647837981
2009,4741,18786,"SMPDSv1","Eberswalder Urstromtal","Dambach_a393",52.9295,13.6518,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789834727386658,3313.28013773009,9.00307109599695,-0.729234253676182,18.0803027385792,555.970597789421
2009,4742,18787,"SMPDSv1","Eberswalder Urstromtal","Dambach_a394",52.9392,13.6558,80,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.786821012239376,3339.26035570818,9.07612135274958,-0.724610487149977,18.1668439742479,552.716266074248
2009,4743,18788,"SMPDSv1","Eberswalder Urstromtal","Dambach_a395",52.9461,13.6538,80,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787041699559942,3338.93579758806,9.07530735080978,-0.723937102451261,18.1651274150798,552.791216784559
2009,4744,18789,"SMPDSv1","Eberswalder Urstromtal","Dambach_a396",52.9518,13.6539,80,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787210551688598,3338.69891986192,9.0746876130536709,-0.723674100502537,18.1639493071522,552.84917499389
2009,4745,18790,"SMPDSv1","Eberswalder Urstromtal","Dambach_a397",52.9518,13.6539,80,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787210551688598,3338.69891986192,9.0746876130536709,-0.723674100502537,18.1639493071522,552.84917499389
2009,4746,18791,"SMPDSv1","Eberswalder Urstromtal","Dambach_a398",52.9675,13.6445,75,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789354392999959,3324.73996409917,9.03579512883879,-0.723738693364577,18.1157496024967,554.685811422382
2009,4747,18792,"SMPDSv1","Eberswalder Urstromtal","Dambach_a401",52.9927,13.6127,75,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.790352287027572,3323.16019228602,9.03221673106485,-0.716913263186396,18.1063526290039,555.017844527248
2010,4748,9769,"Herzschuh et al., 2019","Ebinur Lake","Ebinur Lake",44.55,82.45,212,"500","lake","lake surface sample","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.18620739113481,3974.75567871424,7.98373664999996,-13.3405605427885,24.4517531321226,187.462957738311
2010,4749,2886,"CMPD","Ebinur Lake","Ebinur Lake 01",44.7600555555556,82.6897222222222,217,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.199243067221715,3950.81657825099,7.86904953369498,-13.3202049724534,24.5552235032475,200.548634159173
2010,4750,2887,"CMPD","Ebinur Lake","Ebinur Lake 02",44.617,83.1737777777778,227,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179772403246158,4054.06031355812,8.05108136173708,-13.8814272033701,25.0415807600211,181.90986912891
2010,4751,2888,"CMPD","Ebinur Lake","Ebinur Lake 03",44.6468055555556,83.2600277777778,218,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172964035265196,4120.31970584864,8.20078337912563,-14.0208459408394,25.4312185057019,175.627488499739
2010,4752,2889,"CMPD","Ebinur Lake","Ebinur Lake 04",44.6730555555555,83.3100277777778,223,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172809137764382,4119.37579980013,8.18723483257391,-14.0540234605482,25.4396895478436,175.430493006558
2010,4753,2890,"CMPD","Ebinur Lake","Ebinur Lake 05",44.6985,83.3153611111111,218,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172891154118572,4123.60793864125,8.1997169707829,-14.0512781856414,25.4646961790139,175.463976052839
2010,4754,2891,"CMPD","Ebinur Lake","Ebinur Lake 06",44.7083333333333,83.3295,221,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172920605186028,4121.41560854022,8.18876625749069,-14.0655034075095,25.4585794629898,175.466029313754
2010,4755,2892,"CMPD","Ebinur Lake","Ebinur Lake 07",44.7495277777778,83.3360555555556,210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172981302122932,4131.12831642803,8.2198389105462,-14.0527223807287,25.5116863403191,175.457771748909
2010,4756,2893,"CMPD","Ebinur Lake","Ebinur Lake 08",44.8728611111111,83.3536666666667,201,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182305523919484,4100.70722013152,8.15705153720873,-13.8318883950608,25.4648835586466,184.544328590321
2010,4757,2894,"CMPD","Ebinur Lake","Ebinur Lake 09",44.5656666666667,83.7293055555556,353,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170309747032053,4038.32611781622,7.84193721323584,-14.4194751442325,25.1059321548789,173.158251534111
2010,4758,2895,"CMPD","Ebinur Lake","Ebinur Lake 10",44.5699444444445,83.7428333333333,354,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170238296710686,4038.6057211854,7.84088514207216,-14.4249641356668,25.10995509757,173.086005158405
2010,4759,2896,"CMPD","Ebinur Lake","Ebinur Lake 11",44.56975,83.7433611111111,356,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170289094924896,4036.43418022711,7.83296443799997,-14.4302582611452,25.0998923629953,173.127598079782
2010,4760,2897,"CMPD","Ebinur Lake","Ebinur Lake 12",44.5699444444445,83.7445833333333,354,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170218337318725,4038.82699142675,7.84146644199733,-14.4251355388831,25.111225750473402,173.06827001032
2010,4761,2898,"CMPD","Ebinur Lake","Ebinur Lake 13",44.5708333333333,83.7453888888889,355,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170249901687864,4037.7385544452,7.83734780734807,-14.4281765482062,25.1064519521477,173.092969305109
2010,4762,2899,"CMPD","Ebinur Lake","Ebinur Lake 14",44.5731666666667,83.7449444444444,356,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170313778768787,4036.38863082001,7.83232130232983,-14.4315931576886,25.1005751941209,173.144068349488
2010,4763,2900,"CMPD","Ebinur Lake","Ebinur Lake 15",44.5455555555556,83.7919722222222,385,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.163355330390555,4066.35920142801,7.88274898803085,-14.5401107500234,25.3048456788822,166.687193080904
2010,4764,2901,"CMPD","Ebinur Lake","Ebinur Lake 16",44.5455277777778,83.7943333333333,388,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.163429441969529,4063.2002936703,7.87130672777104,-14.5473930958491,25.2903402659252,166.749388642557
2011,4765,15765,"Neotoma","EC03","EC03",56.02,-74.975,280,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.3955811498599,1019.38970624838,-5.68236151779535,-23.8864002439527,10.282225073834,614.487084305956
2012,4766,14739,"Neotoma","Echo Lake","ECHOCO",39.65822,-105.603265,3230,"not known","lake","core","-38","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.502916014205595,1160.79115605639,-0.972319965168707,-12.0303112495957,10.5439775255614,469.433777144206
2013,4767,11496,"Neotoma","Eckelson Lake","NDBAEC",46.94512,-98.297875,429,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.570052763686439,3021.3808748346,4.58700949521438,-14.7102100485508,21.1094028684066,474.37121611869
2014,4768,12535,"Neotoma","Edward Lake","EDWARD",44.37,-80.25,518,"not known","lake","core","0","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.",,9,"cool mixed forest",1.23788294072494,2783.88657206988,5.42208276177204,-9.15670561324066,18.5372063825643,1040.38620024559
2014,4768,12536,"Neotoma","Edward Lake","EDWARD",44.37,-80.25,518,"not known","lake","core","26","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.",,9,"cool mixed forest",1.23788294072494,2783.88657206988,5.42208276177204,-9.15670561324066,18.5372063825643,1040.38620024559
2015,4769,578,"Australian pollen","Egg Lagoon","Egg Lagoon Core 2",-39.6514,143.9972,17,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.02313461481292,4751.18027001496,13.0169322466163,8.61836315352457,17.8703445968997,1000.24374154553
2015,4770,579,"Australian pollen","Egg Lagoon","Egg Lagoon Core 3",-39.6514,143.9972,17,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.02313461481292,4751.18027001496,13.0169322466163,8.61836315352457,17.8703445968997,1000.24374154553
2016,4771,11351,"Neotoma","Egg Lake (Cole 1069)","HC006",54.35497,-101.39832,305,"not known","lake","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,15,"cold evergreen needleleaf forest",0.744020114347772,2152.6855590602,-0.679120755229543,-22.0959500020814,17.3461348666674,478.480303621839
2017,4772,12537,"Neotoma","Eggert Lake","EGGERT",44.47012,-93.619035,312,"not known","lake","core","-12","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.852125415466369,3438.79040368834,6.88804754138847,-11.5111190258592,22.4097413584345,737.92445205175
2017,4772,12538,"Neotoma","Eggert Lake","EGGERT",44.47012,-93.619035,312,"not known","lake","core","12","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.852125415466369,3438.79040368834,6.88804754138847,-11.5111190258592,22.4097413584345,737.92445205175
2017,4772,12539,"Neotoma","Eggert Lake","EGGERT",44.47012,-93.619035,312,"not known","lake","core","41","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.852125415466369,3438.79040368834,6.88804754138847,-11.5111190258592,22.4097413584345,737.92445205175
2018,4773,9770,"Herzschuh et al., 2019","EhQ","EhQ",36.56,100.74,3189,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.288348257874063,1594.02362838154,0.979278936532698,-12.1445291346979,12.040076362063,292.823823007071
2019,4774,18793,"SMPDSv1","Eidsvatn","Bjune_a301",69.9216666666666,18.85,128,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.51441770508417,1294.80737295354,1.18445821800808,-6.86626993879602,11.6803831344411,913.058364566577
2020,4775,14266,"Neotoma","Eightmile Lake","EIGHTMIL",63.888645,-149.2518,648,"not known","lake","core","36","Unpublished data",,15,"cold evergreen needleleaf forest",0.923416250850218,1397.15750131664,-3.98980334966612,-20.4085398239412,13.1976291359752,373.139579665104
2021,4776,9326,"EMPDv2","EIGMIREPLT","Remazani_a8",36.5433333333333,51.4833333333333,560,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.137336578165847,6530.61647929813,17.8920999432825,4.50322481862691,30.4601323687324,191.553043027219
2022,4777,7413,"EMPDv2","Eikhammersvatn","Hjelle_a2",60.2684601,5.071562,5,"0.034","lake","sediment sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",3.81425740833239,2643.21481034984,7.24168441191738,1.04403674897694,14.0769062540059,1997.68857929854
2023,4778,7193,"EMPDv2","Ein Gedi","EPDcoretop_E2489",31.42,35.39,-415,"760","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.321619408736888,7980.24677367586,21.8636897908928,15.5152992180421,27.8354925575065,522.606908021958
2024,4779,18794,"SMPDSv1","Einarvatn","Bjune_a140",58.4443587,6.64081914,332.5,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.91353420592475,2219.53891187146,5.73760994904207,-2.00802916872674,13.677480366659,1651.73995609943
2025,4780,7223,"EMPDv2","Eini peatland","EPDcoretop_E2594",56.86,26.88,109,"0.3914","archaeological site","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.963483835065717,2527.96174050533,5.1930798764448,-7.3102151014377,16.7406501208402,612.745730828802
2026,4781,7221,"EMPDv2","Eipurs bog","EPDcoretop_E2592",57.25,24.62,49,"0.8429","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.995876809365431,2595.28211394259,5.83673740976036,-5.64162574965926,16.7314892138994,629.763126320479
2027,4782,2902,"CMPD","Ejinaqi","Ejinaqi",42,101,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0770502638883332,3712.06507291713,7.4840499006097,-11.5709299791558,24.212582640891,87.4915066467721
2028,4783,18795,"SMPDSv1","El Acebron","Barboni_a374",37.11666667,-6.5,25,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439260112564379,6513.93211995037,17.846389369727,11.5095019586141,25.2864497070955,582.549911492822
2029,4784,580,"Australian pollen","El Arish","El Arish",-17.8,146,60,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.15679648331019,8831.39271383354,24.1955964762563,19.7985996533742,27.3101778515951,1973.25932280929
2030,4785,18796,"SMPDSv1","El Bierzo","Lopez_a226",42.4894166666666,-6.72544444444444,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.939807492437368,4376.50175824081,11.9904157760022,5.77929643993786,18.9538448345671,937.245000522727
2030,4786,18797,"SMPDSv1","El Bierzo","Lopez_a227",42.4995,-6.72605555555555,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.929532823544123,4298.49850154269,11.7767082234046,5.45300369315737,18.8941507158495,932.148203516397
2030,4787,18798,"SMPDSv1","El Bierzo","Lopez_a228",42.4936666666666,-6.73763888888888,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.918870376346315,4222.52942054413,11.5685737549154,5.12582581087244,18.8479783090937,927.098583134642
2030,4788,18799,"SMPDSv1","El Bierzo","Lopez_a229",42.4846111111111,-6.757,475,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.03669237148773,4399.08197639891,12.0522793873943,6.01026448511867,18.8169735358787,1021.71988258009
2030,4789,18800,"SMPDSv1","El Bierzo","Lopez_a230",42.4895,-6.74875,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.937287812910126,4336.70547413449,11.8813848606424,5.6155560707923,18.9200523411968,936.969594320586
2030,4790,18801,"SMPDSv1","El Bierzo","Lopez_a231",42.483,-6.75461111111111,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.99232397186213,4207.0788001445,11.5262432880671,5.16173285759616,18.7225538568354,993.328034639423
2030,4791,18802,"SMPDSv1","El Bierzo","Lopez_a232",42.4778888888888,-6.75658333333333,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.974935982897805,4130.76159307058,11.3171550495084,4.82244256837546,18.6876214102857,982.106042565852
2030,4792,18803,"SMPDSv1","El Bierzo","Lopez_a233",42.4749166666666,-6.74505555555555,675,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.900606363662924,4110.6901024138,11.2621646641474,4.6351859933512,18.7913898625817,917.697468412599
2030,4793,18804,"SMPDSv1","El Bierzo","Lopez_a234",42.4629444444444,-6.75058333333333,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.922487618686837,3902.02105559796,10.6904686454739,3.80510501644662,18.5835253528941,947.045476552546
2030,4794,18805,"SMPDSv1","El Bierzo","Lopez_a235",42.4624722222222,-6.73919444444444,825,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.865509692499155,3883.84057229518,10.6406591021786,3.65592381531363,18.6563737021176,898.550982311529
2030,4795,18806,"SMPDSv1","El Bierzo","Lopez_a236",42.45575,-6.73877777777777,830,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.863691556272397,3877.113437666,10.6222285963452,3.6234240187241,18.6568113697723,897.493020156679
2030,4796,18807,"SMPDSv1","El Bierzo","Lopez_a237",42.4593055555555,-6.74638888888888,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.860630159096442,3845.55233653068,10.5357598261114,3.4920096340617,18.6318166304422,896.087747236113
2030,4797,18808,"SMPDSv1","El Bierzo","Lopez_a238",42.46475,-6.75952777777777,820,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.917042767956376,3870.52407571304,10.6041755498987,3.6689093365229,18.5641786849225,943.471552778841
2030,4798,18809,"SMPDSv1","El Bierzo","Lopez_a239",42.4605833333333,-6.75838888888888,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.923113337570924,3901.93240391687,10.6902257641558,3.80478107303042,18.5833674432871,947.64372247687
2031,4799,10347,"IBERIA","El Brezosa","BREZOSA_0.01",39.3491,-4.3611,733,"not known","terrestrial, bog/fen/swamp","core","-16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386446070639354,4998.53415280227,13.6946141172665,5.46594040939112,23.9605243134148,483.616852043318
2031,4800,10348,"IBERIA","El Brezosa","BREZOSA_0.04",39.3491,-4.3611,733,"not known","terrestrial, bog/fen/swamp","core","0","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386446070639354,4998.53415280227,13.6946141172665,5.46594040939112,23.9605243134148,483.616852043318
2031,4801,10349,"IBERIA","El Brezosa","BREZOSA_0.08",39.3491,-4.3611,733,"not known","terrestrial, bog/fen/swamp","core","23","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386446070639354,4998.53415280227,13.6946141172665,5.46594040939112,23.9605243134148,483.616852043318
2031,4802,10350,"IBERIA","El Brezosa","BREZOSA_0.12",39.3491,-4.3611,733,"not known","terrestrial, bog/fen/swamp","core","46","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386446070639354,4998.53415280227,13.6946141172665,5.46594040939112,23.9605243134148,483.616852043318
2032,4803,18810,"SMPDSv1","El Campo","Barboni_a768",37.16666667,-1.833333333,39.2383,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.255051772538692,6502.97757771108,17.8163769252358,11.1771021308431,25.7853679812244,326.665199711141
2033,4804,10351,"IBERIA","El Carrizal","CARRIZAL",41.3185,-4.145,860,"not known","lake","core top","0","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.445630436334685,4263.2473652616,11.68012976784,3.93698161449594,20.9890174808861,525.371157214273
2034,4805,10439,"IBERIA","El Maíllo mire","MAI",40.54666667,-6.209722222,1100,"not known","terrestrial, bog/fen/swamp","core top","-29","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.442373152172033,3718.87227335039,10.1886911598641,2.27816408728932,19.5959072307076,531.681773360604
2035,4806,24328,"Neotoma","El Patía-1","PATIA1",2.01125,-77.11505,580,"not known","terrestrial, bog/fen/swamp","core","-50","Vélez Caicedo, M.I. 2003. A contribution of diatom analysis to Lateglacial and Holocene environmental reconstructions of Colombian lowland and montane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Vélez, M.I., J.C. Berrio, H. Hooghiemstra, S. Metcalfe, and R. Marchant. 2005. Palaeoenvironmental changes during the last ca. 8590 calibrated yr (7800 radiocarbon yr) in the dry forest ecosystem of the Patía Valley, Southern Colombian Andes: a multiproxy approach. Palaeogeography, Palaeoclimatology, Palaeoecology 216(3-4):279-302.",";
10.1016/j.palaeo.2004.11.006",4,"warm-temperate evergreen and mixed forest",2.52227306037665,8788.64468757252,24.0784785960891,23.809161251106,24.4678129026188,3368.80622272199
2036,4807,24329,"Neotoma","El Patía-2","PATIA2",2.01125,-77.11505,580,"not known","terrestrial, bog/fen/swamp","core","-50","Vélez Caicedo, M.I. 2003. A contribution of diatom analysis to Lateglacial and Holocene environmental reconstructions of Colombian lowland and montane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Vélez, M.I., J.C. Berrio, H. Hooghiemstra, S. Metcalfe, and R. Marchant. 2005. Palaeoenvironmental changes during the last ca. 8590 calibrated yr (7800 radiocarbon yr) in the dry forest ecosystem of the Patía Valley, Southern Colombian Andes: a multiproxy approach. Palaeogeography, Palaeoclimatology, Palaeoecology 216(3-4):279-302.",";
10.1016/j.palaeo.2004.11.006",4,"warm-temperate evergreen and mixed forest",2.52227306037665,8788.64468757252,24.0784785960891,23.809161251106,24.4678129026188,3368.80622272199
2037,4808,10440,"IBERIA","El Payo","ELPAYO_0.01",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-56","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4809,10441,"IBERIA","El Payo","ELPAYO_0.03",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4810,10442,"IBERIA","El Payo","ELPAYO_0.05",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4811,10443,"IBERIA","El Payo","ELPAYO_0.07",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-28","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4812,10444,"IBERIA","El Payo","ELPAYO_0.09",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-17","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4813,10445,"IBERIA","El Payo","ELPAYO_0.11",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4814,10446,"IBERIA","El Payo","ELPAYO_0.13",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4815,10447,"IBERIA","El Payo","ELPAYO_0.15",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4816,10448,"IBERIA","El Payo","ELPAYO_0.17",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4817,10449,"IBERIA","El Payo","ELPAYO_0.19",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","38","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2037,4818,10450,"IBERIA","El Payo","ELPAYO_0.21",40.2535,-6.7712,984,"not known","terrestrial, bog/fen/swamp","core","49","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.579388299397999,3956.34152455152,10.8392918480863,3.10185010329891,20.0552824122118,676.147797729838
2038,4819,10352,"IBERIA","El Perro mire","ELPERRO_0.05",39.0513,-4.7596,690,"not known","terrestrial, bog/fen/swamp","core","-69","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.392836928369746,5126.03213100598,14.0439236465917,5.76543856395902,24.3708607094377,493.734845768865
2038,4820,10353,"IBERIA","El Perro mire","ELPERRO_0.21",39.0513,-4.7596,690,"not known","terrestrial, bog/fen/swamp","core","-44","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.392836928369746,5126.03213100598,14.0439236465917,5.76543856395902,24.3708607094377,493.734845768865
2038,4821,10354,"IBERIA","El Perro mire","ELPERRO_0.23",39.0513,-4.7596,690,"not known","terrestrial, bog/fen/swamp","core","-23","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.392836928369746,5126.03213100598,14.0439236465917,5.76543856395902,24.3708607094377,493.734845768865
2038,4822,10355,"IBERIA","El Perro mire","ELPERRO_0.25",39.0513,-4.7596,690,"not known","terrestrial, bog/fen/swamp","core","12","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.392836928369746,5126.03213100598,14.0439236465917,5.76543856395902,24.3708607094377,493.734845768865
2038,4823,10356,"IBERIA","El Perro mire","ELPERRO_0.27",39.0513,-4.7596,690,"not known","terrestrial, bog/fen/swamp","core","49","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.392836928369746,5126.03213100598,14.0439236465917,5.76543856395902,24.3708607094377,493.734845768865
2039,4824,18811,"SMPDSv1","El Portillo 1","Barboni_a766",41.916667,-6.3,870,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.722382712974847,3977.20056890792,10.8964399148162,3.54810741692156,19.3980570529581,790.156376934664
2040,4825,18812,"SMPDSv1","El Portillo 2","Barboni_a767",41.916667,-6.3,870,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.722382712974847,3977.20056890792,10.8964399148162,3.54810741692156,19.3980570529581,790.156376934664
2041,4826,10357,"IBERIA","El Redondo","REDONDO",40.2214,-5.6569,1765,"not known","terrestrial, bog/fen/swamp","core top","31","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.420708893613164,2127.9576228705,5.37274872475736,-2.44184188890388,14.9330476068593,489.542830171144
2042,4827,10358,"IBERIA","El Tiemblo","TIEMBLO",40.3575,-4.5263,1250,"not known","terrestrial, bog/fen/swamp","core top","3","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.473013643522014,3358.77700719319,9.20212878683065,1.65470891029127,18.6518251156738,554.566792357832
2043,4828,6014,"EMBSeCBIO","Elatia-Rhodopes","ERHOD_0",41.479722,24.325833,1520,"0.009","terrestrial, bog/fen/swamp","core","-45","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.807098689614509,2462.68389125609,5.53883283318167,-5.74055425903088,15.7718279961381,734.691650978533
2044,4829,11501,"Neotoma","Elbow Lake","NDBEEL",47.893725,-98.7373499999999,445,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.581982778974492,2865.04565197563,3.73178241394744,-15.8378513325496,20.3516698033569,472.62166306132
2045,4830,8303,"EMPDv2","Eldena near Greifswald","Mrotzek_a2",54.0812694444444,13.4470194444444,27,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.852947915405297,3104.01961829114,8.39620536225034,-0.84774807291347,17.4087884197069,591.197959821408
2045,4831,8304,"EMPDv2","Eldena near Greifswald","Mrotzek_a3",54.0711361111111,13.4656916666667,30,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.852739635143842,3108.02716049595,8.40835447231546,-0.845165144096961,17.4175046201458,590.867576377452
2045,4832,8312,"EMPDv2","Eldena near Greifswald","Mrotzek_d1",54.0772027777778,13.4736666666667,18,"not known","terrestrial, bog/fen/swamp","peat","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.851942168482397,3094.56365941426,8.36509671647249,-0.869215645928302,17.3959557135856,591.626403096506
2046,4833,15528,"Neotoma","Eldon","CJH107",48.1,-124.67,15,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.25457822644715,3499.13406451259,9.58666866989752,4.0016817980065,15.9831417194781,2380.69356762559
2047,4834,12541,"Neotoma","Eldora Fen","ELDORA",39.936667,-105.58,2848,"not known","terrestrial, bog/fen/swamp","profile or section","-6","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.46075196490559,1621.18549359346,1.43710409846824,-9.68450463215077,13.3098552669045,446.183961381394
2047,4834,12542,"Neotoma","Eldora Fen","ELDORA",39.936667,-105.58,2848,"not known","terrestrial, bog/fen/swamp","profile or section","30","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.46075196490559,1621.18549359346,1.43710409846824,-9.68450463215077,13.3098552669045,446.183961381394
2048,4835,14462,"Neotoma","Eleanor Lake","ELEANOR",52.11139,-119.300964999999,677,"not known","lake","core","-50","Gavin, D.G., A.C.G. Henderson, K.S. Westover, S.C. Fritz, I.R. Walker, M.J. Leng, and F.S. Hu. 2011. Abrupt Holocene climate change and potential response to solar forcing in western Canada. Quaternary Science Reviews 30(9-10):1243-1255.","10.1016/j.quascirev.2011.03.003",15,"cold evergreen needleleaf forest",1.06306817296603,2618.84775848864,5.94412465866629,-5.77448655915646,17.3862959844612,798.147947928268
2049,4836,11806,"Neotoma","Electra Lake","LMSJ19",37.567715,-107.805325,2551,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.411903011357913,2362.38903092185,4.61093689573491,-8.02328053590357,17.0559034462895,470.632060426295
2050,4837,13646,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","-53","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13647,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","-23","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13648,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","-13","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13649,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","0","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13650,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","11","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13651,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","35","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2050,4837,13652,"Neotoma","Elevenses Lake","ELEVENS",46.3815,-91.4935,355,"not known","lake","core","45","Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.964591604861052,2802.86695774069,4.58349229256509,-12.8938209996736,19.5479452790768,751.352198159185
2051,4838,7497,"EMPDv2","Elgene Kjuel","Klemm_a52",71.29435,125.55048,157,"0.96","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.860657843082938,1040.40928101597,-16.3509560707887,-45.2537991846209,13.3720163766322,288.327274372996
2052,4839,7056,"EMPDv2","Elgennya Lake","EPDcoretop_E1787",62.09,149.01,1040,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.08710199629382,609.108717947368,-13.8431651538462,-34.6045250595041,7.75407804619729,366.450898972211
2053,4840,6230,"EMPDv2","Elgygytgyn Chukotka","Binney2017_E2188",67.5,172,495,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.938569227455767,626.354029002144,-13.1487407194235,-30.2463695967915,8.51541499466725,276.583768505334
2054,4841,7061,"EMPDv2","Elikchan 4 Lake","EPDcoretop_E1794",60.73,151.89,800,"0.039","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.18739549779368,807.351861087606,-10.3230790549974,-29.0164417711659,9.16945958545134,414.321513147609
2055,4842,16602,"Neotoma","Elishas Pond","MGW006",41.7,-70.22,6,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.41213813072596,3953.76000868664,10.6066239895194,-1.71331575861782,22.3910291359827,1276.95913468857
2056,4843,10917,"Bush et al., 2020","ElJuncoEJA","ElJuncoEJA",-0.894805556,-89.48116667,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.59010505238482,7900.85551300347,21.6461794876808,19.2524028616464,24.1320812383092,906.256251992369
2057,4844,10918,"Bush et al., 2020","ElJuncoEJB","ElJuncoEJB",-0.894638889,-89.48102778,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590103267069771,7900.83913879848,21.6461346268452,19.2523595760075,24.1320360375805,906.252842407918
2058,4845,10919,"Bush et al., 2020","ElJuncoEJC","ElJuncoEJC",-0.894222222,-89.48069444,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.59009906389504,7900.79762472673,21.6460208896623,19.2522489504349,24.1319219880271,906.24463585189994
2059,4846,10920,"Bush et al., 2020","ElJuncoEJD","ElJuncoEJD",-0.894194444,-89.48030556,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590091911893814,7900.81019347365,21.6460553245853,19.2523054359794,24.1319421966847,906.235706006851
2060,4847,10921,"Bush et al., 2020","ElJuncoEJE","ElJuncoEJE",-0.893972222,-89.47983333,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590084150026452,7900.80037661086,21.6460284290708,19.2522977477365,24.1319037224773,906.224595452821
2061,4848,10922,"Bush et al., 2020","ElJuncoEJF","ElJuncoEJF",-0.894555556,-89.479,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590065659970322,7900.91287417658,21.6463366415797,19.2526790793822,24.1321619878729,906.20634898741
2062,4849,10923,"Bush et al., 2020","ElJuncoEJG","ElJuncoEJG",-0.894444444,-89.47927778,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590071415385598,7900.88646426718,21.6462642856635,19.2525856968085,24.1321037624678,906.212549382743
2063,4850,10924,"Bush et al., 2020","ElJuncoEJH","ElJuncoEJH",-0.895222222,-89.47880556,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590058739765588,7901.0097093189,21.6466019433395,19.2529827695138,24.1323995876727,906.202830828576
2064,4851,10925,"Bush et al., 2020","ElJuncoEJI","ElJuncoEJI",-0.895222222,-89.47875,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590057697375766,7901.01203438585,21.6466083133859,19.252992452807,24.1324038030374,906.201559113415
2065,4852,10926,"Bush et al., 2020","ElJuncoEJJ","ElJuncoEJJ",-0.895194444,-89.47861111,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590055227831969,7901.01415147228,21.6466141136227,19.2530054195666,24.1324050567504,906.19834110942
2066,4853,10927,"Bush et al., 2020","ElJuncoEJL","ElJuncoEJL",-0.896388889,-89.47983333,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590072294140889,7901.12192446477,21.6469093820953,19.2532758128511,24.1327115982154,906.227984620527
2067,4854,10928,"Bush et al., 2020","ElJuncoEJM","ElJuncoEJM",-0.896638889,-89.48027778,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590079402912392,7901.13660269912,21.6469495964359,19.2532995812149,24.1327614810262,906.238504474659
2068,4855,10929,"Bush et al., 2020","ElJuncoEJN","ElJuncoEJN",-0.896277778,-89.48027778,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590081173478021,7901.0885634485,21.6468179820507,19.2531534599192,24.1326407833686,906.237997320691
2069,4856,10930,"Bush et al., 2020","ElJuncoEJO","ElJuncoEJO",-0.896305556,-89.48083333,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590091452348139,7901.06904034685,21.646764494101,19.2530679863058,24.1326079819871,906.250743324198
2070,4857,10931,"Bush et al., 2020","ElJuncoEJP","ElJuncoEJP",-0.896111111,-89.48075,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590090843494639,7901.04665273469,21.6467031581772,19.2530038035952,24.1325492958551,906.248564000183
2071,4858,10932,"Bush et al., 2020","ElJuncoEJQ","ElJuncoEJQ",-0.896,-89.48138889,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590103361861213,7901.00517192547,21.6465895121246,19.2528476380376,24.1324637571566,906.263015815446
2072,4859,10933,"Bush et al., 2020","ElJuncoEJR","ElJuncoEJR",-0.895305556,-89.48133333,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590105724148581,7900.91508624241,21.646342702034,19.2525762392522,24.1322357896857,906.260766383151
2073,4860,10934,"Bush et al., 2020","ElJuncoEJS","ElJuncoEJS",-0.894833333,-89.48205556,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590121567449477,7900.82205949019,21.6460878342197,19.2522593980932,24.132023164435,906.276604164823
2074,4861,10935,"Bush et al., 2020","ElJuncoEJT","ElJuncoEJT",-0.892666667,-89.48133333,621,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590118662096353,7900.56383871413,21.6453803800387,19.2515078758109,24.1313532695923,906.257044132579
2075,4862,10936,"Bush et al., 2020","ElJuncoMudWater0.5cm","ElJuncoMudWater0.5cm",-0.895,-89.48,621,"not known","lake","lake surface sample","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.590082232066128,7900.93017183724,21.6463840324308,19.2526847236381,24.132234702935,906.229849381415
2076,4863,15236,"Neotoma","Elk","AMD003",42.55,-91.28,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.913860218554735,3528.37481649011,7.60781303483354,-9.91985844595215,22.3055767396174,828.162661522008
2077,4864,13827,"Neotoma","Elk Lake","ELKGR-89",45.8668,-95.80385,366,"not known","lake","core","-39","Jaumann, P.J. 1995. Century to millennium-scale late Quaternary natural climate variability in the Midwestern United States. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA. Notes: Thesis supervisor: Richard G. Baker",,22,"steppe",0.716768149543142,3197.33662237708,5.54648538723464,-13.4917080084652,21.6422351184899,604.163468520954
2077,4864,13828,"Neotoma","Elk Lake","ELKGR-89",45.8668,-95.80385,366,"not known","lake","core","-24","Jaumann, P.J. 1995. Century to millennium-scale late Quaternary natural climate variability in the Midwestern United States. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA. Notes: Thesis supervisor: Richard G. Baker",,22,"steppe",0.716768149543142,3197.33662237708,5.54648538723464,-13.4917080084652,21.6422351184899,604.163468520954
2077,4864,13829,"Neotoma","Elk Lake","ELKGR-89",45.8668,-95.80385,366,"not known","lake","core","8","Jaumann, P.J. 1995. Century to millennium-scale late Quaternary natural climate variability in the Midwestern United States. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA. Notes: Thesis supervisor: Richard G. Baker",,22,"steppe",0.716768149543142,3197.33662237708,5.54648538723464,-13.4917080084652,21.6422351184899,604.163468520954
2077,4864,13830,"Neotoma","Elk Lake","ELKGR-89",45.8668,-95.80385,366,"not known","lake","core","39","Jaumann, P.J. 1995. Century to millennium-scale late Quaternary natural climate variability in the Midwestern United States. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA. Notes: Thesis supervisor: Richard G. Baker",,22,"steppe",0.716768149543142,3197.33662237708,5.54648538723464,-13.4917080084652,21.6422351184899,604.163468520954
2077,4865,13858,"Neotoma","Elk Lake","MNCLE4",47.1891899999999,-95.21787,448,"not known","lake","core","-24","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4865,13859,"Neotoma","Elk Lake","MNCLE4",47.1891899999999,-95.21787,448,"not known","lake","core","17","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4865,13860,"Neotoma","Elk Lake","MNCLE4",47.1891899999999,-95.21787,448,"not known","lake","core","40","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4866,13863,"Neotoma","Elk Lake","MNCLEB",47.1891899999999,-95.21787,448,"not known","lake","core","-43","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4866,13864,"Neotoma","Elk Lake","MNCLEB",47.1891899999999,-95.21787,448,"not known","lake","core","-21","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4866,13865,"Neotoma","Elk Lake","MNCLEB",47.1891899999999,-95.21787,448,"not known","lake","core","15","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4866,13866,"Neotoma","Elk Lake","MNCLEB",47.1891899999999,-95.21787,448,"not known","lake","core","50","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4867,13861,"Neotoma","Elk Lake","MNCLEC",47.1891899999999,-95.21787,448,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4867,13862,"Neotoma","Elk Lake","MNCLEC",47.1891899999999,-95.21787,448,"not known","lake","core","20","Unpublished data",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13871,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","-20","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13872,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","-8","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13873,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","3","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13874,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","13","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13875,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","24","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13876,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","34","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4868,13877,"Neotoma","Elk Lake","MNCLED",47.1891899999999,-95.21787,448,"not known","lake","core","45","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4869,13867,"Neotoma","Elk Lake","MNCLEL",47.1891899999999,-95.21787,448,"not known","lake","core","12","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4869,13868,"Neotoma","Elk Lake","MNCLEL",47.1891899999999,-95.21787,448,"not known","lake","core","27","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4869,13869,"Neotoma","Elk Lake","MNCLEL",47.1891899999999,-95.21787,448,"not known","lake","core","42","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2077,4869,13870,"Neotoma","Elk Lake","MNCLEL",47.1891899999999,-95.21787,448,"not known","lake","core","48","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.815023759252609,2963.86164266134,4.51377827851541,-14.7466902182742,20.486561726517,655.822921594151
2078,4870,15747,"Neotoma","Elk Pass","DRW047",44.09652,-73.825975,1024,"not known","not known","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.57967910190988,2183.39964376373,3.24708570811845,-10.4871870949944,15.7232931568094,1141.8245163455
2079,4871,14186,"Neotoma","Elkhorn Slough","ELKHORN",36.82535,-121.76415,0,"not known","coastal, estuarine","core","-23","Dietz, S.A., W.R. Hildebrandt, and T. Jones. 1988. Archaeological investigations at Elkhorn Slough: CA-MNT-229 A Middle Period site on the central California coast. Papers in Northern California Anthropology, Northern California Anthropological Group, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.404477050914286,5485.93725768993,15.0299650895615,8.57165769076341,20.8120188816254,526.499864150513
2080,4872,8732,"EMPDv2","Ellbachsee","Roesch_a3",48.484314,8.305813,770,"0.029","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.54238819755931,2873.30657826976,7.72312545251122,-1.22995838056365,16.5259994394025,1161.6824441123
2081,4873,16544,"Neotoma","Ellis Pond","KG038",44.58,-70.68,248,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.53381105804132,2770.11233989134,5.46810669792945,-9.19473354279775,18.9387672810131,1176.20796859053
2082,4874,17325,"Neotoma","Ellwood","TW028",45.857778,-88.141944,343,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02072799273495,2736.97546798472,4.62943887918248,-11.567912355329,19.1501799562259,788.653585690919
2083,4875,11526,"Neotoma","Elm Pond","FH-11",39.0931549999999,-96.55071,428,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.707787114522745,4678.73089929933,12.4454569712008,-2.90223599755705,26.5249151754597,793.224886913092
2084,4876,18813,"SMPDSv1","Elmali","Barboni_a769",36.67222222,29.89166667,1030,"18000","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432647063808662,4863.29763322091,13.3241031047148,3.64774505988321,23.3959411517502,632.62993437801
2085,4877,15518,"Neotoma","Elwha","CJH097",48.02,-123.04,61,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",13,"temperate deciduous broadleaf forest",2.22404690591931,3669.82561626145,10.0543167568807,3.66717719282898,17.0112296451243,1727.54678619076
2086,4878,12543,"Neotoma","Ely Lake","ELYLAKE",41.766667,-75.833333,384,"not known","lake","core","10","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.18290638410837,3382.73808004434,8.20067384511332,-5.55903044678841,20.8391165415372,1010.20676197827
2086,4878,12544,"Neotoma","Ely Lake","ELYLAKE",41.766667,-75.833333,384,"not known","lake","core","50","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., A.M. Swain, and G.M. Peterson. 1987. Late Holocene pollen stratigraphy in four northeastern United States lakes. Geographie Physique et Quaternaire 41:377-386.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8",9,"cool mixed forest",1.18290638410837,3382.73808004434,8.20067384511332,-5.55903044678841,20.8391165415372,1010.20676197827
2087,4879,15001,"Neotoma","Emerald Lake","EMERALDL",39.1516249999999,-106.40628,3051,"not known","lake","core","-64","Jiménez-Moreno, G., R.S. Anderson, B.N. Shuman, and E. Yackulic. 2019. Forest and lake dynamics in response to temperature, North American monsoon and ENSO variability during the Holocene in Colorado (USA). Quaternary Science Reviews 211:59-72.","10.1016/j.quascirev.2019.03.013",17,"temperate evergreen needleleaf open woodland",0.513835499467527,1384.99342369329,0.0315697215736099,-11.6351519304803,11.8713810963575,497.713293057479
2087,4879,15002,"Neotoma","Emerald Lake","EMERALDL",39.1516249999999,-106.40628,3051,"not known","lake","core","1","Jiménez-Moreno, G., R.S. Anderson, B.N. Shuman, and E. Yackulic. 2019. Forest and lake dynamics in response to temperature, North American monsoon and ENSO variability during the Holocene in Colorado (USA). Quaternary Science Reviews 211:59-72.","10.1016/j.quascirev.2019.03.013",17,"temperate evergreen needleleaf open woodland",0.513835499467527,1384.99342369329,0.0315697215736099,-11.6351519304803,11.8713810963575,497.713293057479
2087,4879,15003,"Neotoma","Emerald Lake","EMERALDL",39.1516249999999,-106.40628,3051,"not known","lake","core","50","Jiménez-Moreno, G., R.S. Anderson, B.N. Shuman, and E. Yackulic. 2019. Forest and lake dynamics in response to temperature, North American monsoon and ENSO variability during the Holocene in Colorado (USA). Quaternary Science Reviews 211:59-72.","10.1016/j.quascirev.2019.03.013",17,"temperate evergreen needleleaf open woodland",0.513835499467527,1384.99342369329,0.0315697215736099,-11.6351519304803,11.8713810963575,497.713293057479
2088,4880,11606,"Neotoma","Emery","EME-1C",43.78819,-89.4504599999999,261,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.921694301857152,3399.83496943043,7.33086880965684,-9.43676312631652,21.867889687302,794.103203348596
2088,4881,11605,"Neotoma","Emery","EME-1M",43.78819,-89.4504599999999,261,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.921694301857152,3399.83496943043,7.33086880965684,-9.43676312631652,21.867889687302,794.103203348596
2089,4882,17323,"Neotoma","Emily","TW026",45.874722,-88.283333,381,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02210746416791,2697.61262272516,4.38801233008635,-11.973682793497,19.0254528440786,787.46544707581
2090,4883,15398,"Neotoma","Emily Lake","AMS129",44.5,-89.5,259,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.925201476386919,3336.81611693385,7.01130212862815,-9.87840289905688,21.6862623796818,782.434836817903
2091,4884,16750,"Neotoma","Emma Lake Area","RJM012",53.558333,-105.866667,494,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.618966056451424,2238.73513735177,0.422897572896586,-19.531940916396,17.0539152706745,426.745996900198
2092,4885,18814,"SMPDSv1","EMPD_Iran_IR26","Barboni_a819",35.53,46.33,1450,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.303990958096297,4730.5989994951,12.8761371159415,-0.930800861200112,26.0647011365417,437.320762843474
2093,4886,18815,"SMPDSv1","EMPD_Iran_IR28","Barboni_a820",35.52,46.41,1800,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.341065624721032,3916.66034692134,10.1464192344195,-4.00686705194251,23.4214427250209,460.772542567591
2094,4887,18816,"SMPDSv1","EMPD_Iran_IR91","Barboni_a821",33.69,46.41,1500,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.342048588988075,4719.49284229284,12.8990411858505,-0.349437961070957,25.8631772937206,496.284995228854
2095,4888,18817,"SMPDSv1","EMPD_Iran_IR92","Barboni_a822",33.69,46.41,1500,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.342048588988075,4719.49284229284,12.8990411858505,-0.349437961070957,25.8631772937206,496.284995228854
2096,4889,9601,"Gaillard et al., 1992","Eneskar","Eneskar",56.129042,15.803276,26,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.864281687953584,2762.32702256709,7.31191266804132,-1.46727245869385,16.5521446753736,576.760399794166
2097,4890,9602,"Gaillard et al., 1992","Eneskar-Hallarum","Eneskar-Hallarum",56.141958,15.79803,0,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.855791832359969,2811.36219113602,7.49211652680954,-1.25162414454596,16.6889258943928,571.917808253233
2098,4891,9477,"EMPDv2","Enganapeh-1","Novenko_c192",67.1556,64.4686,140,"0.01","terrestrial, soil","soil sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19731150529251,1106.65519113627,-6.3190931492758,-24.1500136025505,13.406800229124,431.658390536959
2099,4892,9478,"EMPDv2","Enganapeh-2","Novenko_c193",67.1617,64.4744,130,"0.01","terrestrial, soil","soil sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19385849842461,1119.36290340654,-6.22548491036399,-24.0672303277902,13.5027957793987,431.459422172176
2100,4893,9479,"EMPDv2","Enganapeh-3","Novenko_c194",67.15447,64.4725,145,"0.01","terrestrial, soil","soil sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19899076084888,1100.27215712147,-6.36669834891607,-24.1923691065618,13.3582183400768,431.721285985201
2101,4894,9480,"EMPDv2","Enganapeh-4","Novenko_c195",67.1594,64.4689,152,"0.01","terrestrial, soil","soil sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20122139740823,1091.19182068948,-6.43395544585913,-24.2503236281067,13.2888018664775,431.663200603585
2102,4895,9481,"EMPDv2","Enganapeh-5","Novenko_c196",67.1544,64.4725,140,"0.01","terrestrial, soil","soil sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19733421543792,1106.69134064238,-6.31911744019219,-24.1505917117281,13.4070357945009,431.688480815095
2103,4896,15250,"Neotoma","English River","AMD017",43.4,-90.5,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.924150263551404,3314.27412383707,6.76536423085188,-10.5873459395925,21.5726443171011,801.71845272765
2104,4897,6231,"EMPDv2","Engteri 1","Binney2017_E2189",61.18,152.89,885,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14626206323488,782.33141684307,-11.6480872058719,-31.6407402215239,9.16601962982669,401.339437058213
2105,4898,6232,"EMPDv2","Engteri 2","Binney2017_E2190",61.18,152.89,885,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14626206323488,782.33141684307,-11.6480872058719,-31.6407402215239,9.16601962982669,401.339437058213
2106,4899,16312,"Neotoma","Ennadai Lake Site 3","JTA107",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4900,16305,"Neotoma","Ennadai Lake Site 3","JTA108",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4901,16300,"Neotoma","Ennadai Lake Site 3","JTA109",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4902,16301,"Neotoma","Ennadai Lake Site 3","JTA110",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4903,16295,"Neotoma","Ennadai Lake Site 3","JTA111",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4904,16302,"Neotoma","Ennadai Lake Site 3","JTA112",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4905,16296,"Neotoma","Ennadai Lake Site 3","JTA113",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4906,16308,"Neotoma","Ennadai Lake Site 3","JTA114",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4907,16293,"Neotoma","Ennadai Lake Site 3","JTA115",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4908,16304,"Neotoma","Ennadai Lake Site 3","JTA116",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4909,16297,"Neotoma","Ennadai Lake Site 3","JTA117",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4910,16294,"Neotoma","Ennadai Lake Site 3","JTA118",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4911,16311,"Neotoma","Ennadai Lake Site 3","JTA119",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4912,16298,"Neotoma","Ennadai Lake Site 3","JTA120",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4913,16306,"Neotoma","Ennadai Lake Site 3","JTA121",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4914,16307,"Neotoma","Ennadai Lake Site 3","JTA122",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4915,16299,"Neotoma","Ennadai Lake Site 3","JTA123",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4916,16310,"Neotoma","Ennadai Lake Site 3","JTA124",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4917,16292,"Neotoma","Ennadai Lake Site 3","JTA125",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4918,16309,"Neotoma","Ennadai Lake Site 3","JTA126",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2106,4919,16303,"Neotoma","Ennadai Lake Site 3","JTA127",61.13,-100.88,400,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.878213039288414,1303.99933563833,-7.09826784603968,-29.11091755871,14.2106579725618,401.812631550536
2107,4920,16327,"Neotoma","Ennadai Lake Site 4","JTA128",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4921,16314,"Neotoma","Ennadai Lake Site 4","JTA129",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4922,16313,"Neotoma","Ennadai Lake Site 4","JTA130",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4923,16323,"Neotoma","Ennadai Lake Site 4","JTA131",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4924,16316,"Neotoma","Ennadai Lake Site 4","JTA132",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4925,16317,"Neotoma","Ennadai Lake Site 4","JTA133",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4926,16319,"Neotoma","Ennadai Lake Site 4","JTA134",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4927,16318,"Neotoma","Ennadai Lake Site 4","JTA135",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4928,16325,"Neotoma","Ennadai Lake Site 4","JTA136",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4929,16326,"Neotoma","Ennadai Lake Site 4","JTA137",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4930,16324,"Neotoma","Ennadai Lake Site 4","JTA138",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4931,16322,"Neotoma","Ennadai Lake Site 4","JTA139",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4932,16321,"Neotoma","Ennadai Lake Site 4","JTA140",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4933,16315,"Neotoma","Ennadai Lake Site 4","JTA141",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2107,4934,16320,"Neotoma","Ennadai Lake Site 4","JTA142",62.03,-99.73,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.779707028032866,935.414496623296,-10.5544492614585,-31.5449848261432,11.7494822572005,300.108558858488
2108,4935,581,"Australian pollen","Enoggra State Forest","Enoggra State Forest",-28.25,153.167,350,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.779120493849761,6624.83409538047,18.1502303983027,11.9557782410032,23.2037026255605,1161.16350927491
2109,4936,18832,"SMPDSv1","Enol","MPPE 1 (144.1)",43.3536111111111,-5.12366666666667,132,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.946502334732721,4840.11503121559,13.260589126618,8.06362716617478,19.0860265307865,879.74135358353
2109,4937,18839,"SMPDSv1","Enol","MPPE 10 (144.8)",43.2708611111111,-4.99336111111111,1076,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.770692639179396,3487.18270096959,9.55392520813586,2.48514354376789,17.7684212719801,807.857963661247
2109,4938,18833,"SMPDSv1","Enol","MPPE 2 (144.2)",43.3309444444444,-5.09686111111111,157,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.940600699571737,4804.63210998956,13.163375643807,7.91184534723276,19.0519568310566,877.606411167906
2109,4939,18834,"SMPDSv1","Enol","MPPE 3 (144.3)",43.3156944444444,-5.06733333333333,199,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.931651845983122,4744.47754426806,12.998568614433,7.65966477310739,18.9884085929771,874.381464524948
2109,4940,18835,"SMPDSv1","Enol","MPPE 4 (144.4)",43.3021388888888,-5.07566666666667,382,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.895675515799237,4481.57217398537,12.278279928727,6.57822043085203,18.6859777849505,861.003815047617
2109,4941,18836,"SMPDSv1","Enol","MPPE 5 (144.5)",43.3003055555555,-5.03883333333333,519,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.869867461922637,4284.62036180859,11.7386859227633,5.76687241594916,18.4619333006266,850.916681301302
2109,4942,18837,"SMPDSv1","Enol","MPPE 7 (144.6)",43.2894166666666,-5.01475,862,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.808215586610551,3792.51623355332,10.3904554343926,3.74357318400259,18.0174353606928,825.131514983079
2109,4943,18838,"SMPDSv1","Enol","MPPE 9 (144.7)",43.2800555555555,-5.00352777777778,992,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.785458741706996,3606.74652839098,9.88149733805748,2.97848493449591,17.8652924517365,814.841878670442
2109,4944,18818,"SMPDSv1","Enol","PNPE 1 (143.1)",43.3094444444444,-4.9825,410,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.890448468507737,4440.9436642239,12.1669689430792,6.40677507539687,18.6463881614107,858.913971348018
2109,4945,18819,"SMPDSv1","Enol","PNPE 2A (143.2)",43.3219444444444,-5.00361111111111,263,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.919488379625324,4651.74395055297,12.7445039741177,7.27482881948173,18.8866856263109,870.075747115417
2109,4946,18820,"SMPDSv1","Enol","PNPE 2B (143.3)",43.32,-5.00361111111111,263,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.919391054447597,4651.82384995559,12.7447228765907,7.27482470005227,18.8871382589278,870.025768083505
2109,4947,18821,"SMPDSv1","Enol","PNPE 3 (143.4)",43.3411111111111,-5.02083333333333,178,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.937125749173328,4773.45005443733,13.0779453546228,7.77837116797112,19.0228165608422,876.630205530307
2109,4948,18822,"SMPDSv1","Enol","PNPE 4A (143.5)",43.305,-5.05361111111111,393,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.893672842190819,4465.61113396356,12.234551051955,6.51173963235535,18.6690916888313,860.233070822237
2109,4949,18823,"SMPDSv1","Enol","PNPE 4B (143.6)",43.3048888888888,-5.05402777777778,444,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.884110961482254,4392.21954763764,12.0334782127059,6.21042313720653,18.5841215117175,856.571236328099
2109,4950,18824,"SMPDSv1","Enol","PNPE 4C (143.7)",43.3062222222222,-5.05375,353,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.901321898980361,4523.11899299938,12.3921068301353,6.74808807528947,18.7353995173798,863.140476583982
2109,4951,18825,"SMPDSv1","Enol","PNPE 4D (143.8)",43.3070277777777,-5.05266666666667,265,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.918305810800123,4649.73103974141,12.7389891499765,7.26795173194808,18.8819339714481,869.475192361602
2109,4952,18826,"SMPDSv1","Enol","PNPE 5 (143.9)",43.2924444444444,-5.05816666666667,808,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.818411002489306,3869.19898034376,10.6005451516267,4.05996080661462,18.0798330576213,829.974081838538
2109,4953,18827,"SMPDSv1","Enol","PNPE 6 (143.10)",43.2641111111111,-4.99966666666667,1096,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.767053657237974,3458.9071657123,9.47645798825287,2.36700819712621,17.7473369858943,806.168773961334
2109,4954,18828,"SMPDSv1","Enol","PNPE 7A (143.11)",43.2656944444444,-5.01961111111111,973,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.787856426509766,3634.84456326802,9.95847825552882,3.08981181630568,17.8936924232161,815.904063122534
2109,4955,18829,"SMPDSv1","Enol","PNPE 7B (143.12)",43.2656944444444,-5.02002777777778,967,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.788864139873381,3643.45026369465,9.98205551697165,3.12515571361584,17.9008588000586,816.358133174229
2109,4956,18830,"SMPDSv1","Enol","PNPE 8 (143.13)",43.3537222222222,-5.12336111111111,75,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.957812263826319,4922.44224797215,13.4861431451292,8.40164849413986,19.1814044073121,883.61984142553
2109,4957,18831,"SMPDSv1","Enol","PNPE 9 (143.14)",43.3497777777777,-5.01855555555556,171,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.938913146251703,4783.21189071239,13.1046901115408,7.81948766651442,19.0329712075528,877.330291450492
2110,4958,17333,"Neotoma","Enterprise","TW036",45.455278,-89.241389,504,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.033953227386,2579.39620379687,3.68168141773173,-13.072987284292,18.5994842825063,795.280249985553
2111,4959,7929,"EMPDv2","Episcopia","Mercuri_i10",40.062872,16.064911,629,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.646821996621631,4822.71208467171,13.2129098210184,5.82620080747142,21.8188004468822,765.9947553255
2111,4960,7930,"EMPDv2","Episcopia","Mercuri_i11",40.062999,16.0655095,639,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.648441958636562,4801.12614384827,13.1537702571186,5.76357441843395,21.7647285050637,767.279113220229
2111,4961,7928,"EMPDv2","Episcopia","Mercuri_i9",40.062763,16.064849,629,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.646821807094523,4822.72860177348,13.212955073352,5.82626134566895,21.8188403279998,765.996958566017
2112,4962,18840,"SMPDSv1","ER02","Barboni_a22",40.93,-3.7,1060,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.483194962462039,3887.32784505089,10.650213274112,2.98539565283128,20.205813180617,560.37318757534
2113,4963,18841,"SMPDSv1","ER13","Barboni_a23",40.96,-3.8,1280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.562223490328189,3258.0020705578,8.92603307002136,1.55320629986212,18.2108049764809,626.989451349968
2114,4964,18842,"SMPDSv1","ER17","Barboni_a25",40.98,-3.8,1430,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.621562487763926,2839.86132015707,7.78044197303306,0.595208322453735,16.9131840190876,673.450765660706
2115,4965,18843,"SMPDSv1","ER22","Barboni_a26",40.98,-3.8,1680,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.726655520225168,2195.18838259924,5.87217464475285,-0.999981562338369,14.7517430425994,749.806842936264
2116,4966,18844,"SMPDSv1","ER25","Barboni_a27",40.98,-3.8,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.804320100901041,1827.01636040274,4.57455286152231,-2.084710683997,13.2819631785874,801.728975483644
2117,4967,18845,"SMPDSv1","ER28","Barboni_a28",40.98,-3.83,2120,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.935229772186519,1354.9790678364,2.53296735578836,-3.79282437477465,10.9796123275179,881.737832708183
2118,4968,18846,"SMPDSv1","ER45","Barboni_a29",41.1,-3.81,1156,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.521713053580695,3597.81046691092,9.85701497783814,2.33107434539418,19.255423470851,592.706696576176
2119,4969,18847,"SMPDSv1","ER47","Barboni_a30",41.11,-3.8,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.520164428775786,3613.73534686171,9.90064478592249,2.36760288363356,19.3037403697633,591.333882267513
2120,4970,18848,"SMPDSv1","Erach river","Erach river_SS (Novenko_c207)",62.6661,53.8328,170,"not applicable","fluvial","surface sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.35131526975095,1804.39689868421,-0.38324292257916,-18.0271165070834,16.8156100285542,613.815162808593
2121,4971,2903,"CMPD","Erhai","Erhai ES",25.7667,100.2,1969,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819440551710199,5808.92500562843,15.914863029119,8.91889415975893,20.9824329016392,1102.32144034237
2122,4972,2904,"CMPD","Erlucuo","Erlucuo",31.55,91.7,4530,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.37276491598345,1187.95674196351,-0.724708851157178,-12.4946829476082,9.68693964077722,413.453570699235
2123,4973,10545,"IBERIA","Es Grau","ESGRAU_0",39.94805556,4.258611111,2,"not known","terrestrial, marsh","core","-13","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.519932045561852,6077.79613866635,16.6514962703188,9.22049673393328,25.3000697807829,647.918157659877
2123,4974,10546,"IBERIA","Es Grau","ESGRAU_0.1",39.94805556,4.258611111,2,"not known","terrestrial, marsh","core","31","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.519932045561852,6077.79613866635,16.6514962703188,9.22049673393328,25.3000697807829,647.918157659877
2124,4975,17372,"Neotoma","Esau Lake","TW077",45.18,-85.28,274,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.988000549221464,2943.49527637348,6.0706796049357,-8.50298428997961,19.5976127197219,790.311121529722
2125,4976,10937,"Bush et al., 2020","Escondido","Escondido",16.11,-91.68,1523,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51372415112097,7035.13823751319,19.2743513356526,17.0679067874594,20.9974975155162,2391.78142494649
2126,4977,13653,"Neotoma","Eska Lake","ESKALAKE",45.19145,-90.608,443,"not known","lake","core","-51","Unpublished data",,9,"cool mixed forest",1.0013322856783,2768.03641920868,4.44880440657788,-12.6542143388555,19.47539015049,791.136667276869
2126,4977,13654,"Neotoma","Eska Lake","ESKALAKE",45.19145,-90.608,443,"not known","lake","core","-40","Unpublished data",,9,"cool mixed forest",1.0013322856783,2768.03641920868,4.44880440657788,-12.6542143388555,19.47539015049,791.136667276869
2126,4977,13655,"Neotoma","Eska Lake","ESKALAKE",45.19145,-90.608,443,"not known","lake","core","-20","Unpublished data",,9,"cool mixed forest",1.0013322856783,2768.03641920868,4.44880440657788,-12.6542143388555,19.47539015049,791.136667276869
2126,4977,13656,"Neotoma","Eska Lake","ESKALAKE",45.19145,-90.608,443,"not known","lake","core","1","Unpublished data",,9,"cool mixed forest",1.0013322856783,2768.03641920868,4.44880440657788,-12.6542143388555,19.47539015049,791.136667276869
2127,4978,9320,"EMPDv2","ESKANFORES","Remazani_a2",36.5944444444444,51.5202777777778,150,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.108568554390732,7218.36238137055,19.7763352914262,6.73433914524133,32.0833833360691,151.759092159433
2128,4979,9321,"EMPDv2","ESKANSP501","Remazani_a3",36.5930555555556,51.5225,160,"2.5e-05","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.109237027208233,7201.94841991631,19.7313655340173,6.68116515683672,32.0444722030629,152.689916771616
2129,4980,16379,"Neotoma","Esker (CA:Nunavut)","JTA201",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4981,16387,"Neotoma","Esker (CA:Nunavut)","JTA202",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4982,16381,"Neotoma","Esker (CA:Nunavut)","JTA203",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4983,16385,"Neotoma","Esker (CA:Nunavut)","JTA204",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4984,16384,"Neotoma","Esker (CA:Nunavut)","JTA205",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4985,16386,"Neotoma","Esker (CA:Nunavut)","JTA206",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4986,16380,"Neotoma","Esker (CA:Nunavut)","JTA207",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4987,16382,"Neotoma","Esker (CA:Nunavut)","JTA208",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4988,16378,"Neotoma","Esker (CA:Nunavut)","JTA209",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2129,4989,16383,"Neotoma","Esker (CA:Nunavut)","JTA210",66.22,-92.38,250,"not known","terrestrial","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.81219521005556,503.622744474055,-14.5046712644249,-33.9916161259005,7.74094813634985,239.008471944449
2130,4990,16472,"Neotoma","Eskimo Point","JTA294",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4991,16477,"Neotoma","Eskimo Point","JTA295",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4992,16474,"Neotoma","Eskimo Point","JTA296",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4993,16471,"Neotoma","Eskimo Point","JTA297",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4994,16475,"Neotoma","Eskimo Point","JTA298",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4995,16476,"Neotoma","Eskimo Point","JTA299",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2130,4996,16473,"Neotoma","Eskimo Point","JTA300",61.1,-94.08,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.812518806157838,882.269139891007,-10.0357848627587,-30.2825058207983,10.8589573177451,307.306580198058
2131,4997,18849,"SMPDSv1","Espeland","Bjune_a214",58.3616666666666,7.79833333333333,242,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.19834316016663,2266.89583428609,5.49616938266668,-3.56741061233757,14.5993968106888,1302.93189281356
2132,4998,10938,"Bush et al., 2020","Esperanca","Esperanca",0.284935,-66.677248,298,"not known","terrestrial","soil sample","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05332610407226,8969.05978131539,24.5727665241518,23.6600239989818,25.101153463281,2889.85107920973
2133,4999,23217,"SMPDSv1","EST/TK/MIF_MIT","EST/TK/MIF_MIT",58.2,26.1,80,"not applicable","terrestrial","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02946243130181,2469.42723202737,5.13082974392483,-6.80846596940473,16.6038714482344,629.353915910598
2134,5000,23218,"SMPDSv1","EST/TK/MIO","EST/TK/MIO",58.1,26.1,80,"not applicable","terrestrial","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02637947380704,2472.38749730228,5.14249929637145,-6.80149790714618,16.6078904014342,628.840728947388
2135,5001,18850,"SMPDSv1","Estanca Alcanoz","Barboni_a1395",41.061043,-0.189987,343,"131.071","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413996257985822,5352.35576545624,14.6639883985102,6.742419667259,23.7693016712632,507.86542551257
2136,5002,18851,"SMPDSv1","Estanca Chiprana, Caspe","Barboni_a1397",41.236204,-0.141378,125,"17.303","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384849236293704,5810.29070571928,15.9186046732035,7.95061604184445,24.9114796045372,481.244123187492
2137,5003,10528,"IBERIA","Estanya","Estanya core top",42.02826,0.52905,677,"not known","lake","core top","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.608272458979478,4432.10700635096,12.1427589215095,4.20792756406026,21.2288422283839,692.835528051509
2138,5004,18852,"SMPDSv1","Estarres I","Barboni_a788",43.093333,-0.379167,371,"10","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.822490276500383,4555.68113393347,12.4813181751602,4.90762451469177,20.8135101418877,857.603958628735
2139,5005,10939,"Bush et al., 2020","Estrellani","Estrellani",-16.33795,-68.0426,4673,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.190122937506259,1878.67567205895,5.14705663577793,1.78821570982003,7.46314840548592,271.851730850139
2140,5006,7085,"EMPDv2","Etang Bouquin","EPDcoretop_E1981",47.27,4.02,540,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.06120528454335,3421.88628597017,9.37503092046623,0.774441365978822,18.3311847416937,912.020158847766
2141,5007,18853,"SMPDSv1","Etang d'Ouveillan","EPDcoretop_E737",43.266667,3,6,"not known","lake","lacustrine core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.640490502402114,5240.64324591266,14.3579267011306,6.66512492420144,23.0180106221431,684.68555703949
2142,5008,18854,"SMPDSv1","Etang d'y Cor, Montana","EPDcoretop_E1169",46.31125,7.47875,1500,"0.002","lake","lacustrine core top","12","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.06221795342327,1924.8306904429,4.54077364285154,-3.45089560517627,12.9540473646353,1630.52455824219
2143,5009,18855,"SMPDSv1","Etang de la Gruere","EPDcoretop_E1084",47.239164,7.049019,1005,"0.225","terrestrial, bog/fen/swamp","peat core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72769586931251,2499.60687186761,6.5896195725794096,-1.77883993863585,15.1480506349673,1349.95756631858
2144,5010,18856,"SMPDSv1","Etang paysan","EPDcoretop_E1330",49.696111,-1.867222,41,"not known","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21051589289453,3939.90841467084,10.7942696292352,5.27964301212812,16.9314696715055,911.830143019747
2145,5011,18857,"SMPDSv1","Etela-Hiislampi","Seppa_b61",61.98,26.75,108,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05467945111875,2179.35416410837,3.38928516389628,-9.69508254257635,16.5563050794934,568.650507255353
2146,5012,18858,"SMPDSv1","Ettevatn","Bjune_a102",58.7887031,8.58134141,218,"small (0.01-1 km2)","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.91598074198189,2213.82182038201,5.08528890863361,-4.51399773132893,14.697742172881,1118.82818778852
2147,5013,18859,"SMPDSv1","EUR1","Barboni_a416",43.15,-4.8,1860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.577853372112024,2571.39283372914,6.68452388686317,-2.11422163932677,17.2804225339314,679.578953112496
2148,5014,18860,"SMPDSv1","EUR2","Barboni_a417",43.15,-4.817222,1840,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.581917104452535,2588.99632254943,6.75888984424184,-2.00217353386863,17.3019287113649,682.776624397694
2149,5015,18861,"SMPDSv1","EUR3","Barboni_a418",43.118889,-4.817222,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.715207214025175,3655.5330172425,10.0151589513493,2.90238068083759,18.2548197919242,760.849946270059
2150,5016,18862,"SMPDSv1","EUR4","Barboni_a419",43.117222,-4.767222,760,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.758582336946925,3994.28926446326,10.9432582588034,4.30305828967688,18.5229490104037,783.09103421107
2151,5017,18863,"SMPDSv1","EUR5","Barboni_a420",43.118889,-4.718889,670,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.776527948126183,4114.09815104268,11.2715017836786,4.78114065129343,18.62996694188,789.455575377033
2152,5018,18864,"SMPDSv1","EUR6","Barboni_a421",43.167222,-4.668889,460,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.84060431539615,4393.31617030919,12.0364826583814,5.96921884559336,18.8399527726555,826.317560885698
2153,5019,18865,"SMPDSv1","EUR7","Barboni_a422",43.067222,-4.767222,1598,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.608016171388619,2844.72929701513,7.72609672600933,-0.572996767990417,17.6189609689767,696.553442604927
2154,5020,18866,"SMPDSv1","EUR8","Barboni_a423",43.068889,-4.75,1620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.572776135037849,2850.34558878236,7.74164869918275,-0.57453651799251,17.6540551196866,663.175661426432
2155,5021,18867,"SMPDSv1","EUR9","Barboni_a424",43.068889,-4.85,1380,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.647003779699439,3123.6033182142,8.5578173101759,0.682348134867135,17.8586784873653,722.337524242035
2156,5022,18868,"SMPDSv1","EURA","Barboni_a425",43.117222,-4.867222,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.64121210381771,3018.92259171514,8.27102079921956,0.267899132294639,17.7531672432989,720.214777549468
2157,5023,18869,"SMPDSv1","EURB","Barboni_a426",43.1,-4.7,1190,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.646337293987105,3409.78032588434,9.34186390653243,1.8320123155557,18.1388307479899,707.198352736097
2158,5024,18870,"SMPDSv1","EURC","Barboni_a427",43.1,-4.668889,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.728892320603786,3869.98843801414,10.6027080493538,3.75613123186667,18.4628574953926,760.403579504165
2159,5025,18871,"SMPDSv1","EURD","Barboni_a428",43.117222,-4.618889,540,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.815650037550052,4286.07848128062,11.7426807706318,5.50602318366971,18.7468978354335,812.232310266834
2160,5026,18872,"SMPDSv1","EURE","Barboni_a429",43.218889,-4.568889,130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.951679143865525,4831.89374566372,13.2380650566129,7.82823884782796,19.2531768527348,886.177982975862
2161,5027,7960,"EMPDv2","Evai_1","Mikishin-Gvozdeva_a20",52.2408333333333,143.059722222222,5,"not known","fluvial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21881042919767,1861.55533656682,-0.671433457556613,-18.9753113680581,15.3923617061127,650.469827561088
2162,5028,7961,"EMPDv2","Evai_2","Mikishin-Gvozdeva_a21",52.2405555555556,143.059444444444,3,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21798424130041,1863.43139428528,-0.66476276772294,-18.972861657179,15.4025788227253,650.116870437194
2163,5029,7962,"EMPDv2","Evai_3","Mikishin-Gvozdeva_a22",52.2388888888889,143.043333333333,6,"0.25","fluvial","moss polster or moss","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21866882192117,1861.0225206625,-0.675378695924354,-18.9824475929036,15.3893570532589,650.454479775615
2164,5030,13613,"Neotoma","Everhart Lake","EVRHRTLK",43.6175999999999,-93.43875,392,"not known","lake","core","-27","Unpublished data",,13,"temperate deciduous broadleaf forest",0.882987488454961,3514.36681358713,7.36533457901685,-10.38576247198,22.500573204326,791.204027529326
2164,5030,13614,"Neotoma","Everhart Lake","EVRHRTLK",43.6175999999999,-93.43875,392,"not known","lake","core","1","Unpublished data",,13,"temperate deciduous broadleaf forest",0.882987488454961,3514.36681358713,7.36533457901685,-10.38576247198,22.500573204326,791.204027529326
2164,5030,13615,"Neotoma","Everhart Lake","EVRHRTLK",43.6175999999999,-93.43875,392,"not known","lake","core","33","Unpublished data",,13,"temperate deciduous broadleaf forest",0.882987488454961,3514.36681358713,7.36533457901685,-10.38576247198,22.500573204326,791.204027529326
2164,5030,13616,"Neotoma","Everhart Lake","EVRHRTLK",43.6175999999999,-93.43875,392,"not known","lake","core","48","Unpublished data",,13,"temperate deciduous broadleaf forest",0.882987488454961,3514.36681358713,7.36533457901685,-10.38576247198,22.500573204326,791.204027529326
2165,5031,582,"Australian pollen","Evoran Pond","Evoran Pond_a",-18.7689,169.0019,190,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.47867754181466,8234.06228699375,22.559074758887,20.1084320900239,25.0935730776592,2068.05270017088
2165,5032,583,"Australian pollen","Evoran Pond","Evoran Pond_b",-18.7689,169.0019,190,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.47867754181466,8234.06228699375,22.559074758887,20.1084320900239,25.0935730776592,2068.05270017088
2165,5033,584,"Australian pollen","Evoran Pond","Evoran Pond_c",-18.7689,169.0019,190,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.47867754181466,8234.06228699375,22.559074758887,20.1084320900239,25.0935730776592,2068.05270017088
2166,5034,585,"Australian pollen","Eweburn Bog","Eweburn Bog X97/10_0",-45.32,167.8089,320,"not known","terrestrial, bog/fen/swamp","core","0","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",22,"steppe",2.5614058063393,3011.91345717936,8.25181769090237,3.23939222324403,12.8745391047449,1918.24272832559
2166,5035,586,"Australian pollen","Eweburn Bog","Eweburn Bog X97/10_10",-45.32,167.8089,320,"not known","terrestrial, bog/fen/swamp","core","41","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",22,"steppe",2.5614058063393,3011.91345717936,8.25181769090237,3.23939222324403,12.8745391047449,1918.24272832559
2167,5036,12547,"Neotoma","Exchequer Meadow","EXCHEQUE",37,-119.833333,2219,"not known","terrestrial","core","0","Davis, O.K., and M.J. Moratto. 1988. Evidence for a warm dry early Holocene in the western Sierra Nevada of California: pollen and plant macrofossil analysis of Dinkey and Exchequer Meadows. Madroño 35:132-149.",,22,"steppe",0.646652329635046,2729.31752834864,7.42460108423873,-0.327206880738108,17.3584515236033,807.480390715228
2168,5037,18873,"SMPDSv1","EXT1","Barboni_a430",39.168889,-5.85,410,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.440195459550498,5732.03589380736,15.7042079282393,7.92754210831424,25.1093875411178,554.222941102765
2169,5038,18874,"SMPDSv1","EXT2","Barboni_a431",39.367222,-5.368889,570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414464787225663,5342.01277687924,14.6356514435048,6.62014369117295,24.462460680609,520.011429454138
2170,5039,18875,"SMPDSv1","EXT3","Barboni_a432",39.368889,-5.318889,830,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413309991181638,4635.73340530957,12.7006394666016,4.6830505194188,22.6032362823223,512.020679923901
2171,5040,18876,"SMPDSv1","EXT4","Barboni_a433",39.468889,-5.318889,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414904382113839,4162.22431733824,11.4033542940774,3.4128953308939,21.3090386058599,508.552113207306
2172,5041,18877,"SMPDSv1","EXT5","Barboni_a434",39.468889,-5.318889,975,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414802750446306,4230.56504193058,11.5905891559742,3.5986672647744,21.4917634807207,509.135541754524
2173,5042,18878,"SMPDSv1","EXT6","Barboni_a435",39.517222,-5.35,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.41549203961046,4566.98245063394,12.5122806866683,4.5235797534951,22.3726647736196,513.009554279619
2174,5043,18879,"SMPDSv1","EXT7","Barboni_a436",39.518889,-5.367222,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415852159260288,4566.13034726647,12.5099461568944,4.52284671520324,22.3670634684702,513.407775646865
2175,5044,18880,"SMPDSv1","EXT8","Barboni_a437",39.6,-5.417222,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417752348347483,4557.63267332803,12.486664858433,4.5165270797946,22.314306001847,515.033672003819
2176,5045,8282,"EMPDv2","Extrepieraz","Montanari_a8",45.7805055555556,7.69924444444445,1395,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.86825853627322,2186.89321602279,5.50012655593061,-2.70676776457674,14.1188709362763,1555.78723349074
2177,5046,17247,"Neotoma","F Lake","LFR68093",50.7346,-99.95205,695,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.64997770493957,2302.86550372156,0.96315090423246,-18.5110896487843,17.3410829581088,482.704395824761
2178,5047,18881,"SMPDSv1","F035 (EMBSECBIO)","F035",48.5,52.5,-10,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.20388176077451,3914.71492754933,8.35210602447078,-10.1108359376208,25.6984623272766,193.807729684615
2179,5048,18882,"SMPDSv1","F042 (EMBSECBIO)","F042",48,46.5,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",0.280788266593591,3934.03141530674,9.31078696948664,-7.03325526339207,24.6499627349319,267.817333090277
2180,5049,18883,"SMPDSv1","F043 (EMBSECBIO)","F043",48.03,44.66,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.351598875641576,3823.22860774036,8.99080893593645,-7.05814897248769,23.9969252858957,332.969411764724
2181,5050,18884,"SMPDSv1","F092 (EMBSECBIO)","F092",45.83,34.33,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476738543123863,3913.25466669747,10.4951313741674,-1.84222200371645,22.170853071643,463.540348921025
2182,5051,18885,"SMPDSv1","F093 (EMBSECBIO)","F093",45.83,34.33,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476738543123863,3913.25466669747,10.4951313741674,-1.84222200371645,22.170853071643,463.540348921025
2183,5052,18886,"SMPDSv1","F094 (EMBSECBIO)","F094",45.83,34.33,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476738543123863,3913.25466669747,10.4951313741674,-1.84222200371645,22.170853071643,463.540348921025
2184,5053,18887,"SMPDSv1","F095 (EMBSECBIO)","F095",46.45,33.9,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476052405845418,3774.69323553439,9.96468704355293,-2.75473471527041,21.7669462982516,446.825390180674
2185,5054,18888,"SMPDSv1","F096 (EMBSECBIO)","F096",46.45,33.9,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476052405845418,3774.69323553439,9.96468704355293,-2.75473471527041,21.7669462982516,446.825390180674
2186,5055,18889,"SMPDSv1","F097 (EMBSECBIO)","F097",46.45,33.9,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476052405845418,3774.69323553439,9.96468704355293,-2.75473471527041,21.7669462982516,446.825390180674
2187,5056,18890,"SMPDSv1","F098 (EMBSECBIO)","F098",46.45,33.9,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476052405845418,3774.69323553439,9.96468704355293,-2.75473471527041,21.7669462982516,446.825390180674
2188,5057,18891,"SMPDSv1","F099 (EMBSECBIO)","F099",46.45,33.9,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.476052405845418,3774.69323553439,9.96468704355293,-2.75473471527041,21.7669462982516,446.825390180674
2189,5058,18892,"SMPDSv1","F102 (EMBSECBIO)","F102",48.26,24.35,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.913239165030608,3027.63027104371,7.39995146164465,-5.26967970572236,17.6392145702449,720.158701666082
2190,5059,18893,"SMPDSv1","F106 (EMBSECBIO)","F106",43,44.66,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.784333542116552,3106.14852757016,7.12828778228317,-6.68761769455587,19.8193441804478,741.753869126788
2191,5060,18894,"SMPDSv1","F107 (EMBSECBIO)","F107",39.41,53.5,-28,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.118884791486716,5803.0775422617,15.8988425815389,3.10149171785639,28.4953253733894,152.30299380530101
2192,5061,18895,"SMPDSv1","F108 (EMBSECBIO)","F108",39.41,54.33,-10,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.114142600204372,5820.57681269023,15.9467857881924,2.86247510978306,28.8308182610615,148.075844322267
2193,5062,18896,"SMPDSv1","F109 (EMBSECBIO)","F109",39.41,54.75,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.115433744949972,5741.85597944891,15.7311122724628,2.28503634254726,28.9905704168135,151.192547197991
2194,5063,18897,"SMPDSv1","F110 (EMBSECBIO)","F110",39.33,55.66,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.115595334789353,5744.30607809784,15.7378248715009,1.47095280180515,29.8274553279301,151.759535181
2195,5064,18898,"SMPDSv1","F111 (EMBSECBIO)","F111",39,54.16,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.125494808056273,5961.3799350404,16.332547767234,3.54129799129764,28.7730046876838,162.384800058361
2196,5065,18899,"SMPDSv1","F112 (EMBSECBIO)","F112",38.91,54.08,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.12621723078711,5968.04430369892,16.3508063115039,3.58487123556513,28.7540291786932,163.334918130153
2197,5066,18900,"SMPDSv1","F113 (EMBSECBIO)","F113",39.91,54.16,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.120799036769945,5272.85528841903,14.4461788723809,0.712469706633504,28.1199071536642,157.323995822688
2198,5067,18901,"SMPDSv1","F114 (EMBSECBIO)","F114",39.41,57.41,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.114388354107042,5729.72960398298,15.6978893259808,0.626875385428034,30.6599590224623,150.542244866385
2199,5068,18902,"SMPDSv1","F115 (EMBSECBIO)","F115",39.08,57.08,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.121948063987314,5846.07865534471,16.0166538502595,1.02742499524984,30.8681922893799,160.729919536223
2200,5069,18903,"SMPDSv1","F116 (EMBSECBIO)","F116",40,57.58,80,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.109432048640715,5502.50844775343,15.0560975172276,-0.145478311762396,30.1467096414384,143.135776739953
2201,5070,18904,"SMPDSv1","F117 (EMBSECBIO)","F117",41.5,58.75,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0863952178521363,4885.69027856907,12.9430618520507,-3.01945021508981,28.5846353326029,111.366086430284
2202,5071,18905,"SMPDSv1","F118 (EMBSECBIO)","F118",41.66,59,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0854432386101791,4843.68839828961,12.7773752016551,-3.27260577705152,28.4718653423287,110.050752288715
2203,5072,18906,"SMPDSv1","F119 (EMBSECBIO)","F119",41.41,58.08,80,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0917947007399026,4969.36992713733,13.2785421646703,-2.45249878002704,28.7799909182029,118.014708744831
2204,5073,10940,"Bush et al., 2020","F11t-TI-4C7.5cm","F11t-TI-4C7.5cm",-13.189342,-71.589116,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.968672987174394,4696.33118791288,12.8666607888024,10.8591527070448,14.1434323456324,1424.11601842597
2205,5074,18907,"SMPDSv1","F120 (EMBSECBIO)","F120",41.5,58.08,80,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0915676478761611,4954.6925500304,13.2249015572082,-2.52468587677112,28.7392751572771,117.555587778807
2206,5075,18908,"SMPDSv1","F121 (EMBSECBIO)","F121",41.41,57.58,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0905783176669292,5014.56376003816,13.4399723537701,-2.22625438875599,28.9078733288801,116.304321857923
2207,5076,18909,"SMPDSv1","F122 (EMBSECBIO)","F122",41.16,57.58,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0931354965301864,5092.35503114088,13.7110018902023,-1.88879229432663,29.1310449168577,120.010999221114
2208,5077,18910,"SMPDSv1","F123 (EMBSECBIO)","F123",41.75,57.16,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0861560004565922,5056.26654269843,13.5683055983807,-2.13819341974614,29.0713739799242,110.323845599015
2209,5078,18911,"SMPDSv1","F129 (EMBSECBIO)","F129",48.61,61.26,80,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.17642773881581,3755.03273832943,6.6602079284773,-13.9226160814092,25.8802261163646,167.470927944023
2210,5079,10941,"Bush et al., 2020","F12t-PGPE2L1","F12t-PGPE2L1",-13.151481,-71.638673,3568,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.64933113212111,3702.22924580179,10.1430938241145,8.07781450961144,11.4787523153671,947.215794036532
2211,5080,10942,"Bush et al., 2020","F13t-PE4WL1","F13t-PE4WL1",-13.1872,-71.59279,3301,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795445784246542,4141.4306287483,11.3463852842419,9.30519712712336,12.6554324127387,1164.61180885221
2212,5081,18912,"SMPDSv1","F146 (EMBSECBIO)","F146",48.93,24.08,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.949266306184272,2964.97635835494,7.21741096536001,-5.20774159118772,17.3864240297494,733.855037310297
2213,5082,10943,"Bush et al., 2020","F14t-PE5WL1","F14t-PE5WL1",-13.189845,-71.591205,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.968378929748237,4696.23022617735,12.8663841813078,10.8589362998655,14.1431483362989,1423.6641536196
2214,5083,10944,"Bush et al., 2020","F15t-PE1WL1","F15t-PE1WL1",-13.179592,-71.587492,2956,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.972803964999508,4712.04242545393,12.9097052752163,10.9033355198034,14.1857740531467,1430.43246917631
2215,5084,18913,"SMPDSv1","F168 (EMBSECBIO)","F168",48.58,27.16,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.569199407058556,3834.09224154934,10.0471247685301,-3.28397486903468,21.6362968421716,510.220040270301
2216,5085,10945,"Bush et al., 2020","F16t-PI2WL1","F16t-PI2WL1",-13.18144,-71.589752,2956,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.972584438319845,4711.82658364939,12.9091139278065,10.9027707088489,14.18515330076,1430.0767169331
2217,5086,10946,"Bush et al., 2020","F1t-TI6C17cm","F1t-TI6C17cm",-13.1895,-71.58684,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.969046728038753,4696.38303067886,12.8668028237777,10.8592081669751,14.1435706583878,1424.68045057892
2218,5087,18914,"SMPDSv1","F221 (EMBSECBIO)","F221",40.75,45,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.491599753907463,3813.78796560931,9.92038165035116,-3.57797963254265,22.4329518461726,542.079484785606
2219,5088,5931,"EMBSeCBIO","F222","F222",42.08,41.71,20,"not known","not known","not known","assumed modern","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",1.42626978102142,5520.54427172428,15.1247788266419,5.9156728283999,23.6198114370989,1455.24316245751
2220,5089,18915,"SMPDSv1","F223 (EMBSECBIO)","F223",42,43,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11854867318135,3693.06422868327,9.8858402375244,-1.91144815515908,20.2218344161714,1110.06658738956
2221,5090,18916,"SMPDSv1","F224 (EMBSECBIO)","F224",42.11,44.96,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.615862877981847,3902.43215614645,10.3077276207426,-2.75588120881304,22.5953092885196,627.327765145496
2222,5091,18917,"SMPDSv1","F225 (EMBSECBIO)","F225",47.5,40.75,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.538051182785414,3954.83276797834,10.0747191644713,-4.49086719078547,23.3983077257025,521.917148648221
2223,5092,18918,"SMPDSv1","F237 (EMBSECBIO)","F237",43.41,42.15,1600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1008694583717,2207.60514265011,3.66474845682051,-9.48493371495398,15.3397785095393,998.285575329642
2224,5093,18919,"SMPDSv1","F238 (EMBSECBIO)","F238",43.3,41.63,1800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14759512679602,1945.81074146052,2.48123183077665,-10.68775913585,14.1168870973405,1032.1926262503
2225,5094,18920,"SMPDSv1","F250 (EMBSECBIO)","F250",40.78,43.8,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.555018467821664,3303.12824650374,7.8984805075368,-6.29602966168436,20.3946545678501,604.06453909261
2226,5095,18921,"SMPDSv1","F251 (EMBSECBIO)","F251",41.05,43.6,2200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.513076022598912,2190.8288877423,2.8658955361441,-12.3640004317865,15.9238334350007,551.598374085975
2227,5096,18922,"SMPDSv1","F274 (EMBSECBIO)","F274",47.51,40.75,80,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.540134230348814,3860.02191094535,9.68084595825586,-5.02978503033803,23.1027626134637,519.103671739612
2228,5097,18923,"SMPDSv1","F275 (EMBSECBIO)","F275",47.15,38.33,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.578802875080155,4033.05732496004,10.5904012828798,-3.14548345719222,23.1270215260603,565.012672827246
2229,5098,10947,"Bush et al., 2020","F2t-644.1A2-3cm","F2t-644.1A2-3cm",-13.173686,-71.626409,3306,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.787095806971275,4133.16539798504,11.3237408163974,9.28357730363988,12.6335515606068,1152.25754938346
2230,5099,10948,"Bush et al., 2020","F3t-TI-6A4cm","F3t-TI-6A4cm",-13.1895,-71.58684,2965,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.969046728038753,4696.38303067886,12.8668028237777,10.8592081669751,14.1435706583878,1424.68045057892
2231,5100,10949,"Bush et al., 2020","F8t-3831.1A1-2cm","F8t-3831.1A1-2cm",-12.930943,-71.794759,3471,"not known","terrestrial","moss polster or moss","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.610388533486723,3874.15008652809,10.6141098261044,8.59806210578734,11.9494767703084,891.64069020679506
2232,5101,10950,"Bush et al., 2020","Facus1_2","Facus1_2",-12.1,-71.1092,318,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.12052480799466,9014.47063281012,24.6971798159181,22.8381078399799,25.6359350224206,3085.68815727605
2233,5102,18924,"SMPDSv1","Fagerlitjern","Bjune_a81",59.32823133,9.47975323,276,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59232032978696,2134.84657675178,4.51149332866795,-5.66810745252349,14.682311333385,919.311189359563
2234,5103,16559,"Neotoma","Fahi Pond","KG053",44.9,-69.9,126,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.49149695449914,2857.36953910352,5.87397916417578,-8.67580903842211,19.3687563594588,1151.42968715167
2235,5104,15517,"Neotoma","Fairholm","CJH096",47.93,-123.2,884,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",13,"temperate deciduous broadleaf forest",2.72095153749658,2801.95933521453,7.67660091839598,1.34460065807273,15.02252877314,2117.6363732271
2236,5105,12548,"Neotoma","Faith Pond","FAITH",47.272455,-96.09405,347,"not known","lake","core","-12","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.693266077739138,2984.22448026735,4.32199358468912,-15.4393731093257,20.6891425095918,562.255893791966
2236,5105,12549,"Neotoma","Faith Pond","FAITH",47.272455,-96.09405,347,"not known","lake","core","16","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.693266077739138,2984.22448026735,4.32199358468912,-15.4393731093257,20.6891425095918,562.255893791966
2236,5105,12550,"Neotoma","Faith Pond","FAITH",47.272455,-96.09405,347,"not known","lake","core","44","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.693266077739138,2984.22448026735,4.32199358468912,-15.4393731093257,20.6891425095918,562.255893791966
2237,5106,17545,"Neotoma","Falcon Lake","LFR65084",49.7004,-95.2408,328,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87.",,9,"cool mixed forest",0.761706183690196,2607.91958693369,2.27216467771385,-18.2172858246008,19.2536406685008,574.321531262556
2238,5107,13657,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","-53","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13658,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","-14","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13659,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","-7","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13660,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13661,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","3","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13662,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13663,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2238,5107,13664,"Neotoma","Fallison Lake","FALLISON",45.9915,-89.62075,501,"not known","lake","core","25","Unpublished data",,9,"cool mixed forest",1.03278113671901,2642.46260801865,3.96546996355007,-12.8131307283488,18.8924621160323,794.963393233647
2239,5108,6995,"EMPDv2","Fangeas","EPDcoretop_E1476",44.72,6.45,2000,"0.0157","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.743958038537,1667.98914271538,3.59062492433592,-3.85410391044278,12.0482550951985,1535.92936482941
2240,5109,14174,"Neotoma","Farewell Lake","FAREWELL",62.559145,-153.64882,320,"not known","lake","core","-40","Hu, F.S., L.B. Brubaker, and P.M. Anderson. 1996. Boreal ecosystem development in the northwestern Alaska Range since 11,000 yr. B.P. Quaternary Research 45:188-201.",,15,"cold evergreen needleleaf forest",1.08671061158911,1470.66104846861,-3.26703583226609,-19.6086929416019,13.4234996151346,448.286662015337
2241,5110,17354,"Neotoma","Farm Pond","TW059",43.1,-90,300,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.919605202691639,3419.72393695415,7.3240649133617,-9.74958731240379,21.8844257418627,810.820703744091
2242,5111,12553,"Neotoma","Farquar Lake","FARQUAR",44.75815,-93.16449,273,"not known","lake","core","-13","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.853881289762162,3447.45201004373,6.94290689407428,-11.4783866921468,22.4595565221914,732.670025930303
2242,5111,12554,"Neotoma","Farquar Lake","FARQUAR",44.75815,-93.16449,273,"not known","lake","core","10","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.853881289762162,3447.45201004373,6.94290689407428,-11.4783866921468,22.4595565221914,732.670025930303
2242,5111,12555,"Neotoma","Farquar Lake","FARQUAR",44.75815,-93.16449,273,"not known","lake","core","35","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.853881289762162,3447.45201004373,6.94290689407428,-11.4783866921468,22.4595565221914,732.670025930303
2243,5112,18925,"SMPDSv1","Farshesjon","EPDcoretop_E221",56.166667,15.866667,14,"0.5","lake","lacustrine core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.860172453086908,2779.68478882494,7.3797252028563,-1.36992484531223,16.601161034381,573.814817205147
2244,5113,18926,"SMPDSv1","Fattoria Fabrizio","Mercuri_e1",40.4416666666666,16.7288888888888,112,"not applicable","archaeological site","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.58322322157053,5802.90565325421,15.8983716527513,8.39811467134803,24.4197784342855,709.576059358652
2244,5114,18927,"SMPDSv1","Fattoria Fabrizio","Mercuri_e2",40.4416666666666,16.7288888888888,112,"not applicable","archaeological site","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.58322322157053,5802.90565325421,15.8983716527513,8.39811467134803,24.4197784342855,709.576059358652
2245,5115,13543,"Neotoma","Fawn Lake","FAWNANMN",45.4072,-93.0532,274,"not known","lake","core","-27","Unpublished data",,9,"cool mixed forest",0.877001868298049,3414.45194400776,6.86242398908478,-11.404912159605,22.2870004543527,742.519992585791
2245,5115,13544,"Neotoma","Fawn Lake","FAWNANMN",45.4072,-93.0532,274,"not known","lake","core","-1","Unpublished data",,9,"cool mixed forest",0.877001868298049,3414.45194400776,6.86242398908478,-11.404912159605,22.2870004543527,742.519992585791
2245,5115,13545,"Neotoma","Fawn Lake","FAWNANMN",45.4072,-93.0532,274,"not known","lake","core","28","Unpublished data",,9,"cool mixed forest",0.877001868298049,3414.45194400776,6.86242398908478,-11.404912159605,22.2870004543527,742.519992585791
2245,5116,12557,"Neotoma","Fawn Lake","FAWNLAKE",46.218889,-94.753333,387,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.803025076608753,3141.63083078752,5.38829680017217,-13.578220496093,21.2939134560684,665.130310736927
2245,5116,12558,"Neotoma","Fawn Lake","FAWNLAKE",46.218889,-94.753333,387,"not known","lake","core","16","Unpublished data",,9,"cool mixed forest",0.803025076608753,3141.63083078752,5.38829680017217,-13.578220496093,21.2939134560684,665.130310736927
2245,5116,12559,"Neotoma","Fawn Lake","FAWNLAKE",46.218889,-94.753333,387,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.803025076608753,3141.63083078752,5.38829680017217,-13.578220496093,21.2939134560684,665.130310736927
2246,5117,12556,"Neotoma","Fawn Lake (CA:Ontario)","FAWN",45.41,-79.39,333,"not known","lake","core","-30","Unpublished data",,9,"cool mixed forest",1.20325317141991,2715.94629245624,4.62402797290629,-11.5289725102368,18.8231120277842,968.404406702318
2247,5118,16722,"Neotoma","Fay Lake","RBD002",45.866667,-88.633333,456,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.03053631889067,2622.37558355981,3.97168805033828,-12.5489826632002,18.741270318328,789.25810907358
2247,5119,16723,"Neotoma","Fay Lake","TW025",45.866667,-88.633333,456,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03053631889067,2622.37558355981,3.97168805033828,-12.5489826632002,18.741270318328,789.25810907358
2248,5120,6841,"EMPDv2","Fen Bog, North York Moors","Bunting_c1",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5121,6842,"EMPDv2","Fen Bog, North York Moors","Bunting_c2",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5122,6843,"EMPDv2","Fen Bog, North York Moors","Bunting_c3",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5123,6844,"EMPDv2","Fen Bog, North York Moors","Bunting_c4",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5124,6845,"EMPDv2","Fen Bog, North York Moors","Bunting_c5",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5125,6846,"EMPDv2","Fen Bog, North York Moors","Bunting_c6",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5126,6847,"EMPDv2","Fen Bog, North York Moors","Bunting_c7",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5127,6848,"EMPDv2","Fen Bog, North York Moors","Bunting_c8",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2248,5128,6849,"EMPDv2","Fen Bog, North York Moors","Bunting_c9",54.37148,-0.58748,191,"0.2698","terrestrial, bog/fen/swamp","moss polster or moss","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.60943028410253,2942.52048362624,8.06169995514038,2.48859380705061,14.3558088772111,900.428852206022
2249,5129,2905,"CMPD","Fenghuang Mt","Fenghuang Mt 1",23.95,116.64,1370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12280060488861,4639.12477915935,12.7099309018064,1.33741071345313,22.8276995732983,1195.95927464754
2249,5130,2906,"CMPD","Fenghuang Mt","Fenghuang Mt 2",23.95,116.64,1276,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.14399993719157,4883.28150752356,13.37885344527,2.2603371087093,23.2406854053406,1235.23442394157
2249,5131,2907,"CMPD","Fenghuang Mt","Fenghuang Mt 3",23.9,116.68,450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30745875208315,7028.30342483261,19.2556258214592,10.3820663431071,26.8620613453947,1578.81822758479
2249,5132,2908,"CMPD","Fenghuang Mt","Fenghuang Mt 4",23.95,116.64,1370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12280060488861,4639.12477915935,12.7099309018064,1.33741071345313,22.8276995732983,1195.95927464754
2250,5133,2909,"CMPD","Fengning","Fengning",41.2,116.633,736,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.453924819355355,3338.79543158836,6.67817124514748,-10.7113689502208,21.7033256229709,458.304973797961
2251,5134,587,"Australian pollen","Fern Pool","FRN02_0.5",-15.936925,126.28112,450,"not known","spring deposit","core top","-65","Field, E., J. Tyler, P.S. Gadd, P. Moss, H. McGowan, and S. Marx. 2018. Coherent patterns of environmental change at multiple organic spring sites in northwest Australia: Evidence of Indonesian-Australian summer monsoon variability over the last 14,500 years. Quaternary Science Reviews 196:193-216. [DOI: 10.1016/j.quascirev.2018.07.018]","10.21233/AKQ6-JV23",18,"tropical savanna",0.447452776876744,9556.61299160172,26.182501346854,20.2948819497263,30.1932042988908,875.295339271511
2252,5135,12560,"Neotoma","Ferndale Bog","FERNDALE",34.405556,-95.808333,263,"not known","terrestrial, bog/fen/swamp","core","0","Albert, L.E., and D.G. Wyckoff, editors. 1981. Ferndale Bog and Natural Lake: five thousand years of environmental change in southeastern Oklahoma. Studies in Oklahoma's Past 7. Oklahoma Archaeological Survey, Norman, Oklahoma, USA.; Hall, S.A. 1983. Ferndale Bog and Natural Lake: five thousand years of environmental change in southeastern Oklahoma (by L.E. Albert). [Book Review] Plains Anthropologist 28:150-151.",,4,"warm-temperate evergreen and mixed forest",0.812428936471994,5982.20875668472,16.3896130320129,3.32979223253245,28.0682344237454,1032.59255217096
2252,5135,12561,"Neotoma","Ferndale Bog","FERNDALE",34.405556,-95.808333,263,"not known","terrestrial, bog/fen/swamp","core","26","Albert, L.E., and D.G. Wyckoff, editors. 1981. Ferndale Bog and Natural Lake: five thousand years of environmental change in southeastern Oklahoma. Studies in Oklahoma's Past 7. Oklahoma Archaeological Survey, Norman, Oklahoma, USA.; Hall, S.A. 1983. Ferndale Bog and Natural Lake: five thousand years of environmental change in southeastern Oklahoma (by L.E. Albert). [Book Review] Plains Anthropologist 28:150-151.",,4,"warm-temperate evergreen and mixed forest",0.812428936471994,5982.20875668472,16.3896130320129,3.32979223253245,28.0682344237454,1032.59255217096
2252,5136,15768,"Neotoma","Ferndale Bog","LEADGW01",34.405556,-95.808333,263,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Albert, L.E., and D.G. Wyckoff, editors. 1981. Ferndale Bog and Natural Lake: five thousand years of environmental change in southeastern Oklahoma. Studies in Oklahoma's Past 7. Oklahoma Archaeological Survey, Norman, Oklahoma, USA.",,4,"warm-temperate evergreen and mixed forest",0.812428936471994,5982.20875668472,16.3896130320129,3.32979223253245,28.0682344237454,1032.59255217096
2253,5137,11528,"Neotoma","Ferrell Lowland Pond","FH-13",37.59335,-96.50677,435,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.700159605255616,4938.21980926724,13.3502826570814,-1.6858555583124,27.0469455187401,813.286148305749
2254,5138,11527,"Neotoma","Ferrell Upland Pond","FH-12",37.580095,-96.542475,491,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.651520465649849,4814.43219152461,12.9094565360679,-2.35862521002405,26.9054621039345,753.40179643071
2255,5139,14018,"Neotoma","Ferry Lake","FERRY01",46.013,-92.125,290,"not known","lake","core","-48","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., R. Calcote, and S. Hotchkiss. 2006. Late-Holocene vegetation and fire history from Ferry Lake, northwestern Wisconsin, USA. The Holocene 16(4):495-504.; Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.921629067226921,3076.40118609374,5.63244212153834,-12.1820207421981,20.7616767263014,743.057107868855
2255,5139,14019,"Neotoma","Ferry Lake","FERRY01",46.013,-92.125,290,"not known","lake","core","9","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., R. Calcote, and S. Hotchkiss. 2006. Late-Holocene vegetation and fire history from Ferry Lake, northwestern Wisconsin, USA. The Holocene 16(4):495-504.; Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.921629067226921,3076.40118609374,5.63244212153834,-12.1820207421981,20.7616767263014,743.057107868855
2256,5140,18928,"SMPDSv1","Feuenried","EPDcoretop_E1026",47.75,8.916667,407,"0.06","terrestrial, bog/fen/swamp","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07036156070642,3428.36479693335,9.38686087153134,-0.0296531485970796,18.50627897202,842.136632390914
2257,5141,6887,"EMPDv2","Ficuzza","Colombaroli_a2",37.8869166666667,13.3766111111111,634,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.41295109428778,5549.49698869206,15.2041013388824,8.70154761502617,23.3235167748736,559.837855129362
2258,5142,12562,"Neotoma","Fiddler's Pond","FIDDLERS",56.25,-121.42,630,"not known","lake","core","-18","White, J.M., and R.W. Mathewes. 1982. Holocene vegetation and climatic change in the Peace River district, Canada. Canadian Journal of Earth Sciences 19:555-570.",,15,"cold evergreen needleleaf forest",0.723554173070532,2107.37572862957,1.21158152513918,-15.4699729955772,15.3798584633605,455.381318945176
2259,5143,7063,"EMPDv2","Figurnoye Lake","EPDcoretop_E1796",62.1,149,1053,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.09046473265959,599.244453084168,-13.9341282772017,-34.6965826162646,7.66826089252964,366.672750819385
2260,5144,18929,"SMPDSv1","Filabrx","Barboni_a789",37.21,-2.22,1050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.352834109441296,4894.12862804694,13.4085715836903,5.55680411701858,23.6548854103233,450.465603412315
2260,5145,18930,"SMPDSv1","Filabrx","Barboni_a790",37.2,-2.2,935,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.341050630799653,5078.64502275833,13.9140959527626,6.20301487821921,23.8473524372429,435.782630635786
2260,5146,18931,"SMPDSv1","Filabrx","Barboni_a791",37.19,-2.2,885,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.335969777165103,5159.41022825865,14.1353704883799,6.48652321869395,23.9310648877225,429.485511376281
2260,5147,18932,"SMPDSv1","Filabrx","Barboni_a792",37.19,-2.2,820,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.329422706137929,5264.05948424989,14.4220807787668,6.85225312328377,24.0415653673879,421.293282216734
2260,5148,18933,"SMPDSv1","Filabrx","Barboni_a793",37.01,-2.25,1055,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.352881067914188,4889.0187867164,13.3945720184011,5.56780621171254,23.6062705942449,451.294289439885
2260,5149,18934,"SMPDSv1","Filabrx","Barboni_a794",37.01,-2.25,1050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.352363797579548,4897.21179419926,13.4170186142446,5.59623315722877,23.6156372824698,450.666815417541
2260,5150,18935,"SMPDSv1","Filabrx","Barboni_a795",37.03,-2.24,830,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.329918380123788,5255.39291908023,14.3983367646034,6.8405457439065,24.0116953807956,422.893304232034
2261,5151,23219,"SMPDSv1","FIN/SPH/F2","FIN/SPH/F2",67.3656972222222,26.6379944444444,180,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05714618134423,1668.29891224993,0.0500730503259414,-14.1008918060478,14.9286750459287,447.659936691983
2262,5152,23220,"SMPDSv1","FIN/SPH/H17","FIN/SPH/H17",65.031225,24.7279444444444,11,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03709067394255,1853.70624637563,1.57856228648502,-11.7119359117691,15.4047279680292,502.205075910456
2263,5153,23221,"SMPDSv1","FIN/SPH/H18","FIN/SPH/H18",65.0145861111111,24.7290583333333,9,"not applicable","terrestrial","pollen trap","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03703031978665,1853.72366721994,1.57915426586184,-11.7085517899417,15.4047895456963,502.303768053468
2264,5154,23222,"SMPDSv1","FIN/SPH/H28","FIN/SPH/H28",65.0331194444444,24.6058861111111,11,"not applicable","terrestrial","pollen trap","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04080075550981,1853.73502356461,1.58555904926024,-11.6897718968883,15.3971555855754,503.504550923795
2265,5155,23223,"SMPDSv1","FIN/SPH/H31","FIN/SPH/H31",64.9912138888889,24.74355,3,"not applicable","terrestrial","pollen trap","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03727002100005,1853.36373161733,1.57625856248551,-11.7077161158591,15.405256914118,502.502793920457
2266,5156,23224,"SMPDSv1","FIN/SPH/HKH45","FIN/SPH/HKH45",65.0087694444444,24.7201277777778,8,"not applicable","terrestrial","pollen trap","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03736366909003,1853.70313387188,1.57966983446381,-11.7057197078008,15.4042162943754,502.457682882797
2267,5157,23225,"SMPDSv1","FIN/SPH/HKH46","FIN/SPH/HKH46",65.009028,24.716144,10,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03704322427382,1853.84765139414,1.58101573596039,-11.7051058507306,15.4039980317551,502.365115608282
2268,5158,23226,"SMPDSv1","FIN/SPH/J12","FIN/SPH/J12",69.0866888888889,20.8408888888889,961,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.74067978261178,709.990701603855,-5.83869560679566,-18.9611564915396,8.68429249386928,625.534103337038
2269,5159,23228,"SMPDSv1","FIN/SPH/K33","FIN/SPH/K33",65.0317555555555,24.7312055555556,11,"not applicable","terrestrial","pollen trap","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03700704535555,1853.70125228545,1.57832923722805,-11.7126212623371,15.4049298991569,502.171306935884
2270,5160,23227,"SMPDSv1","FIN/SPH/Kil11","FIN/SPH/Kil11",69.0098333333333,20.8763722222222,475,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.8502728714812,1018.6142446668,-2.86610616865927,-14.9254982240065,10.7438786563276,674.005436670449
2271,5161,23229,"SMPDSv1","FIN/SPH/S22","FIN/SPH/S22",68.7316416666667,27.4458555555556,136,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09390085551465,1438.71332637446,-0.910727361399972,-14.3595345358738,13.7193915411678,406.986912968553
2272,5162,10951,"Bush et al., 2020","Finca.1","Finca.1",8.830844,-82.471773,1699,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.26041945556371,6516.43330362262,17.8532419277332,16.8474238341891,18.5879573603627,3726.13940819587
2273,5163,10952,"Bush et al., 2020","Finca.1L","Finca.1L",8.830844,-82.471773,1699,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.26041945556371,6516.43330362262,17.8532419277332,16.8474238341891,18.5879573603627,3726.13940819587
2274,5164,10953,"Bush et al., 2020","Finca.2","Finca.2",8.830844,-82.471773,1699,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.26041945556371,6516.43330362262,17.8532419277332,16.8474238341891,18.5879573603627,3726.13940819587
2275,5165,10954,"Bush et al., 2020","Finca.2L","Finca.2L",8.830844,-82.471773,1699,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.26041945556371,6516.43330362262,17.8532419277332,16.8474238341891,18.5879573603627,3726.13940819587
2276,5166,10955,"Bush et al., 2020","Finca.4","Finca.4",8.830844,-82.471773,1699,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.26041945556371,6516.43330362262,17.8532419277332,16.8474238341891,18.5879573603627,3726.13940819587
2277,5167,10956,"Bush et al., 2020","Fincalerida","Fincalerida",8.683,-82.283,505,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.75737090285639,8691.74966899268,23.8130127917608,22.9324031400998,24.7975661642319,2956.63913824825
2278,5168,14056,"Neotoma","Fire Lake","FIRELAKE",52.331985,-67.35709,600,"not known","terrestrial, bog/fen/swamp","profile or section","-38","Unpublished data",,15,"cold evergreen needleleaf forest",1.73733853323161,1393.75982263451,-3.34961505275409,-21.7577891801657,13.4948002413271,936.699691859622
2279,5169,12563,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","-34","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12564,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","-19","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12565,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","-8","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12566,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","6","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12567,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","13","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12568,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","28","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12569,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","35","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2279,5169,12570,"Neotoma","First Pond","FIRST",41.135825,-75.0270549999999,326,"not known","lake","core","50","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.23437995306781,3598.48296077246,9.05923813716316,-4.56167153920816,21.589042074987,1098.88915756207
2280,5170,11579,"Neotoma","Fish Lake","FIS-1C",43.28715,-89.653165,261,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.941105025287522,3491.88698301366,7.74325893108521,-8.93947603037887,22.1223515278736,828.022820339216
2280,5171,11578,"Neotoma","Fish Lake","FIS-1M",43.28715,-89.653165,261,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.941105025287522,3491.88698301366,7.74325893108521,-8.93947603037887,22.1223515278736,828.022820339216
2280,5172,14444,"Neotoma","Fish Lake","FISHLKCA",41.26396,-123.68312,541,"not known","lake","core","-57","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.2715139795514,4047.6740687568,11.089517996594,5.4455188343493,17.5006212718954,1251.2847946437
2280,5172,14445,"Neotoma","Fish Lake","FISHLKCA",41.26396,-123.68312,541,"not known","lake","core","-30","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.2715139795514,4047.6740687568,11.089517996594,5.4455188343493,17.5006212718954,1251.2847946437
2280,5172,14446,"Neotoma","Fish Lake","FISHLKCA",41.26396,-123.68312,541,"not known","lake","core","4","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.2715139795514,4047.6740687568,11.089517996594,5.4455188343493,17.5006212718954,1251.2847946437
2280,5172,14447,"Neotoma","Fish Lake","FISHLKCA",41.26396,-123.68312,541,"not known","lake","core","30","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.2715139795514,4047.6740687568,11.089517996594,5.4455188343493,17.5006212718954,1251.2847946437
2280,5173,12571,"Neotoma","Fish Lake","FISHNWT",73.034722,-85.216667,91,"not known","lake","core","-35","Short, S.K., J.T. Andrews, K.M. Williams, N.J. Weiner, and S.A. Elias. 1994. Late Quaternary marine and terrestrial environments, northwestern Baffin Island, Northwest Territories. Geographie physique et Quaternaire 48(1):85-95.","10.7202/032974ar",28,"tundra",0.614967403748249,337.838038451698,-14.6966836756827,-31.1717715686285,5.69816282138658,152.25060344063
2280,5174,17552,"Neotoma","Fish Lake","TW058",43.28715,-89.653165,261,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.941105025287522,3491.88698301366,7.74325893108521,-8.93947603037887,22.1223515278736,828.022820339216
2281,5175,13790,"Neotoma","Fish Lake (Sc)","FISHS",44.6510154,-93.4604842,288,"not known","lake","core","47","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.847949246491631,3430.24265763654,6.83939804809025,-11.6558403434629,22.4029602186196,728.678357329791
2282,5176,15770,"Neotoma","Fisherman Lake","FLR-2",60.314167,-123.711944,330,"not known","lake","surface sample","Modern","Matthews, J.V., Jr. 1980. Paleoecology of John Klondike Bog, Fisherman Lake region, southwest district of Mackenzie. Geological Survey of Canada Paper 80-22..",,15,"cold evergreen needleleaf forest",0.866686558017668,1983.63146470204,-2.0246930674513,-22.4583874561801,15.9457742248514,466.24444192124
2283,5177,15769,"Neotoma","Fisherman Lake Region, Surface Sample 1","FLR-1",60.275833,-123.734444,390,"not known","lake","surface sample","Modern","Matthews, J.V., Jr. 1980. Paleoecology of John Klondike Bog, Fisherman Lake region, southwest district of Mackenzie. Geological Survey of Canada Paper 80-22..",,15,"cold evergreen needleleaf forest",0.875584570026975,1926.62670389278,-2.21746947480294,-22.3860009831326,15.6241560597318,467.967665219391
2284,5178,16736,"Neotoma","Fishing Creek","RGS005",51.95,-82.7,61,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.08283552610862,1845.29732726739,-1.39371419014638,-21.7304631450823,15.746330488798,636.06958935076
2284,5179,16737,"Neotoma","Fishing Creek","RGS006",51.95,-82.7,61,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.08283552610862,1845.29732726739,-1.39371419014638,-21.7304631450823,15.746330488798,636.06958935076
2285,5180,18936,"SMPDSv1","Fisketjerni","Bjune_a272",61.3933333333333,8.795,1377,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65621521820876,977.737380879076,-1.12413582437998,-11.0451795974914,8.88001336538462,798.896194158969
2286,5181,23165,"SMPDSv1","Fisketjonn","Bjune_a212",58.6233333333333,7.80166666666666,190,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21539633274867,2325.49986685679,5.70837309305373,-3.39922136695333,14.8295527509225,1310.84978216266
2287,5182,24446,"Southern Hemisphere pollen","Fissoa River  PNG","Fissoa River",-2.935,151.47,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-34","Hope, G.S., O’Dea, D. and Southern, W., 1999. Holocene vegetation histories in the Western Pacific: alternative records of human impact. The Pacific from 5000 to 2000 BP: Colonisation and transformations, pp.387-404.",,1,"tropical evergreen broadleaf forest",2.86164303081104,9627.11496307053,26.3756574330699,26.075869749287,26.6038605913203,3957.79696162136
2288,5183,588,"Australian pollen","Fitzerald River National Park FRNP","FRNP Site 36",-34.188,119.414,81,"not known","not known","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.46019406096688,5852.66968425071,16.0347114637006,11.2835076056431,20.9655659956853,559.464966069766
2288,5183,589,"Australian pollen","Fitzerald River National Park FRNP","FRNP Site 36",-34.188,119.414,81,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",20,"xerophytic woods/scrub",0.46019406096688,5852.66968425071,16.0347114637006,11.2835076056431,20.9655659956853,559.464966069766
2288,5184,590,"Australian pollen","Fitzerald River National Park FRNP","FRNP Site 63",-33.021,119.915,127,"not known","not known","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.382593932011782,5942.12387843072,16.2797914477554,11.327847968582,21.3040299762006,488.638152565778
2288,5184,591,"Australian pollen","Fitzerald River National Park FRNP","FRNP Site 63",-33.021,119.915,127,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",20,"xerophytic woods/scrub",0.382593932011782,5942.12387843072,16.2797914477554,11.327847968582,21.3040299762006,488.638152565778
2289,5185,592,"Australian pollen","Fitzgerald Inlet","Fitzgerald Inlet Core 2",-34.292,119.458,0,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.519836492578351,5852.80425374925,16.0350801472582,11.5548947988294,20.6993368017558,616.866215467357
2290,5186,18937,"SMPDSv1","Fixsjon","Seppa_b141",57.52,12.22,44,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09495992303053,2678.23878884774,6.85890252235917,-2.50095244484368,16.3777711177911,696.619485432835
2291,5187,9603,"Gaillard et al., 1992","Fjallfotasjon","Fjallfotasjon",55.530185,13.303796,51,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.960892912203383,2864.68587547592,7.6392195907874,-1.32455101515897,16.6454940249377,644.498818968647
2292,5188,18938,"SMPDSv1","Fjallnas","EPDcoretop_E224",62.55,12.166667,780,"not known","not known","core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.56735366473789,1290.07045904324,0.0764683638064522,-10.5687118220297,10.8738104634439,715.668607313167
2293,5189,7435,"EMPDv2","Fjellandsbovatn","Hjelle_a24",59.8793667,5.9659,191,"0.131","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.01863679824582,2413.22826737777,6.590418165838,-0.13925325184675,13.8263230447772,2143.28550467464
2294,5190,7437,"EMPDv2","Fjellandsvatn","Hjelle_a26",59.7782688,5.7602395,18,"0.16","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.13861514640124,2722.32239843956,7.45841752997141,1.11230073417459,14.3599342655858,2212.00050748369
2295,5191,18939,"SMPDSv1","Fjellestad","Bjune_a221",58.3166666666666,7.79,215,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19736734972175,2306.99849808964,5.6541440936662,-3.39251922987128,14.7376201424793,1307.63387086483
2296,5192,18940,"SMPDSv1","Fjelltjern","Bjune_a115",61.247485,5.5645958,221,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.20510184597991,2260.86296434077,6.15616827027351,-0.275644347897593,13.2444509338278,2114.93591602425
2297,5193,11495,"Neotoma","Flagler Reservoir","COKCFL",39.28682,-102.98681500000001,1434,"not known","artificial water body","surface sample","-54","Unpublished data",,22,"steppe",0.33271785848548,3826.62454026692,10.0198066610859,-2.96043049460733,23.6381012699454,370.328403775797
2298,5194,18941,"SMPDSv1","Flaje Kiefern","EPDcoretop_E1001",50.69105556,13.61972222,760,"0.25","terrestrial, bog/fen/swamp","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01414196877824,2616.34222704202,6.51855780297559,-3.58621686788481,15.7776913375649,708.445177919608
2299,5195,18942,"SMPDSv1","Flakketjern","Bjune_a74",59.78299877,8.22339381,969,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.71909031640606,1501.16486967504,1.81852932214038,-7.90493987029746,11.5827630107225,943.712930100164
2300,5196,6015,"EMBSeCBIO","Flambouro","FM_0",40.259444,22.170833,1645,"0.01","terrestrial, bog/fen/swamp","core","-59","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.836447126823069,2496.99735876084,6.03140950438281,-4.26015280976338,15.7776135917318,881.294925180841
2301,5197,23159,"SMPDSv1","Flani","Bjune_a190",59.1733333333333,7.52833333333333,300,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6351337777188,2141.09677599454,5.12773876979725,-3.62232355405158,13.9450967007599,1496.63119922243
2302,5198,16600,"Neotoma","Flax Pond","MGW004",41.77,-70.02,23,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.37015912924469,3824.05297841958,10.0902616815707,-2.59382921251482,22.2179585962473,1225.0231023782
2303,5199,18946,"SMPDSv1","Flesch","CH/WVDK/F1_F2",46.379129,8.048237,1840,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.51378467934496,1427.56132294513,2.53503114636086,-4.98253312683182,10.5727706462675,1889.60712894206
2303,5200,18943,"SMPDSv1","Flesch","Knaap_a17",46.379129,8.048237,1840,"0.01","terrestrial, blanket bog","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.51378467934496,1427.56132294513,2.53503114636086,-4.98253312683182,10.5727706462675,1889.60712894206
2303,5201,18944,"SMPDSv1","Flesch","Knaap_a18",46.379129,8.048237,1840,"0.01","terrestrial, blanket bog","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.51378467934496,1427.56132294513,2.53503114636086,-4.98253312683182,10.5727706462675,1889.60712894206
2303,5202,18945,"SMPDSv1","Flesch","Knaap_a19",46.379129,8.048237,1840,"0.01","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.51378467934496,1427.56132294513,2.53503114636086,-4.98253312683182,10.5727706462675,1889.60712894206
2304,5203,18947,"SMPDSv1","Fletnowo","EPDcoretop_E227",53.533333,18.65,31,"0.22","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.785113741131646,3074.83848860881,8.1033192564726,-2.28833725800355,17.5639546283221,559.861609593292
2305,5204,593,"Australian pollen","Flinders Bay Swamp","Flinders Bay Swamp_1",-34.3167,115.15,8,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.735385829299993,5899.97219090344,16.1643073723382,12.3316712797652,20.8754562539327,919.097009730827
2305,5205,594,"Australian pollen","Flinders Bay Swamp","Flinders Bay Swamp_2",-34.3167,115.15,8,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.735385829299993,5899.97219090344,16.1643073723382,12.3316712797652,20.8754562539327,919.097009730827
2305,5206,595,"Australian pollen","Flinders Bay Swamp","Flinders Bay Swamp_3",-34.3167,115.15,8,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.735385829299993,5899.97219090344,16.1643073723382,12.3316712797652,20.8754562539327,919.097009730827
2306,5207,11534,"Neotoma","Flint Oak Pond","FH-16",37.5185149999999,-96.043715,336,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",13,"temperate deciduous broadleaf forest",0.810085359802333,5099.34934692397,13.8997411491218,-0.793389624092361,27.0722107507204,941.26560182961
2307,5208,12573,"Neotoma","Floating Island Lake","FLOATIL1",44.55,-107.466667,2609,"not known","lake","core","0","Burkart, M.R. 1976. Pollen biostratigraphy and late Quaternary vegetation history of the Bighorn Mountains, Wyoming. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA.",,17,"temperate evergreen needleleaf open woodland",0.324098359955592,1991.89316683964,3.05382776703956,-8.08493531973183,16.1064187760975,294.892604787201
2308,5209,18948,"SMPDSv1","Flogeln","EPDcoretop_E229",53.666667,8.763889,2,"1","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.22434710040092,3172.11694779412,8.69073136381949,0.677665938942132,16.5967591974948,793.759176905478
2308,5210,18949,"SMPDSv1","Flogeln","EPDcoretop_E230",53.666667,8.763889,2,"1","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.22434710040092,3172.11694779412,8.69073136381949,0.677665938942132,16.5967591974948,793.759176905478
2309,5211,7195,"EMPDv2","Flogelner Holz","EPDcoretop_E2499",53.66,8.77,7,"0.05","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21566375924753,3172.89014010159,8.69284969890845,0.655177009047092,16.6089137254893,788.069408451735
2310,5212,14809,"Neotoma","Florence Lake","FLORBC",48.458595,-123.513045,81,"not known","lake","core","-54","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.51944026715874,3584.3661744765,9.82018129993561,3.50396678784692,16.7628661838312,1921.65235088131
2310,5212,14810,"Neotoma","Florence Lake","FLORBC",48.458595,-123.513045,81,"not known","lake","core","-15","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.51944026715874,3584.3661744765,9.82018129993561,3.50396678784692,16.7628661838312,1921.65235088131
2310,5212,14811,"Neotoma","Florence Lake","FLORBC",48.458595,-123.513045,81,"not known","lake","core","5","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.51944026715874,3584.3661744765,9.82018129993561,3.50396678784692,16.7628661838312,1921.65235088131
2310,5212,14812,"Neotoma","Florence Lake","FLORBC",48.458595,-123.513045,81,"not known","lake","core","23","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.51944026715874,3584.3661744765,9.82018129993561,3.50396678784692,16.7628661838312,1921.65235088131
2310,5212,14813,"Neotoma","Florence Lake","FLORBC",48.458595,-123.513045,81,"not known","lake","core","43","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.51944026715874,3584.3661744765,9.82018129993561,3.50396678784692,16.7628661838312,1921.65235088131
2311,5213,18950,"SMPDSv1","Flotatjonn","Bjune_a189",59.67,7.54166666666666,890,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.14409013182207,1597.64370528739,2.56451853201461,-6.59535283245147,11.8659356558599,1179.92317224117
2312,5214,13998,"Neotoma","Flycatcher Basin","FLYBASIN",41.015,-121.573,924,"not known","terrestrial, bog/fen/swamp","excavation","12","Anderson, R.S., S.J. Smith, R.B. Jass, and W.G. Spaulding. 2008. A late Holocene record of vegetation and climate from a small wetland in Shasta County, California. Madrono 55(1):15-25.",,4,"warm-temperate evergreen and mixed forest",0.716415613815977,4281.73890144174,11.7307915107993,2.7688286284941,22.0334775833228,842.482666927622
2313,5215,8291,"EMPDv2","Fontanigorda","Montanari_b5",44.54725,9.30387777777778,819,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.27917545985088,3126.1602380775,8.55428876801853,-0.0985207308822558,17.5118823264384,1179.45648451461
2314,5216,18951,"SMPDSv1","Fonte le Chiusola","Barboni_a1265",42.37361111,13.60763889,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.85949128099743,3391.18420748271,9.29091563693892,1.33434027299417,18.410748069876,870.126664115365
2315,5217,24447,"Southern Hemisphere pollen","Fool Swamp","Fool Swamp_0",9.501456,138.09093,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-49","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36531758560813,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
2315,5218,24448,"Southern Hemisphere pollen","Fool Swamp","Fool Swamp_10",9.501456,138.09093,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-28","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36531758560813,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
2315,5219,24449,"Southern Hemisphere pollen","Fool Swamp","Fool Swamp_20",9.501456,138.09093,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-8","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36531758560813,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
2315,5220,24450,"Southern Hemisphere pollen","Fool Swamp","Fool Swamp_30",9.501456,138.09093,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","13","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36531758560813,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
2315,5221,24451,"Southern Hemisphere pollen","Fool Swamp","Fool Swamp_40",9.501456,138.09093,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","34","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36531758560813,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
2316,5222,12581,"Neotoma","Forest Lake","FORESTLK",46.451667,-112.165833,1895,"not known","terrestrial, marsh","core","-27","Brant, L.A. 1980. A palynological investigation of postglacial sediments at two locations along the Continental Divide near Helena, Montana. Dissertation. Pennsylvania State University, State college, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.44280483490393,2415.93947568331,5.00065742788466,-6.80557014239085,17.5594051065633,388.047860940137
2317,5223,12575,"Neotoma","Forest Pond 1","FOREST1",43.471667,-109.938889,2797,"not known","lake","core","-40","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.525660836899535,1501.50034913982,0.771589269916437,-10.0167023283673,13.184018630844,458.917961481683
2317,5223,12576,"Neotoma","Forest Pond 1","FOREST1",43.471667,-109.938889,2797,"not known","lake","core","-25","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.525660836899535,1501.50034913982,0.771589269916437,-10.0167023283673,13.184018630844,458.917961481683
2317,5223,12577,"Neotoma","Forest Pond 1","FOREST1",43.471667,-109.938889,2797,"not known","lake","core","-16","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.525660836899535,1501.50034913982,0.771589269916437,-10.0167023283673,13.184018630844,458.917961481683
2317,5223,12578,"Neotoma","Forest Pond 1","FOREST1",43.471667,-109.938889,2797,"not known","lake","core","-10","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.525660836899535,1501.50034913982,0.771589269916437,-10.0167023283673,13.184018630844,458.917961481683
2317,5223,12579,"Neotoma","Forest Pond 1","FOREST1",43.471667,-109.938889,2797,"not known","lake","core","0","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.525660836899535,1501.50034913982,0.771589269916437,-10.0167023283673,13.184018630844,458.917961481683
2318,5224,12580,"Neotoma","Forest Pond 2","FOREST2",43.438889,-109.95,2766,"not known","lake","core","0","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.518201685795304,1533.52729004429,0.920902811788898,-9.92673215979054,13.3645938263412,454.202569547212
2319,5225,596,"Australian pollen","Forester Marsh","Forester Marsh",-41.0667,147.1333,60,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.828937394163785,4597.06329019996,12.5946939457533,8.03572131774871,17.3174458067874,796.51871055666
2320,5226,18952,"SMPDSv1","Forfjord","N/CJ/FO1",68.806944,15.683333,13,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.12828683334164,1443.64777794802,2.67514666446415,-4.26114370558931,11.533635612717,1171.3353138833
2320,5227,18953,"SMPDSv1","Forfjord","N/CJ/FO2",68.808333,15.686111,17,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13040246214826,1440.60175069931,2.65102817914773,-4.30417661134324,11.5270114782744,1171.88870887814
2321,5228,12582,"Neotoma","Forge Pond","FORGE",40.855833,-74.399167,69,"not known","lake","core","-25","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.20087981635756,4179.26872479892,11.2097270293917,-1.8972882802263,23.4248273312324,1150.13600499209
2321,5228,12583,"Neotoma","Forge Pond","FORGE",40.855833,-74.399167,69,"not known","lake","core","5","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.20087981635756,4179.26872479892,11.2097270293917,-1.8972882802263,23.4248273312324,1150.13600499209
2321,5228,12584,"Neotoma","Forge Pond","FORGE",40.855833,-74.399167,69,"not known","lake","core","42","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.20087981635756,4179.26872479892,11.2097270293917,-1.8972882802263,23.4248273312324,1150.13600499209
2322,5229,11470,"Neotoma","Fork Reservoir","MTGAFO",47.444725,-106.412405,737,"not known","artificial water body","surface sample","-47","Unpublished data",,22,"steppe",0.368656852437947,3048.49947204123,5.58381222486243,-11.6680352851683,21.289412330535,323.914488947017
2323,5230,11857,"Neotoma","Fort Ancient Chenopodium patch","KKMFA05",39.40638889,-84.08861111,282,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.04755484389002,4180.94487274225,11.0287690906641,-3.07656725095884,23.304150222415,1005.73247759296
2324,5231,11860,"Neotoma","Fort Ancient Helianthus patch","KKMFA08",39.40638889,-84.08861111,282,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.04755484389002,4180.94487274225,11.0287690906641,-3.07656725095884,23.304150222415,1005.73247759296
2325,5232,11855,"Neotoma","Fort Ancient pond","KKMFA03",39.40583333,-84.08777778,277,"not known","artificial water body","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.04923289657085,4208.46006934962,11.1292994489674,-2.94779968701602,23.3730362940247,1009.87902233137
2326,5233,13879,"Neotoma","Fort Bragg (core PAW2)","PAW2",35.173545,-79.089805,54,"not known","terrestrial, bog/fen/swamp","core","-50","Goman, M., and D.S. Leigh. 2004. Wet early to middle Holocene conditions on the upper Coastal Plain of North Carolina, USA. Quaternary Research 61:256-264.",,4,"warm-temperate evergreen and mixed forest",1.05494778401574,5956.78829148684,16.3199679218818,5.30964820850578,26.3504557951325,1225.60834731532
2327,5234,11914,"Neotoma","Fort Chimo","BU1133",58.123115,-68.428455,60,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29438842293796,955.165233486115,-6.0343881472212,-23.3631151535621,10.1197779823709,519.50077564826
2327,5235,11913,"Neotoma","Fort Chimo","BU1134",58.123115,-68.428455,60,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29438842293796,955.165233486115,-6.0343881472212,-23.3631151535621,10.1197779823709,519.50077564826
2327,5236,11915,"Neotoma","Fort Chimo","BU1135",58.123115,-68.428455,60,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29438842293796,955.165233486115,-6.0343881472212,-23.3631151535621,10.1197779823709,519.50077564826
2328,5237,11859,"Neotoma","Fort Hill pond","KKMFA07",39.117,-83.40172,389,"not known","lake","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.05688383911345,3952.84872899992,10.2296670271018,-3.85500380285615,22.6145061970938,1000.98381299535
2329,5238,17573,"Phelps et al., 2020","Fort Portal 1","FPORTAL1_0",0.666389,30.276111,1510,"not known","not known","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.898340615423529,7168.93897863854,19.6409287085987,19.0549498954416,20.2449272345295,1225.07944414562
2330,5239,17289,"Neotoma","Fort Resolution","RLF67017",61.183333,-113.683333,158,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.602612235128577,1697.15828816378,-4.48816518865307,-26.8545187913323,15.7257220380554,307.534973933953
2331,5240,17292,"Neotoma","Fort Simpson","RLF67016",61.866667,-121.333333,96,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.680030247849703,1892.45410556099,-4.01865203989765,-27.0559286978147,16.5994897640554,347.511413198305
2332,5241,17294,"Neotoma","Fort Smith","RLF67020",60,-111.883333,60,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.611441492009757,2050.78702269587,-1.83819714136065,-24.0755132219307,16.8278878748433,343.631025502984
2333,5242,18954,"SMPDSv1","Fougeres","EPDcoretop_E237",48.516667,-0.833333,186,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.959749483391327,3737.9911871378,10.241071745583,3.7606460084701,17.2576426843055,750.092893367098
2334,5243,18955,"SMPDSv1","Foula","EPDcoretop_E991",60.150206,-2.092413,170,"not known","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.3687622141957,2238.93746664085,6.13407525107082,2.76940304700938,10.7144637812283,1062.4471036758
2335,5244,13501,"Neotoma","Found Lake","FOUNDLK",45.55,-78.64,488,"not known","lake","core","0","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.",,9,"cool mixed forest",1.28196798336931,2441.21276036733,3.10786616501299,-13.8795088116899,17.6502829912303,1001.36040391069
2336,5245,597,"Australian pollen","Four Mile Billabong","Core 88.1",-13.8667,136.81667,1,"small (0.01-1 km2)","lake","core top","-38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.700485200150936,9821.69165179041,26.9087442514806,22.6525075850965,29.9281169901628,1235.74863669765
2336,5246,598,"Australian pollen","Four Mile Billabong","Core 89.1",-13.8667,136.81667,1,"small (0.01-1 km2)","lake","core top","-39","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.700485200150936,9821.69165179041,26.9087442514806,22.6525075850965,29.9281169901628,1235.74863669765
2337,5247,17353,"Neotoma","Fox","TW056",43.559167,-88.919722,272,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.93957430521081,3357.06517679848,7.22250049852669,-9.33251905830875,21.6622038282096,807.720926040961
2338,5248,14352,"Neotoma","Fox Lake","FOXMN",43.6774,-94.698115,382,"not known","lake","core","-9","Commerford, J.L., B. Leys, J.R. Mueller, and K.K. McLauchlan. 2016. Great Plains vegetation dynamics in response to fire and climatic fluctuations during the Holocene at Fox Lake, Minnesota (USA). The Holocene 26(2):302-313.",,22,"steppe",0.81540689435784,3529.66642250854,7.37873907754614,-10.5150736826255,22.7403084334729,736.084193841758
2338,5248,14353,"Neotoma","Fox Lake","FOXMN",43.6774,-94.698115,382,"not known","lake","core","2","Commerford, J.L., B. Leys, J.R. Mueller, and K.K. McLauchlan. 2016. Great Plains vegetation dynamics in response to fire and climatic fluctuations during the Holocene at Fox Lake, Minnesota (USA). The Holocene 26(2):302-313.",,22,"steppe",0.81540689435784,3529.66642250854,7.37873907754614,-10.5150736826255,22.7403084334729,736.084193841758
2339,5249,12585,"Neotoma","Fox Pond","FOXPOND",47.165,-95.558333,500,"not known","lake","core","-13","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.864127082727287,2914.92087307145,4.37327780881165,-14.7569122656874,20.1754941874671,691.487573630917
2339,5249,12586,"Neotoma","Fox Pond","FOXPOND",47.165,-95.558333,500,"not known","lake","core","9","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.864127082727287,2914.92087307145,4.37327780881165,-14.7569122656874,20.1754941874671,691.487573630917
2339,5249,12587,"Neotoma","Fox Pond","FOXPOND",47.165,-95.558333,500,"not known","lake","core","32","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.864127082727287,2914.92087307145,4.37327780881165,-14.7569122656874,20.1754941874671,691.487573630917
2340,5250,15004,"Neotoma","Foy Lake","FOYMT",48.16475,-114.3612,1006,"not known","lake","core","-17","Power, M.J. 2006. Recent and Holocene fire, climate, and vegetation linkages in the northern Rocky Mountains, USA. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.677223191280597,2703.47904456752,6.31645409972264,-5.27587998293106,18.1497694355949,567.54530193865
2340,5250,15005,"Neotoma","Foy Lake","FOYMT",48.16475,-114.3612,1006,"not known","lake","core","-10","Power, M.J. 2006. Recent and Holocene fire, climate, and vegetation linkages in the northern Rocky Mountains, USA. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.677223191280597,2703.47904456752,6.31645409972264,-5.27587998293106,18.1497694355949,567.54530193865
2340,5250,15006,"Neotoma","Foy Lake","FOYMT",48.16475,-114.3612,1006,"not known","lake","core","4","Power, M.J. 2006. Recent and Holocene fire, climate, and vegetation linkages in the northern Rocky Mountains, USA. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.677223191280597,2703.47904456752,6.31645409972264,-5.27587998293106,18.1497694355949,567.54530193865
2340,5250,15007,"Neotoma","Foy Lake","FOYMT",48.16475,-114.3612,1006,"not known","lake","core","44","Power, M.J. 2006. Recent and Holocene fire, climate, and vegetation linkages in the northern Rocky Mountains, USA. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.",,8,"cool evergreen needleleaf forest",0.677223191280597,2703.47904456752,6.31645409972264,-5.27587998293106,18.1497694355949,567.54530193865
2341,5251,18956,"SMPDSv1","FRA1","Barboni_a438",40.567222,-6.468889,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.552348171923712,4691.34827226991,12.853008965123,5.31256530281407,21.8014136407261,646.480337008173
2342,5252,18957,"SMPDSv1","FRA2","Barboni_a439",40.55,-6.418889,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.537145802225522,4442.4821527659,12.1711839801806,4.54475838549301,21.2165585289828,631.279269584805
2343,5253,18958,"SMPDSv1","FRA3","Barboni_a440",40.517222,-6.318889,1025,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.505688725139156,3878.14360201826,10.6250509644336,2.81979516925174,19.8698076704471,598.492229142639
2344,5254,18959,"SMPDSv1","FRA4","Barboni_a441",40.517222,-6.2,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409645317530486,2961.81234862821,8.10601317320745,0.0456436368374331,17.6692828557015,492.781163922892
2345,5255,18960,"SMPDSv1","FRA5","Barboni_a442",40.517222,-6.167222,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40833581374459,2961.2032846568,8.10455194497926,0.0474869967837014,17.6671285290385,491.347664236049
2346,5256,18961,"SMPDSv1","FRA6","Barboni_a443",40.517222,-6.118889,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438833467361906,3719.35108932351,10.190002984448,2.28162638570078,19.6055866817538,528.067041964506
2347,5257,18962,"SMPDSv1","FRA7","Barboni_a444",40.467222,-6.117222,1230,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.426538261931128,3387.25248699016,9.28014379997304,1.3150901749709,18.7589078856558,513.343273231655
2348,5258,18963,"SMPDSv1","FRA8","Barboni_a445",40.5,-6.118889,975,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.45275010690937,4037.26121174367,11.0609896212155,3.21317762021854,20.4171964163444,544.421082313972
2349,5259,18964,"SMPDSv1","FRA9","Barboni_a446",40.418889,-6.15,630,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.490364187453464,4922.13509923314,13.4853016417346,5.80320454093038,22.6818728217169,587.977260444528
2350,5260,18965,"SMPDSv1","FRAA","Barboni_a447",40.45,-6.018888889,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.485555157868938,4976.70062658972,13.6347962372321,5.93914042024434,22.8514840797037,583.267263256493
2351,5261,13836,"Neotoma","Fracas Lake","FRACAS",36.6307,-112.238595,2512,"not known","lake","core","50","Weng, C., and S.T. Jackson. 1999. Late glacial and Holocene vegetation hisotry and paleoclimate of the Kaibab Plateau, Arizona. Palaeogeography, Palaeoclimatology, Palaeoecology 153(1-4):179-201.","10.1016/S0031-0182(99)00070-X",17,"temperate evergreen needleleaf open woodland",0.342635530501897,2545.90780824142,6.25278639689327,-3.66526737825917,17.785210164032,422.872660131784
2351,5262,11569,"Neotoma","Fracas Lake","FRACASP1",36.6307,-112.238595,2512,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.342635530501897,2545.90780824142,6.25278639689327,-3.66526737825917,17.785210164032,422.872660131784
2351,5263,11570,"Neotoma","Fracas Lake","FRACASP2",36.6307,-112.238595,2512,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.342635530501897,2545.90780824142,6.25278639689327,-3.66526737825917,17.785210164032,422.872660131784
2351,5264,11568,"Neotoma","Fracas Lake","FRACASP3",36.6307,-112.238595,2512,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.342635530501897,2545.90780824142,6.25278639689327,-3.66526737825917,17.785210164032,422.872660131784
2352,5265,12588,"Neotoma","Frains Lake","FRAINSLK",42.33,-83.63,271,"not known","lake","core","35","Kerfoot, W.C. 1974. Net accumulation rates and the history of cladoceran communities. Ecology 55:51-61.",,13,"temperate deciduous broadleaf forest",0.93315454918303,3585.41117437441,8.73032484464157,-5.74551646234795,21.8155727156645,830.895181090263
2352,5266,15772,"Neotoma","Frains Lake","TW126",42.33,-83.63,271,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.93315454918303,3585.41117437441,8.73032484464157,-5.74551646234795,21.8155727156645,830.895181090263
2353,5267,16074,"Neotoma","Frair Lake","JHM027",46.45,-79.47,369,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.22216870931824,2528.81506969583,3.34429797378422,-13.9037345067157,18.264814649708,938.993270480038
2354,5268,15723,"Neotoma","Frank Pond","FRNK_C90",43.861515,-74.1633349999999,517,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.36149295736918,2704.83785873424,5.10913597984547,-9.68920383208675,18.4296161531535,1051.38869253313
2355,5269,11945,"Neotoma","Frank's Lake","FRANKSP1",36.513645,-112.183025,2646,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.374197305250601,2320.73572903224,5.42352170369609,-4.16579908458233,16.7672225394577,454.776754331513
2356,5270,18966,"SMPDSv1","Franz Senn-Hutte","EPDcoretop_E1198",47.084028000000004,11.169722,2155,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.85001813218798,800.874728765408,-0.63440597969553,-7.78197223582007,6.88096472228596,1889.354150731
2357,5271,11504,"Neotoma","Free Peoples Lake","NDBEFP",47.908765,-98.7299449999999,445,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.582226728709162,2864.09936133934,3.72622190388605,-15.8458361344617,20.3466828572559,472.689407619128
2358,5272,12589,"Neotoma","French Lake","FRENCH",44.945765,-94.42074,327,"not known","lake","core","0","Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",22,"steppe",0.822330152179249,3404.24511625666,6.65448241731242,-11.9216632136518,22.3640622324083,709.209270130883
2358,5272,12590,"Neotoma","French Lake","FRENCH",44.945765,-94.42074,327,"not known","lake","core","20","Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",22,"steppe",0.822330152179249,3404.24511625666,6.65448241731242,-11.9216632136518,22.3640622324083,709.209270130883
2358,5272,12591,"Neotoma","French Lake","FRENCH",44.945765,-94.42074,327,"not known","lake","core","41","Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",22,"steppe",0.822330152179249,3404.24511625666,6.65448241731242,-11.9216632136518,22.3640622324083,709.209270130883
2359,5273,12592,"Neotoma","Frenchmens Bay","FRENCHBY",43.82,-79.1,75,"not known","lake","core","-26","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",0.986763129020877,3445.96247647838,8.34295502826142,-5.53957395213151,21.6074245075651,854.304250149987
2360,5274,12593,"Neotoma","Fresh Pond","FRESHPND",41.158333,-71.575,28,"not known","lake","core","-38","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.30639921879827,3917.90808759162,10.4548344465424,-2.01948787142899,22.4118082589181,1191.63340436795
2360,5274,12594,"Neotoma","Fresh Pond","FRESHPND",41.158333,-71.575,28,"not known","lake","core","18","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.30639921879827,3917.90808759162,10.4548344465424,-2.01948787142899,22.4118082589181,1191.63340436795
2361,5275,16605,"Neotoma","Fresh Pond (US:Massachusetts)","MGW009",41.6,-70.53,6,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.36484875640379,3915.77748846394,10.4576847176263,-1.96287543322187,22.398132741920602,1234.58021823562
2362,5276,599,"Australian pollen","Freshwater Lake","Freshwater Lake",-37.5833,142.3167,220,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.560196057155308,4942.03575911756,13.5398239975824,8.06896537339843,19.3799944007078,607.128991811543
2363,5277,17310,"Neotoma","Friendly Pond","TW015",45.2,-92,314,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.90070279293755,3299.18055158383,6.45627650024997,-11.5767685977695,21.7308819569082,755.504850825485
2364,5278,18967,"SMPDSv1","Frillensee","Frillensee_D",47.454556,10.983611,973,"not known","lake","sediment sample","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48124529846991,2409.72077663681,6.03615131158378,-3.03700081738492,14.7917398024766,1142.57280022404
2365,5279,11910,"Neotoma","Frobisher Bay","BU1130",63.75736,-68.485165,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",31,"tundra",1.26162357684301,532.77810616939,-9.53861318204202,-25.9885724126195,6.95591515006089,401.648165900083
2365,5280,11911,"Neotoma","Frobisher Bay","BU1131",63.75736,-68.485165,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",31,"tundra",1.26162357684301,532.77810616939,-9.53861318204202,-25.9885724126195,6.95591515006089,401.648165900083
2365,5281,11912,"Neotoma","Frobisher Bay","BU1132",63.75736,-68.485165,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",31,"tundra",1.26162357684301,532.77810616939,-9.53861318204202,-25.9885724126195,6.95591515006089,401.648165900083
2366,5282,18968,"SMPDSv1","Froskvatn","Bjune_a27",67.31460518,14.62823642,70,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.62698944311744,1513.2366199064,3.08255571852071,-3.62686220508464,11.6799880325576,1419.63232316106
2367,5283,9604,"Gaillard et al., 1992","Frosslunda","Frosslunda",56.515445,16.42215,19,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.860495830899741,2691.39742583273,7.10501540929603,-1.58718495879007,16.3577430189215,565.901183302061
2368,5284,13546,"Neotoma","Frovold Lake","FROVOLD",45.377,-95.5625,318,"not known","lake","core","-23","Unpublished data",,22,"steppe",0.752005588697427,3321.32609812399,6.15009378497246,-12.7158084967434,22.1196785907474,642.766850701227
2368,5284,13547,"Neotoma","Frovold Lake","FROVOLD",45.377,-95.5625,318,"not known","lake","core","2","Unpublished data",,22,"steppe",0.752005588697427,3321.32609812399,6.15009378497246,-12.7158084967434,22.1196785907474,642.766850701227
2368,5284,13548,"Neotoma","Frovold Lake","FROVOLD",45.377,-95.5625,318,"not known","lake","core","34","Unpublished data",,22,"steppe",0.752005588697427,3321.32609812399,6.15009378497246,-12.7158084967434,22.1196785907474,642.766850701227
2369,5285,12595,"Neotoma","Frying Pan Lake","FRYINGPN",38.616667,-111.666667,2720,"not known","lake","core","0","Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,17,"temperate evergreen needleleaf open woodland",0.384875315994582,1961.73944558171,3.69146283110885,-6.21691393969305,15.1451230663064,422.668011211133
2370,5286,18969,"SMPDSv1","Frystetjern","Bjune_a67",60.54086662,6.89275435,508,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",4.02069810064241,1949.1407103479,4.81603582443159,-2.64312575621871,12.7077402736426,2083.43510984834
2371,5287,18970,"SMPDSv1","Fuchsschwanzmoos","EPDcoretop_E242",47.116667,13.9,1680,"0.035","terrestrial, bog/fen/swamp","peat core top","-34","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.32561567875056,1301.25165918056,1.5507277141731,-6.54717202591663,9.69396326873944,1632.96668486714
2372,5288,12596,"Neotoma","Fudger Lake","FUDGER",40.1,-83.533333,320,"not known","lake","core","-17","Shane, L.C.K. 1991. Vegetation history of western Ohio. Final Report on 1990 Grant from the Ohio Department of Natural Resources, Limnological Research Center, University of Minnesota, Minneapolis, Minnesota.; Shane, L.C.K., and K.H. Anderson. 1993. Intensity, gradients and reversals in late glacial environmental change in East-Central North America. Quaternary Science Reviews 12:307-320.",,13,"temperate deciduous broadleaf forest",1.04019763296793,3935.27315694178,10.1444519489225,-4.05945849901214,22.593678515152,964.932550535148
2373,5289,10359,"IBERIA","Fuente de la Leche","LECHE_0.11",40.3468,-5.0569,1382,"not known","terrestrial, bog/fen/swamp","core","-18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.453955845339557,2992.24449766576,8.19793013059113,0.579137083007497,17.5865481768524,533.737012519257
2373,5290,10360,"IBERIA","Fuente de la Leche","LECHE_0.13",40.3468,-5.0569,1382,"not known","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.453955845339557,2992.24449766576,8.19793013059113,0.579137083007497,17.5865481768524,533.737012519257
2373,5291,10361,"IBERIA","Fuente de la Leche","LECHE_0.15",40.3468,-5.0569,1382,"not known","terrestrial, bog/fen/swamp","core","3","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.453955845339557,2992.24449766576,8.19793013059113,0.579137083007497,17.5865481768524,533.737012519257
2373,5292,10362,"IBERIA","Fuente de la Leche","LECHE_0.17",40.3468,-5.0569,1382,"not known","terrestrial, bog/fen/swamp","core","40","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.453955845339557,2992.24449766576,8.19793013059113,0.579137083007497,17.5865481768524,533.737012519257
2374,5293,10363,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.015",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","-38","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5294,10364,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.035",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","-23","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5295,10365,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.055",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","-9","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5296,10366,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.075",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","3","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5297,10367,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.085",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","9","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5298,10368,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.095",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5299,10369,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.105",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","22","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5300,10370,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.115",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","28","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5301,10371,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.125",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","34","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5302,10372,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.135",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","40","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2374,5303,10373,"IBERIA","Fuente del Pino Blanco","PINOBLANCO_0.145",40.2363,-4.9776,1343,"not known","terrestrial, bog/fen/swamp","core","46","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.441649522469811,3130.66251429506,8.57715757341113,0.907584638579556,18.0995954159397,522.549765305953
2375,5304,7436,"EMPDv2","Fuglatjonn","Hjelle_a25",59.8702766,6.0226461,325,"0.026","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.84383229587211,2218.51382777896,5.90899435830029,-1.13010645584153,13.4116443204626,2051.30376046241
2376,5305,7196,"EMPDv2","Fuhrenkamp","EPDcoretop_E2500",53.66,8.78,6,"0.02","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21733050629056,3172.52802351965,8.69185759868397,0.658178982532843,16.6067468891824,789.243528013771
2377,5306,2910,"CMPD","Fujian","Fujian 1",27.75,118.1,400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44314050570189,6223.19453655096,17.0498480453451,6.07782587119395,27.1873794277856,1646.02910768649
2377,5307,2911,"CMPD","Fujian","Fujian 2",27.83,117.75,2158,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65491222774352,4204.21927257932,11.5184089659707,4.83798255612408,17.1638106580086,1704.30000000974
2378,5308,13792,"Neotoma","Fuller Lake","FULLER",45.421695,-94.075455,290,"not known","lake","core","37","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.851923497431784,3456.28704769045,6.95207068150867,-11.4880350511996,22.5271857702769,728.598023127482
2378,5309,11788,"Neotoma","Fuller Lake","LMSJ1",37.801895,-107.813414999999,3836,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.890038094806096,427.797942610101,-5.76970071107136,-16.8719645192571,5.36999392515869,765.759768803399
2379,5310,11789,"Neotoma","Fuller Lake Cirque","LMSJ1A",37.802875,-107.81325,3836,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.890034033599974,427.782845365667,-5.76982385617836,-16.871979198018,5.36984949470656,765.743981134057
2380,5311,12597,"Neotoma","Furnival Lake","FURNIVAL",48.21,-84.93,440,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",1.41196844887748,2070.98731086596,1.02936827913999,-16.5634116407348,15.7766873736144,971.059488680279
2380,5311,12598,"Neotoma","Furnival Lake","FURNIVAL",48.21,-84.93,440,"not known","lake","core","-6","Unpublished data",,9,"cool mixed forest",1.41196844887748,2070.98731086596,1.02936827913999,-16.5634116407348,15.7766873736144,971.059488680279
2380,5311,12599,"Neotoma","Furnival Lake","FURNIVAL",48.21,-84.93,440,"not known","lake","core","17","Unpublished data",,9,"cool mixed forest",1.41196844887748,2070.98731086596,1.02936827913999,-16.5634116407348,15.7766873736144,971.059488680279
2380,5311,12600,"Neotoma","Furnival Lake","FURNIVAL",48.21,-84.93,440,"not known","lake","core","41","Unpublished data",,9,"cool mixed forest",1.41196844887748,2070.98731086596,1.02936827913999,-16.5634116407348,15.7766873736144,971.059488680279
2381,5312,24395,"Neotoma","Furo do Chato","FURCHATO_0",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-45","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5313,24397,"Neotoma","Furo do Chato","FURCHATO_10",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-48","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5314,24398,"Neotoma","Furo do Chato","FURCHATO_15",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-50","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5315,24399,"Neotoma","Furo do Chato","FURCHATO_20",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-51","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5316,24400,"Neotoma","Furo do Chato","FURCHATO_25",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-53","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5317,24401,"Neotoma","Furo do Chato","FURCHATO_30",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-55","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5318,24402,"Neotoma","Furo do Chato","FURCHATO_35",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","12","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2381,5319,24396,"Neotoma","Furo do Chato","FURCHATO_5",-0.873611111111111,-46.65,2,"not known","terrestrial, marsh","core","-47","Behling, H., M.C.L. Cohen, and R.J. Lara. 2001. Studies on Holocene mangrove ecosystem dynamics of the Braganca Peninsula in north-eastern Pará, Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 167:225-242.",,1,"tropical evergreen broadleaf forest",1.7244166417727,9746.70473278851,26.7033006377767,25.8098929828482,27.4378053110005,2503.65803298583
2382,5320,18971,"SMPDSv1","Furuhaugtjern","Bjune_a45",63.43723203,11.63015545,190,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.9483057743050902,1740.19055055948,3.80709970042865,-4.026384994055,12.4330498009317,1331.65437472986
2383,5321,23156,"SMPDSv1","Furuholtet","Bjune_a15",69.29038915,19.188092610000002,346,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.46058886391753,1074.936519472,-0.86309397838652,-10.1338587084888,10.7589423452134,876.027548217397
2384,5322,24430,"Southern Hemisphere pollen","Fuschia Creek","Fuschia Creek_mod",-41.85179,171.707,300,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",4,"warm-temperate evergreen and mixed forest",2.98230294671812,3878.07969622046,10.6248758800561,5.56150848479759,15.3971184856021,2570.79206476405
2385,5323,18972,"SMPDSv1","Fuschlsee","EPDcoretop_E1259",47.783333,13.266667,663,"0.0266","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30081257458667,2805.1134575752,7.2485301623862,-2.73556718890308,16.3760834665103,1016.76962434287
2386,5324,9771,"Herzschuh et al., 2019","Futian FX","Futian FX3",19.235,110.465,13,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.4161920341569,8974.73662465562,24.5883195196044,18.3985092030661,28.877111429419,1881.82482990752
2387,5325,2912,"CMPD","Fuzhou","Fuzhou",26.1,119.3,85,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34660970327195,7378.27375034372,20.2144486310787,11.5578595380808,28.332677643449,1611.44039975103
2388,5326,18973,"SMPDSv1","G001","Barboni_a513",40.515278,22.709722,10,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.412051353691345,5660.02838785383,15.5069270900105,5.58733209057507,25.4683517142621,514.534824092513
2389,5327,18974,"SMPDSv1","G001 (EMBSECBIO)","G001",44.85,44.68,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.34184235221608,4217.36628173473,10.909045795691,-3.90975950468553,24.96627517635,337.727416628081
2390,5328,18975,"SMPDSv1","G002","Barboni_a514",40.516944,22.709167,10,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.41204021643688,5659.71353193316,15.5060644710497,5.58590502128028,25.4677352925529,514.488291373484
2391,5329,18976,"SMPDSv1","G002 (EMBSECBIO)","G002",44.77,43,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.431837598464168,4187.21857319678,11.0182504226855,-3.01070084082808,24.2827398814903,422.608554602376
2392,5330,18977,"SMPDSv1","G003","Barboni_a515",40.519167,22.708333,15,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.412842396708395,5647.89126166906,15.4736746895043,5.54942119382869,25.4357656637045,515.131687904902
2393,5331,18978,"SMPDSv1","G003 (EMBSECBIO)","G003",44.68,43.25,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.459069769189542,4232.74751335937,11.2573574534926,-2.39985790232394,24.2511633052505,442.329903067624
2394,5332,18979,"SMPDSv1","G004","Barboni_a516",40.519167,22.710556,15,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.412871908929971,5648.0928504776,15.4742269876099,5.55049274853796,25.4360886405641,515.183990097763
2395,5333,18980,"SMPDSv1","G004 (EMBSECBIO)","G004",44.75,43.42,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.423248705401598,4204.69495806587,11.0722797005892,-2.96238650342282,24.4178000672403,410.200647186122
2396,5334,18981,"SMPDSv1","G005","Barboni_a517",40.535833,22.710278,15,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.412830664792431,5645.41639359341,15.466894229023,5.53871428105094,25.4306715297046,514.841970637844
2397,5335,18982,"SMPDSv1","G005 (EMBSECBIO)","G005",45.85,43.17,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.364834041876948,4052.92942021716,10.177005518114,-5.09433091467817,24.5125224855089,364.40676225734
2398,5336,18983,"SMPDSv1","G006","Barboni_a518",40.556667,22.708889,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.413583297376002,5630.56052919769,15.4261932306786,5.48879861443631,25.3925592195694,515.092792968757
2399,5337,18984,"SMPDSv1","G006 (EMBSECBIO)","G006",44.93,42.68,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.448000149508131,4197.13656180928,11.0782032574983,-2.88365821203226,24.1742414964581,441.708679200321
2400,5338,18985,"SMPDSv1","G007","Barboni_a519",40.591667,22.710278,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.413512373383773,5625.05049979932,15.4110972597242,5.46456286150017,25.3813332686601,514.403848999945
2401,5339,18986,"SMPDSv1","G007 (EMBSECBIO)","G007",44.68,42.68,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.491268011099896,4271.39957675457,11.4421456641327,-2.00053408303709,24.0985003183398,479.701927530634
2402,5340,18987,"SMPDSv1","G008","Barboni_a520",40.731667,22.644444,6,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409960023363205,5627.79297795995,15.4186108985204,5.4251297068068,25.4125152927374,507.973718812636
2403,5341,18988,"SMPDSv1","G008 (EMBSECBIO)","G008",45.42,42.85,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.371472683142545,4096.63326870178,10.4473098579155,-4.49432572018792,24.4741669323405,370.566183352622
2404,5342,18989,"SMPDSv1","G009","Barboni_a521",40.735833,22.537222,3,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408073717557586,5623.37524357987,15.4065075166572,5.38547706443291,25.4128721952602,504.974449643413
2405,5343,18990,"SMPDSv1","G010","Barboni_a522",40.753333,22.469167,6,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.405357655662658,5543.25960780773,15.1870126241308,5.02818067046816,25.2677304627751,497.349816252053
2406,5344,18991,"SMPDSv1","G011","Barboni_a523",40.751667,22.398611,1,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403922166187186,5545.50460579576,15.19316330355,5.01502362942377,25.2830135514562,495.309780078054
2407,5345,18992,"SMPDSv1","G012","Barboni_a524",40.673056,22.308889,2,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.404888164283442,5612.96225016688,15.3779787675805,5.31698138125897,25.4018827505544,500.599083769812
2408,5346,18993,"SMPDSv1","G013","Barboni_a525",40.883056,22.625833,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408169857629715,5514.39039454077,15.1079188891528,4.95394400020346,25.1819983208513,499.556836522988
2409,5347,18994,"SMPDSv1","G014","Barboni_a526",40.878611,22.628611,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408210858174612,5515.27777926543,15.1103500801793,4.95845229115356,25.1836259218257,499.684437697543
2410,5348,18995,"SMPDSv1","G015","Barboni_a527",40.876111,22.632778,22,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408608028315148,5511.47253238765,15.0999247462675,4.9485591799875,25.1722100336703,500.093984571154
2411,5349,18996,"SMPDSv1","G015 (EMBSECBIO)","G015",40,53,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.120340100554587,5577.7871325628,15.2816085823638,2.31758251011559,28.1456749926409,152.321703816373
2412,5350,18997,"SMPDSv1","G016","Barboni_a528",40.870833,22.634444,20,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408287965581842,5516.93998212265,15.11490406061,4.9669236663279,25.1866619688042,499.921850917622
2413,5351,18998,"SMPDSv1","G016 (EMBSECBIO)","G016",39,56,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.140833434111471,5663.86232319266,15.5174310224456,1.06909400516462,29.7003832691886,184.291727316042
2414,5352,18999,"SMPDSv1","G017","Barboni_a529",40.626944,22.1,173,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429478824626151,5221.51496096174,14.3055204409911,4.06390667882755,24.357634769572,521.418726432664
2415,5353,19000,"SMPDSv1","G017 (EMBSECBIO)","G017",38.5,54,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.137527247421264,5952.4060713769,16.3079618393888,3.34926812018278,28.7778401028481,179.115710748995
2416,5354,19001,"SMPDSv1","G018","Barboni_a530",40.611944,22.070556,414,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.488482971168062,4721.21571643669,12.9348375792786,2.67405811049842,22.9177293718201,579.568548655642
2417,5355,19002,"SMPDSv1","G018 (EMBSECBIO)","G018",38.3,55,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.138348858054286,6042.29382872166,16.5542296677306,3.33605557549585,29.2685544407094,181.379583397727
2418,5356,19003,"SMPDSv1","G019","Barboni_a531",40.598333,22.069444,507,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.512104307557304,4529.96877488092,12.4108733558381,2.14668565574111,22.3661754398635,602.289269972653
2419,5357,19004,"SMPDSv1","G019 (EMBSECBIO)","G019",39,54,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.130047384574139,5734.57877150812,15.7111747164606,2.58076571157598,28.5510049280129,169.173325077148
2420,5358,19005,"SMPDSv1","G020","Barboni_a532",40.59,22.065278,657,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.551143545321271,4218.76691269533,11.558265514233801,1.28263140355872,21.4709444579182,638.56498808524
2421,5359,19006,"SMPDSv1","G020 (EMBSECBIO)","G020",40,55,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.136423721168672,5131.76632128178,14.0247069013138,-0.335511509688411,28.2356056036414,176.582159881322
2422,5360,19007,"SMPDSv1","G021","Barboni_a533",40.576667,22.056667,1010,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.648269172234807,3511.57937325305,9.54917880742803,-0.755566446816843,19.3626554936851,723.940645680814
2423,5361,19008,"SMPDSv1","G021 (EMBSECBIO)","G021",39.85,56,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.129959858980927,5360.29360446427,14.6747558161323,-0.0274909179876885,29.2135232752938,168.829792627229
2424,5362,19009,"SMPDSv1","G022","Barboni_a534",40.566667,22.050278,1206,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.705776412198852,3168.38894874723,8.43612859890165,-1.8830366118154,18.1944445497643,771.680010883141
2425,5363,19010,"SMPDSv1","G022 (EMBSECBIO)","G022",40.17,56.5,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.127427837820597,5329.07109452633,14.5652886533123,-0.337678401268734,29.3074422758905,165.032040444471
2426,5364,19011,"SMPDSv1","G023","Barboni_a535",40.546389,22.048056,1407,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.767382915311184,2841.66039614614,7.29829323419585,-3.03316203404822,17.0158473998477,820.881266578974
2427,5365,19012,"SMPDSv1","G023 (EMBSECBIO)","G023",40,57,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.130246380173057,5388.47347719259,14.7322427239727,-0.298475437302638,29.5973084669057,168.938530909454
2428,5366,19013,"SMPDSv1","G024","Barboni_a536",40.521944,22.040556,1504,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.798482633997961,2692.99024825296,6.75905111451923,-3.57131588442362,16.4768756276009,845.683953006367
2429,5367,19014,"SMPDSv1","G024 (EMBSECBIO)","G024",39.5,57.2,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.120831307026316,5648.80095468987,15.4761669991503,0.428223197545696,30.4002680725702,158.4353967914
2430,5368,19015,"SMPDSv1","G025","Barboni_a537",40.512778,22.033889,1603,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.830984077704491,2543.37371713029,6.20081102391437,-4.1341684993683,15.9193619064002,870.392925594952
2431,5369,19016,"SMPDSv1","G025 (EMBSECBIO)","G025",39.25,57,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.125373731578218,5750.66330687477,15.7552419366432,0.77025176871286,30.6049091959889,164.7250334483
2432,5370,19017,"SMPDSv1","G026","Barboni_a538",40.546111,22.145,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.484753482974667,4763.09093717364,13.0495642114346,2.81833948387843,23.0290613595486,577.382529757584
2433,5371,19018,"SMPDSv1","G026 (EMBSECBIO)","G026",39.25,56,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.12894861275628,5722.58169153458,15.6783060042043,1.08131696667679,30.0766424415911,169.016946706058
2434,5372,19019,"SMPDSv1","G027","Barboni_a539",40.546389,22.125,602,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.535929476282344,4339.73046976352,11.8896725199001,1.63358523827279,21.815825201207,625.407085459345
2435,5373,19020,"SMPDSv1","G027 (EMBSECBIO)","G027",38.34,58.68,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.115839147798361,6149.29891307166,16.847394282388102,2.29418818308049,31.2359003980474,155.01194324339
2436,5374,19021,"SMPDSv1","G028","Barboni_a540",40.545,22.158611,329,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467319544776616,4912.37595178291,13.45856425146,3.23717421614369,23.4564388356481,560.575911276617
2437,5375,19022,"SMPDSv1","G028 (EMBSECBIO)","G028",41.51,58.68,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0912863608164069,4958.17417122552,13.2354437938162,-2.54439651399521,28.7454750133927,117.917444778032
2438,5376,19023,"SMPDSv1","G029","Barboni_a541",40.536667,22.185,252,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.448806182620368,5076.22618373963,13.9074689965469,3.70100257745934,23.9238149689009,542.635329509271
2439,5377,19024,"SMPDSv1","G029 (EMBSECBIO)","G029",41.68,58.85,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0897002096032087,4933.82793613044,13.1406589958618,-2.70253943631622,28.6795967350551,115.978959659344
2440,5378,19025,"SMPDSv1","G030","Barboni_a542",40.398611,22.285833,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.605685292627708,3509.24296674434,9.52223671248365,-0.915735168068106,19.4521173434325,676.861457270794
2441,5379,19026,"SMPDSv1","G030 (EMBSECBIO)","G030",41.34,57.85,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0938051061869658,4965.72114151846,13.2754384361691,-2.41549990249625,28.7501475515491,120.543328964083
2442,5380,19027,"SMPDSv1","G031","Barboni_a543",40.415833,22.266667,1009,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.608154718187047,3490.99367212709,9.46347573579413,-0.983094848247777,19.3921334286603,678.578565945556
2443,5381,19028,"SMPDSv1","G031 (EMBSECBIO)","G031",41.5,58,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0931802064259796,4935.02552270954,13.1618798515001,-2.57668208520115,28.6685988248038,119.488517409858
2444,5382,19029,"SMPDSv1","G032","Barboni_a544",40.421667,22.2475,802,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.5859456635883,3936.12404911953,10.7839015044371,0.537431078839433,20.6570205193285,672.63194907794
2445,5383,19030,"SMPDSv1","G032 (EMBSECBIO)","G032",41.34,57.34,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0949620900208795,4969.01469328364,13.3048124706519,-2.2840839012179,28.7148781827016,121.628727483727
2446,5384,19031,"SMPDSv1","G033","Barboni_a545",40.4425,22.245833,652,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.546997297537542,4249.49212064709,11.6424441661564,1.41234807139698,21.5519592308318,637.372921920432
2447,5385,19032,"SMPDSv1","G033 (EMBSECBIO)","G033",41.68,57,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0943306240592883,4916.92671492213,13.1383324719964,-2.39995643264354,28.5037081142772,119.991873353779
2448,5386,19033,"SMPDSv1","G034","Barboni_a546",40.464167,22.255556,402,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.479611614338734,4769.55091689377,13.0672627860103,2.87686905226639,23.0417826134393,572.20495205017
2449,5387,19034,"SMPDSv1","G034 (EMBSECBIO)","G034",41.5,57.5,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0942822158390338,4937.84161953495,13.1895543546356,-2.44934787442456,28.63550805466,120.474117589111
2450,5388,19035,"SMPDSv1","G035","Barboni_a547",40.79,21.727222,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.656019385628222,3629.87461048826,9.90262399300024,-0.485580395745975,19.7060920642159,726.237004131559
2451,5389,19036,"SMPDSv1","G036","Barboni_a548",40.8125,21.777222,654,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.5534817777955,4090.7208343061902,11.2074543405649,0.673628404228867,21.1763580809212,626.293154831229
2452,5390,19037,"SMPDSv1","G036 (EMBSECBIO)","G036",45,60,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.100108885596,4542.66619908542,11.0478448934688,-7.14601521525294,28.5482692585194,116.574329987217
2453,5391,19038,"SMPDSv1","G037","Barboni_a549",40.78,21.894722,596,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.535420343700988,4211.37989145019,11.5380270998635,1.00862907607874,21.5318157840413,609.879198209999
2454,5392,19039,"SMPDSv1","G038","Barboni_a550",40.786667,21.927222,554,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.523458060657575,4295.20663508762,11.767689411199,1.23361696222758,21.7794008852966,598.573318877487
2455,5393,19040,"SMPDSv1","G039","Barboni_a551",40.811944,21.986944,548,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.521341310856741,4303.74540607959,11.7910833043277,1.24891456065886,21.806150607114,595.791057792682
2456,5394,19041,"SMPDSv1","G040","Barboni_a552",40.618611,22.1475,66,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.404675581941985,5448.97138091591,14.9286887148381,4.70754587780527,25.0073539370675,496.544467513291
2457,5395,19042,"SMPDSv1","G041","Barboni_a553",40.623611,22.199167,29,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.396525501298238,5528.17443851309,15.1456833931865,4.93314261953922,25.2329367506271,488.170063955171
2458,5396,19043,"SMPDSv1","G042","Barboni_a554",40.657222,22.241389,6,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39145440047238,5572.11032612173,15.2660556880047,5.04739714886493,25.3630329730309,482.352974572907
2459,5397,19044,"SMPDSv1","G043","Barboni_a555",40.481389,22.176389,452,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.497650836683818,4666.57164207431,12.7851277865049,2.57414994834186,22.7439279791135,591.222235496332
2460,5398,19045,"SMPDSv1","G044","Barboni_a556",40.440278,22.1525,613,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.538821617775432,4337.20322640658,11.8827485654975,1.66825230939998,21.7962114479701,630.963953944316
2461,5399,19046,"SMPDSv1","G045","Barboni_a557",40.408889,22.131667,905,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.617018646285473,3733.82277447143,10.2231602142567,-0.0152773787795747,20.0608443382723,701.859120389685
2462,5400,19047,"SMPDSv1","G046","Barboni_a558",40.399444,22.093889,1210,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.70538770253412,3180.59598303405,8.48632408965144,-1.78008445228465,18.2442450644145,776.728464214458
2463,5401,19048,"SMPDSv1","G047","Barboni_a559",40.377222,22.063333,1006,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.647546530182095,3550.4528509028,9.67832816465229,-0.547772221140162,19.482230130447,730.269734762021
2464,5402,19049,"SMPDSv1","G048","Barboni_a560",40.39,22.113611,1103,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.673380989496119,3367.05597150864,9.09994120472069,-1.15350313190132,18.886228411097,750.504777666286
2465,5403,19050,"SMPDSv1","G049","Barboni_a561",40.375278,21.9675,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.565958739430637,4179.06773534617,11.449500644784,1.27161176412686,21.3226858219987,659.808064378109
2466,5404,19051,"SMPDSv1","G050","Barboni_a562",40.370556,21.864722,651,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.555204307284173,4287.803493512,11.747406831539699,1.58739834673885,21.625887417037,651.203403281007
2467,5405,19052,"SMPDSv1","G052","Barboni_a563",40.245556,21.61,710,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.606222457617759,4279.24573724397,11.7239609239561,1.93436381015842,21.4176305560774,721.244505673949
2468,5406,19053,"SMPDSv1","G053","Barboni_a564",40.284167,21.485278,604,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.587074675825256,4430.51348748875,12.1383931164075,2.19286077185926,21.8953814924926,697.375328265784
2469,5407,19054,"SMPDSv1","G054","Barboni_a565",40.36,21.464722,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.612422384629864,4211.36467187561,11.5379854023989,1.54459429871143,21.286932677348,717.194654895437
2470,5408,19055,"SMPDSv1","G056","Barboni_a566",40.661389,21.544722,802,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.6332495211675,3933.87779601513,10.7777473863428,0.624665893418465,20.5520297357718,723.173003523624
2471,5409,19056,"SMPDSv1","G057","Barboni_a567",40.598889,21.492222,806,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.637705448226163,3939.69117234235,10.7936744447736,0.678385962011006,20.552905237984,730.022710909461
2472,5410,19057,"SMPDSv1","G057 (EMBSECBIO)","G057",45,21,2190,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.14319442721324,1048.95019700804,-0.126890262824497,-8.95109912819988,9.28765780768977,1650.54888626947
2473,5411,19058,"SMPDSv1","G058","Barboni_a568",40.570833,21.493889,1053,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.709348565118301,3455.57893612878,9.39974476617253,-0.719750754672873,19.0960228457385,789.942122866171
2474,5412,19059,"SMPDSv1","G058 (EMBSECBIO)","G058",45,21,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.53272612560117,1971.35275269209,3.99340815665927,-6.04134073012872,13.5735797973578,1280.26380644426
2475,5413,19060,"SMPDSv1","G059","Barboni_a569",40.532222,21.489167,1109,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.726047625332935,3358.06812153436,9.09442518769161,-1.01847868374219,18.7766997393444,804.35676003682
2476,5414,19061,"SMPDSv1","G060","Barboni_a570",40.529722,21.408333,701,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.614484714792017,4177.67095748104,11.4456738561124,1.39182908519899,21.2063868684291,714.461370144069
2477,5415,19062,"SMPDSv1","G061","Barboni_a571",40.508889,21.385278,704,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.61705642698742,4177.3391232025,11.4447647211027,1.40719622583964,21.1974248977466,717.980168459684
2478,5416,19063,"SMPDSv1","G062","Barboni_a572",40.5,21.353333,711,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.621165045278511,4166.68228976217,11.4155679171566,1.39095380604728,21.1592399328681,722.616663136122
2479,5417,19064,"SMPDSv1","G063","Barboni_a573",40.547222,21.329167,628,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.600414297810315,4334.2134871432,11.8745574990225,1.8485700745703,21.6352522057547,704.011137411685
2480,5418,19065,"SMPDSv1","G064","Barboni_a574",40.763056,21.2825,1522,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.884068701587558,2668.10966510357,6.75443815870073,-3.27577630269955,16.2531564793185,921.331031653289
2481,5419,19066,"SMPDSv1","G065","Barboni_a575",40.776944,21.275,1408,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.845440341596195,2833.49874632919,7.33776651612668,-2.73984610557703,16.8654383110801,891.119614244758
2482,5420,19067,"SMPDSv1","G066","Barboni_a576",40.788056,21.238333,1357,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.754463584339934,2871.16567801524,7.39101285803494,-3.01420311455332,17.1521753696228,795.856895191716
2483,5421,19068,"SMPDSv1","G067","Barboni_a577",40.774722,21.217222,1207,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.736908196525515,3110.42942526271,8.24051158302977,-2.09749324268783,17.9860284330206,791.080179153726
2484,5422,19069,"SMPDSv1","G068","Barboni_a578",40.759444,21.208889,1101,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725546866765196,3289.99561981591,8.84889536457483,-1.43467471186927,18.5797213106741,788.758133729919
2485,5423,19070,"SMPDSv1","G069","Barboni_a579",40.708889,21.188611,1004,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.707163883482252,3533.14307531805,9.63733384502404,-0.48740221998092,19.338608622825,787.937347081195
2486,5424,19071,"SMPDSv1","G070","Barboni_a580",40.653056,21.180278,831,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.690145741238297,3922.05789427037,10.7453640938914,0.803534613888436,20.375647696311,788.547479138387
2487,5425,19072,"SMPDSv1","G071","Barboni_a581",40.645278,21.1775,825,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.689732670927337,3937.30671178286,10.7871416761174,0.85467235344284,20.4138382075565,788.946647511024
2488,5426,19073,"SMPDSv1","G072","Barboni_a582",40.591667,21.192222,770,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.682560838277939,4071.94850468832,11.1560233005159,1.29028831531069,20.7600685820707,788.094061812149
2489,5427,19074,"SMPDSv1","G073","Barboni_a583",40.26,21.444722,652,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.602460995297634,4336.91348852155,11.8819547630728,1.9508930829403,21.619343693112,712.734312765871
2490,5428,19075,"SMPDSv1","G074","Barboni_a584",40.131389,21.446111,602,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.593015424410335,4551.48424405042,12.4698198467135,2.82665034406861,22.1035387675365,718.406434994204
2491,5429,19076,"SMPDSv1","G075","Barboni_a585",40.018333,21.493333,702,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.611999012912883,4353.35388312892,11.9269969400792,2.26696943907732,21.5633450555198,736.382616993428
2492,5430,19077,"SMPDSv1","G076","Barboni_a586",39.955,21.501944,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.610911678289204,4371.43305501928,11.9765289178611,2.3418577935787,21.6047684889345,737.279497113753
2493,5431,19078,"SMPDSv1","G077","Barboni_a587",39.898333,21.516667,709,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.61176541337984,4363.54420509177,11.9549156303884,2.33507057844668,21.5789621381675,739.369955045954
2494,5432,19079,"SMPDSv1","G078","Barboni_a588",39.8475,21.5425,601,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.586841221534159,4611.04240686871,12.6329928955307,3.08874858941782,22.2366793097137,719.465715226479
2495,5433,19080,"SMPDSv1","G079","Barboni_a589",39.726667,21.215556,1364,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.74534109727847,3009.88651095076,7.89469381436316,-2.39436533241928,17.9328589396647,838.488836359364
2496,5434,19081,"SMPDSv1","G080","Barboni_a590",39.684167,21.291944,1557,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.814633678789242,2709.72977757194,6.81254972336536,-3.49288172236396,16.8378661655203,897.003643556592
2497,5435,19082,"SMPDSv1","G081","Barboni_a591",39.721667,21.266944,1456,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.791824493000378,2873.15315433978,7.43562745662579,-2.7561804889518,17.3908719472683,882.386358915993
2498,5436,19083,"SMPDSv1","G082","Barboni_a592",39.725,21.188889,1310,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.73790168374063,3109.10020867526,8.25513613355387,-1.94769935980478,18.2403306722651,836.411188751399
2499,5437,19084,"SMPDSv1","G083","Barboni_a593",39.754444,21.185278,1225,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.711328869828298,3240.66921215196,8.71242467112534,-1.4057553285743,18.572549064031,806.921509903693
2500,5438,19085,"SMPDSv1","G083 (EMBSECBIO)","G083",45,22,2190,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.1975208783459,651.607088376968,-2.35124347806629,-11.543018929561,6.05939208231876,1395.43537079727
2501,5439,19086,"SMPDSv1","G084","Barboni_a594",39.735833,21.038056,803,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673056576443335,4261.80203816746,11.6761699675821,2.31837655280909,21.1414033206339,816.76976199349
2502,5440,19087,"SMPDSv1","G084 (EMBSECBIO)","G084",45,22,1850,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84608421888474,1079.82902892833,-0.0986466919827121,-9.80268923224147,8.56588629000381,1266.2168507914
2503,5441,19088,"SMPDSv1","G085","Barboni_a595",39.751944,21.118056,912,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.682332510254444,3938.87357985656,10.7914344653604,1.13256492853768,20.3954256187626,807.928813593451
2504,5442,19089,"SMPDSv1","G085 (EMBSECBIO)","G085",49,20,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49344912206556,1959.21676504641,3.75521737212868,-6.74771620121144,12.9184272306694,1059.7585780614
2505,5443,19090,"SMPDSv1","G086","Barboni_a596",39.763333,21.1575,1309,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.721932264682176,3078.20647891093,8.14324507402454,-2.09977051739425,18.0701141531713,808.617551173064
2506,5444,19091,"SMPDSv1","G086 (EMBSECBIO)","G086",49,20,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.60302392584955,1800.75442213339,3.10344747358867,-7.21658736700564,12.1827271595275,1113.87290120031
2507,5445,19092,"SMPDSv1","G087","Barboni_a597",39.7925,21.165,1404,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.732847290533832,2902.12968119697,7.49487133788656,-2.89199012511422,17.4958797296515,808.489989649258
2508,5446,19093,"SMPDSv1","G087 (EMBSECBIO)","G087",49,20,1350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.89779336072162,1425.14092433016,1.47402272723864,-8.38876528149114,10.3434769816727,1249.1587090476
2509,5447,19094,"SMPDSv1","G088","Barboni_a598",39.8,21.228889,1655,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.76243082277099,2485.31823142828,5.84312271418356,-4.89032203681376,16.0303088938415,810.668017962972
2510,5448,19095,"SMPDSv1","G089","Barboni_a599",39.804167,21.3,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.729891823996377,3311.32580395017,8.97438688872844,-0.938841735162583,18.691568527646,831.991009300378
2511,5449,19096,"SMPDSv1","G090","Barboni_a600",39.806667,21.328056,801,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.64297979205744,4183.44016074516,11.4614798924525,1.85612171744888,21.0602117671581,771.597836581989
2512,5450,19097,"SMPDSv1","G091","Barboni_a601",39.783889,21.450833,1110,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.703082554584614,3505.62235695515,9.5839523820459,-0.239823426386346,19.272796304573,813.899239018665
2513,5451,19098,"SMPDSv1","G092","Barboni_a602",39.767222,21.475,1008,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.678512803391896,3730.32373025848,10.2200650144068,0.469161967548101,19.8853897137692,796.200105574153
2514,5452,19099,"SMPDSv1","G093","Barboni_a603",39.74,21.555833,302,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.524326345844005,5399.12248689254,14.7921164024453,5.79528844430205,24.1204964606986,675.669014021387
2515,5453,19100,"SMPDSv1","G094","Barboni_a604",39.504444,20.852778,608,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.652489242274396,4781.88700394143,13.101060284771,4.15881129413747,22.3121864719612,817.440292684208
2516,5454,19101,"SMPDSv1","G094 (EMBSECBIO)","G094",48,41.35,900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.658102445259898,1647.18127592401,-4.05216381450952,-23.7034896026298,13.5236224048478,421.283193508793
2517,5455,19102,"SMPDSv1","G095","Barboni_a605",39.492778,20.861944,502,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.637658904522034,5046.89088588263,13.8270983174867,5.07270835267867,22.9226376125997,809.837826517297
2518,5456,19103,"SMPDSv1","G095 (EMBSECBIO)","G095",48,41.35,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.720494284463072,1188.24009336843,-8.13240104784909,-29.2028555032768,11.2954618780743,404.765531976405
2519,5457,19104,"SMPDSv1","G096","Barboni_a606",39.706667,20.763056,603,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.665026341388622,4764.47993130474,13.0533696748075,4.08895985127713,22.2630244534211,827.567962269907
2520,5458,19105,"SMPDSv1","G096 (EMBSECBIO)","G096",48,41.35,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.682185897738565,1455.67771647918,-5.68425870784535,-25.9032359628886,12.6323581941384,414.676128895838
2521,5459,19106,"SMPDSv1","G097","Barboni_a607",39.745278,20.665556,607,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.693568040721165,4763.44230389463,13.0505268599853,4.14178414022603,22.1965359059789,859.818720281457
2522,5460,19107,"SMPDSv1","G097 (EMBSECBIO)","G097",48,41.35,850,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.646492896722521,1746.98299288033,-3.23611636784161,-22.6036164225004,13.9692545102025,424.58672581527
2523,5461,19108,"SMPDSv1","G098","Barboni_a608",39.751389,20.621944,252,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.695598353787483,5590.02336331977,15.3151325022459,6.87296512293853,24.1637943174783,890.840148749045
2524,5462,19109,"SMPDSv1","G098 (EMBSECBIO)","G098",48,41.35,520,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.576879226961907,2483.70071379737,2.14979678016663,-15.3444534336464,17.4131837956225,446.390039038022
2525,5463,19110,"SMPDSv1","G099","Barboni_a609",39.682778,20.606111,252,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.657170381519266,5664.81449676536,15.5200397171654,7.2653807489194,24.291095668726,851.523697214075
2526,5464,19111,"SMPDSv1","G100","Barboni_a610",39.611944,20.554722,308,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.660034352347288,5527.03989812108,15.1425750633454,6.79759117895343,23.9626124002073,850.636349870172
2527,5465,19112,"SMPDSv1","G101","Barboni_a611",39.591944,20.536389,607,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.693150724079219,4776.50232930811,13.0863077515291,4.20744413802825,22.2166936739098,862.162108883237
2528,5466,19113,"SMPDSv1","G102","Barboni_a612",39.5725,20.536111,712,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.705026380839771,4515.29762984263,12.370678437925,3.30666280963952,21.6174437553353,866.168416067449
2529,5467,19114,"SMPDSv1","G103","Barboni_a613",39.535278,20.473611,300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.657042494380132,5549.24288420787,15.2034051622133,6.88216327717704,24.0113813020822,848.323047195915
2530,5468,19115,"SMPDSv1","G104","Barboni_a614",39.535556,20.328056,302,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.661971011696112,5534.88506738422,15.164068677765,6.82641127758719,23.9759694874972,852.505596142885
2531,5469,19116,"SMPDSv1","G105","Barboni_a615",39.496111,20.389722,308,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.658242746390987,5527.57370431485,15.1440375460681,6.80958060441896,23.9579791016099,848.910967142713
2532,5470,19117,"SMPDSv1","G106","Barboni_a616",39.52,20.453056,301,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.656864904396484,5546.86083622937,15.1968790033681,6.87529589459662,24.0050107736461,848.086435883876
2533,5471,19118,"SMPDSv1","G107","Barboni_a617",39.722778,21.005833,703,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.661715918353536,4512.62668810208,12.3633607893208,3.18186359629265,21.7204019173911,813.858513449446
2534,5472,19119,"SMPDSv1","G107 (EMBSECBIO)","G107",49,22.5,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.810894725835656,3376.0097281012,8.78027802549111,-3.45834672295698,18.7629873256039,661.73222091508
2535,5473,19120,"SMPDSv1","G108","Barboni_a618",39.701667,20.973611,612,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.651632944059485,4742.68031195806,12.9936446902961,3.97728158212065,22.2491915346025,811.381311395812
2536,5474,19121,"SMPDSv1","G108 (EMBSECBIO)","G108",49,22.5,670,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14898294138498,2562.1655291595,5.8673836897589,-5.9705454753292,15.6245741824298,859.213682382385
2537,5475,19122,"SMPDSv1","G109","Barboni_a619",39.678056,20.937222,909,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.692648635510334,4005.87019175846,10.9749868267355,1.46198393804114,20.5322789200138,829.854143652811
2538,5476,19123,"SMPDSv1","G110","Barboni_a620",39.757778,20.776111,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.671785040555788,4955.49387208568,13.5766955399608,4.62796321652825,22.753366418201,838.159290234119
2539,5477,19124,"SMPDSv1","G189 (EMBSECBIO)","G189",40.12,45.6,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.425558104980905,3605.92172911956,9.02104107003287,-5.08655107979005,22.0874439329596,494.846407468072
2540,5478,600,"Australian pollen","G5-2-053P (Seram Trench)","G5-2-053P (Seram Trench)",-3.5833,132.1833,-1991,"not applicable","marine","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",,"not applicable",,,,,,
2541,5479,19125,"SMPDSv1","Gaddtjarn","Seppa_b154",62.4,16.3,270,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22556773030977,1732.34945710441,1.74382172645255,-10.3122322663928,13.6627027603944,616.680127602898
2542,5480,2913,"CMPD","Gahai","Gahai 1",34.24,102.31,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504368823590765,1767.81719759601,2.66795283162078,-8.92165078405603,12.2685732911407,510.991034827032
2542,5481,2914,"CMPD","Gahai","Gahai 2",34.24,102.31,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504368823590765,1767.81719759601,2.66795283162078,-8.92165078405603,12.2685732911407,510.991034827032
2542,5482,2915,"CMPD","Gahai","Gahai 3",34.35,102.3,3610,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.484388376344907,1570.88327602636,1.7734695885337,-9.79417250030092,11.3593085920358,488.40667809248
2543,5483,7003,"EMPDv2","Gaienhofen","EPDcoretop_E1508",47.68,8.98,408,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.08351782232249,3433.4402260207,9.40119621202584,-0.0218851644196117,18.5175717124974,853.096504393352
2544,5484,11989,"Neotoma","Galena Lake","SM-GAL-S",39.296955,-106.420215,3364,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.557121271048867,1013.70393504666,-1.99766635840157,-13.3371988328431,9.60812228456822,512.556792889822
2545,5485,19126,"SMPDSv1","Galgebergstjonn","Bjune_a276",61.5383333333333,7.84833333333333,1301,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.74724679487834,1138.63618937539,-0.0995001728900505,-9.84750915132324,9.75371483457076,867.587762509685
2546,5486,9552,"EMPDv2","Galickij-moh peatland","Novenko_c84",56.6411,36.0733,123,"5","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.08729556254681,2480.31916699907,4.23785250833016,-10.4551520161174,17.4881244193322,689.222676434125
2546,5487,9553,"EMPDv2","Galickij-moh peatland","Novenko_c85",56.6631,36.1408,125,"5","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.08654009287637,2482.86502795848,4.24801051984651,-10.4431403881698,17.4956913918453,689.088872548735
2546,5488,9554,"EMPDv2","Galickij-moh peatland","Novenko_c86",56.6631,36.1883,122,"5","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.08582496489054,2481.34699347905,4.23905777798881,-10.4618172807572,17.4985866615024,688.14227895558
2546,5489,9555,"EMPDv2","Galickij-moh peatland","Novenko_c87",56.673,36.2316,126,"5","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0850541281066,2485.45833081379,4.25758051378695,-10.4346888088765,17.5065099822163,688.53981361078
2547,5490,601,"Australian pollen","Gallahers Swamp","Gallahers Swamp_0",-34.495,150.7272,535,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.757555022121374,5010.83364940314,13.7283113682278,7.04629009684729,19.9246290643415,960.239182293893
2547,5491,602,"Australian pollen","Gallahers Swamp","Gallahers Swamp_10",-34.495,150.7272,535,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.757555022121374,5010.83364940314,13.7283113682278,7.04629009684729,19.9246290643415,960.239182293893
2548,5492,19127,"SMPDSv1","Gallanech Beg","EPDcoretop_E912",56.384444,-5.501389,70,"not known","not known","core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",3.24475517366627,3103.86489139866,8.50373942848947,3.99179475283312,13.5609914773781,1721.88962334464
2549,5493,19128,"SMPDSv1","Gallocanta","Barboni_a1361",40.967917,-1.499444,990,"1449.21","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.458889027631627,4029.86841437029,11.0407353818364,3.15047227715539,20.6890320477569,535.202658948586
2550,5494,19129,"SMPDSv1","Galo boloto","Galo boloto_SS",52.3175111111111,29.1820944444444,119,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.800995207313584,3023.64950405049,7.0006341147038,-6.50646934802267,18.3924116633048,607.561936829018
2551,5495,19130,"SMPDSv1","Gambelas","Connor_b1",37.043935,-7.974534,25,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.563635227864818,6304.42869342116,17.272407379236,11.7973071144211,23.6429565891639,682.32993921725
2552,5496,19131,"SMPDSv1","Gamlesjon","Seppa_b163",59.75,14.18,182,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14383515440891,2171.20510565335,4.32336953266978,-6.25850246746214,15.107669823273,663.3371396474
2553,5497,19132,"SMPDSv1","Gammelheimenvatnet","Bjune_a184",68.4666666666666,17.75,290,"0.0224","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.6421236827916,1185.93542129757,0.199996744375107,-8.81288519874728,11.1347502262301,959.661969850422
2554,5498,19133,"SMPDSv1","Gammvatn","Bjune_a239",69.945,19.2683333333333,185,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.52064926034275,1207.74850709144,0.434231998319059,-7.93751268379092,11.368409258767,899.943516900786
2555,5499,19134,"SMPDSv1","Gamperfin","EPDcoretop_E1089",47.101389,9.225,1320,"0.1","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19428092169656,1960.42300252483,4.6190633515774,-3.57354804775863,12.9172947223593,1636.97725174162
2556,5500,23184,"SMPDSv1","Gamvik Municipality","Bjune_a304",70.59,27.5783333333333,345,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.90836726380332,1084.3534571615,-3.12790628289849,-16.2656120875794,11.6711320713394,639.998999482275
2557,5501,2916,"CMPD","Gangou","Gangou",43.75,87.5,1300,"not known","not known","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.149581312909454,3300.07019207708,5.60620566876343,-13.6078545318046,21.7181551233409,155.17489639123
2558,5502,9772,"Herzschuh et al., 2019","Gantang","Gantang 1",26.77,119.03,1007,"not known","not known","not known","10.8","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.40068851641412,5351.99479929696,14.6629994501287,4.69346122613927,24.1590152100171,1557.67377635689
2558,5503,9773,"Herzschuh et al., 2019","Gantang","Gantang 2",26.77,119.03,1007,"not known","not known","not known","23.9","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.40068851641412,5351.99479929696,14.6629994501287,4.69346122613927,24.1590152100171,1557.67377635689
2558,5504,9774,"Herzschuh et al., 2019","Gantang","Gantang 3",26.77,119.03,1007,"not known","not known","not known","37","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.40068851641412,5351.99479929696,14.6629994501287,4.69346122613927,24.1590152100171,1557.67377635689
2559,5505,2917,"CMPD","Gaoximage","Gaoximage",42.9524,115.367,1253,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.305364194150865,2694.3607256277,2.4881540264479,-17.7449671553066,19.9527057017532,307.304719508506
2560,5506,2918,"CMPD","Gaoyi","Gaoyi",26.95,110.01,243,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.23253043527876,6313.9447622617,17.298478800717,5.48977779927175,28.2867395748304,1350.12192590945
2561,5507,603,"Australian pollen","Gap Range","GH1 SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2561,5508,604,"Australian pollen","Gap Range","GH2 SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2561,5509,605,"Australian pollen","Gap Range","GH3 SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2561,5510,606,"Australian pollen","Gap Range","GH4 SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2561,5511,607,"Australian pollen","Gap Range","GH6 SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2561,5512,608,"Australian pollen","Gap Range","GHE SS",-31.27,142.37,300,"not applicable","cave","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142493464187604,7080.723568985,19.3992426547534,10.972060601646,27.4865287076089,244.130807814238
2562,5513,609,"Australian pollen","Gap Springs","ELZ01",-16.401115,126.13567,560,"not known","spring deposit","core top","-68","Field, E., J. Tyler, P.S. Gadd, P. Moss, H. McGowan, and S. Marx. 2018. Coherent patterns of environmental change at multiple organic spring sites in northwest Australia: Evidence of Indonesian-Australian summer monsoon variability over the last 14,500 years. Quaternary Science Reviews 196:193-216. [DOI: 10.1016/j.quascirev.2018.07.018]","10.21233/1J45-FR02",18,"tropical savanna",0.405309357572881,9371.11442027172,25.6742860829362,19.4615934781177,29.9344797675048,797.190886266816
2563,5514,17574,"Phelps et al., 2020","Garba Guracha","GGSU_0",6.866667,39.85,4090,"0.15","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.993513665305976,2080.58841158389,5.7002422235175,4.37475773119442,7.20800104933772,1575.34060661816
2564,5515,610,"Australian pollen","Garden Creek Swamp","GCS 1",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5516,611,"Australian pollen","Garden Creek Swamp","GCS 2",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5517,612,"Australian pollen","Garden Creek Swamp","GCS_SS1",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5518,613,"Australian pollen","Garden Creek Swamp","GCS_SS2",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5519,614,"Australian pollen","Garden Creek Swamp","GCS_SS3",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5520,615,"Australian pollen","Garden Creek Swamp","GCS_SS4",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5521,616,"Australian pollen","Garden Creek Swamp","GCS_SS5",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2564,5522,617,"Australian pollen","Garden Creek Swamp","GCS_SS6",-15.66,144.3,300,"not applicable","terrestrial","surface sample","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.80000453692244,8912.28905342279,24.4172302833501,20.5380472054973,27.3280525078142,1396.83753403719
2565,5523,12601,"Neotoma","Gardiner's Hole","GARDINER",44.916667,-110.733333,2215,"not known","terrestrial","core","0","Baker, R.G. 1983. Holocene vegetational history of the western United States. Pages 109-127 in H.E. Wright, Jr., editor. Late-Quaternary environments of the United States. Volume 2. the Holocene. University of Minnesota Press. Minneapolis, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1971. University of Wisconsin radiocarbon dates IX. Radiocarbon 13:475-486.",,17,"temperate evergreen needleleaf open woodland",0.570327747914431,2109.52831032951,3.57567904913205,-8.16075175066754,16.328700243138,506.205780408739
2566,5524,16966,"Neotoma","Garfield Pond","RWS021",44.18,-71.35,1165,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.25018075097413,1416.57086393271,-2.0244640063947,-18.2395755523885,12.1655603038352,1407.663800349
2567,5525,9133,"EMPDv2","Gargalau","Tantau_a3",47.5733333333333,24.8025,1810,"0.04","terrestrial, bog/fen/swamp","peat","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67762224505799,1194.23561959171,-0.229825989654997,-12.0071314792946,9.23252163018955,1100.96942089297
2568,5526,16603,"Neotoma","Garretts Pond","MGW007",41.7,-70.35,12,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.36813496112633,3894.82590244255,10.3759475893657,-2.09998887538379,22.3580179062393,1233.50395725236
2569,5527,81,"APD","Gasare Swamp","GASARE_10",-2.46666666666666,29,2300,"not known","terrestrial, bog/fen/swamp","core top","modern","Ntaganda, C., 1991. Paléoenvironnements et paléoclimats du Quaternaire supérieur au Rwanda par l'analyse palynologique de dépôts superficiels (Doctoral dissertation, Thèse de doctorat en Sc. Botaniques. Université de Liège. 281p).
Roche, E., 1998. Evolution du paléoenvironnement holocène au Rwanda. Implications climatiques déduites de l'analyse palynologique de séquences sédimentaires. In: Demarée G., Alexandre J., De Dapper M. (eds). Proceedings of the International Conference : NTropical Climatology, Meteorology and HydrologyN, Brussels 22-24/05/1996, 108-127.",,4,"warm-temperate evergreen and mixed forest",1.28321250080357,5591.79664344373,15.3199908039554,14.6754744142792,15.7521354737775,1574.28234462955
2570,5528,11511,"Neotoma","Gascoyne Lake","NDBOGA",46.13561,-103.096155,838,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.439305383872927,3163.22401027621,6.52505700999119,-9.49438687361016,21.830657434248,397.638753818873
2571,5529,9775,"Herzschuh et al., 2019","Gashuun Nuur. 15B","Gashuun Nuur. 15B",48.4841,95.33997,1609,"267","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.248175019099314,1933.24155110212,-3.18248667771731,-26.1694525339266,15.724295881863,217.572651343059
2572,5530,12602,"Neotoma","Gass Lake","GASS",44.05,-87.733333,211,"not known","lake","core","0","Webb, S.L. 1983. The Holocene extension of the range of American Beech (Fagus grandifolia) into Wisconsin: paleoecological evidence for long-distance seed dispersal. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.932071794917028,3309.38156175522,7.29773794496915,-8.36835554729928,21.3320901018793,788.032115215762
2572,5530,12603,"Neotoma","Gass Lake","GASS",44.05,-87.733333,211,"not known","lake","core","28","Webb, S.L. 1983. The Holocene extension of the range of American Beech (Fagus grandifolia) into Wisconsin: paleoecological evidence for long-distance seed dispersal. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.932071794917028,3309.38156175522,7.29773794496915,-8.36835554729928,21.3320901018793,788.032115215762
2573,5531,19135,"SMPDSv1","GAT1","Barboni_a448",40.1,-6.367222,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.519910963724521,5035.50325253329,13.795899322009,6.26171390822095,22.8208256929999,619.594888770813
2574,5532,19136,"SMPDSv1","GAT2","Barboni_a449",40.118889,-6.4,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.524738707597603,5164.22338533796,14.148557220104,6.64996865765115,23.1227879183167,624.744825278497
2575,5533,19137,"SMPDSv1","GAT3","Barboni_a450",40.118889,-6.5,510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.533758188411183,5262.99156930875,14.4191549844075,6.97010250254842,23.3223103705075,633.727097128931
2576,5534,19138,"SMPDSv1","GAT4","Barboni_a451",40.268889,-6.5,580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.553331594731205,5024.5257095018,13.7658238616488,6.30853904359836,22.6538532648736,650.188916647461
2577,5535,19139,"SMPDSv1","GAT5","Barboni_a452",40.318889,-6.45,890,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.530095747194052,4222.8060527764,11.5693316514422,3.89461406542496,20.6907493267054,624.889139654193
2578,5536,19140,"SMPDSv1","GAT6","Barboni_a453",40.35,-6.45,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.516241176056481,3680.36830576991,10.0832008377258,2.26571296654612,19.3534542600511,608.888160130968
2579,5537,19141,"SMPDSv1","GAT7","Barboni_a454",40.367222,-6.467222,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.51802897955131,3679.0827252492,10.0796786993129,2.2636236495014,19.3449011491824,610.611981424017
2580,5538,19142,"SMPDSv1","GAT8","Barboni_a455",40.368889,-6.45,950,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.526315234357955,4066.05093718868,11.1398655813388,3.42233684579941,20.3008299616499,620.344151228158
2581,5539,19143,"SMPDSv1","GAT9","Barboni_a456",40.467222,-6.468889,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.540768948457745,4444.47614847694,12.1766469821286,4.56376619878935,21.2129117762956,635.24195811239
2582,5540,19144,"SMPDSv1","GATA","Barboni_a457",40.5,-6.5,710,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.552421448359886,4669.55983326368,12.7933146116813,5.25287656575376,21.7462729912481,646.884846719206
2583,5541,17374,"Neotoma","Gaylanta Lake","TW080",44.98,-84.3,413,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.914056000371071,2942.11912378456,6.26123788708245,-7.59482397974722,19.6142431588091,736.00177666268
2584,5542,7557,"EMPDv2","Gazwa mire","Kolaczek_g1",53.87745,21.2253166666667,144,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.875757168701863,2901.37759707046,7.2816280907572,-3.93250211366455,17.2005611904512,617.61210648797
2584,5543,7566,"EMPDv2","Gazwa mire","Kolaczek_g10",53.8767666666667,21.2248,146,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.872948450513334,2901.97311648525,7.28382134995295,-3.93291931194251,17.2016633355025,615.738391636775
2584,5544,7567,"EMPDv2","Gazwa mire","Kolaczek_g11",53.87675,21.22485,146,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.872947526437535,2901.97253113294,7.28381676330753,-3.93293179113272,17.2016649957459,615.737947362568
2584,5545,7568,"EMPDv2","Gazwa mire","Kolaczek_g12",53.87655,21.22475,146,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.87293777640243,2901.98139443134,7.28385591040655,-3.93287809484743,17.2016872812267,615.733958886838
2584,5546,7569,"EMPDv2","Gazwa mire","Kolaczek_g13",53.8765,21.22455,147,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.871548242031993,2902.26816883904,7.2849071549523,-3.9331393771403,17.2022056876619,614.80315940159
2584,5547,7570,"EMPDv2","Gazwa mire","Kolaczek_g14",53.87645,21.2245166666667,147,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.871545825376336,2902.27057157391,7.28491805918363,-3.93312352273793,17.2022112660039,614.802181698025
2584,5548,7571,"EMPDv2","Gazwa mire","Kolaczek_g15",53.8764333333333,21.2243833333333,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870158069625123,2902.55472325373,7.28595604848305,-3.93340820974107,17.2027256390014,613.871972444924
2584,5549,7572,"EMPDv2","Gazwa mire","Kolaczek_g16",53.8762166666667,21.2241,146,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.872922450427012,2902.00713589234,7.28398618701197,-3.93264812516349,17.201726049085,615.728238299922
2584,5550,7573,"EMPDv2","Gazwa mire","Kolaczek_g17",53.8762166666667,21.2240166666667,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870148074461818,2902.57015609893,7.28603318923052,-3.93327476951421,17.2027502573673,613.868205271951
2584,5551,7574,"EMPDv2","Gazwa mire","Kolaczek_g18",53.8761833333333,21.2240333333333,150,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.867372749086392,2903.13200423475,7.28807100614295,-3.93392639127125,17.2037778050304,612.007283001422
2584,5552,7575,"EMPDv2","Gazwa mire","Kolaczek_g19",53.8761833333333,21.2240333333333,150,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.867372749086392,2903.13200423475,7.28807100614295,-3.93392639127125,17.2037778050304,612.007283001422
2584,5553,7558,"EMPDv2","Gazwa mire","Kolaczek_g2",53.8774333333333,21.2253333333333,145,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.874368326355184,2901.65840000815,7.28264596784228,-3.93283066641348,17.2010756613197,616.681514943351
2584,5554,7576,"EMPDv2","Gazwa mire","Kolaczek_g20",53.8759666666667,21.2236833333333,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870136357450972,2902.58593121732,7.28611011892995,-3.9331469300111,17.2027784432524,613.863674791732
2584,5555,7577,"EMPDv2","Gazwa mire","Kolaczek_g21",53.8759666666667,21.2236833333333,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870136357450972,2902.58593121732,7.28611011892995,-3.9331469300111,17.2027784432524,613.863674791732
2584,5556,7578,"EMPDv2","Gazwa mire","Kolaczek_g22",53.8758833333333,21.2228,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870134033280304,2902.60867178407,7.28623969100173,-3.93287945631355,17.2027896952112,613.863743189775
2584,5557,7579,"EMPDv2","Gazwa mire","Kolaczek_g23",53.87595,21.2226166666667,150,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.867364299507117,2903.17166245926,7.28829159067851,-3.93348443607881,17.203805383218,612.005508907655
2584,5558,7580,"EMPDv2","Gazwa mire","Kolaczek_g24",53.8759333333333,21.22265,150,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.867363401741474,2903.17145742819,7.28828923849089,-3.93349210792633,17.2038071564186,612.005089931428
2584,5559,7581,"EMPDv2","Gazwa mire","Kolaczek_g25",53.876,21.2225333333333,151,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.865980587807741,2903.45241701344,7.28931429597402,-3.93379134161864,17.2043112793003,611.076734334369
2584,5560,7582,"EMPDv2","Gazwa mire","Kolaczek_g26",53.876,21.2224,152,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.864594753240292,2903.73593602375,7.29035013982345,-3.93407743827791,17.2048225869021,610.147045714762
2584,5561,7583,"EMPDv2","Gazwa mire","Kolaczek_g27",53.87615,21.2220333333333,151,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.865989131297126,2903.45876866313,7.28936241056175,-3.93366381856821,17.2042953907297,611.080967156066
2584,5562,7584,"EMPDv2","Gazwa mire","Kolaczek_g28",53.8763666666667,21.2205166666667,151,"2.05","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.86600325780654,2903.48586725713,7.28953890318073,-3.93324758727093,17.2042732144383,611.088852874082
2584,5563,7585,"EMPDv2","Gazwa mire","Kolaczek_g29",53.8765333333333,21.2203666666667,149,"2.05","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.86878454786957,2902.92284996301,7.28750186605828,-3.93257525343622,17.203234629592,612.952387252939
2584,5564,7559,"EMPDv2","Gazwa mire","Kolaczek_g3",53.87735,21.22525,145,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.874364333502906,2901.66304336676,7.28266789230727,-3.93279620263924,17.2010851364322,616.679925611895
2584,5565,7586,"EMPDv2","Gazwa mire","Kolaczek_g30",53.8771166666667,21.2188833333333,147,"2.05","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.871590031162164,2902.37636169031,7.28559087349104,-3.93156619506068,17.2021544371465,614.827220623167
2584,5566,7560,"EMPDv2","Gazwa mire","Kolaczek_g4",53.8773333333333,21.2251833333333,145,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.874363627110362,2901.66510838433,7.28267900454844,-3.93277479064476,17.2010872243639,616.679700458245
2584,5567,7561,"EMPDv2","Gazwa mire","Kolaczek_g5",53.8771166666667,21.2253666666667,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870189947045538,2902.50996654612,7.28573604255652,-3.93377866871387,17.2026483993936,613.884206877513
2584,5568,7562,"EMPDv2","Gazwa mire","Kolaczek_g6",53.8769333333333,21.2251833333333,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.8701812294623,2902.52015263877,7.28578423832626,-3.93370270968524,17.2026689285117,613.880759795869
2584,5569,7563,"EMPDv2","Gazwa mire","Kolaczek_g7",53.8768666666667,21.2250833333333,148,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870178127845528,2902.52461122914,7.28580624954729,-3.93366538399381,17.2026764745249,613.87957454463
2584,5570,7564,"EMPDv2","Gazwa mire","Kolaczek_g8",53.8768,21.2249666666667,149,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.868788032339971,2902.81005324393,7.28684843404123,-3.93394888051982,17.203196533827,612.948250796252
2584,5571,7565,"EMPDv2","Gazwa mire","Kolaczek_g9",53.8767833333333,21.2250333333333,149,"2.05","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.868787065037293,2902.80909426426,7.28684159908865,-3.93396625330321,17.2031982271312,612.947762976751
2585,5572,11871,"Neotoma","GB02","GB02",55.1,-75.28333333,300,"not known","lake","surface sample","-37","Gajewski, K. 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences 28(4):643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.4064731013326,1161.16127989228,-4.91656548619166,-23.5205468815026,11.2541722811972,658.432060111741
2586,5573,9185,"EMPDv2","Gdansk Upland","Zimny_a4",54.4505,18.4989166666666,146,"0.01","terrestrial, bog/fen/swamp","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.896166366682455,2878.02742628829,7.54207400059573,-2.40133035835161,16.7449223371155,620.374148637819
2586,5574,9186,"EMPDv2","Gdansk Upland","Zimny_a5",54.4436389,18.4950277777777,139,"not applicable","not known","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.893194193087335,2885.51979928657,7.56336840228417,-2.39285960963649,16.7787874236095,618.57442137174
2586,5575,9187,"EMPDv2","Gdansk Upland","Zimny_a6",54.4430278,18.4929722222222,137,"0.1","terrestrial","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.892405643751842,2887.59660981082,7.56931205493284,-2.39020878631907,16.7882008423837,618.082136227353
2586,5576,9188,"EMPDv2","Gdansk Upland","Zimny_a7",54.4500833,18.5000555555555,134,"0.07","terrestrial, bog/fen/swamp","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.891371027387204,2890.73842026177,7.57806606065674,-2.38760219853146,16.8025380823084,617.354718617254
2587,5577,2919,"CMPD","Geermo","Geermo 1",36.08,94.81,3184,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.12134062676791,2090.75483998719,2.6902135316095,-11.3226112144103,15.199847731009,138.314812259026
2587,5578,2920,"CMPD","Geermo","Geermo 2",36.35,95.09,2817,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106081659137769,2588.11817988445,4.68456996686759,-9.95691619996272,17.5647093937263,124.988915454838
2588,5579,7057,"EMPDv2","Gek Lake","EPDcoretop_E1788",63.52,147.93,969,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.880062138498784,680.27586422656,-15.386605657674,-38.5830736583893,8.68311285520928,305.744075418201
2589,5580,19145,"SMPDSv1","Gelerie","Barboni_a168",45.4,2.58,735,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05359492029454,3291.96870596376,9.0190923451062,1.31976074216686,17.5234324379893,938.581296809161
2590,5581,14962,"Neotoma","Gem Lake","GEMLAKE",40.881,-106.73403,3101,"not known","lake","core","-25","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.560205315814137,1222.27495401623,-0.733279655823022,-11.8814779389022,11.0579008161479,510.0841759376
2591,5582,10957,"Bush et al., 2020","Gemelas","Gemelas",16.09,-91.64,1469,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.52297827229464,7129.76406905804,19.5336001892001,17.3206834387943,21.2640269616801,2413.90446712746
2592,5583,10958,"Bush et al., 2020","Genovesa2009","Genovesa2009",0.327778,-89.958333,67,"not known","lake","lake surface sample","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.688254329993901,8202.37693790097,22.4722655832903,20.1739905721415,24.7995288904922,1058.16408816374
2593,5584,10959,"Bush et al., 2020","GenovesaGA","GenovesaGA",0.325,-89.95891667,40,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.708921042180944,8189.49991721127,22.4369860745514,20.1275955776052,24.7751029469635,1093.90765826278
2594,5585,10960,"Bush et al., 2020","GenovesaGB","GenovesaGB",0.325277778,-89.95897222,67,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.688256147984399,8202.25005098037,22.4719179478914,20.1736251352595,24.7991982483688,1058.15924555409
2595,5586,10961,"Bush et al., 2020","GenovesaGC","GenovesaGC",0.325722222,-89.95880556,67,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.688256290506411,8202.2711348803,22.4719757120008,20.1736849799795,24.7992539024232,1058.16063932439
2596,5587,10962,"Bush et al., 2020","GenovesaGD","GenovesaGD",0.3255,-89.95866667,67,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.68825817000648,8202.25442407351,22.4719299289685,20.1736336174045,24.7992129884822,1058.16217384307
2597,5588,10963,"Bush et al., 2020","GenovesaGE","GenovesaGE",0.325305556,-89.95863889,67,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.688258991585574,8202.24240502252,22.4718970000617,20.1735977214323,24.7991827109039,1058.16257514909
2598,5589,10964,"Bush et al., 2020","GenovesaGF","GenovesaGF",0.324694444,-89.95880556,40,"not known","terrestrial","pollen trap","-57","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.708922367029405,8189.47868088817,22.4369278928443,20.1275318814902,24.7750492945797,1093.90766892137
2599,5590,11344,"Neotoma","George (BE)","GEO-1C",44.2327949999999,-93.870705,300,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2599,5591,11343,"Neotoma","George (BE)","GEO-1M",44.2327949999999,-93.870705,300,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2599,5592,12607,"Neotoma","George (BE)","GEORGE",44.2327949999999,-93.870705,300,"not known","lake","core","-12","Unpublished data",,13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2599,5592,12608,"Neotoma","George (BE)","GEORGE",44.2327949999999,-93.870705,300,"not known","lake","core","13","Unpublished data",,13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2599,5592,12609,"Neotoma","George (BE)","GEORGE",44.2327949999999,-93.870705,300,"not known","lake","core","41","Unpublished data",,13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2599,5593,12610,"Neotoma","George (BE)","MNBELG",44.2327949999999,-93.870705,300,"not known","lake","core","-10","Unpublished data",,13,"temperate deciduous broadleaf forest",0.842964736825894,3498.24636556395,7.10491740521815,-11.3743774179377,22.666194272232,737.537112565103
2600,5594,19146,"SMPDSv1","Georgenfelder Hochmoor","EPDcoretop_E726",50.75,13.75,860,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02466614068457,2500.93577836079,6.06641857599084,-4.03643298674247,15.3671145229034,705.591710923011
2601,5595,12604,"Neotoma","Georgian Bay, Lake Huron (1)","GB68-17",44.74,-80.86,176,"not known","lake","core","-18","Unpublished data",,9,"cool mixed forest",1.06616962461076,2975.77501246411,6.10995123800584,-8.80929080394627,19.6678595142713,886.763732193976
2601,5595,12605,"Neotoma","Georgian Bay, Lake Huron (1)","GB68-17",44.74,-80.86,176,"not known","lake","core","30","Unpublished data",,9,"cool mixed forest",1.06616962461076,2975.77501246411,6.10995123800584,-8.80929080394627,19.6678595142713,886.763732193976
2602,5596,19147,"SMPDSv1","Georgian Military Hwy transect","M116",42.8333,44.633333,990,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.77797020492397,3136.83216174026,7.26561897333295,-6.51471596643628,19.9201110775501,739.234364021414
2602,5597,19148,"SMPDSv1","Georgian Military Hwy transect","M118",42.783,44.65,1180,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.830491306254579,2904.14671351995,6.30165711554678,-7.59113594870678,18.9839028762857,786.025463480331
2602,5598,19149,"SMPDSv1","Georgian Military Hwy transect","M119",42.75,44.63333,1270,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.859922523249634,2812.42717292141,5.9317799414014996,-7.97089883772616,18.5770678190763,813.158689513253
2602,5599,19150,"SMPDSv1","Georgian Military Hwy transect","M120",42.66667,44.65,1730,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.953267116312168,2306.77724059373,3.64851508157636,-10.6347939373544,16.4110156592645,897.705770380403
2602,5600,19151,"SMPDSv1","Georgian Military Hwy transect","M122",42.63333,44.583333,1760,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.957434725854782,2277.69915254364,3.51290844867399,-10.7975322664729,16.2694419826453,901.899533750068
2602,5601,19152,"SMPDSv1","Georgian Military Hwy transect","M123",42.6,44.533333,1960,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.00874799887434,2057.06259772663,2.44428657130724,-12.0407423945865,15.2538155725597,944.061542622612
2602,5602,19153,"SMPDSv1","Georgian Military Hwy transect","M124",42.567,44.5,1850,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.974642860477294,2184.17703678453,3.06657966494693,-11.3270600790084,15.8324282300566,917.359111410582
2602,5603,19154,"SMPDSv1","Georgian Military Hwy transect","M125",42.533,44.483,2250,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.08287740153814,1753.14154449397,0.890292115696361,-13.8618628997121,13.7864160737712,1003.44812754661
2602,5604,19155,"SMPDSv1","Georgian Military Hwy transect","M128",42.51667,44.466667,2330,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.10347031874974,1672.5068935176,0.460104627899927,-14.3681666858537,13.380947223201,1019.4928082702
2602,5605,19156,"SMPDSv1","Georgian Military Hwy transect","M129",42.5,44.45,2385,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.11682011310653,1618.48174976553,0.166848685490126,-14.716257764563,13.1043183442308,1029.88861106857
2602,5606,19157,"SMPDSv1","Georgian Military Hwy transect","M130",42.46667,44.4833,2200,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.06311867613174,1809.34278946766,1.18160221446481,-13.5404285939929,14.0625376960593,989.267162906618
2602,5607,19158,"SMPDSv1","Georgian Military Hwy transect","M131",42.4333,44.5,1800,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.950556886697205,2253.62961012591,3.39996828391872,-10.9601868968593,16.1422494840433,900.60376759469
2602,5608,19159,"SMPDSv1","Georgian Military Hwy transect","M132",42.43333,44.51667,1600,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.897569958608431,2489.25444167256,4.50504962329263,-9.67063913851719,17.1792058834588,857.047858535733
2602,5609,19160,"SMPDSv1","Georgian Military Hwy transect","M133",42.416667,44.55,1580,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.891716442429847,2514.442645367,4.62023939604929,-9.53664854984599,17.292125486825,852.540206338566
2602,5610,19161,"SMPDSv1","Georgian Military Hwy transect","M134",42.4166667,44.55,1580,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.891716419411089,2514.44268063182,4.62023956317936,-9.53664838293312,17.2921256250274,852.540193963169
2602,5611,19162,"SMPDSv1","Georgian Military Hwy transect","M135",42.4,44.633333,1250,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.804855692665326,2931.58509817426,6.46201302320482,-7.38819903488406,19.0283968676005,779.336613351861
2602,5612,19163,"SMPDSv1","Georgian Military Hwy transect","M136",42.4,44.63333,1270,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.81006398237807,2905.41273110267,6.35015959695289,-7.51854919454908,18.923814546647,783.820365514441
2602,5613,19164,"SMPDSv1","Georgian Military Hwy transect","M137",42.4,44.633333,1270,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.810064001209788,2905.41269141866,6.35015937218117,-7.5185494196324,18.9238148944698,783.820381964257
2602,5614,19165,"SMPDSv1","Georgian Military Hwy transect","M138",42.4,44.6333333,1270,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.810064003092964,2905.41268745024,6.35015934970393,-7.51854944214078,18.923814929252,783.82038360924
2602,5615,19166,"SMPDSv1","Georgian Military Hwy transect","M139",42.2333333333333,44.6667,880,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.673817603090577,3589.69555472893,9.14904142205841,-4.19121878642955,21.4415819454474,676.753144951639
2602,5616,19167,"SMPDSv1","Georgian Military Hwy transect","M140",42.2333333333333,44.666667,880,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.673818168577588,3589.69488222305,9.14903906524518,-4.19122240294971,21.4415735551363,676.753623261285
2602,5617,19168,"SMPDSv1","Georgian Military Hwy transect","M141",42.2333333333333,44.6666667,885,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.674926627601962,3581.85349297056,9.11905108510561,-4.22736225236328,21.4144526878654,677.745767864649
2602,5618,19169,"SMPDSv1","Georgian Military Hwy transect","M142",42.2333333333333,44.6666667,885,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.674926627601962,3581.85349297056,9.11905108510561,-4.22736225236328,21.4144526878654,677.745767864649
2602,5619,19170,"SMPDSv1","Georgian Military Hwy transect","M143",42.1833333333333,44.6833333333333,860,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.665127665671294,3632.13583437027,9.31149052964686,-3.99309840754232,21.5881617364517,670.134441693051
2602,5620,19171,"SMPDSv1","Georgian Military Hwy transect","M144",42.1833333333333,44.6833333333333,860,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.665127665671294,3632.13583437027,9.31149052964686,-3.99309840754232,21.5881617364517,670.134441693051
2602,5621,19172,"SMPDSv1","Georgian Military Hwy transect","M145",42.1833333333333,44.6833333333333,860,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.665127665671294,3632.13583437027,9.31149052964686,-3.99309840754232,21.5881617364517,670.134441693051
2603,5622,10965,"Bush et al., 2020","Geral10cm","Geral10cm",-1.646903,-53.595528,15,"not known","lake","lake surface sample","-41","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.52328833517473,9826.89780728951,26.9230076912041,26.1824127750175,27.9078318157475,2089.09919394254
2604,5623,2921,"CMPD","Gerencuo","Gerencuo 1",34.59,92.45,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.189363115175101,552.949541714158,-5.17344939687748,-16.8911568248578,6.10998836177014,184.794299378789
2604,5624,2922,"CMPD","Gerencuo","Gerencuo 2",34.63,92.39,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.188243779369885,549.993795996043,-5.19881990668188,-16.9154503937986,6.08932870427568,183.506813401481
2604,5625,2923,"CMPD","Gerencuo","Gerencuo 3",34.61,92.4,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.188703194387641,551.03243073829594,-5.19095647712324,-16.9087930338148,6.09640607335457,184.024907851998
2605,5626,19173,"SMPDSv1","Gerlos","EPDcoretop_E1213",47.243056,12.138889,1590,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.05610762109117,1523.65894318225,2.6519068956697,-5.54659678693952,10.8612592197728,1487.9817314558
2606,5627,19174,"SMPDSv1","Gerovo/Delnice","Barboni_a1463",45.5166,14.6833,910,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.86693615811821,2465.38244883229,6.03538219084139,-3.83662802930036,15.1031177469578,1552.4585717158
2607,5628,14428,"Neotoma","Gerry Lake","GERRY",53.64545,-121.50548,893,"not known","lake","core","49","Gavin, D.G., F.S. Hu, I.R. Walker, and K. Westover. 2009. The northern inland temperate rainforest of British Columbia: Old forests with a young history?. Northwest Science 83(1):70-78.","10.3955/046.083.0107",8,"cool evergreen needleleaf forest",1.05604869317142,1996.55115148644,2.93670619522698,-10.2076724323258,14.2906487142304,700.007454146177
2608,5629,19175,"SMPDSv1","Gerzensee","EPDcoretop_E1091",46.829597,7.546106,603,"0.27","lake","lacustrine core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44423705896245,3128.64138899184,8.54402303792882,-0.314983073744613,17.3611365804683,1145.69764436623
2609,5630,19176,"SMPDSv1","Getryggen","Barboni_a1315",63.17,12.37,751,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.71497311177808,1265.8039612307,0.0748438817962508,-10.3363558932048,10.7213039303496,763.064793799839
2609,5631,19177,"SMPDSv1","Getryggen","Barboni_a1316",63.17,12.36,810,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.6042520436028,1227.55442824145,-0.251935294307215,-10.8548207214285,10.549823761375,711.533232728192
2609,5632,19178,"SMPDSv1","Getryggen","Barboni_a1317",63.17,12.36,830,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.56629856336972,1214.61242117185,-0.363718756407116,-11.0325013545824,10.4913394326407,693.946636743897
2609,5633,19179,"SMPDSv1","Getryggen","Barboni_a1318",63.17,12.36,830,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.56629856336972,1214.61242117185,-0.363718756407116,-11.0325013545824,10.4913394326407,693.946636743897
2609,5634,19180,"SMPDSv1","Getryggen","Barboni_a1319",63.18,12.36,835,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.55764435926957,1211.02962253593,-0.392745391214264,-11.0765600063076,10.4745764424313,689.70453319996
2609,5635,19181,"SMPDSv1","Getryggen","Barboni_a1320",63.18,12.35,840,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.54861904425951,1208.13681198776,-0.418028059934419,-11.116311537803,10.4611111455239,685.538179918202
2609,5636,19182,"SMPDSv1","Getryggen","Barboni_a1321",63.17,12.37,752,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.7130923964832,1265.14592389394,0.0692581611916063,-10.3452286955867,10.7183784953299,762.186746281242
2609,5637,19183,"SMPDSv1","Getryggen","Barboni_a1322",63.17,12.37,753,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.71121147947629,1264.48788655718,0.0636724405869619,-10.3541014979687,10.7154530603102,761.308698762645
2609,5638,19184,"SMPDSv1","Getryggen","Barboni_a1323",63.17,12.37,763,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.69239120613543,1257.9075131896,0.00781523454051681,-10.4428295217879,10.6861987101131,752.528223576675
2609,5639,19185,"SMPDSv1","Getryggen","Barboni_a1324",63.17,12.37,763,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.69239120613543,1257.9075131896,0.00781523454051681,-10.4428295217879,10.6861987101131,752.528223576675
2609,5640,19186,"SMPDSv1","Getryggen","Barboni_a1325",63.17,12.37,780,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.66035049503574,1246.74449592908,-0.0871420157384399,-10.5936671622805,10.636466314778,737.601415760526
2609,5641,19187,"SMPDSv1","Getryggen","Barboni_a1326",63.17,12.36,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.62319827879145,1234.03866503598,-0.196043563257264,-10.7659804048515,10.5790659257421,720.32653072034
2609,5642,19188,"SMPDSv1","Getryggen","Barboni_a1327",63.17,12.36,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.62319827879145,1234.03866503598,-0.196043563257264,-10.7659804048515,10.5790659257421,720.32653072034
2609,5643,19189,"SMPDSv1","Getryggen","Barboni_a1328",63.17,12.36,810,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.6042520436028,1227.55442824145,-0.251935294307215,-10.8548207214285,10.549823761375,711.533232728192
2609,5644,19190,"SMPDSv1","Getryggen","Barboni_a1329",63.15,12.37,715,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.78000034133064,1290.39465084439,0.277070228177839,-10.0200290566691,10.8308044439758,794.047642831579
2609,5645,19191,"SMPDSv1","Getryggen","Barboni_a1330",63.15,12.38,825,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.57295931140718,1217.96008426895,-0.339147799699425,-10.9987238681782,10.5079616524954,697.503529313755
2609,5646,19192,"SMPDSv1","Getryggen","Barboni_a1331",63.15,12.4,865,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.49657908705895,1191.80267531836,-0.567221547351347,-11.3610879669399,10.3885553537713,662.146575609314
2609,5647,19193,"SMPDSv1","Getryggen","Barboni_a1332",63.15,12.4,875,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.47769933980394,1185.42639906234,-0.622886587241535,-11.4492695204848,10.3592702674724,653.432987441765
2609,5648,19194,"SMPDSv1","Getryggen","Barboni_a1333",63.15,12.4,875,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.47769933980394,1185.42639906234,-0.622886587241535,-11.4492695204848,10.3592702674724,653.432987441765
2609,5649,19195,"SMPDSv1","Getryggen","Barboni_a1334",63.15,12.4,944,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34686517898626,1142.26060495966,-1.00697536248383,-12.0577222399445,10.1572031720103,593.309229085673
2609,5650,19196,"SMPDSv1","Getryggen","Barboni_a1335",63.17,12.4,970,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29795794140161,1125.39484864541,-1.15504444757101,-12.2890574688911,10.0766909591624,570.57618122178
2609,5651,19197,"SMPDSv1","Getryggen","Barboni_a1336",63.17,12.4,987,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.26535049461479,1114.97119956726,-1.24982283429475,-12.439311479302,10.0268936033117,555.716421308536
2609,5652,19198,"SMPDSv1","Getryggen","Barboni_a1337",63.17,12.4,1002,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.23652840609256,1105.81407728396,-1.3334508225804,-12.5718885473115,9.98295475991415,542.60486844391
2609,5653,19199,"SMPDSv1","Getryggen","Barboni_a1338",63.17,12.4,1064,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.11688718252209,1068.46133907295,-1.6791131741611,-13.1198737617512,9.80134087387078,488.410449936788
2609,5654,19200,"SMPDSv1","Getryggen","Barboni_a1339",63.17,12.4,1114,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01979923126481,1038.84669230806,-1.95787313511328,-13.5617973217832,9.65487806254547,444.705273721366
2609,5655,19201,"SMPDSv1","Getryggen","Barboni_a1340",63.15,12.37,718,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.77440032331903,1288.39299921358,0.260338366685001,-10.0465889537629,10.8220307219636,791.421436026373
2609,5656,19202,"SMPDSv1","Getryggen","Barboni_a1341",63.17,12.42,1115,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01861659571806,1037.73528516122,-1.96676948783415,-13.5734881666104,9.64893236548259,444.100823946401
2609,5657,19203,"SMPDSv1","Getryggen","Barboni_a1342",63.17,12.42,1171,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.909573184917433,1005.14542220307,-2.27858038493225,-14.067130886781399,9.48474333587482,395.30286524263
2609,5658,19204,"SMPDSv1","Getryggen","Barboni_a1343",63.15,12.37,720,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.77066598058022,1287.05856479304,0.249183792356442,-10.0642955518254,10.8161815739555,789.670631489569
2609,5659,19205,"SMPDSv1","Getryggen","Barboni_a1344",63.15,12.38,720,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.7697976005548,1286.73473845908,0.246092794913788,-10.0703461500249,10.8151766425993,789.280970524122
2609,5660,19206,"SMPDSv1","Getryggen","Barboni_a1345",63.15,12.38,745,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.72313230702976,1270.13360117569,0.106749796196357,-10.2913884638709,10.742030216384,767.429198807368
2609,5661,19207,"SMPDSv1","Getryggen","Barboni_a1346",63.15,12.38,765,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.68571000664573,1256.98545024964,-0.00472460277758877,-10.4682223149478,10.6835130754119,749.947781433965
2609,5662,19208,"SMPDSv1","Getryggen","Barboni_a1347",63.15,12.38,785,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.64820730897019,1243.88299639515,-0.116199001751534,-10.6450561660246,10.6249959344397,732.466364060562
2609,5663,19209,"SMPDSv1","Getryggen","Barboni_a1348",63.15,12.38,805,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.61062398710763,1230.90954275318,-0.22767340072548,-10.8218900171014,10.5664787934675,714.984946687158
2609,5664,19210,"SMPDSv1","Getryggen","Barboni_a1349",63.18,12.35,840,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.54861904425951,1208.13681198776,-0.418028059934419,-11.116311537803,10.4611111455239,685.538179918202
2609,5665,19211,"SMPDSv1","Getryggen","Barboni_a1350",63.18,12.35,840,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.54861904425951,1208.13681198776,-0.418028059934419,-11.116311537803,10.4611111455239,685.538179918202
2610,5666,618,"Australian pollen","Giandarra Bog","Giandarra Bog_10",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5667,619,"Australian pollen","Giandarra Bog","Giandarra Bog_13",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5668,620,"Australian pollen","Giandarra Bog","Giandarra Bog_15",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5669,621,"Australian pollen","Giandarra Bog","Giandarra Bog_18",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5670,622,"Australian pollen","Giandarra Bog","Giandarra Bog_20",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5671,623,"Australian pollen","Giandarra Bog","Giandarra Bog_23",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5672,624,"Australian pollen","Giandarra Bog","Giandarra Bog_25",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5673,625,"Australian pollen","Giandarra Bog","Giandarra Bog_3",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5674,626,"Australian pollen","Giandarra Bog","Giandarra Bog_5",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2610,5675,627,"Australian pollen","Giandarra Bog","Giandarra Bog_8",-35.85,148.49,1400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.07999212612151,2533.17736092067,6.93692558758026,0.0475404933418072,13.5956393306529,1245.0209810127
2611,5676,15724,"Neotoma","Giant Washbowl","GNTW_C90",44.14299,-73.74018,695,"not known","not known","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.45551987148787,2487.06833953365,4.30785783106514,-10.162912276469,17.3569235313614,1091.14072128956
2612,5677,17364,"Neotoma","Gibbs","TW069",42.782778,-89.180278,295,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.931313315934818,3395.86211927955,7.30782501176869,-9.50716434724767,21.8116891812266,816.786611406949
2613,5678,11627,"Neotoma","Gibbs Lake","GIB-1M",42.782095,-89.18066,295,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.931313201762308,3395.89066865328,7.30795452911457,-9.50702131147952,21.8117518364241,816.798315812844
2613,5679,11628,"Neotoma","Gibbs Lake","GIBS-1C",42.782095,-89.18066,295,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.931313201762308,3395.89066865328,7.30795452911457,-9.50702131147952,21.8117518364241,816.798315812844
2614,5680,19212,"SMPDSv1","Giblicy","giblicy_SS",54.8519,41.1174,107,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.840570732854927,2735.71916053925,4.68436343720526,-11.0998636459314,18.8684797832719,585.778626158379
2615,5681,8478,"EMPDv2","Giblitzy","Novenko_c52",54.8519,41.1174,107,"0.01","terrestrial","litter","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.840570732854927,2735.71916053925,4.68436343720526,-11.0998636459314,18.8684797832719,585.778626158379
2616,5682,19213,"SMPDSv1","Giecz","EPDcoretop_E243",52.319444,17.363333,100,"0.02","ephemeral lake/pond","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.730284754646137,3151.2010132704,8.37678185864626,-2.02983462748003,17.8292095891547,538.28737226022
2617,5683,19214,"SMPDSv1","Giering","EPDcoretop_E1189",47.471389,12.358333,826,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48086935072005,2572.49207917132,6.5321500308438,-2.92583195341924,15.4518613215468,1156.19413087539
2618,5684,19215,"SMPDSv1","Gigimparma","Gigimparma_SS",61.6969,54.4113,269,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36227143993147,1734.36189807934,-0.825357796646797,-18.5290998924401,16.4872961144513,617.478531822483
2618,5685,9522,"EMPDv2","Gigimparma","Novenko_c116",61.7078,54.3881,270,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36223547549913,1732.85941356028,-0.831880339468258,-18.5320366426817,16.4808152590777,616.867181639716
2618,5686,9523,"EMPDv2","Gigimparma","Novenko_c117",61.7022,54.38805,273,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36336614339889,1728.48959504413,-0.856329646265384,-18.555546156113,16.461991436285,616.404792603581
2618,5687,9524,"EMPDv2","Gigimparma","Novenko_c118",61.71,54.4091,265,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36105752822944,1739.63958355315,-0.795689934781162,-18.5006198243872,16.5102558454395,618.026683811258
2618,5688,9525,"EMPDv2","Gigimparma","Novenko_c119",61.6969,54.4113,269,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36227143993147,1734.36189807934,-0.825357796646797,-18.5290998924401,16.4872961144513,617.478531822483
2619,5689,12611,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","-34","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12612,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","-21","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12613,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","-8","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12614,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","8","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12615,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","18","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12616,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","30","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12617,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","35","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2619,5689,12618,"Neotoma","Giles Lake","GILES",41.3770899999999,-75.093185,732,"not known","lake","core","41","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.27666793627458,2734.29255277686,5.45172590227039,-8.75514004845551,18.3336983806846,1002.67363530237
2620,5690,628,"Australian pollen","Ginini Flats","Ginini trench_0",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2620,5691,629,"Australian pollen","Ginini Flats","Ginini trench_38",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2620,5692,630,"Australian pollen","Ginini Flats","Ginini trench_6",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2620,5693,631,"Australian pollen","Ginini Flats","Ginini west_0",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2620,5694,632,"Australian pollen","Ginini Flats","Ginini west_b-6",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2620,5695,633,"Australian pollen","Ginini Flats","Ginini west_c-38",-35.5167,148.7667,1590,"not applicable","terrestrial","sediment sample","38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.0222404683936,2232.95860553731,5.91425507504386,-1.63798854361054,13.4164062096552,1200.88998013785
2621,5696,23157,"SMPDSv1","Girnojarvi","Bjune_a16",69.47850345,21.50353928,70,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.31561696736763,1194.97608454298,-0.936509374060232,-11.5863791327684,11.6559306394784,796.102691505069
2622,5697,634,"Australian pollen","Giwimawi","Giwimawi_a",-5.8,145.0389,3900,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.747320952141058,5261.49732714308,14.415061170254999,13.221274012344,15.1669555921846,1039.92258891832
2622,5698,635,"Australian pollen","Giwimawi","Giwimawi_b",-5.8,145.0389,3900,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.747320952141058,5261.49732714308,14.415061170254999,13.221274012344,15.1669555921846,1039.92258891832
2623,5699,19216,"SMPDSv1","Glabatzsee","Glabatzsee_ss",53.13607,12.9745,72,"0.02","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.802516971676427,3295.79182518697,8.97824212044408,-0.522913621521335,17.9206111808317,558.604307763202
2624,5700,2924,"CMPD","Glacier Boue","Glacier Boue",43,87,3800,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245466099457564,670.143981604047,-5.32231369703722,-18.915834276173,6.86399943851805,219.049811933016
2625,5701,2925,"CMPD","Glacier Mousse","Glacier Mousse",43,87,3800,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245466099457564,670.143981604047,-5.32231369703722,-18.915834276173,6.86399943851805,219.049811933016
2626,5702,8242,"EMPDv2","Gladkaya_Ustje","Mikishin-Gvozdeva_b73",42.7011111111111,130.836388888889,-0.5,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.914778498958072,3301.80738849805,6.54696389667391,-11.2317239685239,21.9197897227611,747.636929844292
2627,5703,8241,"EMPDv2","Gladkaya_Zaisanovka","Mikishin-Gvozdeva_b72",42.7061111111111,130.841111111111,1,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.914814443327122,3298.87397130777,6.53326292882833,-11.2488378564895,21.9082831299025,747.398179165787
2628,5704,7161,"EMPDv2","Glaisin na Marbh","EPDcoretop_E2241",52.01,-9.58,340,"2e-04","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.39557617828002,3129.92588507325,8.5751394111596,4.26179808021239,13.6168911582655,1500.49436470299
2629,5705,19217,"SMPDSv1","Glaswaldsee","EPDcoretop_E1279",48.426667,8.249167,839,"0.028","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65847166689079,2816.45512085255,7.56021172091058,-1.28410285743613,16.307956538814,1243.37939647639
2629,5706,9357,"EMPDv2","Glaswaldsee","Roesch_a4",48.426667,8.249167,839,"0.028","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65847166689079,2816.45512085255,7.56021172091058,-1.28410285743613,16.307956538814,1243.37939647639
2630,5707,15774,"Neotoma","Glatsch Lake","JHM002",47.28,-92.62,426,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.9502434258577,2641.6463692608,3.51171979510228,-14.8367575471051,18.9346550884549,723.904274554773
2631,5708,19218,"SMPDSv1","Gleboczek Lake","EPDcoretop_E995",52.649167,17.633056,95,"0.125","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.734643464940075,3130.39915571115,8.31186025504679,-2.06681836514758,17.7490164351293,538.008879700043
2632,5709,8273,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a10",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5710,8274,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a11",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5711,8265,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a2",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5712,8266,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a3",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5713,8267,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a4",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5714,8268,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a5",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5715,8269,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a6",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5716,8270,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a7",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5717,8271,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a8",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2632,5718,8272,"EMPDv2","Glebokie Uscimowskie Lake","Milecka_a9",51.476,22.923,156,"0.667","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.714161141764937,3059.68596774556,7.71533268180163,-4.16644095373594,17.9644735731936,533.250018886727
2633,5719,19219,"SMPDSv1","Glen Affric, Scotland, UK","Shaw_a1",57.2535083333333,-5.02793055555555,285,"not known","not known","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.0924474165104,2356.22023842943,6.45539791350529,1.45525425871496,12.056564485344,1981.47966239614
2633,5720,19220,"SMPDSv1","Glen Affric, Scotland, UK","Shaw_b1",57.2624055555555,-4.98968055555555,241,"not known","not known","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",3.9681942773384,2472.30704851518,6.77344396853473,1.88864756424765,12.2508656726036,1935.84118848013
2633,5721,19221,"SMPDSv1","Glen Affric, Scotland, UK","Shaw_c1",57.2592527777777,-4.96688611111111,260,"not known","not known","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.00231724251608,2421.83145652582,6.63515467541322,1.69710925657159,12.170399733652,1946.33433658237
2634,5722,7162,"EMPDv2","Glendalough Valley","EPDcoretop_E2242",53.02,-6.39,130,"4e-04","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.55315783317416,3331.43271153274,9.12721290830888,4.46882821565781,14.790502117237,948.955464645289
2635,5723,636,"Australian pollen","Glendhu Bog","Glendhu Bog core_1",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","-49","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5724,637,"Australian pollen","Glendhu Bog","Glendhu Bog core_10",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","-32","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5725,638,"Australian pollen","Glendhu Bog","Glendhu Bog core_20",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","-16","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5726,639,"Australian pollen","Glendhu Bog","Glendhu Bog core_30",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","1","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5727,640,"Australian pollen","Glendhu Bog","Glendhu Bog core_35",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","10","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5728,641,"Australian pollen","Glendhu Bog","Glendhu Bog core_40",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","18","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2635,5729,642,"Australian pollen","Glendhu Bog","Glendhu Bog core_45",-45.8381,169.7264,600,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","46","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.49778773781814,2838.94485263178,7.77793110310077,1.77667505884241,13.1595239433862,1178.69589767777
2636,5730,14956,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","-47.9","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2636,5730,14957,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","-33.1","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2636,5730,14958,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","-17.9","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2636,5730,14959,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","-3","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2636,5730,14960,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","12.2","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2636,5730,14961,"Neotoma","Glenmire","GLENMIRE",37.9902611111111,-122.789613888889,167,"not known","terrestrial, bog/fen/swamp","core","42.4","Anderson, R.S., A. Ejarque, P.M. Brown, and D.J. Hallett. 2013. Holocene and historical vegetation change and fire history on the north-central coast of California, USA. The Holocene 23(12):1797-1810.","10.1177/0959683613505344",20,"xerophytic woods/scrub",0.633323544886152,5153.81121476575,14.1200307253856,8.227796203383,19.5968681073378,779.609935429432
2637,5731,14230,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","-22","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14231,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","-16.55556","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14232,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","-11.11111","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14233,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","-5.666667","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14234,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","-0.2222222","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14235,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","5.222222","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14236,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","10.66667","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14237,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","16.11111","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14238,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","21.55556","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14239,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","27","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14240,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","29.7","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14241,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","32.4","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14242,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","35.1","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14243,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","37.8","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14244,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","40.5","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14245,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","43.2","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14246,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","45.9","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2637,5731,14247,"Neotoma","Glenora Bay","GLENORA",44.0463888888889,-77.0391666666666,74,"not known","lake","core","48.6","Warwick, W.F. 1980. Palaeolimnology of the Bay of Quinte, Lake Ontario: 2800 years of cultural influence. Canadian Bulletin of Fisheries and Aquatic Sciences 206:1-117.",,9,"cool mixed forest",1.06785374720237,3324.20946070177,7.58132815364874,-7.216170527768,21.1527987906535,896.936744388769
2638,5732,10966,"Bush et al., 2020","Gloria1","Gloria1",16.95,-90.37,130,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.35520730728149,9451.78805528475,25.8953097405062,22.8156432962364,28.1632122596043,2202.35591020395
2639,5733,19222,"SMPDSv1","Glubokoye peatland","Glubokoe_SS (Novenko_c14)",54.1022,37.5028,230,"0.04","terrestrial, bog/fen/swamp","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.856799891529663,2776.09490628222,5.15857506993469,-9.78182344882349,18.4819405509405,613.861830323472
2640,5734,15775,"Neotoma","GMM045","GMM045",66.166667,-127.5,104,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.632870160273392,1486.1584367148,-7.55485643134388,-29.1700356658657,15.1979964482293,267.763310725445
2641,5735,15776,"Neotoma","GMM046","GMM046",65.833333,-126.166667,348,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.673191940051113,1302.49660183915,-7.9881242813374,-28.5524718080738,13.6073161923709,278.980780050892
2642,5736,15777,"Neotoma","GMM047","GMM047",65.75,-128.166667,96,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.650887886538462,1569.37787949529,-7.18225244237642,-29.2600449202646,15.8477401173699,282.419716451809
2643,5737,15778,"Neotoma","GMM051","GMM051",64.833333,-123.5,233,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.665806828265397,1381.74605558327,-7.12219644274135,-28.5408273003192,13.937881511405,287.549186382558
2644,5738,15779,"Neotoma","GMM052","GMM052",64.416667,-122.7,241,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.657553582261792,1404.0852829622,-6.93429634470564,-28.6694382704997,14.0740381420177,289.009571681047
2645,5739,15780,"Neotoma","GMM054","GMM054",64.4,-123.5,371,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.702688571658302,1446.27000221478,-6.71392974973311,-28.4659072487488,14.2625310448678,314.149538740939
2646,5740,15781,"Neotoma","GMM055","GMM055",62.333333,-122.233333,611,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.776612287640794,1380.65697662476,-6.75621739140547,-28.0766587877704,13.3662560557324,359.952638495997
2647,5741,15782,"Neotoma","GMM056","GMM056",63.816667,-120.433333,293,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.621643978483649,1440.13281856898,-6.58496440913228,-28.5693068824747,14.35736244162,281.094258007704
2648,5742,15783,"Neotoma","GMM058","GMM058",63.883333,-122.616667,476,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.717767551535425,1524.50131637896,-6.25186296809416,-28.4922327638124,14.6216185721977,333.323464069307
2649,5743,15784,"Neotoma","GMM059","GMM059",62.75,-122.966667,250,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.725094509155515,1746.13897633998,-4.91253979761308,-27.5895001037474,15.7331612098626,355.939162365301
2650,5744,15785,"Neotoma","GMM060","GMM060",63.216667,-122.966667,447,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.759403066279854,1540.20442439866,-5.87124501141004,-27.6825327270056,14.4940055260297,356.929026582131
2651,5745,15786,"Neotoma","GMM061","GMM061",63.616667,-122.733333,354,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.702673554743981,1542.16391762372,-6.0975041836751,-28.3005807873929,14.7470965280455,326.562796870639
2652,5746,15787,"Neotoma","GMM062","GMM062",62.9,-120.1,230,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.624687422537826,1626.93991361305,-5.41806259307123,-27.864092699343,15.3931525997006,299.790197959717
2653,5747,15788,"Neotoma","GMM063","GMM063",62.166667,-121.05,342,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.686918574369539,1705.17705303104,-4.69612888613478,-26.8421075297778,15.4691447373049,342.25649406275
2654,5748,15789,"Neotoma","GMM064","GMM064",62.833333,-115.966667,162,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.548769046779717,1750.83967105167,-4.7938743029664,-27.7726936865816,16.6128006258776,273.826741557594
2655,5749,15790,"Neotoma","GMM065","GMM065",62.433333,-114.35,168,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.594167996390737,1704.45141349391,-4.69670473805324,-27.2581098806807,16.0136134904568,296.82678145393
2656,5750,15791,"Neotoma","GMM067","GMM067",61.2,-120.05,282,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.657220962851158,1832.44578129009,-3.58385559366327,-25.3332125684738,15.9976254231276,343.417181927709
2657,5751,15792,"Neotoma","GMM068","GMM068",60.583333,-116.2,275,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.627648785886507,1810.99760326403,-3.44675496356824,-25.1825646333881,15.8164544384995,335.823611319539
2658,5752,15793,"Neotoma","GMM074","GMM074",55.633333,-116.75,622,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.697354366301128,2156.2474187893,1.00503708447939,-17.3781361697396,15.7155581169242,446.052847844266
2659,5753,15794,"Neotoma","GMM075","GMM075",55.25,-114.666667,574,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.722020121715611,2160.74589303179,1.0623541510386,-17.3376346207418,15.9280665442385,465.728602142977
2660,5754,15795,"Neotoma","GMM076","GMM076",55.083333,-113.666667,661,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.747913917557833,2137.66531675323,1.18271875194849,-16.7067149764544,15.735266575659,487.453737544622
2661,5755,15796,"Neotoma","GMM077","GMM077",54.5,-112.75,672,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.699367711655774,2230.87652103793,1.62003321427242,-16.0841572245492,16.1018621113252,472.546042542484
2662,5756,15797,"Neotoma","GMM078","GMM078",54.333333,-111.166667,574,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.675047457350586,2198.3010058781,0.747403748249125,-18.4958612052258,16.2486955623841,450.902248363434
2663,5757,15798,"Neotoma","GMM084","GMM084",51.8,-114.833333,1186,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.79056064084485,1905.00862956631,1.90534290693687,-11.8012196874395,14.0312164846543,564.185823655265
2664,5758,15799,"Neotoma","GMM085","GMM085",51.9,-114.666667,1113,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.742622856309039,2003.70627660599,2.18285610520725,-11.919791556562,14.5521601212333,535.588246984099
2665,5759,15800,"Neotoma","GMM086","GMM086",52.466667,-115.166667,997,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.7730730514873,2048.6723953291,2.28221753425394,-12.080475492228,14.748670970657,544.779202274358
2666,5760,15801,"Neotoma","GMM087","GMM087",53.266667,-117.766667,1140,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.916443704004143,1841.32708342141,1.62350955611203,-11.8910383040876,13.6938522784213,606.560755873357
2667,5761,15802,"Neotoma","GMM088","GMM088",53.583333,-117.133333,1045,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.866331137546588,1923.71368103756,1.73617489553715,-12.5004622427279,14.1561542362654,574.316842258892
2668,5762,15803,"Neotoma","GMM089","GMM089",53.6,-116.1,898,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.811274280455546,2046.01860791803,1.9684346578858,-13.0684217666008,14.8448297082492,545.200260436407
2669,5763,15804,"Neotoma","GMM090","GMM090",54.45,-116.833333,775,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.782840459764138,2125.61130469681,1.72551840010153,-14.9642858250636,15.30511848934,515.738475986585
2670,5764,15805,"Neotoma","GMM093","GMM093",55.083333,-117.5,681,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.728655207096585,2185.20596878909,1.60799003023886,-15.9258875685298,15.6784495038556,476.321627060674
2671,5765,15806,"Neotoma","GMM094","GMM094",54.466667,-115.666667,1058,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.904721258183344,1877.55688793282,1.34064206493055,-13.1497855192227,14.0049330458762,587.023614275444
2672,5766,15807,"Neotoma","GMM095","GMM095",55.25,-119.166667,742,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.740349935030924,2088.8992552011,1.3798177431302,-15.374871615295,15.1311022786642,480.496970943776
2673,5767,15808,"Neotoma","GMM096","GMM096",57.5,-117.5,642,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.696361685767452,1951.90913789156,-0.500355523533849,-19.1713911435625,14.9577427941686,418.060141365444
2674,5768,15809,"Neotoma","GMM102","GMM102",52.583333,-113,796,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.604675594487714,2353.05213974861,2.72508699515081,-13.5977053735211,16.5694930814346,444.432890734741
2675,5769,15810,"Neotoma","GMM103","GMM103",53.333333,-111.583333,653,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.625169509894219,2299.40041239924,1.6939993205893,-16.4089575594881,16.5027404564395,440.153606801634
2676,5770,15811,"Neotoma","GMM104","GMM104",53.933333,-111.333333,657,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.646599890573528,2266.20276427288,1.4966244066768,-16.7735597709853,16.3800858182991,447.072658947241
2677,5771,15812,"Neotoma","GMM105","GMM105",53.55,-114.166667,756,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.728143946918167,2228.07132060419,2.29885333596061,-13.6615855084248,15.8421785214188,504.055343550792
2678,5772,15813,"Neotoma","GMM106","GMM106",52.7,-117.9,1192,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",1.29005014004215,1742.54092267903,1.72948633090552,-10.3671387484427,13.3417948184619,855.35995945194
2679,5773,15814,"Neotoma","GMM107","GMM107",52.45,-116.166667,1420,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",1.08624350922466,1547.54967402373,0.49477920109038,-12.3989114511265,12.1886847800736,721.138302278576
2680,5774,15815,"Neotoma","GMM108","GMM108",51.666667,-116.416667,2311,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",1.81298579700782,768.751677578955,-2.95698824561417,-13.1126720611884,7.72097317814345,1117.04409061409
2681,5775,15816,"Neotoma","GMM109","GMM109",51.25,-115.333333,1794,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",1.1794723721448,1245.14155257391,-0.606572974337723,-12.260354365928,10.6595658781957,792.046754269779
2682,5776,15817,"Neotoma","GMM110","GMM110",51.066667,-115.1,1341,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.808993652354118,1814.127185154,1.79387056367157,-11.2640454482466,13.6742776835816,588.103293194004
2683,5777,15818,"Neotoma","GMM114","GMM114",49.566667,-114.25,1223,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.687095633145197,2235.40915447661,4.01813301081309,-8.51204991871931,15.9800933480125,545.04645870525
2684,5778,15819,"Neotoma","GMM117","GMM117",52.083333,-110.716667,725,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.478392117538851,2472.46113721119,2.62879780025659,-15.1267892545644,17.5899474560325,363.861412026914
2685,5779,15820,"Neotoma","GMM118","GMM118",51.45,-110.4,758,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",17,"temperate evergreen needleleaf open woodland",0.417858617713222,2556.79272011262,3.24702142584285,-14.0401015234607,18.0961784175928,328.585968624955
2686,5780,15821,"Neotoma","GMM119","GMM119",51.366667,-112.166667,908,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.493300444963778,2485.87934201448,3.64396836585903,-12.2133668502492,17.3801745852086,388.129372622891
2687,5781,15822,"Neotoma","GMM120","GMM120",50.583333,-111.916667,755,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",17,"temperate evergreen needleleaf open woodland",0.404224991995854,2656.68682860753,3.94944260681889,-13.0401140494527,18.4760026993637,329.054425999762
2688,5782,15823,"Neotoma","GMM121","GMM121",49.916667,-111.083333,838,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",22,"steppe",0.394556902819734,2706.58406563849,4.52142907233942,-11.6735941170005,18.8450482617883,328.092931773386
2689,5783,15824,"Neotoma","GMM122","GMM122",49.8,-112.416667,841,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",22,"steppe",0.418426233752822,2711.93064366498,4.84869246210123,-10.8392643019938,18.5291012608839,349.802332069529
2690,5784,15825,"Neotoma","GMM123","GMM123",50.166667,-113.5,977,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",17,"temperate evergreen needleleaf open woodland",0.501129588659684,2526.64275030859,4.499201155448,-10.031945174018,17.4205182917095,407.381285491157
2691,5785,15826,"Neotoma","GMM124","GMM124",51,-113,877,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",17,"temperate evergreen needleleaf open woodland",0.490294203577626,2509.62710029072,3.78688042275823,-12.08042465604,17.4880714995635,388.737544490515
2692,5786,15827,"Neotoma","GMM125","GMM125",51.2,-113.833333,1063,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.605949073273349,2236.55776143196,3.1235506387676,-11.3674778736748,15.903537829072,463.136302565376
2693,5787,15828,"Neotoma","GMM126","GMM126",51.166667,-114.166667,1221,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",15,"cold evergreen needleleaf forest",0.695927810177045,2016.37817161894,2.41069920722677,-11.3443347498871,14.7863615580502,519.3244104968
2694,5788,15829,"Neotoma","GMM127","GMM127",50.616667,-112.166667,762,"not known","lake","surface sample","Modern","MacDonald, G.M., 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. and Ritchie, J.C., 1986. Modern pollen spectra from the western interior of Canada and the interpretation of late Quaternary vegetation development. New Phytologist, 103(1), pp.245-268.","10.1111/j.1469-8137.1986.tb00612.x",17,"temperate evergreen needleleaf open woodland",0.409733648036019,2649.38745020737,3.94873793986689,-12.9841083963737,18.4226036451759,333.144803143574
2695,5789,14978,"Neotoma","Goat Lake","GOATLAKE",60.2584899999999,-149.90846,550,"not known","lake","core","-45","Anderson, R.S., D.S. Kaufman, E. Berg, C. Schiff, and T. Daigle. 2017. Holocene biogeography of Tsuga mertensiana and other conifers in the Kenai Mountains and Prince William Sound, south-central Alaska. The Holocene 27(4):485-495.","10.1177/0959683616670217",31,"tundra",1.57572293803907,1336.80509509468,0.222339472327388,-9.78335132875213,11.3204475103315,684.297391927497
2695,5789,14979,"Neotoma","Goat Lake","GOATLAKE",60.2584899999999,-149.90846,550,"not known","lake","core","-28","Anderson, R.S., D.S. Kaufman, E. Berg, C. Schiff, and T. Daigle. 2017. Holocene biogeography of Tsuga mertensiana and other conifers in the Kenai Mountains and Prince William Sound, south-central Alaska. The Holocene 27(4):485-495.","10.1177/0959683616670217",31,"tundra",1.57572293803907,1336.80509509468,0.222339472327388,-9.78335132875213,11.3204475103315,684.297391927497
2695,5789,14980,"Neotoma","Goat Lake","GOATLAKE",60.2584899999999,-149.90846,550,"not known","lake","core","23","Anderson, R.S., D.S. Kaufman, E. Berg, C. Schiff, and T. Daigle. 2017. Holocene biogeography of Tsuga mertensiana and other conifers in the Kenai Mountains and Prince William Sound, south-central Alaska. The Holocene 27(4):485-495.","10.1177/0959683616670217",31,"tundra",1.57572293803907,1336.80509509468,0.222339472327388,-9.78335132875213,11.3204475103315,684.297391927497
2696,5790,5895,"Dugerdil et al., 2021","Gobi","MMNT4M09",44.4509,102.3459,1847,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.148280651199187,2540.6718519915,2.70562223227302,-14.8874492486093,18.7177628553239,162.192234950603
2696,5791,5896,"Dugerdil et al., 2021","Gobi","MMNT4M10",44.3952,102.4511,1677,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.138160144588572,2700.18595300349,3.39147821497167,-14.4273753094812,19.517124061196,152.249427298673
2696,5792,5897,"Dugerdil et al., 2021","Gobi","MMNT4S01",45.6645,101.6054,1750,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.179556137529554,2361.57549695259,1.8373926670717,-15.6960245550194,17.7232236366911,187.62353673565
2696,5793,5898,"Dugerdil et al., 2021","Gobi","MMNT4S02",45.1759,101.4288,1238,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.0995506444983676,3162.53752205563,5.32231013403925,-13.0088155770173,21.7129028244384,111.097088059814
2696,5794,5899,"Dugerdil et al., 2021","Gobi","MMNT4S03",45.1724,101.4517,1233,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.099070093955229,3170.45711969037,5.35697169640936,-12.9779224768824,21.7496582720309,110.61797747993
2696,5795,5900,"Dugerdil et al., 2021","Gobi","MMNT4S04",45.1702,101.4806,1230,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.0988673248852996,3175.52343806479,5.38028707879672,-12.9547418484124,21.7728457591809,110.429601907822
2696,5796,5901,"Dugerdil et al., 2021","Gobi","MMNT4S05",45.1618,101.4927,1228,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.0987120786899444,3178.15210919095,5.39183295239536,-12.944349406068,21.7853084011211,110.279137276777
2696,5797,5902,"Dugerdil et al., 2021","Gobi","MMNT4S06",45.1467,101.5083,1230,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.0990916386084929,3174.09343572848,5.37558933130985,-12.9555758264081,21.7666726523044,110.684977914056
2696,5798,5903,"Dugerdil et al., 2021","Gobi","MMNT4S07",45.1402,101.5087,1232,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.0993604590995715,3170.45641376033,5.36024374617248,-12.968018334902,21.7499318542248,110.964020539295
2696,5799,5904,"Dugerdil et al., 2021","Gobi","MMNT4S08",44.6746,102.1844,1508,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.131466971889895,2829.39164408995,3.9538766611666,-13.9907260310333,20.1253080354369,144.789817003704
2696,5800,5905,"Dugerdil et al., 2021","Gobi","MMNT4S11",44.1685,102.6031,1273,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.1124930981539,3131.05578292251,5.17138614230731,-13.2374166999988,21.6110203469479,126.459260670746
2696,5801,5906,"Dugerdil et al., 2021","Gobi","MMNT4S12",43.9494,102.7411,1574,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.12137002586255,2860.98282927993,4.01419115665395,-14.1366311055922,20.363700004953,135.754207206452
2696,5802,5907,"Dugerdil et al., 2021","Gobi","MMNT4S14",43.765,102.8018,1982,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.133949372922112,2500.39344900021,2.40453740116162,-15.3954762723945,18.6127047583182,148.48377873635
2697,5803,11820,"Neotoma","Goddard Pond, RI","SJNE6",41.4074965,-71.557096,34,"not known","lake","surface sample","-37","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,13,"temperate deciduous broadleaf forest",1.30902521050685,3873.49835590607,10.2782396971728,-2.32069478247859,22.3439900220298,1185.34146371751
2698,5804,19223,"SMPDSv1","Godtholstjonn","Bjune_a200",59.8166666666666,7.21,980,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.28276730399044,1533.7512733613,2.35979191664316,-6.57805809904003,11.509472408213,1239.12919193194
2699,5805,19224,"SMPDSv1","Godziszewskie Lake","EPDcoretop_E996",54.093333,18.552778,71,"1.694","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.838895531934994,2988.35886935092,7.85403259364965,-2.33273205003752,17.2189176814055,588.473033407006
2700,5806,17575,"Phelps et al., 2020","Goho","GOHO_0",6.443056,2.579167,3,"not known","not known","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",2,"tropical semi-evergreen broadleaf forest",1.06670051010698,9815.18705810222,26.8909234468554,25.131040998797,28.5480221112057,1396.29109287216
2701,5807,19225,"SMPDSv1","Goikalambi","Bjune_a94",69.55746461,29.95125671,85,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.37215761516896,1248.13455442829,-0.684878235755273,-11.5133474180141,12.1708364145837,490.935250374908
2702,5808,7922,"EMPDv2","Goito","Mercuri_i3",45.221666,10.666111,27,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.746456924358783,4799.3074078939,13.1487874188874,2.46208845317629,23.3396055405717,776.670951641175
2702,5809,7923,"EMPDv2","Goito","Mercuri_i4",45.223055,10.664444,27,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.746556227493637,4799.30304687791,13.1487754708984,2.46172739884329,23.3398234599349,776.7626578183
2702,5810,7924,"EMPDv2","Goito","Mercuri_i5",45.222777,10.664444,27,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.746551680993792,4799.33089460562,13.1488517660428,2.4619189368308,23.3398446767435,776.761638612216
2702,5811,7925,"EMPDv2","Goito","Mercuri_i6",45.220844,10.66728,27,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.74638981469361,4799.29532419063,13.148754312851,2.46223720427818,23.3394413647113,776.607240620556
2703,5812,19226,"SMPDSv1","Golaya-viska","Golaya-viska_SS (Novenko_c187)",66.06,47.26,70,"not applicable","terrestrial, soil","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.32368616636142,1535.35264345816,-1.59786115872177,-18.6368648940475,15.2769686868169,524.675652244556
2704,5813,14972,"Neotoma","Gold Creek Lake","GOLDCRK",40.781835,-106.67896,2917,"not known","lake","core","-51","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.515089624869229,1441.73154821359,0.386294743346218,-10.9459349978613,12.4120156626888,480.410281445612
2704,5813,14973,"Neotoma","Gold Creek Lake","GOLDCRK",40.781835,-106.67896,2917,"not known","lake","core","-22","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.515089624869229,1441.73154821359,0.386294743346218,-10.9459349978613,12.4120156626888,480.410281445612
2704,5813,14974,"Neotoma","Gold Creek Lake","GOLDCRK",40.781835,-106.67896,2917,"not known","lake","core","17","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.515089624869229,1441.73154821359,0.386294743346218,-10.9459349978613,12.4120156626888,480.410281445612
2705,5814,12624,"Neotoma","Gold Lake Bog","GOLDLKBG",43.65,-122.041667,1465,"not known","terrestrial, bog/fen/swamp","core","29","Sea, D.S., and C. Whitlock. 1995. Postglacial vegetation and climate of the Cascade Range, central Oregon. Quaternary Research 43:370-381.",,8,"cool evergreen needleleaf forest",0.651114397321316,2600.26155987586,6.74466013962706,-2.23400745653106,17.1992476606839,619.19804211531
2706,5815,12625,"Neotoma","Goldsmith Lake","GOLDSMTH",46.583333,-92.466667,342,"not known","lake","core","-11","Unpublished data",,9,"cool mixed forest",0.924475971076015,2948.33400166916,5.03816047474418,-12.8968671586517,20.2292119654684,730.910222898622
2706,5815,12626,"Neotoma","Goldsmith Lake","GOLDSMTH",46.583333,-92.466667,342,"not known","lake","core","21","Unpublished data",,9,"cool mixed forest",0.924475971076015,2948.33400166916,5.03816047474418,-12.8968671586517,20.2292119654684,730.910222898622
2707,5816,8729,"EMPDv2","Golebiewo I","Pędziszewska_a2",54.45,18.5,132,"0.006","terrestrial, bog/fen/swamp","peat","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.89057525506633,2892.85100470376,7.58405444106856,-2.38527565534114,16.8121160536855,616.853317372835
2708,5817,19227,"SMPDSv1","Golestan lowland","Golestan R1",37.3722,55.9292,900,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.17677191606888,5195.78775111135,14.2350349345516,0.449379174040757,27.3185325810639,234.213612345803
2708,5818,19236,"SMPDSv1","Golestan lowland","Golestan R10",37.35,56.1167,1100,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.186005218509236,4939.88616977065,13.5008145849005,-0.383565076736046,26.6639675265542,246.371283148278
2708,5819,19237,"SMPDSv1","Golestan lowland","Golestan R11",37.35,56.1167,1100,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.186005218509236,4939.88616977065,13.5008145849005,-0.383565076736046,26.6639675265542,246.371283148278
2708,5820,19238,"SMPDSv1","Golestan lowland","Golestan R12",37.6194,56.0069,950,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.182500118504694,5084.66433920294,13.9261100013976,0.0571524618353139,27.1178952965609,240.651645499773
2708,5821,19239,"SMPDSv1","Golestan lowland","Golestan R13",37.3439,56.0256,1500,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.200147970566711,4502.80874243133,12.1241879491544,-1.89218821808249,25.3458410128016,265.285147296649
2708,5822,19240,"SMPDSv1","Golestan lowland","Golestan R14",37.3369,56.0256,1300,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.19240504276979,4721.61820375978,12.8283405342208,-1.11427717426587,26.0080671459931,255.065223582239
2708,5823,19241,"SMPDSv1","Golestan lowland","Golestan R15",37.3303,56.0222,1000,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.180898900225919,5069.0758673173405,13.8830653312212,0.0512419054615511,26.9999118808596,239.799804115493
2708,5824,19228,"SMPDSv1","Golestan lowland","Golestan R2",37.3708,55.9375,800,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.173115074180575,5322.94357635452,14.5834070585055,0.835050196703146,27.646433773516,229.322022469694
2708,5825,19229,"SMPDSv1","Golestan lowland","Golestan R3",37.3708,55.9389,800,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.173126605387382,5322.82977076946,14.5830952623821,0.834429592669118,27.6465488624352,229.336164031425
2708,5826,19230,"SMPDSv1","Golestan lowland","Golestan R4",37.3666,55.9444,900,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.176846465623446,5195.44105247685,14.234085075279,0.446603089471378,27.3201119428266,234.320606580385
2708,5827,19231,"SMPDSv1","Golestan lowland","Golestan R5",37.3711,55.9514,900,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.176966139218169,5194.08333638498,14.2303653051643,0.440642482723166,27.3196918916262,234.453254626799
2708,5828,19232,"SMPDSv1","Golestan lowland","Golestan R6",37.3711,55.9631,900,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.177074793853223,5193.0933399244,14.2276529860942,0.435672725029782,27.320226746932,234.585552363808
2708,5829,19233,"SMPDSv1","Golestan lowland","Golestan R7",37.3722,55.9767,850,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.175331888660127,5255.65238631918,14.3990476337512,0.622985875213689,27.4851027089708,232.240680207101
2708,5830,19234,"SMPDSv1","Golestan lowland","Golestan R8",37.3669,56.0014,1000,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.181164950248936,5064.75916006001,13.8705356306582,0.0351577718841891,26.9930394231995,240.012554131302
2708,5831,19235,"SMPDSv1","Golestan lowland","Golestan R9",37.3583,56.0042,900,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.177297973447792,5191.83333515448,14.2242009182315,0.426822968137399,27.3243139662775,234.894837738478
2709,5832,6956,"EMPDv2","Golestan National Park","Djamali_a1",37.3722222222222,55.9291666666667,900,"0.000225","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.176771872077926,5195.78683833176,14.2350324337856,0.449378708397292,27.318527532442,234.213494489312
2709,5833,6965,"EMPDv2","Golestan National Park","Djamali_a10",37.3558333333333,56.1186111111111,1100,"2.5e-05","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.18610763995141,4938.82645366619,13.4975320499131,-0.388155005723931,26.6627822247274,246.47649559481
2709,5834,6966,"EMPDv2","Golestan National Park","Djamali_a11",37.3558333333333,56.1186111111111,1100,"2.5e-05","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.18610763995141,4938.82645366619,13.4975320499131,-0.388155005723931,26.6627822247274,246.47649559481
2709,5835,6967,"EMPDv2","Golestan National Park","Djamali_a12",37.3361111111111,56.0069444444444,950,"1e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.178936596617182,5131.50466799408,14.0589168986139,0.2469313570552,27.1634016195671,237.174907936581
2709,5836,6968,"EMPDv2","Golestan National Park","Djamali_a13",37.3438888888889,56.0255555555556,1500,"1e-04","terrestrial","lichen","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.200147062543937,4502.81423941308,12.1242062652496,-1.89216737206799,25.3458518501418,265.284112169967
2709,5837,6969,"EMPDv2","Golestan National Park","Djamali_a14",37.3369444444444,56.0255555555556,1300,"1e-04","terrestrial","lichen","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.192405155309246,4721.61499366538,12.8283299239474,-1.11429193553082,26.0080617356139,255.065217310545
2709,5838,6970,"EMPDv2","Golestan National Park","Djamali_a15",37.3302777777778,56.0222222222222,1000,"0.000225","terrestrial, soil","litter","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.180898836373328,5069.07774173701,13.8830707239378,0.0512478574935728,26.9999162456938,239.799793367963
2709,5839,6971,"EMPDv2","Golestan National Park","Djamali_a16",37.3558333333333,56.1525,1800,"2.5e-05","terrestrial, soil","litter","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.214308863603298,4176.39267859861,11.0292953367396,-3.08694766032653,24.3137183829833,283.513718085635
2709,5840,6972,"EMPDv2","Golestan National Park","Djamali_a17",37.3558333333333,56.1863888888889,1450,"2.5e-05","terrestrial, soil","litter","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.200844896948346,4541.80371499689,12.251038946809,-1.75257408028238,25.4827265227621,265.798883684833
2709,5841,6973,"EMPDv2","Golestan National Park","Djamali_a18",37.3558333333333,56.1863888888889,1450,"2.5e-05","terrestrial, soil","litter","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.200844896948346,4541.80371499689,12.251038946809,-1.75257408028238,25.4827265227621,265.798883684833
2709,5842,6957,"EMPDv2","Golestan National Park","Djamali_a2",37.3708333333333,55.9375,800,"1e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.173115443194632,5322.93804490026,14.5833919038363,0.835028267458375,27.6464288174243,229.322379854461
2709,5843,6958,"EMPDv2","Golestan National Park","Djamali_a3",37.3708333333333,55.9388888888889,800,"1e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.173126882899169,5322.82514155694,14.583082579608,0.834412585817275,27.6465429913619,229.336409182278
2709,5844,6959,"EMPDv2","Golestan National Park","Djamali_a4",37.3666666666667,55.9444444444444,900,"0.000225","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.176847686824077,5195.42596715975,14.2340437456432,0.446540006869922,27.3201030368028,234.321900099952
2709,5845,6960,"EMPDv2","Golestan National Park","Djamali_a5",37.3711111111111,55.9513888888889,900,"0.000225","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.176966170152209,5194.08239321858,14.2303627211468,0.44063984377247,27.3196895780111,234.453260007501
2709,5846,6961,"EMPDv2","Golestan National Park","Djamali_a6",37.3711111111111,55.9630555555556,900,"0.000225","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.177074516363965,5193.09520489686,14.2276580956078,0.435684209849374,27.3202228772671,234.585182128449
2709,5847,6962,"EMPDv2","Golestan National Park","Djamali_a7",37.3722222222222,55.9766666666667,850,"4e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.175331857244188,5255.65138418347,14.3990448881739,0.622985568886275,27.4850970099755,232.240577451797
2709,5848,6963,"EMPDv2","Golestan National Park","Djamali_a8",37.3669444444444,56.0013888888889,1000,"4e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.181165418190264,5064.7528065952,13.8705171178788,0.0351325676327631,26.993031355895,240.01298788389
2709,5849,6964,"EMPDv2","Golestan National Park","Djamali_a9",37.3583333333333,56.0041666666667,900,"4e-04","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.17729807176219,5191.8304143486,14.2241929160236,0.426814821115629,27.3243067765591,234.894859677024
2710,5850,19242,"SMPDSv1","Golestan upland","Golestan R16",37.35,56.15,1800,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.214139355187411,4177.47713332649,11.0331257726147,-3.082627521021,24.3161995819489,283.337303461831
2710,5851,19243,"SMPDSv1","Golestan upland","Golestan R17",37.35,56.1833,1450,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.200698711331744,4542.91596033904,12.2547828612922,-1.74791408356778,25.4846559696614,265.645713565529
2710,5852,19244,"SMPDSv1","Golestan upland","Golestan R18",37.35,56.1833,1450,"not applicable","terrestrial","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.200698711331744,4542.91596033904,12.2547828612922,-1.74791408356778,25.4846559696614,265.645713565529
2711,5853,11862,"Neotoma","Golf course pond","KKMFA10",39.682455,-82.98102,201,"not known","artificial water body","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.07861733805451,4634.85136428699,12.6445584992368,-0.594203995367756,24.0483827062105,1055.55453767157
2712,5854,10967,"Bush et al., 2020","Golfete","Golfete",15.67,-88.96,6,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.72351143178171,9545.93732757121,26.1532529522499,23.4584755772723,28.0408496044814,2920.01863273131
2713,5855,19245,"SMPDSv1","Golhisar Golu (WA)","Barboni_a350",37.125,29.597222,946,"370","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443729695576463,4987.76398262081,13.6651068017008,4.03983842145974,23.7169784455732,646.736651690237
2714,5856,2926,"CMPD","Golmud River Basin","Golmud River Basin R01",36.0216,94.8113,3292,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1252174740819,1958.3424352144,2.12659615453342,-11.7298786654861,14.549802802627,141.42563887404
2714,5857,2927,"CMPD","Golmud River Basin","Golmud River Basin R02",36.127,94.7925,3126,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.119175097790093,2162.13469510391,2.98870816120652,-11.1073410199756,15.5455765694803,136.46577142545
2714,5858,2928,"CMPD","Golmud River Basin","Golmud River Basin R03",36.1865,94.7642,3084,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.117503465271297,2213.72628028116,3.20171794348801,-10.9545484518329,15.7940995346632,134.938051151941
2714,5859,2929,"CMPD","Golmud River Basin","Golmud River Basin R04",36.3405,94.8113,2905,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.10663690262798,2448.97171853074,4.12479225781686,-10.3668065489477,16.9439619265273,124.346017829818
2714,5860,2930,"CMPD","Golmud River Basin","Golmud River Basin R05",36.3595,94.8396,2876,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105916737058624,2489.41982681382,4.28647374275476,-10.2507981816881,17.1294934938449,123.824832255642
2714,5861,2931,"CMPD","Golmud River Basin","Golmud River Basin R06",36.3757,94.8616,2849,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105227742263759,2526.87405288505,4.43532636745427,-10.1438064363962,17.3003862637258,123.308213970006
2714,5862,2932,"CMPD","Golmud River Basin","Golmud River Basin R07",36.4054,94.8742,2823,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104437753870349,2562.74376320417,4.57666548931186,-10.0434929465589,17.464634030203,122.632509818448
2714,5863,2933,"CMPD","Golmud River Basin","Golmud River Basin R08",36.4432,94.8899,2797,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103632780207477,2599.36785268831,4.72001572585813,-9.94231675207241,17.6316716186725,121.931678462528
2714,5864,2934,"CMPD","Golmud River Basin","Golmud River Basin R09",36.4865,94.9434,2767,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.102958915438493,2645.03844821851,4.89902669264601,-9.81490412176276,17.8367953169053,121.467812104093
2714,5865,2935,"CMPD","Golmud River Basin","Golmud River Basin R10",36.5162,94.9748,2753,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.102645396554173,2667.31173760063,4.98569135306724,-9.75376561593968,17.9363469911507,121.24990856009
2714,5866,2936,"CMPD","Golmud River Basin","Golmud River Basin R11",36.5946,94.9969,2729,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101750924677019,2703.45154404987,5.12432954017824,-9.6589958640308,18.10104088952,120.379971931242
2714,5867,2937,"CMPD","Golmud River Basin","Golmud River Basin R12",36.6811,95.0818,2703,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101228533857647,2748.03239011195,5.29645365799904,-9.53860500543736,18.2986246226108,120.036633176638
2714,5868,2938,"CMPD","Golmud River Basin","Golmud River Basin R13",36.6919,95.0881,2702,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101193802350263,2750.18912703855,5.30461597923588,-9.53338908742743,18.3084122517453,120.002125794745
2714,5869,2939,"CMPD","Golmud River Basin","Golmud River Basin R14",36.7054,95.0786,2700,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101003831194635,2752.43187535772,5.3125373143207,-9.52893989796732,18.3197140078471,119.77020279753
2714,5870,2940,"CMPD","Golmud River Basin","Golmud River Basin R15",36.7135,95.0818,2699,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.100960219225595,2754.25565695301,5.31941321835714,-9.52450196760815,18.3280602565401,119.723868561895
2714,5871,2941,"CMPD","Golmud River Basin","Golmud River Basin S01",35.7,94.2,4345,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.158287788446358,790.857699261132,-3.61378635572661,-15.7877171055958,7.91842804870091,159.42374820305
2714,5872,2942,"CMPD","Golmud River Basin","Golmud River Basin S02",35.7,94.3,4062,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152318187864085,1055.39511053469,-2.12926427169039,-14.7300742117165,9.61961251409422,158.302360011929
2714,5873,2943,"CMPD","Golmud River Basin","Golmud River Basin S03",35.9,94.4,3740,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133962030092793,1405.50916830667,-0.386828143593524,-13.5176538414565,11.6773865583557,144.224558842846
2714,5874,2944,"CMPD","Golmud River Basin","Golmud River Basin S04",35.9,94.5,3663,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132114131812314,1494.79105289465,0.0381366881105579,-13.2158611593675,12.1664220365807,143.443300146614
2714,5875,2945,"CMPD","Golmud River Basin","Golmud River Basin S05",35.9,94.6,3552,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129048677326176,1624.11554545986,0.638475221749451,-12.787394624277,12.857581748392,141.747029408311
2714,5876,2946,"CMPD","Golmud River Basin","Golmud River Basin S06",35.9,94.7,3450,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126289125294065,1746.95818365007,1.19441702337663,-12.3898921619216,13.4965594957772,140.192138695081
2714,5877,2947,"CMPD","Golmud River Basin","Golmud River Basin S07",36.1,94.8,3162,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.120486317042882,2117.49835224252,2.80238445257173,-11.2417515396704,15.3300292518063,137.571060004062
2714,5878,2948,"CMPD","Golmud River Basin","Golmud River Basin S08",36,94.8,3328,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126449989026637,1913.98797004216,1.93494240879371,-11.8681260997949,14.3292544080928,142.358708505617
2714,5879,2949,"CMPD","Golmud River Basin","Golmud River Basin S09",36.4,95,2828,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105491490554805,2567.30246336814,4.59815211952015,-10.0257375730519,17.4782512055527,124.006953835229
2714,5880,2950,"CMPD","Golmud River Basin","Golmud River Basin S10",36.4,95.4,2867,"not applicable","terrestrial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114189448858046,2565.94469579768,4.62210409276276,-9.98391933693509,17.4212695010562,134.761942442126
2715,5881,7072,"EMPDv2","Goluboye Lake","EPDcoretop_E1860",61.12,152.27,810,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14370709943785,822.620080923004,-11.0450513416887,-30.7298948830175,9.43216819748504,401.426726117012
2716,5882,7039,"EMPDv2","Gomishan","EPDcoretop_E1643",37.15,54.06,-26,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.122909519769312,6714.23541394228,18.3951655176501,6.17338012600924,29.7852537713807,162.957351894568
2717,5883,19246,"SMPDSv1","Gondo Alpjen","EPDcoretop_E1092",46.21063333,8.112433333,1635,"0.08","terrestrial, bog/fen/swamp","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.27432695236807,1725.4243034327,3.76668100885815,-4.0571326455715,12.0319129025382,1772.40234309752
2718,5884,2951,"CMPD","Gonggouyan","Gonggouyan",40.45,112.45,1255,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370451115802431,3122.87885504105,5.78499205626981,-11.7093989093918,20.7703632794561,394.432022549579
2719,5885,9776,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 1",38.9,112.23,1860,"not known","not known","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5886,9777,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 10",38.9,112.23,1860,"not known","not known","not known","36","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5887,9778,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 11",38.9,112.23,1860,"not known","not known","not known","48","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5888,9779,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 2",38.9,112.23,1860,"not known","not known","not known","5","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5889,9780,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 3",38.9,112.23,1860,"not known","not known","not known","8","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5890,9781,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 4",38.9,112.23,1860,"not known","not known","not known","12","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5891,9782,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 5",38.9,112.23,1860,"not known","not known","not known","15","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5892,9783,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 6",38.9,112.23,1860,"not known","not known","not known","19","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5893,9784,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 7",38.9,112.23,1860,"not known","not known","not known","23","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5894,9785,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 8",38.9,112.23,1860,"not known","not known","not known","27","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2719,5895,9786,"Herzschuh et al., 2019","Gonghai Lake","Gonghai Lake 9",38.9,112.23,1860,"not known","not known","not known","31","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454779140754389,2493.45932145506,3.53369740948271,-12.7497390503868,17.654010553824,470.500416692944
2720,5896,19247,"SMPDSv1","Gonginskoe lake","Gonginskoe lake_SS (Novenko_c252)",60.4817,35.0071,115,"0.01","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21904836098188,2158.34759006764,2.88209279466778,-11.7661560978297,16.4585803857238,673.176039651825
2721,5897,643,"Australian pollen","Goochs Crater Right","Goochs Crater Right_0",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2721,5898,644,"Australian pollen","Goochs Crater Right","Goochs Crater Right_10",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2721,5899,645,"Australian pollen","Goochs Crater Right","Goochs Crater Right_5",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2722,5900,24484,"Southern Hemisphere pollen","Goochs Swamp","Gooches_0",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-45","Black, M.P., 2006. A Late Quaternary palaeoenvironmental investigation of the fire, climate, human and vegetation nexus from the Sydney Basin, Australia (Doctoral dissertation, University of New South Wales).",,16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2722,5901,24486,"Southern Hemisphere pollen","Goochs Swamp","Gooches_10",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-37","Black, M.P., 2006. A Late Quaternary palaeoenvironmental investigation of the fire, climate, human and vegetation nexus from the Sydney Basin, Australia (Doctoral dissertation, University of New South Wales).",,16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2722,5902,24485,"Southern Hemisphere pollen","Goochs Swamp","Gooches_5",-33.45,150.26,960,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-40","Black, M.P., 2006. A Late Quaternary palaeoenvironmental investigation of the fire, climate, human and vegetation nexus from the Sydney Basin, Australia (Doctoral dissertation, University of New South Wales).",,16,"temperate sclerophyll woodland and shrubland",0.535232201838601,4286.11110554238,11.7427701521709,3.96742565711561,19.3789634749488,728.601936721481
2723,5903,11539,"Neotoma","Goode Pond","FH-21",39.460005,-96.5371,419,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.720778789920216,4557.72441202726,11.9907199090869,-3.55167314990884,26.179333309791,793.565157945944
2724,5904,11599,"Neotoma","Goose","GOO-1C",44.383135,-96.044625,530,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.666389628343174,3402.77309702087,6.80932951736859,-11.2150214054116,22.6663928492599,601.513068567415
2724,5905,11600,"Neotoma","Goose","GOO-1M",44.383135,-96.044625,530,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.666389628343174,3402.77309702087,6.80932951736859,-11.2150214054116,22.6663928492599,601.513068567415
2725,5906,14057,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-44","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14058,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-36","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14059,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-28","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14060,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-20","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14061,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-12","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14062,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","-5","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14063,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","3","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14064,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","12","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14065,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","20","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14066,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","28","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14067,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","36","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2725,5906,14068,"Neotoma","Goose Bay Marsh","GOOSEBAY",44.351135,-75.87042,75,"1.77","terrestrial, bog/fen/swamp","core","44","Rippke, M.B., M.T. Distler, and J.M. Farrell. 2010. Holocene vegetation dynamics of an upper St. Lawrence River wetland: Paleoecological evidence for a recent increase in cattail (Typha). Wetlands 30:805-816.",,9,"cool mixed forest",1.10574320164096,3189.40010207407,6.75442857317743,-8.92490125159591,20.8266435999913,916.999786956271
2726,5907,13549,"Neotoma","Goose Lake","GOOSEMN",44.9899999999999,-94.591,334,"not known","lake","core","-13","Unpublished data",,22,"steppe",0.816720514106405,3389.38201091869,6.58019207758228,-12.0111732800792,22.3145351009405,703.801531772076
2726,5907,13550,"Neotoma","Goose Lake","GOOSEMN",44.9899999999999,-94.591,334,"not known","lake","core","19","Unpublished data",,22,"steppe",0.816720514106405,3389.38201091869,6.58019207758228,-12.0111732800792,22.3145351009405,703.801531772076
2726,5907,13551,"Neotoma","Goose Lake","GOOSEMN",44.9899999999999,-94.591,334,"not known","lake","core","33","Unpublished data",,22,"steppe",0.816720514106405,3389.38201091869,6.58019207758228,-12.0111732800792,22.3145351009405,703.801531772076
2726,5907,13552,"Neotoma","Goose Lake","GOOSEMN",44.9899999999999,-94.591,334,"not known","lake","core","48","Unpublished data",,22,"steppe",0.816720514106405,3389.38201091869,6.58019207758228,-12.0111732800792,22.3145351009405,703.801531772076
2727,5908,13720,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13721,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","-12","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13722,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","-1","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13723,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","11","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13724,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","23","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13725,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","34","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2727,5908,13726,"Neotoma","Gooseberry Lake","GOOSEBRY",52.11802,-110.73929,698,"not known","lake","core","46","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.503521043227013,2459.44721920101,2.47107035042695,-15.4513506190762,17.4867322000456,379.667294138303
2728,5909,11648,"Neotoma","Gordo Pond","GPPS-21",37.16061,-101.726859999999,1001,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.360212392253695,4750.69902256991,12.9767690451036,-0.347755243832347,26.2526519060687,456.622830102802
2729,5910,646,"Australian pollen","Gordon Inlet GS3 FRNP","Gordon Inlet GS3 FRNP",-34.292,119.458,0,"not applicable","terrestrial, bog/fen/swamp","sediment sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.519836492578351,5852.80425374925,16.0350801472582,11.5548947988294,20.6993368017558,616.866215467357
2730,5911,19248,"SMPDSv1","Gorgan","Gorgan delta",37.92,54.083,-28,"very large (>500 km2)","coastal, other","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.131453390894292,6395.89989145248,17.5230134012397,5.02393777515289,29.3722784120535,172.140303170527
2731,5912,7189,"EMPDv2","Gorgo basso","EPDcoretop_E2366",37.6,12.65,6,"0.03","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.3638514800666,6558.69085905421,17.9690160522033,11.0377162195006,26.1366202216354,480.740645594044
2732,5913,6901,"EMPDv2","Gorgo nero","Colombaroli_a16",37.8274444444444,14.0923611111111,1089,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.464750572080928,4788.17228647967,13.1182802369306,6.46164930231478,21.5250276207855,632.690434168153
2733,5914,19249,"SMPDSv1","Gornergrat","CH/WVDK/Z5",45.982195,7.780903,3000,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.52354565503439,293.716840150498,-3.45331948345039,-9.72048898368388,3.61019443020498,2348.24783192979
2734,5915,19250,"SMPDSv1","Gorno","EPDcoretop_E890",50.85,20.833333,240,"0.006","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.82173757818299,3070.78863480032,7.91321472273867,-3.43438342647183,17.6244963236358,630.598201883702
2735,5916,7952,"EMPDv2","Goromai","Mikishin-Gvozdeva_a12",52.5277777777778,143.213611111111,4,"not known","fluvial","sediment sample","-32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24749734926456,1824.10016307424,-0.882749324807289,-19.0739529919941,15.2192195156451,654.580985652743
2736,5917,8292,"EMPDv2","Gorreto","Montanari_b6",44.6053638888889,9.29195833333333,526,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.14206144459423,3821.79889123975,10.4706818938075,1.39057112956941,19.7054232853332,1107.2406556665
2737,5918,9605,"Gaillard et al., 1992","Gorslovsan","Gorslovsan",56.19174,12.623968,1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.915910356118773,2952.92472075965,7.96905114670059,-0.810816147778148,16.8137194066364,610.284910856634
2738,5919,12627,"Neotoma","Goshen Springs","GOSHEN",31.721111,-86.134167,105,"not known","lake","core","0","Delcourt, P.A., H.R. Delcourt, R.C. Brister, and L.E. Lackey. 1980. Quaternary vegetation history of the Mississippi embayment. Quaternary Research 13:111-132.",,4,"warm-temperate evergreen and mixed forest",1.12144105048179,6682.88015650906,18.3092607027645,7.91261071602584,27.1010933365166,1431.69380182689
2738,5919,12628,"Neotoma","Goshen Springs","GOSHEN",31.721111,-86.134167,105,"not known","lake","core","50","Delcourt, P.A., H.R. Delcourt, R.C. Brister, and L.E. Lackey. 1980. Quaternary vegetation history of the Mississippi embayment. Quaternary Research 13:111-132.",,4,"warm-temperate evergreen and mixed forest",1.12144105048179,6682.88015650906,18.3092607027645,7.91261071602584,27.1010933365166,1431.69380182689
2739,5920,19251,"SMPDSv1","Gotnavolok","EPDcoretop_E262",62.2,33.8,110,"0.01","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16600181012289,1995.20247893432,2.23783289488908,-11.9779274197967,15.9429108368266,609.411986414647
2740,5921,12629,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","-29","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2740,5921,12630,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","-8","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2740,5921,12631,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","13","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2740,5921,12632,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","34","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2740,5921,12633,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","45","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2740,5921,12634,"Neotoma","Gould Pond","GOULD",44.983333,-69.316667,89,"not known","lake","core","49","Jacobson, G.L., Jr., T. Webb III, and E.C. Grimm. 1987. Patterns and rates of vegetation change during the deglaciation of eastern North America. Pages 277-288 in W.F. Ruddiman and H.E. Wright, Jr., editors. North America and adjacent oceans during the last deglaciation. The Geology of North America K-3. Geological Society of America, Boulder, Colorado, USA.; Anderson, R.S., G.L. Jacobson, Jr., R.B. Davis, and R. Stuckenrath, Jr. 1992. Gould Pond, Maine: late-glacial transitions from marine to upland environments. Boreas 21: 359-371.",,9,"cool mixed forest",1.47421124455886,2875.19070438295,6.03016511907581,-8.28931032752363,19.3802007507752,1140.38624466702
2741,5922,12635,"Neotoma","Gould's Bog","GOULDBOG",42.533333,-72.183333,338,"not known","terrestrial, bog/fen/swamp","core","27","Davis, M.B. 1958. Three pollen diagrams from central Massachusetts. American Journal of Science 256:540-570. http://www.ajsonline.org/content/256/8/540.citation.","10.2475/ajs.256.8.540",9,"cool mixed forest",1.3380425566653,3152.72422211361,7.12445198573226,-7.29279533630146,20.2521299814879,1100.0831845466
2742,5923,647,"Australian pollen","Governor Bog","Governor Bog",-42.1833,145.65,180,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.48969811705488,4029.26253979374,11.0390754514897,7.19386671836279,15.2739264679625,1350.03020750502
2743,5924,9606,"Gaillard et al., 1992","Graborg","Graborg",56.680628,16.604751,33,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.866686619036167,2661.47916301073,6.9878242993847,-1.75528628905747,16.2882104610811,567.20199379048
2744,5925,19252,"SMPDSv1","Grachen See","EPDcoretop_E1095",46.19634722,7.845008333,1710,"not known","lake","peat core top","-23","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.2836112728786,1647.79437234794,3.45594669617326,-4.27606371033566,11.6885827155511,1778.53522803139
2745,5926,19253,"SMPDSv1","Gradenmoos","EPDcoretop_E1299",47.965278,12.808333,1920,"0.025","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.46361481786339,1209.86993659332,1.29468151704959,-6.30176685924265,9.18452676487733,1726.65512278483
2746,5927,12636,"Neotoma","Graham Lake","GRAHAM",45.183333,-77.35,381,"not known","lake","core","0","Fuller, J.L. 1995. Holocene forest dynamics in Southern Ontario, Canada. Dissertation. University of Cambridge, Cambridge, U.K.; Fuller, J.L. 1997. Holocene forest dynamics in southern Ontario, Canada: fine-resolution pollen data. Canadian Journal of Botany 75:1714-1727..; Fuller, J.L. 1998. Ecological impact of the mid-Holocene hemlock decline in southern Ontario, Canada. Ecology 79:2337-2351.",,9,"cool mixed forest",1.13724918465972,2615.50372278179,4.01445928190937,-12.6930805970234,18.4632131220088,907.937911167273
2747,5928,19254,"SMPDSv1","Grahovo","Barboni_a1461",45.75,14.4333,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.60827563545555,3137.08118198184,8.41555001090056,-1.44804427808772,17.5867980107612,1427.32654506474
2748,5929,7127,"EMPDv2","Grand Mez","EPDcoretop_E2116",46.75,1.44,123,"0.03","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.82344023241052,4112.59225640071,11.2673760449335,3.86459523326501,19.2094868495186,697.95785472312
2749,5930,19255,"SMPDSv1","Grande Briere","EPDcoretop_E234",47.366667,-2.25,80,"not known","terrestrial, bog/fen/swamp","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02166749028342,4155.70454380953,11.385491900848,5.52586041421488,17.847061038051,849.607695450362
2750,5931,14175,"Neotoma","Grandfather Lake","GRANDPOP",59.79623,-158.53995,142,"not known","lake","core","-40","Hu, F.S., L.B. Brubaker, and P.M. Anderson. 1995. Postglacial vegetation and climate change in the northern Bristol Bay region, southwestern Alaska. Quaternary Research 43:382-392.",,15,"cold evergreen needleleaf forest",1.07392584226461,1419.10038999663,-0.844568864849355,-12.7165916209379,12.2858012089353,477.294591267244
2751,5932,648,"Australian pollen","Granite Downs","Granite Downs D1",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5933,649,"Australian pollen","Granite Downs","Granite Downs D10",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5934,650,"Australian pollen","Granite Downs","Granite Downs D2",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5935,651,"Australian pollen","Granite Downs","Granite Downs D3",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5936,652,"Australian pollen","Granite Downs","Granite Downs D4",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5937,653,"Australian pollen","Granite Downs","Granite Downs D5",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5938,654,"Australian pollen","Granite Downs","Granite Downs D6",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5939,655,"Australian pollen","Granite Downs","Granite Downs D7",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5940,656,"Australian pollen","Granite Downs","Granite Downs D8",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2751,5941,657,"Australian pollen","Granite Downs","Granite Downs D9",-26.57,133.29,370,"not applicable","terrestrial","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.122161373848585,7600.56747465683,20.8234725333064,11.8676378070636,29.0559841163084,219.497660577451
2752,5942,12637,"Neotoma","Grant Lake","GRANT",64.716667,-100.466667,204,"not known","lake","profile or section","0","Kay, P.A. 1979. Multivariate statistical estimates of Holocene vegetation and climate change, forest-tundra transition zone, NWT, Canada. Quaternary Research 11:125-140.",,31,"tundra",0.713267951191936,746.99983149542,-12.2854728583436,-32.6916566151534,10.0618039560003,242.475403503069
2752,5942,12638,"Neotoma","Grant Lake","GRANT",64.716667,-100.466667,204,"not known","lake","profile or section","46","Kay, P.A. 1979. Multivariate statistical estimates of Holocene vegetation and climate change, forest-tundra transition zone, NWT, Canada. Quaternary Research 11:125-140.",,31,"tundra",0.713267951191936,746.99983149542,-12.2854728583436,-32.6916566151534,10.0618039560003,242.475403503069
2753,5943,14927,"Neotoma","Grant's Bog","GRANTS",49.7887,-125.1271,80,"0.7","terrestrial, bog/fen/swamp","core","-61.666","Lacourse, T., K.W. Beer, K.B. Craig, and D. Canil. 2019. Postglacial wetland succession, carbon accumulation and forest dynamics on the east coast of Vancouver Island, British Columbia, Canada. Quaternary Research 92:232-245.","https://doi.org/10.1017/qua.2018.146",8,"cool evergreen needleleaf forest",3.24379056323327,3425.69455775521,9.38546454179509,3.27188921780728,16.6850774960414,2373.65145022615
2753,5943,14928,"Neotoma","Grant's Bog","GRANTS",49.7887,-125.1271,80,"0.7","terrestrial, bog/fen/swamp","core","12.035","Lacourse, T., K.W. Beer, K.B. Craig, and D. Canil. 2019. Postglacial wetland succession, carbon accumulation and forest dynamics on the east coast of Vancouver Island, British Columbia, Canada. Quaternary Research 92:232-245.","https://doi.org/10.1017/qua.2018.146",8,"cool evergreen needleleaf forest",3.24379056323327,3425.69455775521,9.38546454179509,3.27188921780728,16.6850774960414,2373.65145022615
2754,5944,658,"Australian pollen","Granta Pools","GOG",-41.50787,146.38472,685,"not known","small hollow","core top","-62","Fletcher, M.-S., S. Wood, and S.G. Haberle. 2014. A fire-driven shift from forest to non-forest: evidence for alternative stable states?. Ecology 95(9):2504-2513.","10.21233/5yf4-yx81",16,"temperate sclerophyll woodland and shrubland",1.36527122106178,3053.68733565279,8.36626667302135,3.78728370621745,13.4670398680958,1273.60491193862
2755,5945,14716,"Neotoma","Grassy Lake","GRAS13",37.42641,-89.3788649999999,104,"not known","lake","core","-58.1","Munoz, S.E., K.E. Gruley, A. Massie, D.A. Fike, S. Schroeder, and J.W. Williams. 2015. Cahokia's emergence and decline coincided with shifts of flood frequency on the Mississippi River. Proceedings of the National Academy of Sciences 112(20):6319-6324.",,13,"temperate deciduous broadleaf forest",1.05594594420799,5272.77840363241,14.4459682291299,0.513487698249748,26.4886641980254,1189.31217592561
2755,5945,14717,"Neotoma","Grassy Lake","GRAS13",37.42641,-89.3788649999999,104,"not known","lake","core","-17.8","Munoz, S.E., K.E. Gruley, A. Massie, D.A. Fike, S. Schroeder, and J.W. Williams. 2015. Cahokia's emergence and decline coincided with shifts of flood frequency on the Mississippi River. Proceedings of the National Academy of Sciences 112(20):6319-6324.",,13,"temperate deciduous broadleaf forest",1.05594594420799,5272.77840363241,14.4459682291299,0.513487698249748,26.4886641980254,1189.31217592561
2755,5945,14718,"Neotoma","Grassy Lake","GRAS13",37.42641,-89.3788649999999,104,"not known","lake","core","23.1","Munoz, S.E., K.E. Gruley, A. Massie, D.A. Fike, S. Schroeder, and J.W. Williams. 2015. Cahokia's emergence and decline coincided with shifts of flood frequency on the Mississippi River. Proceedings of the National Academy of Sciences 112(20):6319-6324.",,13,"temperate deciduous broadleaf forest",1.05594594420799,5272.77840363241,14.4459682291299,0.513487698249748,26.4886641980254,1189.31217592561
2755,5946,14069,"Neotoma","Grassy Lake","GRASSYCA",39.700855,-120.664684999999,1921,"not known","lake","core","-43","Edlund, E.G. 1996. Late Quaternary environmental history of montane forests of the Sierra Nevada. Doctoral dissertation. University of California Berkeley, Berkeley, California, USA.",,8,"cool evergreen needleleaf forest",0.653168955992313,2727.14685854434,7.2325642997949,-1.47052789687052,18.2606853966557,758.391636954869
2756,5947,8714,"EMPDv2","Grasubreen","Pardoe_c184",61.39,8.37,1900,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.28140863265661,762.825087831574,-2.56502643859092,-12.5598153059593,7.57245615468913,634.149837477157
2756,5948,8715,"EMPDv2","Grasubreen","Pardoe_c185",61.39,8.37,1890,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.28779314464492,768.102997829759,-2.52865414435109,-12.5221408842417,7.60609486364867,637.31577707887
2756,5949,8716,"EMPDv2","Grasubreen","Pardoe_c186",61.39,8.37,1880,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.29417803230483,773.380907827944,-2.49228185011126,-12.4844664625242,7.63973357260821,640.481716680583
2756,5950,8717,"EMPDv2","Grasubreen","Pardoe_c187",61.39,8.37,1860,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30694914196103,783.976239235732,-2.4195372616316,-12.409117619089,7.70701099052728,646.813595884008
2756,5951,8718,"EMPDv2","Grasubreen","Pardoe_c188",61.39,8.37,1840,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.31972231440555,794.674357208494,-2.34679267315193,-12.3337687756539,7.77428840844636,653.145475087434
2756,5952,8719,"EMPDv2","Grasubreen","Pardoe_c189",61.39,8.37,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33249717920523,805.38624407189,-2.27404808467227,-12.2584199322187,7.84156582636543,659.477354290859
2756,5953,8720,"EMPDv2","Grasubreen","Pardoe_c190",61.39,8.37,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33249717920523,805.38624407189,-2.27404808467227,-12.2584199322187,7.84156582636543,659.477354290859
2756,5954,8721,"EMPDv2","Grasubreen","Pardoe_c191",61.39,8.37,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34527399170933,816.16904545676,-2.20130349619261,-12.1830710887836,7.90884324428451,665.809233494285
2757,5955,7201,"EMPDv2","Grauthelleren","EPDcoretop_E2545",58.14,7.91,80,"0.0046","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.9515725363326,2540.75203709885,6.56512121333191,-2.23986505255026,15.4219129455105,1184.73114833681
2758,5956,19256,"SMPDSv1","Gravalivatnet","Bjune_a283",62.2683333333333,9.63666666666666,939,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.81775444525022,1158.72576001223,-0.1344899209447,-10.230759502098,9.96459226237237,832.190743946859
2759,5957,19257,"SMPDSv1","Gravdalstjonn","Bjune_a207",59.765,7.57666666666666,720,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.40981495428858,1674.64490829185,2.98481389399046,-6.07836758635021,12.1828290076568,1305.64046135844
2760,5958,12640,"Neotoma","Gravel Ridge","GRAVEL",55.033333,-62.633333,565,"not known","terrestrial","core","0","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.; Lamb, H.F. 1985. Palynological evidence for postglacial change in the position of tree limit in Labrador. Ecological Monographs 55:241-258.",,15,"cold evergreen needleleaf forest",1.79538937370427,1049.1463609401,-5.28088507326888,-22.1923029691537,11.6287602710139,823.923491877884
2761,5959,19273,"SMPDSv1","Gravgaz Marsh","Bakker_a1",37.591179,30.401436,1241,"not applicable","terrestrial, marsh","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.399684520894652,4250.75986721219,11.645917444417,1.43096595472607,21.9021936115861,553.264724851589
2761,5960,19262,"SMPDSv1","Gravgaz Marsh","Bakker_a2",37.591353,30.380378,1284,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.395386379276693,4162.03865393113,11.4028456272086,1.12174766156238,21.6979863661882,545.426390482564
2761,5961,19263,"SMPDSv1","Gravgaz Marsh","Bakker_a3",37.57448,30.41412,1251,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398969428323329,4230.39459783888,11.59012218586,1.35967499447424,21.8558621971233,551.996640993046
2761,5962,19264,"SMPDSv1","Gravgaz Marsh","Bakker_a4",37.566355,30.407665,1264,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397720550189202,4204.39368580924,11.5188868104363,1.26925132317181,21.7966427999386,549.819822703296
2761,5963,19271,"SMPDSv1","Gravgaz Marsh","Bakker_a5",37.56973,30.40911,1236,"not applicable","terrestrial, marsh","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400360440591038,4262.89021368687,11.679151270375,1.47351133834566,21.9314450441018,554.725438021163
2761,5964,19265,"SMPDSv1","Gravgaz Marsh","Bakker_a6",37.589715,30.393515,1268,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397057161604088,4194.74860878685,11.4924619418818,1.23560975327848,21.7731595242391,548.432854156583
2761,5965,19272,"SMPDSv1","Gravgaz Marsh","Bakker_a7",37.585288,30.40608,1217,"not applicable","terrestrial, marsh","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40202432790746,4301.52246833613,11.7849930639346,1.60824660327898,22.0197530898088,557.702511460775
2761,5966,19266,"SMPDSv1","Gravgaz Marsh","Bakker_a8",37.589223,30.39121,1264,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397415332201285,4203.40565672018,11.5161798814251,1.26595362483762,21.7932889210008,549.133751009159
2761,5967,19267,"SMPDSv1","Gravgaz Marsh","Bakker_a9",37.58995,30.403755,1237,"not applicable","terrestrial, marsh","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400092129079027,4259.11975606212,11.6688212494853,1.46010385450027,21.9215192743562,554.023701449022
2761,5968,19268,"SMPDSv1","Gravgaz Marsh","Bakker_b10",37.5628,30.4046,1430,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.381769517700349,3856.69220391236,10.5630158764285,0.0502446192549466,20.9915020413367,520.374305564533
2761,5969,19269,"SMPDSv1","Gravgaz Marsh","Bakker_b11",37.57375,30.39715,1445,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380151479175035,3826.83205416735,10.4756327917451,-0.0611583328139618,20.9171181466791,517.373283494006
2761,5970,19258,"SMPDSv1","Gravgaz Marsh","Bakker_b40",37.5812333333333,30.3994333333333,1215,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402173040440272,4306.67197367083,11.7991012977283,1.62662221440337,22.0321368562748,558.099498786537
2761,5971,19259,"SMPDSv1","Gravgaz Marsh","Bakker_b41",37.5854833333333,30.4040166666666,1215,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402191163282747,4305.8733832214,11.7969133786888,1.62353165806303,22.0298627268389,558.03578451442
2761,5972,19260,"SMPDSv1","Gravgaz Marsh","Bakker_b42",37.58045,30.4021666666666,1215,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402203959881013,4306.54126812033,11.7987432003297,1.62606613823515,22.0317962038725,558.140546377757
2761,5973,19261,"SMPDSv1","Gravgaz Marsh","Bakker_b43",37.5818833333333,30.4037,1215,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40220996594424,4306.27274177357,11.7980075117084,1.62502704885788,22.0310316572843,558.118966023632
2761,5974,19270,"SMPDSv1","Gravgaz Marsh","Bakker_b9",37.5630833333333,30.4055833333333,1394,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.385273299799079,3931.17310447143,10.7703372725245,0.314654832208409,21.1661325472972,526.777835618084
2762,5975,19274,"SMPDSv1","Graviere","Barboni_a166",45.45,2.61,760,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06535388483289,3246.38951614975,8.89421785246506,1.19173360756233,17.4121885938754,947.807556565559
2763,5976,16049,"Neotoma","Grays Lake (US:Illinois)","JGO001",42.33,-88.05,235,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.955415343454986,3637.92801321925,8.53379585252285,-7.482413581307,22.4340517853286,858.60629368534
2764,5977,11866,"Neotoma","Great Seal State Park","KKMFA14",39.3775,-82.94416667,266,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.06092204371085,4262.51625717996,11.4000994897591,-2.24198710433765,23.2539110129051,1016.64358180088
2765,5978,11905,"Neotoma","Great Whale River","BU1122",55.3244799999999,-77.67205,80,"not known","lake","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29051329615551,1196.09509476877,-4.57710597045883,-23.3347612847924,11.0426563180467,597.302070391365
2765,5979,11906,"Neotoma","Great Whale River","BU1123",55.3244799999999,-77.67205,80,"not known","lake","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29051329615551,1196.09509476877,-4.57710597045883,-23.3347612847924,11.0426563180467,597.302070391365
2765,5980,11902,"Neotoma","Great Whale River","BU1124",55.3244799999999,-77.67205,80,"not known","lake","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29051329615551,1196.09509476877,-4.57710597045883,-23.3347612847924,11.0426563180467,597.302070391365
2765,5981,11903,"Neotoma","Great Whale River","BU1125",55.3244799999999,-77.67205,80,"not known","lake","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29051329615551,1196.09509476877,-4.57710597045883,-23.3347612847924,11.0426563180467,597.302070391365
2765,5982,11904,"Neotoma","Great Whale River","BU1126",55.3244799999999,-77.67205,80,"not known","lake","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",15,"cold evergreen needleleaf forest",1.29051329615551,1196.09509476877,-4.57710597045883,-23.3347612847924,11.0426563180467,597.302070391365
2766,5983,19275,"SMPDSv1","Gredos (GCE3)","Barboni_a797",40.21666667,-5.266666667,1325.66,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417502174114217,3170.69633725508,8.68683928015092,0.888701704578744,18.2532059031207,498.911755292617
2767,5984,659,"Australian pollen","Green Lagoon","GRNLGN",-40.44297,148.14384,10,"not known","coastal, lagoon","core top","-69","Adeleye, M., S. Haberle, S. Harris, F. Hopf, S. Connor, and J. Stevenson. 2021. Holocene heathland development in temperate oceanic Southern Hemisphere: Key drivers in a global context. Journal of Biogeography 48(5):1048-1062. https://doi.org/10.1111/jbi.14057. [DOI: 10.1111/jbi.14057]","10.21233/ZF37-0C73",16,"temperate sclerophyll woodland and shrubland",0.80759422425388006,4765.20122549311,13.0553458232688,8.52389397944182,17.7234440964083,786.459284766433
2768,5985,12641,"Neotoma","Green Point Pond","GREENPNT",49.67,-57.95,2,"not known","lake","core","-30","Unpublished data",,9,"cool mixed forest",1.7472754621215,1936.54703937032,2.78768692514591,-9.49837163315899,14.7269060477688,1057.43879399684
2769,5986,15725,"Neotoma","Green Pond","GRE_C901",44.38231,-74.298175,493,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.3330417613432,2699.00545936995,4.99561290993595,-10.0037127738352,18.4669954071386,1027.64897157717
2769,5987,14144,"Neotoma","Green Pond","GREENMA",42.56705,-72.5107999999999,80,"not known","lake","core","-63.177","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.28102911354645,3740.41494147727,9.63767636408956,-3.7265648549762,22.1686262672715,1126.46291298927
2769,5988,12642,"Neotoma","Green Pond","GREENNJ",41.005055,-74.49534,292,"not known","lake","core","-25","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.25673575511004,3642.80307994531,9.23137029137062,-4.3545749010369,21.7488196250977,1129.47757216898
2769,5988,12643,"Neotoma","Green Pond","GREENNJ",41.005055,-74.49534,292,"not known","lake","core","5","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.25673575511004,3642.80307994531,9.23137029137062,-4.3545749010369,21.7488196250977,1129.47757216898
2769,5988,12644,"Neotoma","Green Pond","GREENNJ",41.005055,-74.49534,292,"not known","lake","core","20","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.25673575511004,3642.80307994531,9.23137029137062,-4.3545749010369,21.7488196250977,1129.47757216898
2769,5988,12645,"Neotoma","Green Pond","GREENNJ",41.005055,-74.49534,292,"not known","lake","core","40","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",13,"temperate deciduous broadleaf forest",1.25673575511004,3642.80307994531,9.23137029137062,-4.3545749010369,21.7488196250977,1129.47757216898
2769,5989,14140,"Neotoma","Green Pond","GREENPND",42.56705,-72.5107999999999,80,"not known","lake","core","-30","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28102911354645,3740.41494147727,9.63767636408956,-3.7265648549762,22.1686262672715,1126.46291298927
2769,5989,14141,"Neotoma","Green Pond","GREENPND",42.56705,-72.5107999999999,80,"not known","lake","core","-3","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28102911354645,3740.41494147727,9.63767636408956,-3.7265648549762,22.1686262672715,1126.46291298927
2769,5989,14142,"Neotoma","Green Pond","GREENPND",42.56705,-72.5107999999999,80,"not known","lake","core","24","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28102911354645,3740.41494147727,9.63767636408956,-3.7265648549762,22.1686262672715,1126.46291298927
2769,5989,14143,"Neotoma","Green Pond","GREENPND",42.56705,-72.5107999999999,80,"not known","lake","core","50","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28102911354645,3740.41494147727,9.63767636408956,-3.7265648549762,22.1686262672715,1126.46291298927
2770,5990,15249,"Neotoma","Green WD","AMD016",43.58,-90.38,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.93036732434977,3287.26117081459,6.65559369591534,-10.6752691152386,21.4785897227215,802.064715945017
2771,5991,16535,"Neotoma","Greenhill Lake","KG030",46.05,-67.03,168,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.567892764111,2551.64979124862,4.41655571040382,-10.528877996411,18.1623574953751,1162.20257759354
2771,5992,16536,"Neotoma","Greenhill Lake","RJM060",46.05,-67.03,168,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.567892764111,2551.64979124862,4.41655571040382,-10.528877996411,18.1623574953751,1162.20257759354
2772,5993,660,"Australian pollen","Greens Bush","Greens Bush",-38.4333,144.9333,160,"not applicable","terrestrial, bog/fen/swamp","sediment sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.811088028540869,4902.68375648733,13.4320102917461,8.26800190671795,18.967513016754,846.035575733575
2773,5994,15396,"Neotoma","Greens Lake","AMS128",42.28,-73.88,77,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.22635311126631,3855.03853653507,9.87105403332242,-4.19811708952681,22.7280782857778,1090.42756450265
2773,5995,15397,"Neotoma","Greens Lake","DCG02",42.28,-73.88,77,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.22635311126631,3855.03853653507,9.87105403332242,-4.19811708952681,22.7280782857778,1090.42756450265
2774,5996,12646,"Neotoma","Greenwater Pond","GREENWTR",42.283333,-73.316667,421,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.34816246632514,3081.76022213936,6.83535881034874,-7.58522637016101,19.9012453155145,1105.11480061607
2775,5997,11535,"Neotoma","Greenwood Pond","FH-17",37.93724,-96.20088,338,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.817659682324116,5004.12810582797,13.5854607440716,-1.27679427935569,26.8960238420832,937.24876567184
2776,5998,19276,"SMPDSv1","Gregarstjonn","Bjune_a209",59.575,8.02333333333333,660,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.9744046589087,1759.03001635317,3.15953685572911,-6.36480166647514,12.720643983751,1102.40048620037
2777,5999,12647,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","-29","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2777,5999,12648,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","-16","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2777,5999,12649,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","-3","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2777,5999,12650,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","11","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2777,5999,12651,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","25","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2777,5999,12652,"Neotoma","Grenadier Pond","GRENADIE",43.64,-79.47,76,"not known","lake","core","38","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.; McCarthy, F.M.G., and J.H. McAndrews. 1988. Water levels in Lake Ontario 4230-2000 years B.P.: evidence from Grenadier Pond, Toronto, Canada. Journal of Paleolimnology 1:99-113.",,9,"cool mixed forest",0.981850036386391,3412.74466275326,8.18702938974728,-5.8214403733551,21.5326683152572,857.658813051059
2778,6000,12653,"Neotoma","Grey Islands","GREYIS",50.768889,-55.516667,104,"not known","lake","core","-37","Evans, N.S. 2002. An Investigation of the Holocene Pollen Record from the Grey Islands, Newfoundland. Master's thesis. Memorial University of Newfoundland, St. John's, Newfoundland, Canada. 138 p.",,9,"cool mixed forest",1.89753523715312,1659.79011077228,1.80453028913012,-9.91215994672842,13.3755205941309,1081.6190632538
2778,6000,12654,"Neotoma","Grey Islands","GREYIS",50.768889,-55.516667,104,"not known","lake","core","48","Evans, N.S. 2002. An Investigation of the Holocene Pollen Record from the Grey Islands, Newfoundland. Master's thesis. Memorial University of Newfoundland, St. John's, Newfoundland, Canada. 138 p.",,9,"cool mixed forest",1.89753523715312,1659.79011077228,1.80453028913012,-9.91215994672842,13.3755205941309,1081.6190632538
2779,6001,15030,"Neotoma","Greylock Bog","GRYLOCK",46.12217,-85.517815,195,"not known","terrestrial, bog/fen/swamp","core","-43","Rivers, W.P. 1999. Landscape-level control of population dynamics: Late-Quaternary paleoecology of beech in upper Michigan. Doctoral dissertation. University of Tennessee, Knoxville, Tennessee, USA.",,9,"cool mixed forest",1.06217922686539,2779.12346411869,5.12774336316335,-10.249964106509,18.8941579060169,818.290873174988
2780,6002,19277,"SMPDSv1","Gribskov","Overballe_a1",56.0144444444444,12.3338888888888,46.3,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.977282532633652,2851.48205961209,7.62597288989826,-1.17039685379019,16.5043283651304,647.626004504451
2781,6003,19278,"SMPDSv1","Gribso","Odgaard_a1",55.986778,12.304403,50,"0.1","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.982271325472626,2843.70338153753,7.59931267396012,-1.19816219115615,16.4798874536251,650.822277016768
2782,6004,12655,"Neotoma","Grice Pond","GRICE",47.2036,-95.755515,453,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.803745519815297,2949.83439557713,4.42022319440625,-14.8799194781868,20.3964189793183,647.072224146249
2782,6004,12656,"Neotoma","Grice Pond","GRICE",47.2036,-95.755515,453,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.803745519815297,2949.83439557713,4.42022319440625,-14.8799194781868,20.3964189793183,647.072224146249
2782,6004,12657,"Neotoma","Grice Pond","GRICE",47.2036,-95.755515,453,"not known","lake","core","43","Unpublished data",,9,"cool mixed forest",0.803745519815297,2949.83439557713,4.42022319440625,-14.8799194781868,20.3964189793183,647.072224146249
2783,6005,23152,"SMPDSv1","Griddalstjonn","Bjune_a121",59.0724023,7.93598648,635,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.06600120753077,1789.27517389197,3.36673797794866,-5.9990567853659,12.7955741790277,1166.08376721724
2784,6006,19279,"SMPDSv1","Grimnitzsee","Grimnitzsee_ss",52.97867,13.777,69,"7.82","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789652577003735,3299.67669287793,8.94674350856388,-0.886223550634985,18.0825971636787,557.988863027377
2785,6007,19280,"SMPDSv1","Grindelwald","Knaap_a44",46.651606,8.006241,1930,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
2785,6008,19281,"SMPDSv1","Grindelwald","Knaap_a45",46.651606,8.006241,1930,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
2785,6009,19282,"SMPDSv1","Grindelwald","Knaap_a46",46.651606,8.006241,1930,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
2785,6010,19283,"SMPDSv1","Grindelwald","Knaap_a47",46.651606,8.006241,1930,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
2785,6011,19284,"SMPDSv1","Grindelwald","Knaap_a48",46.651606,8.006241,1930,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
2785,6012,19285,"SMPDSv1","Grindelwald","Knaap_a49",46.655506,8.008699,2020,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73452526332104,1201.98804303117,1.52728050208031,-5.73912931918919,9.38986582656657,2003.38867196987
2785,6013,19286,"SMPDSv1","Grindelwald","Knaap_a50",46.654372,8.010647,2020,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73482524222211,1201.83489911271,1.52665379627421,-5.73949339750163,9.38887729904523,2003.51908089649
2785,6014,19287,"SMPDSv1","Grindelwald","Knaap_a51",46.654372,8.010647,2020,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73482524222211,1201.83489911271,1.52665379627421,-5.73949339750163,9.38887729904523,2003.51908089649
2785,6015,19288,"SMPDSv1","Grindelwald","Knaap_a52",46.654372,8.010647,2020,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73482524222211,1201.83489911271,1.52665379627421,-5.73949339750163,9.38887729904523,2003.51908089649
2785,6016,19289,"SMPDSv1","Grindelwald","Knaap_a53",46.654372,8.010647,2020,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73482524222211,1201.83489911271,1.52665379627421,-5.73949339750163,9.38887729904523,2003.51908089649
2785,6017,19290,"SMPDSv1","Grindelwald","Knaap_a54",46.655579,8.012162,2120,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83791491098772,1089.81943569275,1.00027203132534,-6.13106268070011,8.77571508564465,2059.01933973559
2785,6018,19291,"SMPDSv1","Grindelwald","Knaap_a55",46.655579,8.012162,2120,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83791491098772,1089.81943569275,1.00027203132534,-6.13106268070011,8.77571508564465,2059.01933973559
2785,6019,19292,"SMPDSv1","Grindelwald","Knaap_a56",46.655579,8.012162,2120,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83791491098772,1089.81943569275,1.00027203132534,-6.13106268070011,8.77571508564465,2059.01933973559
2785,6020,19293,"SMPDSv1","Grindelwald","Knaap_a57",46.658173,8.015129,2270,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99742918561636,928.367844258004,0.209991756673879,-6.71898955197084,7.85498446474139,2142.53836963126
2785,6021,19294,"SMPDSv1","Grindelwald","Knaap_a58",46.658173,8.015129,2270,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99742918561636,928.367844258004,0.209991756673879,-6.71898955197084,7.85498446474139,2142.53836963126
2785,6022,19295,"SMPDSv1","Grindelwald","Knaap_a59",46.658173,8.015129,2270,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99742918561636,928.367844258004,0.209991756673879,-6.71898955197084,7.85498446474139,2142.53836963126
2785,6023,19296,"SMPDSv1","Grindelwald","Knaap_a60",46.661206,8.020061,2390,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13034091157839,804.388671859871,-0.424156853575771,-7.19073393616104,7.11560844048675,2209.93959287446
2785,6024,19297,"SMPDSv1","Grindelwald","Knaap_a61",46.661206,8.020061,2390,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13034091157839,804.388671859871,-0.424156853575771,-7.19073393616104,7.11560844048675,2209.93959287446
2785,6025,19298,"SMPDSv1","Grindelwald","Knaap_a62",46.661206,8.020061,2390,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13034091157839,804.388671859871,-0.424156853575771,-7.19073393616104,7.11560844048675,2209.93959287446
2785,6026,19299,"SMPDSv1","Grindelwald","Knaap_a63",46.653248,8.010504,1955,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66919268876518,1276.66201719416,1.86847588516517,-5.48519076827273,9.7869387530037,1967.53699435645
2785,6027,19300,"SMPDSv1","Grindelwald","Knaap_a64",46.653248,8.010504,1955,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66919268876518,1276.66201719416,1.86847588516517,-5.48519076827273,9.7869387530037,1967.53699435645
2785,6028,19301,"SMPDSv1","Grindelwald","Knaap_a65",46.653248,8.010504,1955,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66919268876518,1276.66201719416,1.86847588516517,-5.48519076827273,9.7869387530037,1967.53699435645
2785,6029,19302,"SMPDSv1","Grindelwald","Knaap_a66",46.649532,7.99799,1725,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.44180784686197,1556.84078807398,3.08185618424491,-4.58257112340265,11.201221995195,1839.16293967026
2785,6030,19303,"SMPDSv1","Grindelwald","Knaap_a67",46.649532,7.99799,1725,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.44180784686197,1556.84078807398,3.08185618424491,-4.58257112340265,11.201221995195,1839.16293967026
2786,6031,19304,"SMPDSv1","Gringjisee","EPDcoretop_E1097",46.011397,7.791089,2334,"0.01","lake","lacustrine core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.80679778509477,918.443285558317,0.159888693620912,-6.6854063105984,7.8418505277762804,2046.86426395594
2787,6032,661,"Australian pollen","Griselda Hill","Sample 76",-30.34,139.38,500,"not applicable","terrestrial","surface sample","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.156168805189785,6506.13789219083,17.8250353210708,9.36513430006667,26.0256726433637,262.439549857498
2788,6033,8513,"EMPDv2","Grishin pond","Novenko_c267",53.1989,35.7522,219,"0.02","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.854272733683188,2811.97504550578,5.45779972893734,-9.28651138972273,18.4520692576209,623.750703838145
2789,6034,19305,"SMPDSv1","Gritnam Bog","Grant_a9",50.859137,-1.598052,35,"0.005","terrestrial, blanket bog","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22046952222527,3720.88809038084,10.1942139462489,4.64148130836751,16.456896542222,870.074523730863
2790,6035,14267,"Neotoma","Grizzly Lake","GRIZZLY",62.71064,-144.197185,720,"not known","lake","core","15","Unpublished data",,15,"cold evergreen needleleaf forest",0.937196056636365,1346.63920674978,-3.95693885497179,-21.0547454159481,12.7057033899225,407.284649331729
2790,6036,11963,"Neotoma","Grizzly Lake","SM-GRZ",39.0505,-106.594474999999,3788,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.675465540869439,579.487681937312,-4.73755625001112,-15.8226782678459,6.60563150566435,588.062371935382
2791,6037,8696,"EMPDv2","Grjotbreen","Pardoe_c166",61.41,8.36,1840,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30659032972339,794.866280232195,-2.35952634293713,-12.3722394731375,7.77965751993432,646.552206763932
2791,6038,8697,"EMPDv2","Grjotbreen","Pardoe_c167",61.41,8.36,1840,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30659032972339,794.866280232195,-2.35952634293713,-12.3722394731375,7.77965751993432,646.552206763932
2791,6039,8698,"EMPDv2","Grjotbreen","Pardoe_c168",61.41,8.36,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3199155911142,805.510839711305,-2.28664073617363,-12.295786735892,7.8464169541339,653.133439800287
2791,6040,8699,"EMPDv2","Grjotbreen","Pardoe_c169",61.41,8.36,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3199155911142,805.510839711305,-2.28664073617363,-12.295786735892,7.8464169541339,653.133439800287
2791,6041,8700,"EMPDv2","Grjotbreen","Pardoe_c170",61.41,8.36,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3199155911142,805.510839711305,-2.28664073617363,-12.295786735892,7.8464169541339,653.133439800287
2791,6042,8701,"EMPDv2","Grjotbreen","Pardoe_c171",61.41,8.36,1820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3199155911142,805.510839711305,-2.28664073617363,-12.295786735892,7.8464169541339,653.133439800287
2791,6043,8702,"EMPDv2","Grjotbreen","Pardoe_c172",61.41,8.36,1810,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32657924695679,810.865002081204,-2.25019793279188,-12.2575603672692,7.87979667123369,656.424056318465
2791,6044,8703,"EMPDv2","Grjotbreen","Pardoe_c173",61.41,8.36,1810,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32657924695679,810.865002081204,-2.25019793279188,-12.2575603672692,7.87979667123369,656.424056318465
2791,6045,8704,"EMPDv2","Grjotbreen","Pardoe_c174",61.41,8.36,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33324363535195,816.23068454997,-2.21375512941013,-12.2193339986465,7.91317638833348,659.714672836643
2791,6046,8705,"EMPDv2","Grjotbreen","Pardoe_c175",61.41,8.36,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33324363535195,816.23068454997,-2.21375512941013,-12.2193339986465,7.91317638833348,659.714672836643
2791,6047,8706,"EMPDv2","Grjotbreen","Pardoe_c176",61.41,8.36,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33324363535195,816.23068454997,-2.21375512941013,-12.2193339986465,7.91317638833348,659.714672836643
2791,6048,8707,"EMPDv2","Grjotbreen","Pardoe_c177",61.41,8.36,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33324363535195,816.23068454997,-2.21375512941013,-12.2193339986465,7.91317638833348,659.714672836643
2791,6049,8708,"EMPDv2","Grjotbreen","Pardoe_c178",61.41,8.36,1780,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34657475324782,827.012404869327,-2.14086952264663,-12.142881261401,7.97993582253306,666.295905872998
2791,6050,8709,"EMPDv2","Grjotbreen","Pardoe_c179",61.41,8.36,1780,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34657475324782,827.012404869327,-2.14086952264663,-12.142881261401,7.97993582253306,666.295905872998
2791,6051,8710,"EMPDv2","Grjotbreen","Pardoe_c180",61.41,8.36,1740,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.37324548603942,848.713118196235,-1.99509830911963,-11.9899757869099,8.11345469093222,679.458371945709
2791,6052,8711,"EMPDv2","Grjotbreen","Pardoe_c181",61.41,8.36,1740,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.37324548603942,848.713118196235,-1.99509830911963,-11.9899757869099,8.11345469093222,679.458371945709
2791,6053,8712,"EMPDv2","Grjotbreen","Pardoe_c182",61.41,8.36,1720,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38658570026254,859.690384907655,-1.92221270235613,-11.9135230496644,8.18021412513179,686.039604982064
2791,6054,8713,"EMPDv2","Grjotbreen","Pardoe_c183",61.41,8.36,1720,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38658570026254,859.690384907655,-1.92221270235613,-11.9135230496644,8.18021412513179,686.039604982064
2792,6055,23166,"SMPDSv1","Gronekjerran","Bjune_a213",58.4566666666666,7.79333333333333,200,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.20670927246727,2320.78201692483,5.69993797406274,-3.37192665744981,14.7973664358908,1310.33506465179
2793,6056,19306,"SMPDSv1","Gronhovdtjern","Bjune_a69",60.60214307,9.25200469,861,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.41033478931026,1465.29474026803,1.17119501441864,-9.63202547337324,11.7074615379476,745.932843423494
2794,6057,19307,"SMPDSv1","Gronnbakktjonn","Bjune_a274",62,9.44833333333333,1114,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.66124670902081,1050.34357289453,-0.984047312975051,-11.5112572604669,9.42427539991872,769.854331039812
2795,6058,17576,"Phelps et al., 2020","Grootdrift Farm 1","GDV1-2_20",-32.399722,18.452778,72,"not applicable","terrestrial","not known","50","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.21237786568913,6506.10894433256,17.82495601187,13.1313612993077,22.2634429283037,326.654192315989
2795,6059,17577,"Phelps et al., 2020","Grootdrift Farm 1","GDV1-2_5",-32.399722,18.452778,72,"not applicable","terrestrial","not known","12","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.21237786568913,6506.10894433256,17.82495601187,13.1313612993077,22.2634429283037,326.654192315989
2796,6060,83,"APD","Grootdrift Farm 2","GDV4_0",-32.3833333333333,18.466053,-95,"not applicable","terrestrial","not known","modern","Baxter, A.J., 1996. Late Quaternary Palaeonenvironments of  the Sandveld, Western Cape Province, South Africa. PhD  Thesis, University of Cape Town, South Africa.;
Meadows, M.E., Baxter, A.J. and Adams, T., 1994. The late Holocene vegetation history of lowland fynbos, Verlorenvlei, southwestern Cape Province, South Africa. Historical Biology, 9(1-2), pp.47-59.",";
10.1080/10292389409380487",,"not applicable",0.202663257245535,6639.65800265949,18.1908438429027,13.8378488359426,22.2850128572714,307.30000698491
2796,6061,84,"APD","Grootdrift Farm 2","GDV4_5",-32.3833333333333,18.466053,-95,"not applicable","terrestrial","not known","modern","Baxter, A.J., 1996. Late Quaternary Palaeonenvironments of  the Sandveld, Western Cape Province, South Africa. PhD  Thesis, University of Cape Town, South Africa.;
Meadows, M.E., Baxter, A.J. and Adams, T., 1994. The late Holocene vegetation history of lowland fynbos, Verlorenvlei, southwestern Cape Province, South Africa. Historical Biology, 9(1-2), pp.47-59.",";
10.1080/10292389409380487",,"not applicable",0.202663257245535,6639.65800265949,18.1908438429027,13.8378488359426,22.2850128572714,307.30000698491
2797,6062,662,"Australian pollen","Groote Eylandt","Groote Eylandt - core 891 (Four Mile Billabong)",-13.52,136.49,-1,"not known","coastal, other","core top","-39","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",0.739220045500073,9835.57777473821,26.9467884239403,23.0642158008144,29.7294431867906,1293.49613819908
2798,6063,19310,"SMPDSv1","Gross see","Großsee_ss",51.93298,14.4719,81,"0.317","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.770292239734929,3312.95475491737,8.95359742315113,-1.12663879578307,18.2188748084916,557.125980815431
2799,6064,6983,"EMPDv2","Grosser Krebssee","EPDcoretop_E1418",52.85,14.1,5,"0.3375","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.807248347187855,3142.89708895445,8.49775421074592,-0.914732741188378,17.5532863847473,576.541475878411
2800,6065,19308,"SMPDSv1","Grosser Treppelsee","EPDcoretop_E1037",52.15,14.452778,52,"0.2","lake","peat core top","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.755381698329396,3328.64986120653,9.00893626590539,-1.038813844438,18.2597652858829,545.438864256318
2801,6066,19309,"SMPDSv1","Grosses Uberling Schattseit-Moor","EPDcoretop_E669",47.166667,13.9,1750,"0.12","terrestrial, blanket bog","peat core top","-34","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.39481117960772,1211.84152453366,1.14515270756396,-6.8090218828884,9.21203899591916,1660.5235874532
2802,6067,19311,"SMPDSv1","Grostjern","Bjune_a119",58.5397559,7.73400252,191,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.42068228247881,2340.34026954128,5.86410820413924,-2.90008873879912,14.6967434169093,1426.4445198986
2803,6068,19312,"SMPDSv1","Grostjonn","Bjune_a192",58.54,7.73666666666666,180,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.42196311223607,2356.03998242525,5.92295221829037,-2.83738722393163,14.7495028489731,1428.72367253842
2804,6069,7936,"EMPDv2","Grottole","Mercuri_i17",40.646011,16.438083,126,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.581664903336638,5751.76317190283,15.7582552654872,8.21769613481982,24.3069611950965,702.49012561349
2805,6070,19313,"SMPDSv1","Grovasra","Bjune_a264",62.7416666666666,9.54166666666666,880,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.97290937482749,1186.94919879706,0.183938838025061,-9.58627412036262,10.0602676143055,888.517339971677
2806,6071,19314,"SMPDSv1","Grunau Moor","EPDcoretop_E1199",46.994167,11.192083,2190,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.89175908138511,757.331986709724,-0.862545796079922,-7.9516824892149,6.61489618293006,1905.75944272425
2807,6072,19315,"SMPDSv1","Grunnevatn","Bjune_a101",58.2997331,8.01899216,172,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.11593079638572,2363.52929936244,5.84884361184262,-3.24578258206964,14.9804059243545,1264.94963946174
2808,6073,23149,"SMPDSv1","Gruvevannet","Bjune_a11",69.93680989,23.37731887,88,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.11991915755374,1171.33007712865,-1.43067322694368,-12.7113506846233,11.6771803494315,730.204277683245
2809,6074,19316,"SMPDSv1","Gryta","Bjune_a267",61.5783333333333,7.94833333333333,1371,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.64189155448856,1085.98079888251,-0.481349416429241,-10.3798052605454,9.49490397927965,813.66097682345
2810,6075,19317,"SMPDSv1","Grytjern","Bjune_a127",59.7230284,10.01170275,285,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46517732604599,2136.46598085102,4.40673901922315,-6.03086524725419,14.8110444431607,844.31866349384
2811,6076,19318,"SMPDSv1","Grytsjon","Seppa_b165",59.22,14.32,172,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09278455727756,2240.37012180767,4.79306651887164,-5.35666765809955,15.2512445128991,645.764973927824
2812,6077,2952,"CMPD","Gu hu","Gu hu 28",27.67,100.83,2780,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.750037198825188,3653.95815909558,10.0108442714947,2.51181970016515,16.0424402767241,905.905178971917
2813,6078,2953,"CMPD","Guangdongs","Guangdongs 1",23.26,114.4,39,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5794073470224,8256.99924976413,22.6219157527784,14.7925691021225,28.690053324799,2031.13796097491
2813,6079,2954,"CMPD","Guangdongs","Guangdongs 3",23.27,114.4,39,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57932011394472,8256.75978876687,22.621259695251702,14.7908532892759,28.6899414574561,2030.77931604648
2814,6080,9787,"Herzschuh et al., 2019","Guangrunpo","Guangrunpo 1",36.015,114.535,56,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.542330318549147,5211.58189182913,14.1997285713197,-0.839545446278797,27.2147745827148,615.762417212876
2815,6081,2955,"CMPD","Guangxi","Guangxi 01",24.8,108.11,196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.15590530844475,7793.46890036866,21.3519695900511,11.7546764936504,28.9649727432036,1360.28534142335
2815,6082,2956,"CMPD","Guangxi","Guangxi 02",23.51,108.39,1278,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.669632802341595,6448.72726281891,17.6677459255313,7.66335927698957,25.7467520881692,775.596863899237
2815,6083,2957,"CMPD","Guangxi","Guangxi 03",23.82,110.65,78,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35703706832784,7991.36284434106,21.8941447790166,12.9332758333179,28.8819424132859,1616.97461090868
2815,6084,2958,"CMPD","Guangxi","Guangxi 04",23.52,111.17,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41369586942067,8133.36286308949,22.2831859262726,13.773689737836,28.858053192249,1708.81629000062
2815,6085,2959,"CMPD","Guangxi","Guangxi 05",22.02,108.04,239,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.16657832222686,8088.76443562099,22.1609984537561,13.79839030571,28.3628573384919,1442.23531769362
2815,6086,2960,"CMPD","Guangxi","Guangxi 06",23.51,108.39,1263,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.677103867720133,6467.60837443419,17.7194749984498,7.72748454176084,25.784481755569,784.520369984729
2815,6087,2961,"CMPD","Guangxi","Guangxi 07",23.98,108.07,167,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.15539469634905,7889.80682467988,21.615909108712,12.4010127623188,28.8130500920402,1370.422373002
2815,6088,2962,"CMPD","Guangxi","Guangxi 08",24.14,110.25,804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.48875908556474,5748.82270511401,15.7501991920932,4.64335483508753,25.6058873654647,1653.4781735814
2815,6089,2963,"CMPD","Guangxi","Guangxi 09",24.18,110.3,803,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.47847404401171,5747.9823655074,15.7478968918011,4.63099752396225,25.6494520449802,1645.81201948302
2815,6090,2964,"CMPD","Guangxi","Guangxi 10",23.61,110.91,364,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42634607421464,7182.45696715953,19.6779642935877,10.208806441228,27.4566926967538,1672.41751634514
2816,6091,2965,"CMPD","Guangzhou","Guangzhou",23.32,113.13,10,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50840484866449,8259.57087657009,22.6289613056715,14.6123739045849,28.8230037572043,1907.96436684933
2817,6092,10968,"Bush et al., 2020","GuanicaDryForest1","GuanicaDryForest1",17.97183333,-66.86891667,165,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27275384988433,9034.81358206533,24.7529139234666,22.8780744148755,26.2044050986019,1962.75081082814
2818,6093,10969,"Bush et al., 2020","GuanicaDryForest2","GuanicaDryForest2",17.97145,-66.87135,165,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.2725958549941,9034.85505958447,24.7530275605054,22.8782354566113,26.2044796413627,1962.51941006884
2819,6094,10970,"Bush et al., 2020","GuanicaDryForest4","GuanicaDryForest4",17.97015,-66.88515,168,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27313671139865,9027.39069928336,24.7325772583106,22.8576284991419,26.1837925255675,1962.23067816201
2820,6095,10971,"Bush et al., 2020","GuanicaDryForest5","GuanicaDryForest5",17.96953333,-66.89045,168,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27279947404751,9027.4797353051,24.7328211926167,22.8579765162796,26.1839508188045,1961.73455798969
2821,6096,2966,"CMPD","Guanshan Tianchi","Guanshan Tianchi 01",35.26475,106.309166666667,2430,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6097,2967,"CMPD","Guanshan Tianchi","Guanshan Tianchi 02",35.26475,106.309166666667,2430,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6098,2968,"CMPD","Guanshan Tianchi","Guanshan Tianchi 03",35.26475,106.309166666667,2430,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6099,2969,"CMPD","Guanshan Tianchi","Guanshan Tianchi 04",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6100,2970,"CMPD","Guanshan Tianchi","Guanshan Tianchi 05",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6101,2971,"CMPD","Guanshan Tianchi","Guanshan Tianchi 06",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6102,2972,"CMPD","Guanshan Tianchi","Guanshan Tianchi 07",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6103,2973,"CMPD","Guanshan Tianchi","Guanshan Tianchi 08",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6104,2974,"CMPD","Guanshan Tianchi","Guanshan Tianchi 09",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6105,2975,"CMPD","Guanshan Tianchi","Guanshan Tianchi 10",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6106,2976,"CMPD","Guanshan Tianchi","Guanshan Tianchi 11",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6107,2977,"CMPD","Guanshan Tianchi","Guanshan Tianchi 12",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2821,6108,2978,"CMPD","Guanshan Tianchi","Guanshan Tianchi 13",35.26475,106.309166666667,2430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.376438628893507,2335.22570828313,4.3897342488873,-8.46514221896192,15.8686407927432,381.970003908027
2822,6109,2979,"CMPD","Guanzhi Mt","Guanzhi Mt 1",25.71,116.78,587,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36182902069471,6574.20641037489,18.011524411986,8.47514016299205,26.4400330682426,1590.66665049378
2822,6110,2980,"CMPD","Guanzhi Mt","Guanzhi Mt 2",25.71,116.78,587,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36182902069471,6574.20641037489,18.011524411986,8.47514016299205,26.4400330682426,1590.66665049378
2823,6111,12658,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","-34","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12659,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","-18","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12660,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","-9","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12661,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","-1","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12662,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","7","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12663,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","15","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12664,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","23","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12665,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","31","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12666,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","40","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2823,6111,12667,"Neotoma","Guardipee Lake","GUARDPEE",48.55,-112.716667,1233,"not known","lake","core","48","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,17,"temperate evergreen needleleaf open woodland",0.473560884088782,2512.67726802619,5.07472591266779,-8.09386114992128,17.4926506678805,395.187202812703
2824,6112,19319,"SMPDSv1","GUD1","Barboni_a458",40.368889,-6.2,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37329950372256,1949.61713725228,4.55893688719575,-3.71433054578038,14.3533746603602,444.659983158403
2825,6113,19320,"SMPDSv1","GUD2","Barboni_a459",40.4,-6.5,1750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.479459916462387,2193.84009207669,5.50216434183664,-2.76444556924958,15.2423512414925,562.896423683892
2826,6114,19321,"SMPDSv1","GUD3","Barboni_a460",40.367222,-6.7,1590,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.527719037950662,2485.49629340465,6.57595684836519,-1.53437282451025,16.1465146357847,614.383997976428
2827,6115,19322,"SMPDSv1","GUD4","Barboni_a461",40.367222,-7,1510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541084098935624,2724.93751324007,7.2952371621682,-1.14182679902913,17.4491806494611,644.159633655396
2828,6116,19323,"SMPDSv1","GUD5","Barboni_a462",40.318889,-7.2,1620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.560484759058295,2521.53121406481,6.56149916671216,-2.01887139521665,16.9728101921921,667.791708955891
2829,6117,19324,"SMPDSv1","GUD6","Barboni_a463",40.3,-7,1420,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.55664914009542,2899.63860555826,7.88507694008478,-0.405806945816012,17.8581219110067,658.968740901122
2830,6118,19325,"SMPDSv1","GUD7","Barboni_a464",40.3,-6.8,1120,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.567024577049927,3617.14272173487,9.90998005954759,2.00196954657564,19.343582453073,665.022521695476
2831,6119,19326,"SMPDSv1","GUD8","Barboni_a465",40.25,-7.7,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.587537000678836,4172.82220797726,11.4323896108966,3.56437980076051,21.1185067404159,688.609381891865
2832,6120,19327,"SMPDSv1","GUD9","Barboni_a466",40.2,-7.8,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673018884974315,4128.42231063921,11.3107460565458,3.57784730850864,20.8347064945842,760.845590069199
2833,6121,19328,"SMPDSv1","GUDA","Barboni_a467",40.05,-7.2,980,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.619443195683493,3997.77176315405,10.952799351107,3.33512962491369,20.1733887378515,713.689316555356
2834,6122,17413,"Neotoma","Guernsey Lake","TW120",42.55,-85.42,274,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.99554069651928,3600.29407243787,8.76847642816122,-5.77841859497863,21.9265035473394,876.905083085421
2835,6123,10972,"Bush et al., 2020","Guija","Guija",14.25,-89.55,499,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.18435078712847,8867.61338761124,24.2948311989349,22.8786637366688,25.7305213185878,2172.67022424318
2836,6124,14914,"Neotoma","Guilder Pond","GUILDER",42.10864,-73.4371999999999,624,"not known","lake","core","-59.923","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.42535834067243,2732.694778427,5.22412102866425,-9.66108711255312,18.5652092339793,1112.69149935788
2836,6124,14915,"Neotoma","Guilder Pond","GUILDER",42.10864,-73.4371999999999,624,"not known","lake","core","49.0445","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.42535834067243,2732.694778427,5.22412102866425,-9.66108711255312,18.5652092339793,1112.69149935788
2837,6125,2981,"CMPD","Guiyang","Guiyang",26.58,106.72,1077,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06441843239569,5718.90272238848,15.6682266366808,5.55659016426237,24.2569713974719,1144.88496652398
2838,6126,2982,"CMPD","Guizhou","Guizhou",26.54,107.24,1009,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08419775977087,5728.43819220959,15.6943512115331,5.42902742687813,24.4990933717482,1159.98218479643
2838,6127,2983,"CMPD","Guizhou","Guizhou 1",26.45,106.75,1070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06446793553229,5743.09413795883,15.7345044875584,5.63302657344437,24.2946326232366,1145.76234517111
2838,6128,2984,"CMPD","Guizhou","Guizhou 2",26.25,105.91,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03920725967823,5550.73565166179,15.2074949360597,5.57515366308721,23.1132798459809,1141.31617765072
2838,6129,2985,"CMPD","Guizhou","Guizhou 3",25.97,105.75,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0310414065337,5560.73456015905,15.2348892059152,5.82773239476524,22.8202695493678,1148.02911255746
2838,6130,2986,"CMPD","Guizhou","Guizhou 4",25.97,105.75,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0310414065337,5560.73456015905,15.2348892059152,5.82773239476524,22.8202695493678,1148.02911255746
2838,6131,2987,"CMPD","Guizhou","Guizhou 5",25.97,105.75,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0310414065337,5560.73456015905,15.2348892059152,5.82773239476524,22.8202695493678,1148.02911255746
2838,6132,2988,"CMPD","Guizhou","Guizhou s1",26.98,106.36,1192,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0467884147738,5405.50832735284,14.8096118557612,4.59901465466184,23.6705498243449,1113.8948148885
2838,6133,2989,"CMPD","Guizhou","Guizhou s3",25.21,108,494,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12748245266851,7107.29293938001,19.4720354503562,9.70125883161472,27.3507530375378,1289.25916111586
2838,6134,2990,"CMPD","Guizhou","Guizhou s4",25.28,107.93,739,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10904180929276,6485.24894048077,17.7678053163857,7.78958608820619,25.984424598299,1236.0979241117
2838,6135,2991,"CMPD","Guizhou","Guizhou s5",25.29,107.93,905,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08937347983962,6109.71352362921,16.738941160628,6.71074386366438,25.0727260394034,1195.74786644066
2838,6136,2992,"CMPD","Guizhou","Guizhou s6",26.17,105.85,1344,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0327087764364,5510.50008768594,15.0972605142081,5.58156578472884,22.8543369366332,1140.5990582312
2839,6137,19329,"SMPDSv1","Guletjenn","Bjune_a295",59.6416666666666,11.4633333333333,141,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.27041759275609,2354.36122883774,5.33049989146859,-4.82770569563167,15.6959181012091,759.752969615617
2840,6138,6946,"EMPDv2","Gulf of Gaeta (core SW104-C5)","Di_Rita_a7",40.975,13.784,-93,"not applicable","marine","sediment sample","5","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
2840,6139,6947,"EMPDv2","Gulf of Gaeta (core SW104-C5)","Di_Rita_a8",40.975,13.784,-93,"not applicable","marine","sediment sample","35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
2841,6140,15726,"Neotoma","Gull Pond","GULL_C90",43.83219,-73.707965,319,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.30710693178461,2917.27113502605,5.87919087097628,-9.26844974379099,19.4785080642018,1029.00907274676
2842,6141,23201,"SMPDSv1","Gullknapptjenn","Bjune_a89",58.29522351,8.47289016,50,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.80440526918808,2543.74324187252,6.45021422702696,-2.80044759654518,15.7710451776583,1095.07291457939
2843,6142,9788,"Herzschuh et al., 2019","Gun Nur Lake","Gun Nur Lake",50.25,106.6,600,"not known","not known","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.561879900719606,2388.16892201636,0.363677008026564,-21.1122075353432,19.0071417409567,377.387151257603
2844,6143,663,"Australian pollen","Gunung Kerinci","Gunung Kerinci Plot 1",-1.067,100.767,3315,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.88485230492699,6318.23987854311,17.3102462425839,16.4848244393798,18.3635046957252,4122.97097103523
2844,6144,664,"Australian pollen","Gunung Kerinci","Gunung Kerinci Plot 2",-1.067,100.767,3010,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.77342081351586,6646.25185856062,18.208909201536,17.4390402927628,19.1849782477195,4011.03817306172
2844,6145,665,"Australian pollen","Gunung Kerinci","Gunung Kerinci Plot 3",-1.067,100.767,2700,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.66333360867814,6979.64108415219,19.122304340143,18.4015798337176,20.0199185792547,3897.27041118699
2844,6146,666,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS10",-1.067,100.767,2085,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.45377502960342,7641.04228976128,20.9343624377021,20.3111340843216,21.6763324627841,3671.56985133875
2844,6147,667,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS11",-1.067,100.767,1935,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.40434288947391,7802.35965698301,21.3763278273507,20.7768790234933,22.0803358490108,3616.5209343026
2844,6148,668,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS4",-1.067,100.767,3175,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.83330900676921,6468.80275461672,17.7227472729225,16.9267208596739,18.7405745228702,4071.59198180149
2844,6149,669,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS5",-1.067,100.767,3070,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.79509222738746,6581.72491167193,18.0321230456765,17.2527423170941,19.0233768932288,4033.05773987618
2844,6150,670,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS6",-1.067,100.767,2855,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.71798774598264,6812.94647135641,18.6656067708395,17.9203100632402,19.6024484134871,3954.15429212435
2844,6151,671,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS7",-1.067,100.767,2545,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.60943856038071,7146.33569694798,19.5790019094465,18.8828496041951,20.4373887450222,3840.38653024963
2844,6152,672,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS8",-1.067,100.767,2395,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.55798660067171,7307.65306416971,20.0209672990951,19.3485945433668,20.8413921312489,3785.33761321348
2844,6153,673,"Australian pollen","Gunung Kerinci","Gunung Kerinci SS9",-1.067,100.767,2240,"not known","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.50552925092532,7474.34767696549,20.4776648683986,19.8298643138442,21.2588622970165,3728.45373227612
2845,6154,674,"Australian pollen","Guruanglakugl","Guruanglakugl_a",-5.8056,145.0472,3740,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.818438277843376,5451.36164198491,14.9352373753011,13.7608524346758,15.6693624171854,1140.29571743305
2845,6155,675,"Australian pollen","Guruanglakugl","Guruanglakugl_b",-5.8056,145.0472,3740,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.818438277843376,5451.36164198491,14.9352373753011,13.7608524346758,15.6693624171854,1140.29571743305
2846,6156,19330,"SMPDSv1","Gututjorn","Bjune_a309",61.7283333333333,10.1766666666666,1056,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.49572773998127,1106.23389980035,-0.694519724853336,-11.3065351997372,9.75588873500542,696.839800989674
2847,6157,7058,"EMPDv2","Gytgykai Lake","EPDcoretop_E1789",63.42,176.57,102,"not known","not known","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19940261062726,946.034956959221,-7.06974313516882,-21.5098587263371,10.8180348524284,411.801008198905
2848,6158,19331,"SMPDSv1","H085 (EMBSECBIO)","H085",35.65,56.7,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.11513909926471,6395.1729577581,17.521021802077,3.9227540919897,29.9905766237058,166.453319292111
2849,6159,19332,"SMPDSv1","H186 (EMBSECBIO)","H186",31.75,35.57,-399,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.351691190957801,8000.9932186141,21.920529366066,15.5992672976415,27.8806265640064,569.55886935788
2850,6160,19333,"SMPDSv1","H500 (EMBSECBIO)","H500",37.28,39.08,812,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.315609330452039,5717.05797895343,15.6631725450779,2.5933033648244,28.6746410310169,493.87683262451
2851,6161,19334,"SMPDSv1","H501 (EMBSECBIO)","H501",37.22,38.5,610,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
2852,6162,19335,"SMPDSv1","H502 (EMBSECBIO)","H502",37.22,38.5,610,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
2853,6163,19336,"SMPDSv1","H503 (EMBSECBIO)","H503",37.22,38.5,610,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
2854,6164,19337,"SMPDSv1","H504 (EMBSECBIO)","H504",37.27,38.53,610,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.280006589321756,6187.20234090198,16.9512392901424,4.36665191313266,29.5613656574647,449.059937384932
2855,6165,19338,"SMPDSv1","H505 (EMBSECBIO)","H505",37.38,38.85,884,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.325301004068547,5512.1891350144,15.1018880411353,1.94756544035364,28.1120541574521,503.316916129009
2856,6166,19339,"SMPDSv1","H506 (EMBSECBIO)","H506",37.72,39.42,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.348937015466274,5527.2598443093,15.1431776556419,1.73303642669883,28.4702290312896,536.87117280268
2857,6167,19340,"SMPDSv1","H507 (EMBSECBIO)","H507",37.91,40.1,762,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.34483952333727,5907.73400569995,16.185572618356,2.89383306717276,29.5827259636804,537.542342175211
2858,6168,19341,"SMPDSv1","H508 (EMBSECBIO)","H508",38.18,39.72,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
2859,6169,19342,"SMPDSv1","H509 (EMBSECBIO)","H509",38.18,39.72,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
2860,6170,19343,"SMPDSv1","H510 (EMBSECBIO)","H510",38.18,39.72,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
2861,6171,19344,"SMPDSv1","H511 (EMBSECBIO)","H511",38.18,39.72,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
2862,6172,19345,"SMPDSv1","H512 (EMBSECBIO)","H512",38.18,39.72,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
2863,6173,19346,"SMPDSv1","H513 (EMBSECBIO)","H513",38.17,41.47,884,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.405295328886493,5663.34390982593,15.5160107118519,2.08677317630007,29.0833904527278,621.864101890847
2864,6174,19347,"SMPDSv1","H514 (EMBSECBIO)","H514",38.13,41.67,1067,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.431151432284887,5201.63861517695,14.2510646991149,0.83072806669251,27.7457885067825,647.761670094779
2865,6175,19348,"SMPDSv1","H515 (EMBSECBIO)","H515",37.93,42.49,1067,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.419813378099664,5367.41790240589,14.7052545271394,1.52727267760917,28.1080873259795,642.231933276308
2866,6176,19349,"SMPDSv1","H516 (EMBSECBIO)","H516",37.92,42.42,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.411329004148883,5731.40233821189,15.7024721594846,2.51746547951753,29.1618797684529,638.573243770809
2867,6177,19350,"SMPDSv1","H517 (EMBSECBIO)","H517",37.91,42.36,1067,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.420658369833113,5363.85342714464,14.6954888414922,1.50730174249575,28.1024426250898,643.450889762856
2868,6178,19351,"SMPDSv1","H518 (EMBSECBIO)","H518",37.92,42.26,853,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.408263330483389,5873.06631056629,16.0905926316885,2.88768696646278,29.5783327191676,637.271786014748
2869,6179,19352,"SMPDSv1","H519 (EMBSECBIO)","H519",37.93,42.23,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.407786524025125,5707.27965420074,15.6363826142486,2.40987589671448,29.1137852938543,631.712449410287
2870,6180,19353,"SMPDSv1","H520 (EMBSECBIO)","H520",38,42.05,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.409844878773492,5680.11442661416,15.5619573331895,2.28492180401829,29.0569846607788,632.932286931927
2871,6181,19354,"SMPDSv1","H521 (EMBSECBIO)","H521",37.98,41.85,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.409321591127331,5664.88365213197,15.5202291839232,2.21422451177686,29.0240397956264,631.542982300483
2872,6182,19355,"SMPDSv1","H522 (EMBSECBIO)","H522",37.75,37.55,850,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.358577446313268,5393.66651171188,14.777168525238,2.31311490047294,26.8062786488394,544.405179406104
2873,6183,19356,"SMPDSv1","H523 (EMBSECBIO)","H523",37.88,37.28,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.369958091793667,5172.26676637658,14.1705938804838,1.74777337247325,26.0010377486759,552.159585034587
2874,6184,19357,"SMPDSv1","H524 (EMBSECBIO)","H524",38.5,39.53,1219,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.404552078188399,4693.08148709264,12.7764590062965,-0.857298213202258,26.0013061871897,585.69789410896
2875,6185,19358,"SMPDSv1","H525 (EMBSECBIO)","H525",38.47,39.55,1158,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.396912603426428,4851.49965243024,13.2593597141598,-0.345990376995031,26.5278286851063,580.716658017605
2876,6186,19359,"SMPDSv1","H526 (EMBSECBIO)","H526",38.4,39.67,1158,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.398744640008699,4857.05454670036,13.2752623114229,-0.337339158902098,26.5667000665519,583.932216208348
2877,6187,19360,"SMPDSv1","H527 (EMBSECBIO)","H527",38.28,39.75,1067,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.39141088418076,5117.66754243686,14.0210069655804,0.433466400336634,27.4262196390088,582.65460605802
2878,6188,19361,"SMPDSv1","H528 (EMBSECBIO)","H528",37.98,40.17,1067,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.398515501743176,5105.55594498408,13.9878245068057,0.349360964158645,27.4680154595165,594.890965434853
2879,6189,19362,"SMPDSv1","H529 (EMBSECBIO)","H529",38.07,40.05,610,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.322096384314604,6312.15517207599,17.2935758139068,4.13613913161128,30.6808740845758,511.490252967567
2880,6190,19363,"SMPDSv1","H530 (EMBSECBIO)","H530",38.18,39.88,762,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.344895809177929,5913.19139969154,16.2005243827165,2.88613227675154,29.6051049086086,536.23640407716
2881,6191,19364,"SMPDSv1","H531 (EMBSECBIO)","H531",38.2,39.82,762,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.344251867450832,5914.63207182724,16.2044714296637,2.89353169243178,29.6033479174618,535.237927739224
2882,6192,19365,"SMPDSv1","H532 (EMBSECBIO)","H532",38.5,41.03,1219,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.452446992495474,4726.37319428767,12.8564432790013,-0.955453867178604,26.4363119032297,654.46192603439
2883,6193,19366,"SMPDSv1","H533 (EMBSECBIO)","H533",38.52,40.5,914,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.40220505931937,5534.09909942114,15.1619153408798,1.46573688689897,28.8341501725932,608.749499059182
2884,6194,19367,"SMPDSv1","H534 (EMBSECBIO)","H534",38.58,40.5,1158,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.429796486042906,4865.94744990825,13.2807542836247,-0.553053907485285,26.8515045383175,626.179378825236
2885,6195,19368,"SMPDSv1","H535 (EMBSECBIO)","H535",38.77,40.98,1219,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.460395250310895,4671.45979441669,12.6651962203719,-1.28614048811704,26.3035885697385,659.390839879162
2886,6196,19369,"SMPDSv1","H536 (EMBSECBIO)","H536",38.91,40.43,1448,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.461609630559765,4134.9347043595,10.904144381616801,-3.0401069792032,24.245828725825,635.063609138763
2887,6197,19370,"SMPDSv1","H537 (EMBSECBIO)","H537",38.87,40.2,1828,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.49423249522592,3320.37737036504,7.98278965211875,-5.87302815662713,20.8371801786049,635.988457597456
2888,6198,19371,"SMPDSv1","H538 (EMBSECBIO)","H538",37.88,27.25,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.406486811338965,6388.70758138033,17.5033084421379,9.29000943177865,26.5094415336105,600.643681331119
2889,6199,19372,"SMPDSv1","H539 (EMBSECBIO)","H539",37.92,27.35,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.500901807021107,5540.27272996657,15.1788293971687,5.88867301746993,24.9547976516483,727.06999585468
2890,6200,19373,"SMPDSv1","H540 (EMBSECBIO)","H540",37.82,27.38,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.482739010744011,5747.06809898911,15.745392052025,6.69318277514973,25.3722595313342,706.378745055713
2891,6201,19374,"SMPDSv1","H541 (EMBSECBIO)","H541",37.95,27.63,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.517719210638407,5343.14051963647,14.6387411496889,5.13510419792532,24.5526818952825,746.665166194348
2892,6202,19375,"SMPDSv1","H542 (EMBSECBIO)","H542",37.95,27.63,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.517719210638407,5343.14051963647,14.6387411496889,5.13510419792532,24.5526818952825,746.665166194348
2893,6203,19376,"SMPDSv1","H543 (EMBSECBIO)","H543",37.89,27.74,150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442343957793263,6221.02038706316,17.0438914714059,8.5178608813006,26.3135309528988,656.040810365474
2894,6204,19377,"SMPDSv1","H544 (EMBSECBIO)","H544",37.89,27.74,150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442343957793263,6221.02038706316,17.0438914714059,8.5178608813006,26.3135309528988,656.040810365474
2895,6205,19378,"SMPDSv1","H545 (EMBSECBIO)","H545",36.99,28.44,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.452039013979443,6621.92678425965,18.1422651623552,9.9622312879692,27.3709903852961,700.964864554927
2896,6206,19379,"SMPDSv1","H546 (EMBSECBIO)","H546",37.01,28.54,250,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459370506330136,6313.73500555525,17.2979041248089,8.82317629923772,26.7071200258433,705.125799567785
2897,6207,19380,"SMPDSv1","H547 (EMBSECBIO)","H547",37.04,28.69,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.468773392452392,4786.5448322593,13.1138214582447,3.2325672760581,23.366195956817,681.228872503896
2898,6208,19381,"SMPDSv1","H548 (EMBSECBIO)","H548",37.01,28.67,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.464806851108554,5805.69561410641,15.9060153811135,6.96009608696672,25.5986349324207,701.284784176525
2899,6209,19382,"SMPDSv1","H549 (EMBSECBIO)","H549",36.79,28.78,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.482777346899826,6814.68753821763,18.6703768170346,10.6349712806665,27.8307738755004,757.627810707845
2900,6210,19383,"SMPDSv1","H550 (EMBSECBIO)","H550",36.9,28.73,20,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459129039605001,6796.40642127339,18.6202915651326,10.5850618534878,27.77000943865,717.404977913389
2901,6211,19384,"SMPDSv1","H551 (EMBSECBIO)","H551",36.84,28.63,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.451876579108725,6845.49177492097,18.7547719860848,10.7744842383462,27.870557200275,707.497038265122
2902,6212,19385,"SMPDSv1","H552 (EMBSECBIO)","H552",37.1,28.44,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467999979504023,5588.88216927812,15.3120059432277,6.15426922681861,25.1363050591025,699.734935839825
2903,6213,19386,"SMPDSv1","H553 (EMBSECBIO)","H553",37.15,28.34,750,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.474269813145491,5276.28446288623,14.4555738709212,4.99307971981155,24.4696743849814,700.760150800411
2904,6214,19387,"SMPDSv1","H554 (EMBSECBIO)","H554",37.22,28.22,550,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.481214095271618,5653.20509745435,15.4882331437105,6.33831243394992,25.3270831620097,719.5931231945
2905,6215,19388,"SMPDSv1","H555 (EMBSECBIO)","H555",37.36,28.17,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.49525847195936,5365.28041207167,14.6993983892375,5.25780145955852,24.6898462553939,728.452205738532
2906,6216,19389,"SMPDSv1","H556 (EMBSECBIO)","H556",37.52,28.03,350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.465103279994263,5952.22093726299,16.3074546226383,7.47041890616389,25.8725864049838,694.530437124277
2907,6217,19390,"SMPDSv1","H557 (EMBSECBIO)","H557",37.65,27.96,130,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443602044676513,6371.28305504443,17.4555700138204,9.05585467511358,26.7063993088473,668.949853199907
2908,6218,19391,"SMPDSv1","H558 (EMBSECBIO)","H558",37.74,27.85,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439750757893902,6410.92837824849,17.5641873376671,9.21072047871903,26.7696557351547,662.404550201221
2909,6219,19392,"SMPDSv1","H559 (EMBSECBIO)","H559",37.93,28.55,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.493854394313974,5729.46193108976,15.6971559755884,6.5697558464301,25.3893608282853,724.837520513943
2910,6220,19393,"SMPDSv1","H560 (EMBSECBIO)","H560",37.79,28.59,1250,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.462804249360053,4139.48367801705,11.3410511726494,1.05642627999522,21.6469366571842,636.583227140457
2911,6221,19394,"SMPDSv1","H561 (EMBSECBIO)","H561",37.77,28.57,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467490321635464,4331.93710410959,11.868320833177,1.71972638465789,22.1085830056627,649.007979964245
2912,6222,19395,"SMPDSv1","H562 (EMBSECBIO)","H562",37.85,28.86,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.506429556576369,5542.86576528526,15.1859336035213,5.8719699519916,25.0038481932487,739.013518082814
2913,6223,19396,"SMPDSv1","H563 (EMBSECBIO)","H563",37.39,29.42,850,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.458073234853817,5084.96084222701,13.9313995677452,4.38371671184673,23.9016262036039,664.378010008276
2914,6224,19397,"SMPDSv1","H564 (EMBSECBIO)","H564",37.53,29.66,1250,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393832782944402,4302.43440821217,11.7874915293484,1.59940892192628,22.1183685785664,550.503992187693
2915,6225,19398,"SMPDSv1","H565 (EMBSECBIO)","H565",37.5,29.48,950,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442925569889296,4877.42497234995,13.3628081434245,3.64080787652241,23.4279090565654,635.197852309534
2916,6226,19399,"SMPDSv1","H566 (EMBSECBIO)","H566",37.6,29.27,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415859299024412,4472.57526218853,12.253630855311,2.18928530953821,22.5195564116489,585.220688062588
2917,6227,19400,"SMPDSv1","H567 (EMBSECBIO)","H567",37.69,29.24,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418692184319448,4489.38788386798,12.299692832515,2.24746889547031,22.5666593829204,590.051152215854
2918,6228,19401,"SMPDSv1","H568 (EMBSECBIO)","H568",37.76,29.17,450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.514533732016553,5641.91669063075,15.4573060017281,6.22239006177669,25.2359987686856,755.096906302696
2919,6229,19402,"SMPDSv1","H569 (EMBSECBIO)","H569",37.8,29.39,710,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.49489536443228,5200.37991179248,14.2476161966917,4.74124668758662,24.1393856660598,711.25809525031
2920,6230,19403,"SMPDSv1","H570 (EMBSECBIO)","H570",37.74,30.89,920,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.4279155059144,4889.25950139816,13.3952315106799,3.59760321902514,23.3589228350876,603.803928056383
2921,6231,19404,"SMPDSv1","H571 (EMBSECBIO)","H571",37.9,30.51,930,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421463452247051,4777.92987051456,13.0902188233276,3.18875256548281,23.1109230888766,587.164974713873
2922,6232,19405,"SMPDSv1","H572 (EMBSECBIO)","H572",37.87,30.41,890,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425106317627192,4865.7514844565,13.3308259848123,3.49614425777205,23.3253647758167,594.772340161397
2923,6233,19406,"SMPDSv1","H573 (EMBSECBIO)","H573",37.09,30.6,220,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.492256058535156,6468.00259354325,17.7205550508034,9.19278022515576,26.9895380541657,747.253141143386
2924,6234,19407,"SMPDSv1","H574 (EMBSECBIO)","H574",36.98,30.67,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.501161654552007,6727.69564655809,18.4320428672824,10.0986360843476,27.5709703625064,768.270777703135
2925,6235,19408,"SMPDSv1","H575 (EMBSECBIO)","H575",36.59,29.97,1050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429653302704405,4828.27801300138,13.2281589397298,3.52601254458743,23.3136341639742,628.093375491347
2926,6236,19409,"SMPDSv1","H576 (EMBSECBIO)","H576",36.59,29.97,1050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429653302704405,4828.27801300138,13.2281589397298,3.52601254458743,23.3136341639742,628.093375491347
2927,6237,19410,"SMPDSv1","H577 (EMBSECBIO)","H577",36.56,29.9,1050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430228089838178,4830.42403305756,13.234038446733,3.53610886507318,23.3176407590884,629.524562669775
2928,6238,19411,"SMPDSv1","H578 (EMBSECBIO)","H578",36.63,29.91,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.424624781091896,4726.53342871164,12.9494066540045,3.1603128447454,23.0956971211959,618.334965225764
2929,6239,19412,"SMPDSv1","H579 (EMBSECBIO)","H579",36.84,30.05,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419567277179785,4686.88614833889,12.8407839680518,2.99232247260307,22.9910801679382,605.057364636843
2930,6240,19413,"SMPDSv1","H580 (EMBSECBIO)","H580",36.95,30.16,1130,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415595032858115,4617.06235366686,12.6494859004572,2.73947814292824,22.8343665106973,596.121730341992
2931,6241,19414,"SMPDSv1","H581 (EMBSECBIO)","H581",37.03,30.04,1350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390414701829511,4175.69301614326,11.4402548387486,1.17227388698875,21.8571838516712,550.312779525142
2932,6242,19415,"SMPDSv1","H582 (EMBSECBIO)","H582",37.05,30.48,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.462573415107892,5676.83801510653,15.5529808633056,6.44462564888573,25.1860671697471,684.767432665531
2933,6243,19416,"SMPDSv1","H583 (EMBSECBIO)","H583",37.05,30.57,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.478631279602321,6093.11154768673,16.6934562950321,7.89042765632129,26.1325770236888,718.217085079048
2934,6244,19417,"SMPDSv1","H584 (EMBSECBIO)","H584",37.15,30.56,350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.482047446440964,6191.40417596794,16.9627511670355,8.22615897869171,26.3657653150949,724.544859674377
2935,6245,19418,"SMPDSv1","H585 (EMBSECBIO)","H585",37.67,30.34,1050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416506891522468,4647.57102398139,12.7330712985792,2.81823978648166,22.8173203714973,584.885831562795
2936,6246,19419,"SMPDSv1","H586 (EMBSECBIO)","H586",37.55,30.43,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408716236640953,4444.58360157286,12.1769413741722,2.10786028622572,22.3515926659873,570.622255124087
2937,6247,19420,"SMPDSv1","H587 (EMBSECBIO)","H587",37.38,30.75,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.452490936110466,5416.95490494221,14.8409723423074,5.4742608243568,24.5900941813917,656.237852293993
2938,6248,19421,"SMPDSv1","H588 (EMBSECBIO)","H588",37.45,30.53,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.449911849129644,5401.92285980561,14.7997886570017,5.44808647669863,24.5615406158341,652.81759746191
2939,6249,19422,"SMPDSv1","H589 (EMBSECBIO)","H589",37.28,30.52,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.451291637668743,5419.65083908835,14.8483584632558,5.52275962678888,24.5956869808753,657.534906501265
2940,6250,19423,"SMPDSv1","H590 (EMBSECBIO)","H590",37.11,31.82,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401665528698046,3742.50854950262,10.1961463852819,-0.637588216107878,20.7230131348887,549.973249574324
2941,6251,19424,"SMPDSv1","H591 (EMBSECBIO)","H591",37.11,31.82,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401665528698046,3742.50854950262,10.1961463852819,-0.637588216107878,20.7230131348887,549.973249574324
2942,6252,19425,"SMPDSv1","H592 (EMBSECBIO)","H592",37.13,31.82,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39647140034819,3548.81942531338,9.56302189478321,-1.44367997809524,20.1951220677777,537.760894156603
2943,6253,19426,"SMPDSv1","H593 (EMBSECBIO)","H593",37.65,31.62,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.402209805902981,4281.08391833012,11.7289970365209,1.33334628986237,21.9846001576732,554.962833269731
2944,6254,19427,"SMPDSv1","H594 (EMBSECBIO)","H594",38.39,31.94,1030,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.31148087241956,4084.77151716305,11.1883042202624,0.107911554031871,21.6883838355555,411.777902011543
2945,6255,19428,"SMPDSv1","H595 (EMBSECBIO)","H595",38.34,31.38,1125,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.357140709845564,4074.99384649258,11.1643667027194,0.408569741384149,21.4993520703277,473.904363713926
2946,6256,19429,"SMPDSv1","H596 (EMBSECBIO)","H596",38.81,31.06,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379502189653205,3988.85710973261,10.928375643103,0.294721568724253,21.0560794731402,493.034559503274
2947,6257,19430,"SMPDSv1","H597 (EMBSECBIO)","H597",39,31.12,1250,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.384786748871251,3930.99824319159,10.7694841280325,0.164319199363315,20.9714840955435,503.860603524835
2948,6258,19431,"SMPDSv1","H598 (EMBSECBIO)","H598",40.52,22.7,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410273418410366,5681.15771932826,15.5648156693925,5.64829690671426,25.5276418776195,512.787293774916
2949,6259,19432,"SMPDSv1","H599 (EMBSECBIO)","H599",40.53,22.7,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410251041717739,5679.57187644688,15.560470894375,5.64134364989112,25.5244397271885,512.588397142374
2950,6260,19433,"SMPDSv1","H600 (EMBSECBIO)","H600",40.53,22.7,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410251041717739,5679.57187644688,15.560470894375,5.64134364989112,25.5244397271885,512.588397142374
2951,6261,19434,"SMPDSv1","H601 (EMBSECBIO)","H601",40.53,22.7,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410251041717739,5679.57187644688,15.560470894375,5.64134364989112,25.5244397271885,512.588397142374
2952,6262,19435,"SMPDSv1","H602 (EMBSECBIO)","H602",40.54,22.71,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410364710187164,5678.92165623742,15.5586894691436,5.63936208142808,25.5227383698549,512.632190892713
2953,6263,19436,"SMPDSv1","H603 (EMBSECBIO)","H603",40.56,22.71,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410314909983726,5675.73078267911,15.5499473498058,5.62534679382117,25.5162974816551,512.227656325761
2954,6264,19437,"SMPDSv1","H604 (EMBSECBIO)","H604",40.58,22.71,0,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.410262326824767,5672.52348706276,15.5411602385281,5.61122567908139,25.5098274268587,511.819269264518
2955,6265,19438,"SMPDSv1","H605 (EMBSECBIO)","H605",40.73,22.65,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425896812535983,5415.14929000619,14.8360254520718,4.78180870681995,24.8280933160061,521.68027589029
2956,6266,19439,"SMPDSv1","H606 (EMBSECBIO)","H606",40.75,22.54,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415439379571115,5446.26493877713,14.9212738048689,4.75169650203758,24.9741747915492,505.524523474417
2957,6267,19440,"SMPDSv1","H607 (EMBSECBIO)","H607",40.77,22.48,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413316193169305,5442.65710056266,14.91138931661,4.72332805458171,24.98691411327,504.08051777553
2958,6268,19441,"SMPDSv1","H608 (EMBSECBIO)","H608",40.77,22.4,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.412790920532658,5432.9957689623,14.8849199149652,4.67268205208932,24.9695543275473,502.814756042938
2959,6269,19442,"SMPDSv1","H609 (EMBSECBIO)","H609",40.69,22.34,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413856029470332,5507.26758055772,15.0884043302951,5.00498943964427,25.107633173978,508.900759318762
2960,6270,19443,"SMPDSv1","H610 (EMBSECBIO)","H610",40.9,22.63,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422712885930096,5328.4967345342,14.5986211905047,4.38410769138821,24.6643482119462,511.334644034194
2961,6271,19444,"SMPDSv1","H611 (EMBSECBIO)","H611",40.9,22.63,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422712885930096,5328.4967345342,14.5986211905047,4.38410769138821,24.6643482119462,511.334644034194
2962,6272,19445,"SMPDSv1","H612 (EMBSECBIO)","H612",40.89,22.63,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422754165253823,5329.75997783852,14.6020821310644,4.39033738885263,24.6668560214951,511.521566109506
2963,6273,19446,"SMPDSv1","H613 (EMBSECBIO)","H613",40.89,22.63,100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422754165253823,5329.75997783852,14.6020821310644,4.39033738885263,24.6668560214951,511.521566109506
2964,6274,19447,"SMPDSv1","H614 (EMBSECBIO)","H614",40.63,22.1,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.435876628128515,5164.4032262997,14.1490499350677,3.90305925933135,24.1941807694017,527.727345156728
2965,6275,19448,"SMPDSv1","H615 (EMBSECBIO)","H615",40.62,22.07,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.484927841123745,4748.74989439653,13.0102736832782,2.74729734890542,22.9981344487804,575.954636474689
2966,6276,19449,"SMPDSv1","H616 (EMBSECBIO)","H616",40.61,22.06,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.510365703185213,4542.44891093964,12.4450655094237,2.17690102816996,22.4033922534872,600.397187443043
2967,6277,19450,"SMPDSv1","H617 (EMBSECBIO)","H617",40.6,22.05,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.549537293506411,4232.1480256875,11.594926097774,1.31718411532347,21.5097006775543,636.959506689518
2968,6278,19451,"SMPDSv1","H618 (EMBSECBIO)","H618",40.6,22.05,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.645583990766206,3527.00262534599,9.59610217813249,-0.715377523934097,19.4128744673844,721.001646641183
2969,6279,19452,"SMPDSv1","H619 (EMBSECBIO)","H619",40.59,22.04,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.704395449663482,3176.4745986205,8.46237631006382,-1.86213667513248,18.2216017041237,769.948081764432
2970,6280,19453,"SMPDSv1","H620 (EMBSECBIO)","H620",40.58,22.04,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.765636937827703,2849.72833834705,7.32548528455346,-3.01447838709759,17.042132656302,818.451761969172
2971,6281,19454,"SMPDSv1","H621 (EMBSECBIO)","H621",40.57,22.04,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.797342627789656,2694.01113018355,6.75923125973374,-3.58693382712357,16.4769803110734,842.898113645049
2972,6282,19455,"SMPDSv1","H622 (EMBSECBIO)","H622",40.56,22.03,1600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83037505633531,2543.38921768935,6.19770085223454,-4.15118962128382,15.9149028172055,868.104082951514
2973,6283,19456,"SMPDSv1","H623 (EMBSECBIO)","H623",40.56,22.15,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.484620040158725,4760.12306116665,13.0414330442922,2.80401842509897,23.0228427446537,576.854771603543
2974,6284,19457,"SMPDSv1","H624 (EMBSECBIO)","H624",40.56,22.13,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.535255424085175,4340.91762549463,11.8929250013552,1.6308717311933,21.8212865446153,624.340369556585
2975,6285,19458,"SMPDSv1","H625 (EMBSECBIO)","H625",40.55,22.16,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.460279138380863,4972.29261698048,13.6227194985767,3.4030367912228,23.6287769801409,553.601996571206
2976,6286,19459,"SMPDSv1","H626 (EMBSECBIO)","H626",40.54,22.2,250,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.448271526911083,5079.88955957401,13.9175056426685,3.71036094059625,23.934769415026,541.990795994084
2977,6287,19460,"SMPDSv1","H627 (EMBSECBIO)","H627",40.42,22.29,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.605583645776612,3505.1168179888,9.5077284922806,-0.941208497420496,19.4394856088943,675.884673290466
2978,6288,19461,"SMPDSv1","H628 (EMBSECBIO)","H628",40.43,22.27,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.606027068742961,3505.0869932957,9.50755310782508,-0.942281116459485,19.4380972711143,676.350079358498
2979,6289,19462,"SMPDSv1","H629 (EMBSECBIO)","H629",40.44,22.26,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.561858702305622,3905.57729520355,10.7002117676809,0.338369603712262,20.6444381953736,641.744642336191
2980,6290,19463,"SMPDSv1","H630 (EMBSECBIO)","H630",40.45,22.25,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.529800717633654,4224.32490503841,11.5734928905162,1.25968753993535,21.533832883437,616.1862499554
2981,6291,19464,"SMPDSv1","H631 (EMBSECBIO)","H631",40.46,22.25,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.476819070253733,4760.62478098611,13.04280761914,2.80248265649909,23.0397327856446,568.490695943618
2982,6292,19465,"SMPDSv1","H632 (EMBSECBIO)","H632",40.8,21.73,900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.655958230207664,3628.53828594508,9.898176576995,-0.494056698115351,19.7021469275433,725.85632685032
2983,6293,19466,"SMPDSv1","H633 (EMBSECBIO)","H633",40.82,21.78,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.552312619112505,4097.38393166936,11.2257094018339,0.688491713674891,21.1967361486798,625.014939178245
2984,6294,19467,"SMPDSv1","H634 (EMBSECBIO)","H634",40.78,21.9,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.508839759738621,4404.99431681991,12.0684775803285,1.53263704386361,22.1027587887886,585.246870022601
2985,6295,19468,"SMPDSv1","H635 (EMBSECBIO)","H635",40.78,21.93,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.508646919824638,4405.65337282623,12.0702832132225,1.53601210843848,22.1041300525912,584.994458408153
2986,6296,19469,"SMPDSv1","H636 (EMBSECBIO)","H636",40.81,21.97,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.481688045785869,4605.1030067503,12.6167205664392,2.07065251930431,22.6927222116796,558.982212879244
2987,6297,19470,"SMPDSv1","H637 (EMBSECBIO)","H637",40.62,22.15,150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.424176249792574,5272.45792744879,14.4450902121885,4.21292519617961,24.501373269306,516.224935228666
2988,6298,19471,"SMPDSv1","H638 (EMBSECBIO)","H638",40.62,22.2,150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.424295273613747,5273.98846733961,14.4492834721633,4.22110317177637,24.5043415079427,516.325533650504
2989,6299,19472,"SMPDSv1","H639 (EMBSECBIO)","H639",40.67,22.25,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407600532307017,5478.71728716441,15.0101843483957,4.80214099946255,25.0856454842119,498.762546727277
2990,6300,19473,"SMPDSv1","H640 (EMBSECBIO)","H640",40.48,22.18,450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.497122248880744,4670.98333084799,12.797214605063,2.58699156346721,22.7564357512825,590.737009509717
2991,6301,19474,"SMPDSv1","H641 (EMBSECBIO)","H641",40.44,22.15,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.535534404369678,4364.72066106401,11.9581387974356,1.74577562113575,21.8746293403672,627.975576481991
2992,6302,19475,"SMPDSv1","H642 (EMBSECBIO)","H642",40.41,22.13,900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.615692651370278,3743.72074974222,10.2517095092167,0.0137594648595253,20.0905415807825,700.701881483859
2993,6303,19476,"SMPDSv1","H643 (EMBSECBIO)","H643",40.4,22.08,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.703011726606119,3198.80866020728,8.54809527509456,-1.71398335438463,18.3067229129636,775.09709168685
2994,6304,19477,"SMPDSv1","H644 (EMBSECBIO)","H644",40.38,22.07,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.645608361148701,3560.68747494037,9.70941437978738,-0.518331690134527,19.5156720546951,728.406725610374
2995,6305,19478,"SMPDSv1","H645 (EMBSECBIO)","H645",40.38,22.08,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.6738331957731,3376.7767248855,9.13297139175619,-1.1089084229892,18.9155645313204,751.93121808351
2996,6306,19479,"SMPDSv1","H646 (EMBSECBIO)","H646",40.37,21.97,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.565934931235053,4180.03468785627,11.4521498297432,1.27623296613092,21.3249638914827,659.927006372105
2997,6307,19480,"SMPDSv1","H647 (EMBSECBIO)","H647",40.37,21.87,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.568303389092627,4185.97469748788,11.4684238287339,1.30409980600112,21.3341162728024,663.226647118984
2998,6308,19481,"SMPDSv1","H648 (EMBSECBIO)","H648",40.29,21.71,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.598280883229912,4209.63396950063,11.5332437520565,1.50431558502634,21.3176432368234,701.662952062307
2999,6309,19482,"SMPDSv1","H649 (EMBSECBIO)","H649",40.25,21.58,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607809986519168,4259.63072018577,11.6702211511939,1.79066230474294,21.4062948323628,719.24993830887
3000,6310,19483,"SMPDSv1","H650 (EMBSECBIO)","H650",40.29,21.5,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.584945672097485,4436.36381288159,12.1544214051551,2.20178947086631,21.9163531426643,694.878210534286
3001,6311,19484,"SMPDSv1","H651 (EMBSECBIO)","H651",40.37,21.42,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.615261556719342,4212.48215264295,11.5410469935423,1.55669287712327,21.2823612293317,720.433838259301
3002,6312,19485,"SMPDSv1","H652 (EMBSECBIO)","H652",40.44,21.34,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.619912420311589,4203.62528428926,11.5167816007925,1.52587763147156,21.2511455607682,724.079556056952
3003,6313,19486,"SMPDSv1","H653 (EMBSECBIO)","H653",40.66,21.55,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.632391686077829,3937.97638452904,10.78897639597,0.635194516814138,20.5644811367553,722.381468922816
3004,6314,19487,"SMPDSv1","H654 (EMBSECBIO)","H654",40.6,21.49,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.636131535467222,3952.05342655475,10.8275436343966,0.712632830612036,20.5880592120569,728.692078892633
3005,6315,19488,"SMPDSv1","H655 (EMBSECBIO)","H655",40.57,21.5,1050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.708152306222603,3461.15718778473,9.41696056549113,-0.703028786865276,19.1145268432889,788.93271150805106
3006,6316,19489,"SMPDSv1","H656 (EMBSECBIO)","H656",40.56,21.48,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.72401077697108,3371.33727811905,9.13587607996423,-0.98204126856919,18.8195324185026,802.057080010063
3007,6317,19490,"SMPDSv1","H657 (EMBSECBIO)","H657",40.55,21.43,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.612569993243165,4174.02582395824,11.4356871889267,1.36604803340873,21.2036152492465,711.569075439497
3008,6318,19491,"SMPDSv1","H658 (EMBSECBIO)","H658",40.51,21.38,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.616331211428511,4185.93898047012,11.4683259738907,1.4324717752639,21.2208371576627,717.465534518363
3009,6319,19492,"SMPDSv1","H659 (EMBSECBIO)","H659",40.5,21.35,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.618487449639545,4190.24800061529,11.480131508535,1.458405809006,21.2250662731653,720.456626547272
3010,6320,19493,"SMPDSv1","H660 (EMBSECBIO)","H660",40.56,21.32,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.619792229561583,4179.94676129161,11.4519089350455,1.4120815522154,21.1990543432491,720.243305752428
3011,6321,19494,"SMPDSv1","H661 (EMBSECBIO)","H661",40.78,21.27,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.877387271248166,2699.24231819746,6.86563212180495,-3.17326535207535,16.3683363101634,915.885531833815
3012,6322,19495,"SMPDSv1","H662 (EMBSECBIO)","H662",40.78,21.27,1400,"not known","terrestrial","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.842980832384854,2845.22782762681,7.3786480473622,-2.70179758834185,16.9079549039002,889.152026259053
3013,6323,19496,"SMPDSv1","H663 (EMBSECBIO)","H663",40.79,21.23,1350,"not known","terrestrial","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.753426011160551,2881.17185285575,7.42687614023354,-2.97783328282545,17.1887821914972,795.245911951621
3014,6324,19497,"SMPDSv1","H664 (EMBSECBIO)","H664",40.78,21.21,1200,"not known","terrestrial","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.73631812568943,3121.04507764341,8.27690420556312,-2.05950447469878,18.0218874827983,790.855967559319
3015,6325,19498,"SMPDSv1","H665 (EMBSECBIO)","H665",40.77,21.21,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725603644344354,3290.64759991149,8.8506740658467,-1.43506484544343,18.5813854732754,788.581253827094
3016,6326,19499,"SMPDSv1","H666 (EMBSECBIO)","H666",40.73,21.19,1000,"not known","terrestrial","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.706852651394445,3539.0658210428,9.65513208644453,-0.471118974294913,19.3552927883966,787.402678504636
3017,6327,19500,"SMPDSv1","H667 (EMBSECBIO)","H667",40.66,21.18,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.687275683181559,3992.10359667259,10.9372701278701,1.023353440311,20.5555393191287,788.255840974516
3018,6328,19501,"SMPDSv1","H668 (EMBSECBIO)","H668",40.65,21.18,700,"not known","terrestrial","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.677775163119751,4223.52564289892,11.5713031312299,1.75823126493334,21.1485563337872,787.875064276485
3019,6329,19502,"SMPDSv1","H669 (EMBSECBIO)","H669",40.59,21.2,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.67496920618705,4232.84327082081,11.5968308789611,1.79738843695052,21.1743672691254,786.517540069313
3020,6330,19503,"SMPDSv1","H670 (EMBSECBIO)","H670",40.25,21.44,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.604612229192395,4376.30165836388,11.9898675571613,2.16285926383223,21.7021775320541,720.010014561247
3021,6331,19504,"SMPDSv1","H671 (EMBSECBIO)","H671",40.14,21.47,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.590760194246118,4551.78868085794,12.4706539201587,2.81594095029754,22.1120308130514,715.431147740643
3022,6332,19505,"SMPDSv1","H672 (EMBSECBIO)","H672",40.01,21.5,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.611104114847812,4359.26086213018,11.9431804441923,2.28595877033205,21.5793931844616,735.73177483333
3023,6333,19506,"SMPDSv1","H673 (EMBSECBIO)","H673",39.95,21.5,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.611034188404848,4372.64781664192,11.9798570318957,2.34777715322644,21.6069367468442,737.592940856821
3024,6334,19507,"SMPDSv1","H674 (EMBSECBIO)","H674",39.92,21.53,700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.608974998642059,4377.86485886878,11.9941502982706,2.36698513701096,21.6227653037737,736.030757154025
3025,6335,19508,"SMPDSv1","H675 (EMBSECBIO)","H675",39.87,21.56,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.585334498844308,4606.7260871908,12.6211673621666,3.06155338147936,22.2332970859782,716.914327793498
3026,6336,19509,"SMPDSv1","H676 (EMBSECBIO)","H676",39.72,21.21,1350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.743223230528993,3036.32737618302,7.99167528167932,-2.27455078437406,18.0167069053402,837.989907111549
3027,6337,19510,"SMPDSv1","H677 (EMBSECBIO)","H677",39.71,21.22,1550,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.776088599452135,2687.01510369404,6.64906004979471,-3.9395625869721,16.8704395807663,850.352949987225
3028,6338,19511,"SMPDSv1","H678 (EMBSECBIO)","H678",39.72,21.22,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.759234828951662,2857.01964203891,7.31860024437358,-3.10864515867227,17.4411411483089,843.823055232784
3029,6339,19512,"SMPDSv1","H679 (EMBSECBIO)","H679",39.72,21.19,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.73617438137343,3128.89373324729,8.32564745130012,-1.86037854610043,18.3013739305426,835.837639474681
3030,6340,19513,"SMPDSv1","H680 (EMBSECBIO)","H680",39.73,21.19,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.720683874229482,3323.8322982524,8.99667513243674,-1.02778087785171,18.8738039671795,829.572749911092
3031,6341,19514,"SMPDSv1","H681 (EMBSECBIO)","H681",39.72,21.04,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.672120045080645,4271.93402304533,11.7039288302612,2.35427973025034,21.1653353859867,816.438323204105
3032,6342,19515,"SMPDSv1","H682 (EMBSECBIO)","H682",39.75,21.13,900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.682639983522878,4013.43217954414,10.9957046014908,1.44908695798464,20.5833909502237,816.875366882291
3033,6343,19516,"SMPDSv1","H683 (EMBSECBIO)","H683",39.74,21.16,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.737996333044869,3124.24130730295,8.30939280101425,-1.87966823747786,18.2830913377645,836.932443762061
3034,6344,19517,"SMPDSv1","H684 (EMBSECBIO)","H684",39.77,21.16,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.732257771802044,2912.42610998744,7.53392972687314,-2.84234357483627,17.5330380029199,809.192735750951
3035,6345,19518,"SMPDSv1","H685 (EMBSECBIO)","H685",39.78,21.22,1650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.761569455032428,2495.60680755604,5.8855648603267,-4.83896692115716,16.0724705332143,811.147605498588
3036,6346,19519,"SMPDSv1","H686 (EMBSECBIO)","H686",39.79,21.29,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.72978727652663,3312.63637040798,8.97870571225425,-0.933563198810426,18.6972234378684,832.226193133196
3037,6347,19520,"SMPDSv1","H687 (EMBSECBIO)","H687",39.78,21.32,800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.643040484881406,4191.4403004863,11.4833980835241,1.88959133709283,21.0777235750669,772.634205819143
3038,6348,19521,"SMPDSv1","H688 (EMBSECBIO)","H688",39.77,21.44,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.700890550934057,3527.78013161953,9.65039849291361,-0.164278553494296,19.3369952250779,812.730503970075
3039,6349,19522,"SMPDSv1","H689 (EMBSECBIO)","H689",39.76,21.47,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.676819768923333,3749.36692627891,10.2722381541888,0.528588105864049,19.9352321467634,795.189894791183
3040,6350,19523,"SMPDSv1","H690  (EMBSECBIO)","H690",39.73,21.55,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.524397018043354,5406.89606087715,14.8134138654169,5.82797434540555,24.1345316719747,676.231307645353
3041,6351,19524,"SMPDSv1","H691 (EMBSECBIO)","H691",39.49,20.86,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.650451011455667,4803.9402171855,13.1614800470835,4.23557970686779,22.3635615783856,816.142368223268
3042,6352,19525,"SMPDSv1","H692 (EMBSECBIO)","H692",39.47,20.88,500,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.635373797515767,5054.99300660636,13.8492959085106,5.10115545894555,22.9428608726774,807.827155799257
3043,6353,19526,"SMPDSv1","H693 (EMBSECBIO)","H693",39.69,20.78,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.662911929299599,4774.46506032853,13.0807261926809,4.122335445052,22.288581282383,825.815106061388
3044,6354,19527,"SMPDSv1","H694 (EMBSECBIO)","H694",39.7,20.66,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.691222563921219,4786.57461191343,13.1139030463382,4.22618582541333,22.2490793817053,858.842004359805
3045,6355,19528,"SMPDSv1","H695 (EMBSECBIO)","H695",39.71,20.61,250,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.658671469312728,5667.58471686142,15.5276293612642,7.27114588145601,24.2986477178074,853.060568186483
3046,6356,19529,"SMPDSv1","H696 (EMBSECBIO)","H696",39.66,20.59,250,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.655982598785625,5670.8958336094,15.5367009139984,7.2890504758445,24.3044196794631,850.501697258943
3047,6357,19530,"SMPDSv1","H697 (EMBSECBIO)","H697",39.62,20.53,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.660536047189085,5544.8012890496,15.1912364083551,6.85698610934591,24.004407643789,851.539906719751
3048,6358,19531,"SMPDSv1","H698 (EMBSECBIO)","H698",39.6,20.52,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.693413713265796,4792.28326505877,13.1295431919418,4.2620023160136,22.2517801166314,862.838122880343
3049,6359,19532,"SMPDSv1","H699 (EMBSECBIO)","H699",39.58,20.5,700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.705609346425992,4542.82016920678,12.446082655361,3.40389137348137,21.6773195803225,867.631787447112
3050,6360,19533,"SMPDSv1","H700 (EMBSECBIO)","H700",39.55,20.47,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.658093017852442,5547.61936554442,15.1989571658751,6.87433007792659,24.007988422917,849.2729122638
3051,6361,19534,"SMPDSv1","H701 (EMBSECBIO)","H701",39.53,20.32,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.661627914378526,5539.88872248236,15.1777773218695,6.84399572041273,23.9875989004133,852.284513235235
3052,6362,19535,"SMPDSv1","H702 (EMBSECBIO)","H702",39.52,20.4,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.658461948896823,5545.95651846156,15.1944014204426,6.86994193793646,24.0023325140272,849.526287325961
3053,6363,19536,"SMPDSv1","H703 (EMBSECBIO)","H703",39.54,20.45,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.658114015060724,5547.28012001517,15.1980277260689,6.8737756762733,24.0066271892365,849.270198373518
3054,6364,19537,"SMPDSv1","H704 (EMBSECBIO)","H704",39.71,21.01,700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.660672924350463,4522.15013960956,12.3894524372865,3.21527245552142,21.7429910855247,813.279933881852
3055,6365,19538,"SMPDSv1","H705 (EMBSECBIO)","H705",39.69,20.98,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.649295143126197,4774.31850899271,13.080324682171801,4.08603931902924,22.3233637276204,810.069920731963
3056,6366,19539,"SMPDSv1","H706 (EMBSECBIO)","H706",39.67,20.97,900,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.689071206311703,4030.47691975005,11.0424025198631,1.54255551720558,20.594237340791,827.031928235301
3057,6367,19540,"SMPDSv1","H707 (EMBSECBIO)","H707",39.72,20.78,500,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.651754215787036,5021.14675251291,13.7565664452408,4.96545864588743,22.8609718840662,821.571536725163
3058,6368,19541,"SMPDSv1","H708 (EMBSECBIO)","H708",40.56,21.48,1200,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.754478671892766,3195.27692552103,8.56471259231158,-1.56044517477254,18.2245994845435,825.771505941869
3059,6369,19542,"SMPDSv1","H709 (EMBSECBIO)","H709",40.56,21.32,700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.619792229561583,4179.94676129161,11.4519089350455,1.4120815522154,21.1990543432491,720.243305752428
3060,6370,19543,"SMPDSv1","H710 (EMBSECBIO)","H710",34.91,24.75,30,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.387490108710513,6602.60086805284,18.0893174467201,10.7097291564607,26.0316584294654,606.619212461175
3061,6371,19544,"SMPDSv1","H711 (EMBSECBIO)","H711",35.1,24.69,1,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.378809532212606,6655.1463980685,18.2332778029274,10.8885920240018,26.1791886624597,589.259034647811
3062,6372,19545,"SMPDSv1","H712 (EMBSECBIO)","H712",35.14,24.81,900,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.484885599222104,6249.53023680764,17.1220006487881,11.1663171165626,23.7727279574863,744.574282970146
3063,6373,19546,"SMPDSv1","H713 (EMBSECBIO)","H713",39.22,22.8,10,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411135486529988,6017.96362049966,16.4875715630128,7.24735405629718,26.0024058482483,548.338010255774
3064,6374,19547,"SMPDSv1","H715 (EMBSECBIO)","H715",36.37,40.21,700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.318079053963031,6180.42945663317,16.9326834428306,3.91221534472339,30.1908286764138,514.684307003433
3065,6375,19548,"SMPDSv1","H716 (EMBSECBIO)","H716",36.38,40.68,350,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.193585103227191,6859.1895530231,18.7923001452688,6.16294144111032,31.6441312893414,326.240496690569
3066,6376,19549,"SMPDSv1","H717 (EMBSECBIO)","H717",36.4,41.14,450,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.244577385747734,6762.36986089954,18.5270407147933,5.75059217157644,31.639859636331,409.194254740123
3067,6377,19550,"SMPDSv1","H718 (EMBSECBIO)","H718",36.41,41.06,400,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.224950248050227,6847.99319436314,18.761625190036,6.03555644284505,31.807464547707,378.171694293673
3068,6378,19551,"SMPDSv1","H719 (EMBSECBIO)","H719",36.43,40.88,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.186033783246672,7015.14346843951,19.2195711464096,6.6020592481042,32.1219273947192,315.733478221956
3069,6379,19552,"SMPDSv1","H720 (EMBSECBIO)","H720",36.4,40.83,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.184662252633083,7010.3085724899,19.2063248561367,6.59031973907351,32.100291778895,313.484179507189
3070,6380,19553,"SMPDSv1","H721 (EMBSECBIO)","H721",36.15,40.79,300,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.168111564183729,7042.98716708998,19.2958552523013,6.68147940551177,32.0854600513234,287.604861507476
3071,6381,19554,"SMPDSv1","H722 (EMBSECBIO)","H722",36.17,41.02,350,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.195112389097758,6970.22765920315,19.0965141348031,6.43663059536284,31.9964015410885,331.931248510497
3072,6382,19555,"SMPDSv1","H723 (EMBSECBIO)","H723",35.6,40.71,250,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.127675786307711,7177.26500272651,19.6637397334973,7.08327781830925,32.212670533604,222.142611055237
3073,6383,19556,"SMPDSv1","H724 (EMBSECBIO)","H724",35.27,41.04,200,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.108525638478572,7392.75436766766,20.2541215552539,7.65608054130471,32.7441375870138,192.01527994993901
3074,6384,19557,"SMPDSv1","H725 (EMBSECBIO)","H725",35.17,41.19,162,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.115892325753712,7461.18217980254,20.4415950131576,7.80087333925076,33.0836279869317,205.151781529836
3075,6385,19558,"SMPDSv1","H726 (EMBSECBIO)","H726",35.18,41.2,162,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.115820108038317,7462.17853578974,20.4443247555883,7.80397811927289,33.0850867699733,205.019347822786
3076,6386,19559,"SMPDSv1","H727 (EMBSECBIO)","H727",35.19,41.08,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.119110309278762,7376.11845245293,20.2085437053505,7.5847220959727,32.8007276741273,210.280120999376
3077,6387,19560,"SMPDSv1","H728 (EMBSECBIO)","H728",34.72,40.26,240,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.106468591309123,7228.19055623092,19.8032617978929,7.23430333849138,32.1781335959768,188.082150464899
3078,6388,19561,"SMPDSv1","H729 (EMBSECBIO)","H729",34.89,40.38,245,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.113404283257672,7207.01774797365,19.7452541040374,7.17548463007401,32.1770928346809,199.545129612169
3079,6389,19562,"SMPDSv1","H730 (EMBSECBIO)","H730",35.07,40.39,230,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.116163794582998,7221.15956400443,19.7839988054916,7.20081174615869,32.2841929850874,203.804825098148
3080,6390,19563,"SMPDSv1","H731 (EMBSECBIO)","H731",35.43,40.6,225,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.118055801391049,7242.10698580173,19.8413890021965,7.26334836599577,32.364140334266,206.47944386125
3081,6391,19564,"SMPDSv1","H732 (EMBSECBIO)","H732",35.49,40.57,225,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.118707036741876,7237.65022997879,19.8291787122707,7.25178928172393,32.3576940713007,207.395540716746
3082,6392,19565,"SMPDSv1","H733 (EMBSECBIO)","H733",35.5,40.32,230,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.120068733435326,7210.17791293738,19.7539120902394,7.18673607276079,32.2759990307163,209.35842095868
3083,6393,19566,"SMPDSv1","H734 (EMBSECBIO)","H734",34.91,38.54,1150,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0883683921419697,5573.98303170252,15.2711863882261,4.02265338815536,24.7839591350956,153.512401342697
3084,6394,19567,"SMPDSv1","H735 (EMBSECBIO)","H735",34.47,38.23,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.118616812118573,6584.27062598261,18.0390976054318,6.1844561208666,29.087254381367,205.383622824332
3085,6395,19568,"SMPDSv1","H736 (EMBSECBIO)","H736",34.5,37.97,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.125441613631968,6551.28990258937,17.9487394591489,6.17040219752195,28.929990354527,216.196534030159
3086,6396,19569,"SMPDSv1","H737 (EMBSECBIO)","H737",34.6,37.21,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.21684362078805,6084.1697397064,16.6689581909764,5.93767999083213,26.6152507963777,356.877816660281
3087,6397,19570,"SMPDSv1","H738 (EMBSECBIO)","H738",34.66,36.95,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.238433605363724,6057.92994855601,16.5970683522082,6.04105822024029,26.3864916566488,388.887358283294
3088,6398,19571,"SMPDSv1","H739 (EMBSECBIO)","H739",34.42,37.71,530,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.144095973946712,6434.48109187561,17.6287153202071,6.17454246151335,28.2555939989239,245.749396911989
3089,6399,19572,"SMPDSv1","H740 (EMBSECBIO)","H740",34.32,37.42,600,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.15885670647605,6263.94917066669,17.161504577169,5.93886523042432,27.5525594625637,268.718793230102
3090,6400,19573,"SMPDSv1","H741 (EMBSECBIO)","H741",34.19,37.16,750,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.19387859272204,5952.51534163913,16.3082612099702,5.74537690523387,26.0200697949725,322.16680583941
3091,6401,19574,"SMPDSv1","H742 (EMBSECBIO)","H742",34,36.96,825,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.206647943905409,5795.61538292798,15.8783983093917,5.49827805046363,25.4023778638792,341.332394845528
3092,6402,19575,"SMPDSv1","H743 (EMBSECBIO)","H743",33.89,36.83,800,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.209719513020525,5842.44767849811,16.006705968488,5.71379090326162,25.4472932600509,346.388025210916
3093,6403,19576,"SMPDSv1","H744 (EMBSECBIO)","H744",33.82,36.75,800,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.224755719643954,5804.8172722998,15.9036089652049,5.79636287038649,25.1892546499833,368.54039772986
3094,6404,19577,"SMPDSv1","H745 (EMBSECBIO)","H745",33.74,36.69,900,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.223914074628891,5646.04257824995,15.4686098034245,5.49744006424456,24.5472866367943,366.86903432273
3095,6405,19578,"SMPDSv1","H746 (EMBSECBIO)","H746",33.8,36.63,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.245569258664959,5209.47398346307,14.2725314615427,4.19318482745622,23.509395781842,396.473368786356
3096,6406,19579,"SMPDSv1","H747 (EMBSECBIO)","H747",34,36.69,1400,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.252661474044754,4613.49015340929,12.6396990504364,2.42169633699769,21.9903317767701,402.468284953777
3097,6407,19580,"SMPDSv1","H748 (EMBSECBIO)","H748",33.95,36.59,1450,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.25647297033347,4515.9196460254,12.3723825918504,2.16407681227128,21.7150293882782,407.445637365517
3098,6408,19581,"SMPDSv1","H749 (EMBSECBIO)","H749",33.91,36.48,1550,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.260921221189965,4321.07724007841,11.8385677810367,1.61430626616516,21.1962150705355,412.575441489162
3099,6409,19582,"SMPDSv1","H750 (EMBSECBIO)","H750",33.91,36.35,2050,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.267941554046393,3416.01575619931,9.17127280273004,-1.27801488222569,18.7257539924947,415.056256652976
3100,6410,19583,"SMPDSv1","H751 (EMBSECBIO)","H751",33.9,36.36,2000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.267193702222092,3494.65208808223,9.43936713573053,-0.988979793693714,18.9767110280847,414.865994024597
3101,6411,19584,"SMPDSv1","H752 (EMBSECBIO)","H752",33.89,36.36,1950,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.266669573442036,3575.05059879583,9.70743231409328,-0.698183138941403,19.2264594987635,414.957146708
3102,6412,19585,"SMPDSv1","H753 (EMBSECBIO)","H753",33.86,36.41,1650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.262780183012108,4128.72195139101,11.3115669901124,1.04603595875709,20.7094330139962,414.041144152855
3103,6413,19586,"SMPDSv1","H754 (EMBSECBIO)","H754",33.8,36.4,1700,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.261492189856298,4035.56892703637,11.0563532247572,0.749549899258439,20.4960477212434,411.838305430733
3104,6414,19587,"SMPDSv1","H755 (EMBSECBIO)","H755",33.76,36.39,1800,"not known","not known","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.260917904930148,3844.06405126299,10.5316823322274,0.155896423066416,20.0381419762131,409.861643393382
3105,6415,19588,"SMPDSv1","H756 (EMBSECBIO)","H756",33.7,36.37,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.245362038804256,4459.06903707281,12.2166274988296,1.86865240904447,21.7139770310416,392.261151432499
3106,6416,19589,"SMPDSv1","H757 (EMBSECBIO)","H757",33.37,35.88,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.253555086443195,4658.44249480162,12.7628561501414,2.6582405880438,22.0080815446417,405.26732957658
3107,6417,19590,"SMPDSv1","H758 (EMBSECBIO)","H758",33.63,35.98,1350,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.270214355824052,4723.49046223519,12.9410697595485,2.95584896503174,22.0863124621819,428.970939807928
3108,6418,19591,"SMPDSv1","H759 (EMBSECBIO)","H759",33.66,35.98,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.273305543206574,4817.58207333548,13.1988549954397,3.28220710608362,22.2843922070509,433.984862970706
3109,6419,19592,"SMPDSv1","H760 (EMBSECBIO)","H760",33.68,35.96,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.275474003775108,4815.67274052875,13.1936239466541,3.28922198546695,22.2715281783102,436.995478992841
3110,6420,19593,"SMPDSv1","H761 (EMBSECBIO)","H761",33.93,36.23,1600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.289400833418109,4178.8642350894,11.448943109834,1.40382783856529,20.6666724981965,450.519525984703
3111,6421,19594,"SMPDSv1","H762 (EMBSECBIO)","H762",33.94,36.21,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.290862731895421,4373.92790027589,11.9833641103449,2.00946387534672,21.1362142477448,454.148910302848
3112,6422,19595,"SMPDSv1","H763 (EMBSECBIO)","H763",33.97,36.19,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.29345361588818,4763.38551863023,13.0503712839185,3.21259667956973,22.1036126120062,460.897822909817
3113,6423,19596,"SMPDSv1","H764 (EMBSECBIO)","H764",33.99,36.2,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.293693473508871,4762.04677058255,13.0467034810481,3.20742741293494,22.1013693465006,461.152268752417
3114,6424,19597,"SMPDSv1","H765 (EMBSECBIO)","H765",34.07,36.15,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.299618936936177,5344.67373899371,14.6429417506677,5.00041569779426,23.5621489525742,473.980065379309
3115,6425,19598,"SMPDSv1","H766 (EMBSECBIO)","H766",34.09,36.13,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.301226947271579,5343.73398178346,14.6403670733793,5.00500428698145,23.555764083281,476.18462830352
3116,6426,19599,"SMPDSv1","H767 (EMBSECBIO)","H767",34.13,36.12,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.302898354353543,5341.51059511043,14.6342756030423,5.00003749732249,23.5523752906292,478.391810556099
3117,6427,19600,"SMPDSv1","H768 (EMBSECBIO)","H768",34.13,36.03,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.305733058002249,4363.88525231785,11.9558500063503,2.08040067689307,21.0374512403864,473.791415945983
3118,6428,19601,"SMPDSv1","H769 (EMBSECBIO)","H769",34.13,36.03,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.305733058002249,4363.88525231785,11.9558500063503,2.08040067689307,21.0374512403864,473.791415945983
3119,6429,19602,"SMPDSv1","H770 (EMBSECBIO)","H770",34.16,36.08,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.304470258961541,4361.34949037392,11.9489027133532,2.06180195799928,21.036924224177,471.936841618052
3120,6430,19603,"SMPDSv1","H771 (EMBSECBIO)","H771",34.25,36.06,2100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336657584862346,3225.35355544015,8.64920636891853,-1.22368860669289,17.6422285620763,502.334847946302
3121,6431,19604,"SMPDSv1","H772 (EMBSECBIO)","H772",34.29,35.98,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.324580827290624,4336.21338816482,11.8800366799036,2.16630068114976,20.8373482774432,498.835696188029
3122,6432,19605,"SMPDSv1","H773 (EMBSECBIO)","H773",34.3,35.97,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.327244326710317,4725.95631077887,12.9478255089832,3.28397320495541,21.898430813832,506.358396184423
3123,6433,19606,"SMPDSv1","H774 (EMBSECBIO)","H774",34.31,35.92,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333203768005497,5311.72372641056,14.5526677435906,4.97963342608355,23.4803062600493,520.242749667364
3124,6434,19607,"SMPDSv1","H775 (EMBSECBIO)","H775",34.31,35.91,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338640656950868,6091.56007605677,16.6892056878268,7.2174009234169,25.6001723786862,535.027332242919
3125,6435,19608,"SMPDSv1","H776 (EMBSECBIO)","H776",34.31,35.88,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.341463070894691,6287.08948433478,17.2249026968076,7.79254341557897,26.1193847732303,540.753116293062
3126,6436,19609,"SMPDSv1","H777 (EMBSECBIO)","H777",34.33,35.85,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.344748193066789,6481.85998452317,17.7585205055429,8.36022896909341,26.6424115622946,547.033213455657
3127,6437,19610,"SMPDSv1","H778 (EMBSECBIO)","H778",34.33,35.81,400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346753623105959,6482.67514133191,17.7607538118682,8.38284971147964,26.6267098495772,549.911216391318
3128,6438,19611,"SMPDSv1","H779 (EMBSECBIO)","H779",34.33,35.75,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376221552814592,6869.14424398295,18.8195732711862,9.73704960576127,27.4782442334592,594.840686336349
3129,6439,19612,"SMPDSv1","H780 (EMBSECBIO)","H780",34.31,35.69,50,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375434111555828,7158.14642640362,19.6113600723387,10.5978495439434,28.255238833687,595.633050019283
3130,6440,19613,"SMPDSv1","H781 (EMBSECBIO)","H781",34.1,35.83,1300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.315105908469128,4760.79891425922,13.0432846966006,3.35578829505263,21.9921416416695,490.445854381073
3131,6441,19614,"SMPDSv1","H782 (EMBSECBIO)","H782",34.1,35.81,1400,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.315609973030195,4565.47456749605,12.5081494999892,2.7675861648183,21.4966718743519,489.28046819804
3132,6442,19615,"SMPDSv1","H783 (EMBSECBIO)","H783",34.1,35.78,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.318607849240045,5153.34742800128,14.1187600767158,4.57416909779504,22.9611238330988,498.950009178987
3133,6443,19616,"SMPDSv1","H784 (EMBSECBIO)","H784",34.11,35.78,900,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.319977580382254,5544.27105099414,15.1897837013538,5.76668620035657,23.9422867274938,504.376257917708
3134,6444,19617,"SMPDSv1","H785 (EMBSECBIO)","H785",34.1,35.73,700,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347673479872657,5925.835347556,16.2351653357699,7.15827153741464,24.7242203247578,546.626368650496
3135,6445,19618,"SMPDSv1","H786 (EMBSECBIO)","H786",34.11,35.7,600,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348472839815561,6121.9785762631,16.7725440445565,7.75769182919936,25.2170289531551,549.514116276124
3136,6446,19619,"SMPDSv1","H787 (EMBSECBIO)","H787",34.11,35.68,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348721100028971,6318.21259985111,17.3101715064414,8.35652895949302,25.7092779474935,551.642672111115
3137,6447,19620,"SMPDSv1","H788 (EMBSECBIO)","H788",34.11,35.67,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348410269791793,6709.72505041881,18.3828083573118,9.5426521692295,26.6989331975034,554.637663116286
3138,6448,19621,"SMPDSv1","H789 (EMBSECBIO)","H789",35.51,36.2,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343658649776202,5258.56399268002,14.4070246374795,3.89122270905714,24.2157855422652,534.092591579141
3139,6449,19622,"SMPDSv1","H790 (EMBSECBIO)","H790",35.54,36.2,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343473886940158,5262.10453220858,14.4167247457769,3.87603583621366,24.2483064750875,533.952281491659
3140,6450,19623,"SMPDSv1","H791 (EMBSECBIO)","H791",35.55,36.19,1200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.329299450280396,4883.63898266652,13.3798328292233,2.66119276342856,23.3314121523215,511.837486539648
3141,6451,19624,"SMPDSv1","H792 (EMBSECBIO)","H792",35.58,36.2,1000,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343227925665311,5267.14724502086,14.4305403973174,3.85550151722669,24.2936303536012,533.785322336492
3142,6452,19625,"SMPDSv1","H793 (EMBSECBIO)","H793",35.59,36.13,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.339226587635661,5080.07158144536,13.918004332727,3.26300560009539,23.8357197266205,527.142296297527
3143,6453,19626,"SMPDSv1","H794 (EMBSECBIO)","H794",35.59,36.16,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337663483949554,5079.83084246531,13.9173447738776,3.25391187593102,23.8414853542816,524.954765593366
3144,6454,19627,"SMPDSv1","H795 (EMBSECBIO)","H795",35.6,36.16,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337542715571531,5081.42773038314,13.9217198092689,3.24816229067789,23.8551536629984,524.849595154255
3145,6455,19628,"SMPDSv1","H796 (EMBSECBIO)","H796",35.59,36.17,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337143961711142,5079.75390532696,13.9171339871971,3.25091519811447,23.8433922842284,524.22725471325
3146,6456,19629,"SMPDSv1","H797 (EMBSECBIO)","H797",35.6,36.18,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336503943557857,5081.2736011457,13.9212975373855,3.24220912489623,23.85893581156,523.394179818684
3147,6457,19630,"SMPDSv1","H798 (EMBSECBIO)","H798",35.62,36.18,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336262120531484,5084.54696260171,13.9302656509636,3.23068909989578,23.8867253897423,523.187230863747
3148,6458,19631,"SMPDSv1","H799 (EMBSECBIO)","H799",35.8,36.59,1100,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.231891647089758,5188.51051656373,14.2150973056541,1.17980016138935,26.6621623830176,380.995716788195
3149,6459,19632,"SMPDSv1","H800 (EMBSECBIO)","H800",35.79,36.52,650,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.318007100807189,5976.78676126518,16.3747582500416,4.95718620401563,27.1044862774299,506.258315573132
3150,6460,19633,"SMPDSv1","H801 (EMBSECBIO)","H801",35.81,36.47,500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.350626196955787,6239.74031295415,17.0951789396004,6.22304586172831,27.3378350812232,551.877505114026
3151,6461,19634,"SMPDSv1","H802 (EMBSECBIO)","H802",35.72,35.83,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422774805809454,6758.91359856495,18.5175715029177,8.82181103465768,27.7559631541665,650.164714011207
3152,6462,19635,"SMPDSv1","H803 (EMBSECBIO)","H803",35.73,35.84,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422900016830325,6758.46423847136,18.5163403793736,8.81748400511866,27.7572193794582,650.27093761896106
3153,6463,19636,"SMPDSv1","H804 (EMBSECBIO)","H804",35.75,35.85,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430207192025039,6733.03673754964,18.4466759932867,8.91346523861995,27.5355972052776,658.589670259446
3154,6464,19637,"SMPDSv1","H805 (EMBSECBIO)","H805",35.83,35.81,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439176513492987,6749.58539646008,18.4920147848221,8.87646102914719,27.6308016222181,672.371322601978
3155,6465,19638,"SMPDSv1","H806 (EMBSECBIO)","H806",35.83,35.81,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439176513492987,6749.58539646008,18.4920147848221,8.87646102914719,27.6308016222181,672.371322601978
3156,6466,19639,"SMPDSv1","H807 (EMBSECBIO)","H807",35.83,35.81,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439176513492987,6749.58539646008,18.4920147848221,8.87646102914719,27.6308016222181,672.371322601978
3157,6467,19640,"SMPDSv1","H808 (EMBSECBIO)","H808",35.83,35.81,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439176513492987,6749.58539646008,18.4920147848221,8.87646102914719,27.6308016222181,672.371322601978
3158,6468,19641,"SMPDSv1","H809 (EMBSECBIO)","H809",36.46,35.85,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.468978502552607,6786.23436136235,18.5924229078421,8.80549041217778,27.9097096980638,713.519196676863
3159,6469,19642,"SMPDSv1","H810 (EMBSECBIO)","H810",36.43,35.85,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467964632935288,6786.35983642029,18.5927666751241,8.80845353144115,27.9077249031568,712.280128406026
3160,6470,19643,"SMPDSv1","H811 (EMBSECBIO)","H811",36.29,35.85,300,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.455961365990458,6560.09697853016,17.9728684343292,7.99603198350978,27.4384154096573,692.955780725431
3161,6471,19644,"SMPDSv1","H812 (EMBSECBIO)","H812",36.26,35.85,200,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.462117434386689,6787.27611629832,18.5952770309543,8.82546148455082,27.8974307759242,705.100497856298
3162,6472,19645,"SMPDSv1","H813 (EMBSECBIO)","H813",33.69,46.41,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.342048588988075,4719.49284229284,12.8990411858505,-0.349437961070957,25.8631772937206,496.284995228854
3163,6473,19646,"SMPDSv1","H814 (EMBSECBIO)","H814",33.69,46.41,1500,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.342048588988075,4719.49284229284,12.8990411858505,-0.349437961070957,25.8631772937206,496.284995228854
3164,6474,19647,"SMPDSv1","H815 (EMBSECBIO)","H815",35.53,46.33,1450,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.303990958096297,4730.5989994951,12.8761371159415,-0.930800861200112,26.0647011365417,437.320762843474
3165,6475,19648,"SMPDSv1","H816 (EMBSECBIO)","H816",35.52,46.41,1800,"not known","not known","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.341065624721032,3916.66034692134,10.1464192344195,-4.00686705194251,23.4214427250209,460.772542567591
3166,6476,19649,"SMPDSv1","Haapalampi","Seppa_b47",62.47,28.55,74,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06111040373877,2217.77010462216,3.40934387025341,-10.2477940637734,16.9329923928804,576.073621885607
3167,6477,10619,"BIOME6000 Japan","Hachiman-Numa","HcmnC0",39.95,140.87,1580,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.22407109009383,2168.74421096947,3.39347390545358,-9.58371362702576,16.7898572270186,1542.6833644141
3168,6478,12678,"Neotoma","Hack Pond","HACK",37.984722,-78.997222,469,"not known","lake","core","0","Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658. Craig, A.J. 1969. Vegetational history of the Shenandoah Valley, Virginia. Geological Society of America Special Paper 123:283-296.","10.1017/S0033822200011413",13,"temperate deciduous broadleaf forest",1.06590569993477,4397.17327872229,12.0228540658589,-0.254234107375987,23.09519356505,1071.67372821707
3169,6479,17387,"Neotoma","Hackert Lake [Crystal Lake]","TW094",44.42,-83.97,271,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.940087305446089,3038.68014888461,6.5240497428807,-7.8743111511283,19.9893047780895,772.775300008465
3170,6480,676,"Australian pollen","Haematite Hill","Haematite Hill inside cave_1995",-30.296,139.431833333333,550,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160908071342485,6398.18846769602,17.5292834731398,9.0680036341289,25.7495925754377,270.172596699417
3170,6481,677,"Australian pollen","Haematite Hill","Haematite Hill inside cave_1996",-30.296,139.431833333333,550,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160908071342485,6398.18846769602,17.5292834731398,9.0680036341289,25.7495925754377,270.172596699417
3170,6482,678,"Australian pollen","Haematite Hill","Haematite Hill outside cave_1995",-30.296,139.431833333333,550,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160908071342485,6398.18846769602,17.5292834731398,9.0680036341289,25.7495925754377,270.172596699417
3170,6483,679,"Australian pollen","Haematite Hill","Haematite Hill outside cave_1996",-30.296,139.431833333333,550,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.160908071342485,6398.18846769602,17.5292834731398,9.0680036341289,25.7495925754377,270.172596699417
3171,6484,2993,"CMPD","Haerbaling","Haerbaling",43.27,128.62,600,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.812505925522916,2672.71435042955,2.41833917008897,-18.1489849620918,19.6618047154294,659.137000427119
3172,6485,17297,"Neotoma","Haeusser Farm Pond","TW003",44.2,-91.7,301,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.903315794456031,3449.99889373802,7.19341174043231,-10.562693834009,22.1858462657421,785.276553025337
3173,6486,19654,"SMPDSv1","Hagelseeli","CH/WVDK/HAG",46.673587,8.035224,2339,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.08284640233574,853.885679561624,-0.1670896179299,-6.99990420720596,7.41212084324366,2185.35159833676
3173,6487,19650,"SMPDSv1","Hagelseeli","EPDcoretop_E1098",46.672914,8.035869,2339,"0.025","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.08292209131526,853.818606597341,-0.167369185253386,-7.00001347329904,7.41165390896666,2185.35721462144
3173,6488,19651,"SMPDSv1","Hagelseeli","Knaap_a68",46.673587,8.035224,2340,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.08394236514183,852.860993533611,-0.172351257663326,-7.00381836033962,7.40599265294299,2185.90715975256
3173,6489,19652,"SMPDSv1","Hagelseeli","Knaap_a69",46.673587,8.035224,2340,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.08394236514183,852.860993533611,-0.172351257663326,-7.00381836033962,7.40599265294299,2185.90715975256
3173,6490,19653,"SMPDSv1","Hagelseeli","Knaap_a70",46.673587,8.035224,2340,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.08394236514183,852.860993533611,-0.172351257663326,-7.00381836033962,7.40599265294299,2185.90715975256
3174,6491,23154,"SMPDSv1","Hagvatnet","Bjune_a14",69.45592733,18.20582576,111,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.61622352229175,1320.72358544055,1.3699259596132,-6.81368180712566,11.7120279239894,958.05539721928
3175,6492,2994,"CMPD","Haideng Lake","Haideng Lake",29.8167,92.3667,4980,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.466871814554755,974.941195511404,-1.08399391979302,-11.3202690599404,8.12400569253841,526.627256943228
3176,6493,2995,"CMPD","Hainandao","Hainandao 1",19.95,110.18,90,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40216426288006,8795.64650703335,24.0976616631051,17.6982171821788,28.6243434128329,1841.46310295273
3176,6494,2996,"CMPD","Hainandao","Hainandao 2",19.92,110.21,156,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41972243158503,8739.02286660481,23.942528401657,17.8425006639592,28.2213319857542,1874.15098493189
3176,6495,2997,"CMPD","Hainandao","Hainandao 3",18.69,110.23,19,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43018518874324,9042.58057582731,24.774193358431,18.9772981763851,28.7177584557775,1922.11694683869
3177,6496,11517,"Neotoma","Haines Pond","FH-2",39.32589,-96.6844,392,"not known","artificial water body","surface sample","-58","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.750491182480956,4606.20053631956,12.1597486741803,-3.36624655554477,26.2200238293074,825.314465826871
3178,6497,2998,"CMPD","Haizhou Bay","Haizhou Bay 01",34.91,119.41,-7.3,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6498,2999,"CMPD","Haizhou Bay","Haizhou Bay 02",34.91,119.41,-1.5,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6499,3000,"CMPD","Haizhou Bay","Haizhou Bay 03",34.91,119.41,-6.5,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6500,3001,"CMPD","Haizhou Bay","Haizhou Bay 04",34.91,119.41,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6501,3002,"CMPD","Haizhou Bay","Haizhou Bay 05",34.91,119.41,-6,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6502,3003,"CMPD","Haizhou Bay","Haizhou Bay 06",34.91,119.41,-6,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6503,3004,"CMPD","Haizhou Bay","Haizhou Bay 07",34.91,119.41,-4.8,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6504,3005,"CMPD","Haizhou Bay","Haizhou Bay 08",34.91,119.41,-7.2,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6505,3006,"CMPD","Haizhou Bay","Haizhou Bay 09",34.91,119.41,-18,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6506,3007,"CMPD","Haizhou Bay","Haizhou Bay 10",34.91,119.41,-7,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6507,3008,"CMPD","Haizhou Bay","Haizhou Bay 11",34.91,119.41,-14,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6508,3009,"CMPD","Haizhou Bay","Haizhou Bay 12",34.91,119.41,-11.7,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6509,3010,"CMPD","Haizhou Bay","Haizhou Bay 13",34.91,119.41,-16.5,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6510,3011,"CMPD","Haizhou Bay","Haizhou Bay 14",34.91,119.41,-21.5,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6511,3012,"CMPD","Haizhou Bay","Haizhou Bay 15",34.91,119.41,-20,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6512,3013,"CMPD","Haizhou Bay","Haizhou Bay 16",34.91,119.41,-27,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6513,3014,"CMPD","Haizhou Bay","Haizhou Bay 17",34.91,119.41,-24.2,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3178,6514,3015,"CMPD","Haizhou Bay","Haizhou Bay 18",34.91,119.41,-29,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3179,6515,19655,"SMPDSv1","Hajeren","Bjune_a315",79.2583333333333,11.5583333333333,35,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.20317711384601,217.454276645644,-7.00466783148054,-14.793685080912,3.50718618655806,484.713641615907
3180,6516,19656,"SMPDSv1","Hakluythovden","Bjune_a311",79.7741666666666,10.7528333333333,10,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.11580567785682,227.447852174726,-6.70515976140202,-14.3270311373674,3.60156042454403,464.495102989271
3181,6517,9789,"Herzschuh et al., 2019","Hal Dal","Hal Dal 1",49.225,119.755,670,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.500691008726384,2303.51637983877,-1.72621553288764,-25.6337995910547,19.0991074418908,362.932585053073
3181,6518,9790,"Herzschuh et al., 2019","Hal Dal","Hal Dal 2",49.225,119.755,670,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.500691008726384,2303.51637983877,-1.72621553288764,-25.6337995910547,19.0991074418908,362.932585053073
3181,6519,9791,"Herzschuh et al., 2019","Hal Dal","Hal Dal 3",49.225,119.755,550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.478118862617547,2419.34596481698,-1.42938857181297,-25.943876519892,19.8509324728309,343.837779381445
3181,6520,9792,"Herzschuh et al., 2019","Hal Dal","Hal Dal 4",49.225,119.755,550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.478118862617547,2419.34596481698,-1.42938857181297,-25.943876519892,19.8509324728309,343.837779381445
3181,6521,9793,"Herzschuh et al., 2019","Hal Dal","Hal Dal 5",49.435,117.905,550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.388646340620906,2580.34304450973,-0.0889149131135964,-23.5871975990521,20.6482358594844,306.028916753648
3181,6522,9794,"Herzschuh et al., 2019","Hal Dal","Hal Dal 6",49.435,117.905,550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.388646340620906,2580.34304450973,-0.0889149131135964,-23.5871975990521,20.6482358594844,306.028916753648
3182,6523,11693,"Neotoma","Haleakalā Volcano 10G","HV-10G",20.738931,-156.135186,2182,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56093111663651,5377.82707500076,14.7337728082213,12.9498985582293,16.4226738168003,1942.25964262006
3183,6524,11694,"Neotoma","Haleakalā Volcano 10H","HV-10H",20.739581,-156.134904,2158,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56250947973996,5412.07948785926,14.8276150352308,13.044217856192,16.5159422061276,1947.2657209575
3184,6525,11695,"Neotoma","Haleakalā Volcano 10J","HV-10J",20.741279,-156.134138,2109,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56575740990923,5482.01286139164,15.0192133188812,13.2367959041441,16.7063730583614,1957.52330880075
3185,6526,11696,"Neotoma","Haleakalā Volcano 10K","HV-10K",20.741776,-156.133915,2085,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56730270103439,5516.27018660637,15.113069004401,13.3311187680967,16.7996562655407,1962.50194546899
3186,6527,11697,"Neotoma","Haleakalā Volcano 10L","HV-10L",20.742187,-156.133745,2060,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56890199189598,5551.95622128874,15.2108389624349,13.4293726514245,16.896828927671,1967.68062368189
3187,6528,11698,"Neotoma","Haleakalā Volcano 10M","HV-10M",20.742689,-156.133706,2036,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57051654722463,5586.21337577437,15.3046941802037,13.5237126458673,16.9901019452844,1972.75421594859
3188,6529,11699,"Neotoma","Haleakalā Volcano 10N","HV-10N",20.743168,-156.132977,2012,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57184761970829,5620.47828895781,15.3985706546789,13.6180011964659,17.083434645295,1977.47180339989
3189,6530,11700,"Neotoma","Haleakalā Volcano 10O","HV-10O",20.743865,-156.132846,1987,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57353946139325,5656.1644058679,15.4963408379943,13.7162780924332,17.1806006308685,1982.77368738816
3190,6531,11701,"Neotoma","Haleakalā Volcano 10P","HV-10P",20.744649,-156.133057,1963,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57531537209189,5690.421136159,15.5901948935863,13.810655695969,17.2738573411454,1988.05881075933
3191,6532,11702,"Neotoma","Haleakalā Volcano 10Q","HV-10Q",20.745142,-156.132865,1939,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57684894238852,5724.68412761407,15.6840661030523,13.9049896011187,17.3671574910454,1993.04416109174
3192,6533,11703,"Neotoma","Haleakalā Volcano 10R","HV-10R",20.745604,-156.132641,1914,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57842007739912,5760.37600941068,15.7818520805772,14.0032510092224,17.4643508609851,1998.20804962761
3193,6534,11704,"Neotoma","Haleakalā Volcano 11B","HV-11B",20.736566,-156.141953,2304,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55593077218391,5203.62188065418,14.2564983031621,12.4710133683888,15.9478698390682,1920.61581545181
3194,6535,11705,"Neotoma","Haleakalā Volcano 11K","HV-11K",20.742535,-156.139302,2085,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56981362568429,5516.20249174032,15.1128835390146,13.3315839996858,16.7991315627087,1965.66193397821
3195,6536,11706,"Neotoma","Haleakalā Volcano 11L","HV-11L",20.742817,-156.139196,2060,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57134003203395,5551.89312419395,15.210666093682,13.4298276215725,16.896328633214,1970.75641753229
3196,6537,11707,"Neotoma","Haleakalā Volcano 11M","HV-11M",20.743308,-156.138974,2036,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57282095769068,5586.15599077386,15.3045369610243,13.5241449168025,16.9896398947829,1975.66602401754
3197,6538,11708,"Neotoma","Haleakalā Volcano 11N","HV-11N",20.743756,-156.138738,2012,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57428086004099,5620.42015695368,15.3984113889142,13.618460346031,17.0829565620266,1980.55294889251
3198,6539,11709,"Neotoma","Haleakalā Volcano 11O","HV-11O",20.744243,-156.138662,1987,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57587040461478,5656.11119474558,15.4961950540975,13.7167206061299,17.1801503124755,1985.73403914702
3199,6540,11710,"Neotoma","Haleakalā Volcano 11P","HV-11P",20.744716,-156.138274,1963,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57727521715825,5690.37811989319,15.5900770408033,13.8110294098062,17.273482202375,1990.55675993505
3200,6541,11711,"Neotoma","Haleakalā Volcano 11Q","HV-11Q",20.745114,-156.138227,1939,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57878319128356,5724.64337161179,15.683954442772,13.9053596055244,17.3667941865759,1995.5154626466
3201,6542,11712,"Neotoma","Haleakalā Volcano 11R","HV-11R",20.74572,-156.13795,1914,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58032171146078,5760.33835878284,15.7817489281722,14.0036166767823,17.4640080751393,2000.63946409502
3202,6543,11713,"Neotoma","Haleakalā Volcano 12K","HV-12K",20.743718,-156.14245,2085,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57151634296313,5516.15571368654,15.1127553799631,13.3318950413259,16.7987890772498,1967.79228131461
3203,6544,11714,"Neotoma","Haleakalā Volcano 12L","HV-12L",20.744103,-156.142431,2060,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57307195795819,5551.84772626577,15.2105417157966,13.4301465686672,16.8959911130219,1972.92576521245
3204,6545,11715,"Neotoma","Haleakalā Volcano 12M","HV-12M",20.744621,-156.142208,2036,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57452246620376,5586.11368928523,15.3044210665349,13.5244611522641,16.9893187264554,1977.80014104675
3205,6546,11716,"Neotoma","Haleakalā Volcano 12N","HV-12N",20.74507,-156.142168,2012,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57602145044348,5620.37937113114,15.3982996469346,13.6187871173651,17.0826374839974,1982.74051279398
3206,6547,11717,"Neotoma","Haleakalā Volcano 12O","HV-12O",20.745544,-156.142431,1987,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57769536974347,5656.07117638837,15.4960854147627,13.7170667476938,17.179825464917,1988.03331333695
3207,6548,11718,"Neotoma","Haleakalā Volcano 12P","HV-12P",20.745928,-156.141989,1963,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57901091121246,5690.34251838147,15.589979502415,13.8113616681679,17.2731829928798,1992.74792855724
3208,6549,11719,"Neotoma","Haleakalā Volcano 12Q","HV-12Q",20.746528,-156.142766,1939,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58083393881495,5724.60445085121,15.6838478105513,13.9057558224059,17.3664535751456,1998.10931193337
3209,6550,11720,"Neotoma","Haleakalā Volcano 12R","HV-12R",20.746877,-156.142932,1914,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58240395476613,5760.3013256474,15.7816474675271,14.0040216351985,17.4636681045288,2003.28311441295
3210,6551,11721,"Neotoma","Haleakalā Volcano 13K","HV-13K",20.742863,-156.145676,2085,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57261339281518,5516.12951958234,15.1126836152941,13.3321060597725,16.7985446994009,1969.19506075567
3211,6552,11722,"Neotoma","Haleakalā Volcano 13L","HV-13L",20.743684,-156.144773,2060,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57390968810435,5551.82750337837,15.2104863106257,13.430306051434,16.8958104066542,1973.99442985403
3212,6553,11723,"Neotoma","Haleakalā Volcano 13M","HV-13M",20.744414,-156.144784,2036,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57549805974604,5586.09036375938,15.3043571609846,13.524645811507,16.9891167581263,1979.041540454
3213,6554,11724,"Neotoma","Haleakalā Volcano 13N","HV-13N",20.745028,-156.145078,2012,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57715365131258,5620.35311318671,15.3982277073609,13.6190014361333,17.0824118067057,1984.17997241784
3214,6555,11725,"Neotoma","Haleakalā Volcano 13O","HV-13O",20.745332,-156.145386,1987,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57876528435906,5656.0471516842,15.4960195936553,13.7172699235258,17.1796128808031,1989.39917188162
3215,6556,11726,"Neotoma","Haleakalā Volcano 13P","HV-13P",20.745824,-156.145464,1963,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58027836182412,5690.315289106,15.5899049016603,13.8116030618553,17.2729403892876,1994.36603191739
3216,6557,11727,"Neotoma","Haleakalā Volcano 13Q","HV-13Q",20.746164,-156.145214,1939,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58162046424584,5724.58753222784,15.6838014581585,13.9059051317778,17.3662982640688,1999.12061033166
3217,6558,11728,"Neotoma","Haleakalā Volcano 13R","HV-13R",20.746638,-156.145153,1914,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.58312228170368,5760.28669735438,15.781607390012,14.0041584410783,17.463532333379,2004.20666193654
3218,6559,11729,"Neotoma","Haleakalā Volcano 5E","HV-5E",20.734819,-156.123457,2231,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55083074791452,5308.13213776403,14.542827774696,12.7561209566349,16.2338853824865,1923.49861218189
3219,6560,11730,"Neotoma","Haleakalā Volcano 5F","HV-5F",20.735002,-156.122763,2207,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55220336242445,5342.38613027287,14.6366743295147,12.8503968285313,16.3271710497421,1928.23314271978
3220,6561,11731,"Neotoma","Haleakalā Volcano 5G","HV-5G",20.735116,-156.121899,2182,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55355278470044,5378.07024671529,14.7344390320967,12.9485881419858,16.4243608255184,1933.06848867978
3221,6562,11732,"Neotoma","Haleakalā Volcano 5H","HV-5H",20.735412,-156.121188,2158,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55497479836471,5412.32183141891,14.8282789901888,13.0428732617817,16.5176325360235,1937.86858541402
3222,6563,11733,"Neotoma","Haleakalā Volcano 5I","HV-5I",20.735606,-156.120457,2134,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55636357323334,5446.57504883484,14.9221234214653,13.1371548054969,16.6109104536555,1942.63174092734
3223,6564,11734,"Neotoma","Haleakalā Volcano 5J","HV-5J",20.735672,-156.120205,2109,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55799555865457,5482.25071823967,15.0198649814785,13.2354019995558,16.708030639581,1947.83283970118
3224,6565,11735,"Neotoma","Haleakalā Volcano 5K","HV-5K",20.735543,-156.119395,2085,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.5592662136186,5516.50823028423,15.1137211788609,13.3296664171763,16.801328416552,1952.45883111056
3225,6566,11736,"Neotoma","Haleakalā Volcano 5L","HV-5L",20.735751,-156.118875,2060,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56084147364376,5552.18448901978,15.2114643534788,13.4279027913588,16.8984593609074,1957.59226468682
3226,6567,11737,"Neotoma","Haleakalā Volcano 5M","HV-5M",20.736967,-156.114509,2036,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56112674005639,5586.46424487848,15.3053814928178,13.5219722282961,16.9919833375204,1960.94825271891
3227,6568,11738,"Neotoma","Haleakalā Volcano 5N","HV-5N",20.737038,-156.113368,2012,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56239540424652,5620.71992501672,15.3992326712787,13.6162368415863,17.0852741472152,1965.57317514891
3228,6569,11739,"Neotoma","Haleakalā Volcano 5O","HV-5O",20.737289,-156.113186,1987,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56416757227217,5656.3908346741,15.4969611908879,13.7145144531337,17.1823582570649,1970.96352576378
3229,6570,11740,"Neotoma","Haleakalā Volcano 5P","HV-5P",20.737236,-156.112433,1963,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56557054278107,5690.64243196905,15.5908011834768,13.8088062539545,17.2756135790078,1975.76730908596
3230,6571,11741,"Neotoma","Haleakalā Volcano 5Q","HV-5Q",20.737804,-156.112465,1939,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56744042557844,5724.88299411644,15.6846109427848,13.903186776596,17.3687876020299,1981.15889018066
3231,6572,11742,"Neotoma","Haleakalā Volcano 5R","HV-5R",20.737531,-156.111339,1914,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56873750854543,5760.56460063043,15.7823687688505,14.0013773299098,17.4659508889608,1985.96309611633
3232,6573,11743,"Neotoma","Haleakalā Volcano 6G","HV-6G",20.735876,-156.123212,2182,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55440626886213,5378.0394027495,14.7343545280808,12.9487344593161,16.4241639741811,1934.12562353146
3233,6574,11744,"Neotoma","Haleakalā Volcano 6H","HV-6H",20.736156,-156.12287,2158,"not known","terrestrial","surface sample","-53","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55597167401002,5412.28792130252,14.8281860857603,13.0430480999297,16.5174067398282,1939.10825109914
3234,6575,11745,"Neotoma","Haleakalā Volcano 6I","HV-6I",20.736537,-156.121884,2134,"not known","terrestrial","surface sample","-53","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55728788212897,5446.54341130289,14.9220367432956,13.1373153191313,16.6107069091882,1943.77865015968
3235,6576,11746,"Neotoma","Haleakalā Volcano 6J","HV-6J",20.736752,-156.121295,2109,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.558802951738,5482.22307987556,15.019789259933,13.2355408703715,16.7078597403458,1948.83153749505
3236,6577,11747,"Neotoma","Haleakalā Volcano 6K","HV-6K",20.737371,-156.121078,2085,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56053775114956,5516.46638926086,15.1136065459202,13.3298871225545,16.8010686080984,1954.03214421128
3237,6578,11748,"Neotoma","Haleakalā Volcano 6L","HV-6L",20.737833,-156.120865,2060,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56228927414724,5552.1395976094,15.2113413633134,13.4281582364277,16.8981736576422,1959.3870919265
3238,6579,11749,"Neotoma","Haleakalā Volcano 6M","HV-6M",20.73812,-156.12045,2036,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56383647524286,5586.39039080206,15.3051791528824,13.5224761876888,16.9914222447062,1964.36455571233
3239,6580,11750,"Neotoma","Haleakalā Volcano 6N","HV-6N",20.738748,-156.119824,2012,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56540508864403,5620.64053595484,15.3990151669996,13.6167979477331,17.0846726696932,1969.36636328907
3240,6581,11751,"Neotoma","Haleakalā Volcano 6O","HV-6O",20.740074,-156.118561,1987,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56700696571655,5656.31929646699,15.4967651958,13.7150442965557,17.1818308074067,1974.52715607627
3241,6582,11752,"Neotoma","Haleakalā Volcano 6P","HV-6P",20.740325,-156.117813,1963,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.568432208408,5690.57477875231,15.5906158321981,13.8093453095908,17.2751058302739,1979.36022432441
3242,6583,11753,"Neotoma","Haleakalā Volcano 6Q","HV-6Q",20.740673,-156.11744,1939,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.5700285816296,5724.82644950841,15.6844560260504,13.9036801433553,17.3683484646509,1984.41294679143
3243,6584,11754,"Neotoma","Haleakalā Volcano 6R","HV-6R",20.740631,-156.116741,1914,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57147254402042,5760.50962212499,15.7822181428082,14.0019046206442,17.4655074811899,1989.40713253796
3244,6585,11755,"Neotoma","Haleakalā Volcano 7E","HV-7E",20.736387,-156.126611,2231,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55287849621301,5308.0556253976,14.5426181517742,12.7564695003305,16.2333962525119,1926.03066927326
3245,6586,11756,"Neotoma","Haleakalā Volcano 7F","HV-7F",20.7369,-156.125939,2207,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55433242378731,5342.3069418272,14.6364573748691,12.8507581523676,16.3266716724452,1930.86528360934
3246,6587,11757,"Neotoma","Haleakalā Volcano 7G","HV-7G",20.737175,-156.124785,2182,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55555826401814,5377.99631225365,14.7342364719278,12.9489280391083,16.4239004618036,1935.54729048859
3247,6588,11758,"Neotoma","Haleakalā Volcano 7H","HV-7H",20.737692,-156.124323,2158,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55712484661022,5412.24512616094,14.8280688387971,13.0432411885326,16.5171504881021,1940.52947374713
3248,6589,11759,"Neotoma","Haleakalā Volcano 7I","HV-7I",20.738015,-156.124038,2134,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.5587080652607,5446.49512054453,14.921904439848,13.1375619699937,16.6103967133066,1945.53994901569
3249,6590,11760,"Neotoma","Haleakalā Volcano 7J","HV-7J",20.738422,-156.123908,2109,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56045067919469,5482.16972702235,15.0196430877325,13.2358311628021,16.7075088518652,1950.87970359733
3250,6591,11761,"Neotoma","Haleakalā Volcano 7K","HV-7K",20.73881,-156.12364,2085,"not known","terrestrial","surface sample","-56","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56205837401977,5516.41978526937,15.1134788637517,13.3301592433762,16.8007523395645,1955.92762256887
3251,6592,11762,"Neotoma","Haleakalā Volcano 8beta","HV-8BETA",20.732344,-156.133982,2377,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.54559109651406,5099.66661858456,13.9716893659851,12.1832332036271,15.6656180837387,1898.6382412596
3252,6593,11763,"Neotoma","Haleakalā Volcano 8G","HV-8G",20.738484,-156.127087,2182,"not known","terrestrial","surface sample","-53","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55705017943986,5377.94358514718,14.7340920141019,12.9491852022188,16.4235605304513,1937.39554442757
3253,6594,11764,"Neotoma","Haleakalā Volcano 8H","HV-8H",20.739086,-156.126951,2158,"not known","terrestrial","surface sample","-53","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55876171171189,5412.18967906703,14.8279169289508,13.04352709079,16.5167855651085,1942.56170820986
3254,6595,11765,"Neotoma","Haleakalā Volcano 8I","HV-8I",20.739603,-156.126557,2134,"not known","terrestrial","surface sample","-53","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56032628396769,5446.44139065413,14.9217572346688,13.1378451052884,16.6100457501606,1947.54864993512
3255,6596,11766,"Neotoma","Haleakalā Volcano 8J","HV-8J",20.740378,-156.125598,2109,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56179513199681,5482.12457374688,15.0195193801284,13.2360627791483,16.7072315643756,1952.53974646661
3256,6597,11767,"Neotoma","Haleakalā Volcano 8K","HV-8K",20.740819,-156.125181,2085,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56333054180971,5516.37889230426,15.1133668282308,13.3303806171533,16.8005004438889,1957.49834561951
3257,6598,11768,"Neotoma","Haleakalā Volcano 8L","HV-8L",20.741429,-156.124988,2060,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56507617461941,5552.05690721487,15.2111148142873,13.4286568817733,16.897627745013,1962.84964906577
3258,6599,11769,"Neotoma","Haleakalā Volcano 8M","HV-8M",20.741703,-156.124826,2036,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56666232514725,5586.3115557218,15.3049631663611,13.5229892914152,16.9908861102209,1967.88308773495
3259,6600,11770,"Neotoma","Haleakalā Volcano 8N","HV-8N",20.741925,-156.124603,2012,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56820704039582,5620.56764534885,15.3988154667092,13.6173154180406,17.0841527228786,1972.86844272377
3260,6601,11771,"Neotoma","Haleakalā Volcano 8O","HV-8O",20.742183,-156.124422,1987,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56984288020716,5656.25069442304,15.4965772449946,13.7155780784575,17.181300867411,1978.09871547834
3261,6602,11772,"Neotoma","Haleakalā Volcano 8P","HV-8P",20.742453,-156.124008,1963,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57132914492557,5690.5087118829,15.5904348270764,13.8098954768774,17.2745807618419,1983.01563777611
3262,6603,11773,"Neotoma","Haleakalā Volcano 8Q","HV-8Q",20.742972,-156.124128,1939,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57308083327821,5724.76149997951,15.6842780821356,13.9042651456017,17.3678160206941,1988.27019672209
3263,6604,11774,"Neotoma","Haleakalā Volcano 8R","HV-8R",20.743811,-156.124069,1914,"not known","terrestrial","surface sample","-57","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.57491340735194,5760.44325616923,15.7820363182719,14.0025717093877,17.4649468551605,1993.7529648501
3264,6605,11775,"Neotoma","Haleakalā Volcano 9G","HV-9G",20.738515,-156.130748,2182,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.55874598411263,5377.89346306951,14.7339546933411,12.9494995234414,16.423171178034,1939.52408828024
3265,6606,11776,"Neotoma","Haleakalā Volcano 9H","HV-9H",20.739187,-156.130384,2158,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56034100482751,5412.14359387339,14.8277906681463,13.0438197479111,16.5164283023424,1944.54600868902
3266,6607,11777,"Neotoma","Haleakalā Volcano 9I","HV-9I",20.739984,-156.129764,2134,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56186138479522,5446.39632522919,14.9216337677512,13.1381273132771,16.6097059507986,1949.475379807
3267,6608,11778,"Neotoma","Haleakalā Volcano 9J","HV-9J",20.740421,-156.129715,2109,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56357920448055,5482.07530405358,15.0193843946673,13.2363965007087,16.7068394217745,1954.79048851001
3268,6609,11779,"Neotoma","Haleakalā Volcano 9K","HV-9K",20.740842,-156.1295,2085,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56515215704284,5516.3299140119,15.1132326411285,13.330722584547,16.8001061126336,1959.80076064564
3269,6610,11780,"Neotoma","Haleakalā Volcano 9L","HV-9L",20.741432,-156.129182,2060,"not known","terrestrial","surface sample","-55","Crausbay, S.D. 2011. Vegetation-climate relationships across space and time at high elevation in Hawai'i. Doctoral dissertation. University of Wisconsin-Madison, Madison, Wisconsin, USA.; Crausbay, S.D., and S.C. Hotchkiss. 2012. Pollen–vegetation relationships at a tropical cloud forest's upper limit and accuracy of vegetation inference. Review of Palaeobotany and Palynology 184:1-13.","10.1016/j.revpalbo.2012.07.010",4,"warm-temperate evergreen and mixed forest",1.56679593301094,5552.01203683541,15.2109918817408,13.4289809012496,16.8972618482314,1965.02753474019
3270,6611,11655,"Neotoma","Half Boiled Pond","GPPS-28",35.6218,-99.838425,655,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.461808534671192,5665.51521378204,15.5219594898138,2.1226164859128702,28.0773474217091,607.986440013719
3271,6612,17399,"Neotoma","Half Moon Lake","TW106",43.73,-83.93,180,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.918463441170962,3383.1204715669,7.96910351837614,-6.39239353699218,21.2341003088609,795.274391062222
3272,6613,19657,"SMPDSv1","Halijarvi","Seppa_b11",66.72,29,274,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30554161572271,1468.70027450028,-0.852911559497015,-14.6141704642967,13.7822516875367,537.90099986897
3273,6614,16435,"Neotoma","Hall Beach","JTA256",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6615,16437,"Neotoma","Hall Beach","JTA257",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6616,16433,"Neotoma","Hall Beach","JTA258",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6617,16434,"Neotoma","Hall Beach","JTA259",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6618,16436,"Neotoma","Hall Beach","JTA260",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6619,16439,"Neotoma","Hall Beach","JTA261",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3273,6620,16438,"Neotoma","Hall Beach","JTA262",68.78,-81.25,40,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.755975008941341,387.219233290088,-13.7927411888497,-31.7047352641482,6.15543800080297,204.323229869764
3274,6621,12090,"Neotoma","Hall's Cave","HALLSEN",29.973435,-99.3751499999999,677,"not known","cave","surface sample","-61","Cordova, C.E., and W.C. Johnson. 2019. An 18 ka to present pollen and phytolith-based vegetation reconstruction from Hall's Cave, south-central Texas, USA. Quaternary Research 92:497-518.",,4,"warm-temperate evergreen and mixed forest",0.408180412737832,6643.5605034748,18.2015356259584,7.18368734704909,27.4120847174046,573.125686952861
3274,6622,12092,"Neotoma","Hall's Cave","HALLSIN",29.973435,-99.3751499999999,677,"not known","cave","surface sample","-61","Cordova, C.E., and W.C. Johnson. 2019. An 18 ka to present pollen and phytolith-based vegetation reconstruction from Hall's Cave, south-central Texas, USA. Quaternary Research 92:497-518.",,4,"warm-temperate evergreen and mixed forest",0.408180412737832,6643.5605034748,18.2015356259584,7.18368734704909,27.4120847174046,573.125686952861
3274,6623,12091,"Neotoma","Hall's Cave","HALLSSU",29.973435,-99.3751499999999,677,"not known","cave","surface sample","-61","Cordova, C.E., and W.C. Johnson. 2019. An 18 ka to present pollen and phytolith-based vegetation reconstruction from Hall's Cave, south-central Texas, USA. Quaternary Research 92:497-518.",,4,"warm-temperate evergreen and mixed forest",0.408180412737832,6643.5605034748,18.2015356259584,7.18368734704909,27.4120847174046,573.125686952861
3274,6624,15179,"Neotoma","Hall's Cave","HALLSTX",29.973435,-99.3751499999999,677,"not known","cave","profile or section","-60","Cooke, M.J., L.A. Stern, J.L. Banner, L.E. Mack, T.W. Stafford, and R.S. Toomey III. 2003. Precise timing and rate of massive late Quaternary soil denudation. Geology 31:853-856.; Cordova, C.E., and W.C. Johnson. 2019. An 18 ka to present pollen and phytolith-based vegetation reconstruction from Hall's Cave, south-central Texas, USA. Quaternary Research 92:497-518.",,4,"warm-temperate evergreen and mixed forest",0.408180412737832,6643.5605034748,18.2015356259584,7.18368734704909,27.4120847174046,573.125686952861
3275,6625,9607,"Gaillard et al., 1992","Hallands Vadero","Hallands Vadero",56.442817,12.561628,10,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.962768502065662,2894.5167168803,7.77155124507878,-1.01687948209436,16.6569300916893,636.425695267081
3276,6626,19658,"SMPDSv1","Hallsjon","Seppa_b170",60.05,16.55,69,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0138979486664,2225.11738924361,4.85778593801872,-4.9976903272665,15.3565710102224,584.284084967685
3277,6627,9608,"Gaillard et al., 1992","Hallstad","Hallstad A",58.313168,15.652975,119,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.949726475693275,2411.33769175556,5.73541438121646,-3.86343312517487,15.7828446490878,585.523499987206
3277,6628,9609,"Gaillard et al., 1992","Hallstad","Hallstad B",58.313168,15.652975,119,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.949726475693275,2411.33769175556,5.73541438121646,-3.86343312517487,15.7828446490878,585.523499987206
3278,6629,11555,"Neotoma","Hamann Dam","NDSLHA",46.52435,-103.401185,820,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.439189871629606,3119.26566106209,6.20372011846693,-10.1978227452629,21.6673482956094,392.672712962807
3279,6630,9610,"Gaillard et al., 1992","Hammarsange","Hammarsange",57.78796,18.794458,18,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.910617870652896,2537.31214533784,6.47498565017948,-2.66639139861866,16.1664270386454,566.074164538562
3280,6631,9611,"Gaillard et al., 1992","Hammarsranna","Hammarsranna",55.397458,14.036702,2,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.895730462832723,3018.21880679075,8.10772944462048,-1.1217932599144,17.2408073531075,608.08120066764
3281,6632,19659,"SMPDSv1","Hammersbodatrask","Seppa_b79",60.05,22.42,42,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03306908896425,2310.50660286624,4.73523243177367,-6.38694270547017,16.1940939337869,583.573943131487
3282,6633,19660,"SMPDSv1","Hamnetangen","Bjune_a317",78.3238333333333,12.8463333333333,20,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.07557113081178,271.666021184638,-6.39078392677712,-14.096330220838,4.13367450987835,470.035996225286
3283,6634,12679,"Neotoma","Hams Lake","HAMSLAKE",43.236667,-80.413333,301,"not known","lake","core","-1125","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.; McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.1112253147597,3191.58532925612,7.33111491967056,-6.65359767084307,20.2721513390263,963.971437409907
3283,6634,12680,"Neotoma","Hams Lake","HAMSLAKE",43.236667,-80.413333,301,"not known","lake","core","-757","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.; McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.1112253147597,3191.58532925612,7.33111491967056,-6.65359767084307,20.2721513390263,963.971437409907
3283,6634,12681,"Neotoma","Hams Lake","HAMSLAKE",43.236667,-80.413333,301,"not known","lake","core","-369","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.; McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.1112253147597,3191.58532925612,7.33111491967056,-6.65359767084307,20.2721513390263,963.971437409907
3283,6634,12682,"Neotoma","Hams Lake","HAMSLAKE",43.236667,-80.413333,301,"not known","lake","core","18","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.; McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.1112253147597,3191.58532925612,7.33111491967056,-6.65359767084307,20.2721513390263,963.971437409907
3284,6635,10576,"BIOME6000 Japan","Hanawa","D12008",35.566667,140.15,12,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.60081838385883,5393.0928748329,14.7755969173504,4.50825404941959,26.0052030576401,1571.83387851076
3285,6636,3016,"CMPD","Hangcuo","Hangcuo",31.32,91.79,4370,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.363694967723024,1264.30196405982,-0.440654044255619,-12.5103344714747,10.1457525598341,403.949353805691
3286,6637,12683,"Neotoma","Hanging Lake","HANGING",68.383333,-138.383333,500,"not known","lake","core","0","Cwynar, L.C. 1980. A Late-Quaternary vegetation history from Hanging Lake, northern Yukon. Dissertation. University of Toronto, Toronto, Ontario, Canada.; Cwynar, L.C. 1982. A Late-Quaternary vegetation history from Hanging Lake, northern Yukon. Ecological Monographs 52:1-24.",,31,"tundra",0.517273467805011,688.165959811484,-11.1888952167787,-27.7855862417964,8.90672157477613,168.996565798086
3287,6638,7041,"EMPDv2","Hangingstone Hill","EPDcoretop_E1675",50.65,-3.96,598,"not known","terrestrial, blanket bog","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",3.89227083438504,2521.96700401245,6.90949864113001,0.858674188698218,13.2340300973997,2243.33726253611
3288,6639,19661,"SMPDSv1","Hangstli","EPDcoretop_E1100",46.473611,7.495833,1260,"not known","terrestrial, bog/fen/swamp","peat core top","-17","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.90700686882285,2234.10546150285,5.66332665825138,-2.59761101571549,14.218961137145,1517.48916051583
3289,6640,3017,"CMPD","Hanhai Lake","Hanhai Lake",40.2833,112.833,1200,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.400275174737186,3109.85940695052,5.79774914798524,-11.5175522226647,20.6177434056329,420.062721200187
3290,6641,3018,"CMPD","Hani","Hani T302",42.9,130,910,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.963456653936323,2276.59541205535,0.781778967656119,-18.9605666967085,17.5913452414987,745.020025065742
3290,6642,3019,"CMPD","Hani","Hani_New",42.22,126.52,899,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.10464586330535,2666.79485322006,2.6418950730213,-17.9830702195529,19.5672245077209,944.501161240191
3291,6643,3020,"CMPD","Hanjiang","Hanjiang 1",23.55,116.63,5,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41278701685498,8224.05334289996,22.5316529942465,14.9424973119937,28.8464884379486,1813.26684577445
3291,6644,3021,"CMPD","Hanjiang","Hanjiang 3",23.34,116.58,5,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.42023449840999,8241.12872393637,22.5784348600996,15.0075472428427,28.8616589479045,1828.33235817544
3292,6645,15240,"Neotoma","Hanover","AMD007",42.27,-90.28,244,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.946052250109513,3829.04839244022,9.03154184591703,-7.78189213041287,23.1767117077462,885.991178259523
3293,6646,12684,"Neotoma","Hansen Marsh","HANSEN",43.439585,-89.670815,381,"not known","terrestrial, marsh","core","-15","Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1976. University of Wisconsin radiocarbon dates XIII. Radiocarbon 18(1):125-139.; Bachhuber, F.W. 1966. Pollen analysis from Hansen Marsh an upland site southcentral Wisconsin. Master's thesis. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.936985407578142,3057.7204153032,5.62472773946983,-11.7993049089055,20.6227678302281,788.80650236871
3294,6647,3022,"CMPD","Haoluku Lake","Haoluku Lake",42.95,116.75,1295,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361070569621096,2513.84439663816,1.90845597920285,-17.6366326018097,18.9491511196737,350.160289627275
3295,6648,15849,"Neotoma","Happy Hollow Lake","GMP20",37.67,-88.85,137,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.04431056358717,5047.25286705542,13.7983156512146,-0.340444127825667,25.9992761820408,1152.67933964637
3296,6649,9795,"Herzschuh et al., 2019","Har-P. S","Har-P. S-1",48.1075,93.036389,1131,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.137155528290946,2755.76287294735,0.725132082523987,-23.891052895114,20.1068890574283,132.196892379062
3297,6650,10606,"BIOME6000 Japan","Haranomachi","HarnmC0",37.62,140.98,10,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.57574844445748,4509.85071863077,12.355755393509,1.48406454942328,24.4697335827762,1414.03739016653
3298,6651,24249,"Neotoma","Harberton","HARBERT_0",-54.870655,-67.29673,20,"not known","terrestrial, bog/fen/swamp","core","-34","Markgraf, V., and R. Kenny. 1997. Character of rapid vegetation and climate change during the late glacial in southernmost South America. Pages 81-90 in Past and future rapid environmental changes: the spatial and evolutionary responses of terrestrial biota. Springer, Berlin, Germany.;
Markgraf, V. 1991. Younger Dryas in southern South America?. Boreas 20(1):63-69.;
Markgraf, V. 1993. Paleoenvironments and paleoclimates in Tierra del Fuego and southernmost Patagonia, South America. Palaeogeography, Palaeoclimatology, Palaeoecology 102(1-2):53-68.;
Markgraf, V. 1993. Younger Dryas in southernmost South America —- an update. Quaternary Science Reviews 12(5):351-355.;
Pendall, E., V. Markgraf, J.W.C. White, and M. Dreier. 2001. Multiproxy record of late Pleistocene - Holocene climate and vegetation changes from a peat bog in Patagonia. Quaternary Research 55(2):168-178.",";
10.1111/j.1502-3885.1991.tb00459.x;
10.1016/0031-0182(93)90005-4;
10.1016/0277-3791(93)90043-L;
10.1006/qres.2000.2206",7,"cool-temperate rainforest",1.2336325225765,1949.72080170191,5.34170082658059,1.33880579278232,9.06995497679713,676.435710743608
3298,6652,24250,"Neotoma","Harberton","HARBERT_5",-54.870655,-67.29673,20,"not known","terrestrial, bog/fen/swamp","core","33","Markgraf, V., and R. Kenny. 1997. Character of rapid vegetation and climate change during the late glacial in southernmost South America. Pages 81-90 in Past and future rapid environmental changes: the spatial and evolutionary responses of terrestrial biota. Springer, Berlin, Germany.;
Markgraf, V. 1991. Younger Dryas in southern South America?. Boreas 20(1):63-69.;
Markgraf, V. 1993. Paleoenvironments and paleoclimates in Tierra del Fuego and southernmost Patagonia, South America. Palaeogeography, Palaeoclimatology, Palaeoecology 102(1-2):53-68.;
Markgraf, V. 1993. Younger Dryas in southernmost South America —- an update. Quaternary Science Reviews 12(5):351-355.;
Pendall, E., V. Markgraf, J.W.C. White, and M. Dreier. 2001. Multiproxy record of late Pleistocene - Holocene climate and vegetation changes from a peat bog in Patagonia. Quaternary Research 55(2):168-178.",";
10.1111/j.1502-3885.1991.tb00459.x;
10.1016/0031-0182(93)90005-4;
10.1016/0277-3791(93)90043-L;
10.1006/qres.2000.2206",7,"cool-temperate rainforest",1.2336325225765,1949.72080170191,5.34170082658059,1.33880579278232,9.06995497679713,676.435710743608
3299,6653,12685,"Neotoma","Harding Lake","HARDING",64.444444,-146.9075,228,"not known","lake","core","26","Ager, T.A. 1982. Pollen studies of Quaternary-age sediments in the Tanana Valley (Alaska). Pages 64-67 in W. Conrad, editor. United States Geological Survey in Alaska: Accomplishments during 1980. USGS Circular 844.; Ager, T.A. 1983. Holocene vegetational history of Alaska. Pages 128-141 in H.E. Wright, Jr., editor. Late-Quaternary Environments of the United States. Volume 2. The Holocene. University of Minnesota Press. Minneapolis, Minnesota, USA.; Ager, T.A., and L.B. Brubaker. 1985. Quaternary palynology and vegetational history of Alaska. Pages 353-384 in V.M. Bryant, Jr. and R.G. Holloway, editors. Pollen records of late Quaternary North American sediments. American Association of Stragigraphic Palynologists Foundation, Dallas, Texas, USA.; Nakao, K., J. La Perriere, and T.A. Ager. 1980. Climatic changes in interior Alaska. Pages 16-23 in K. Nakao, editor. Climatic Changes in Interior Alaska. Hokkaido Univesity, Department of Geophysics, Sapporo, Japan.",,15,"cold evergreen needleleaf forest",0.578750866692018,1814.12362349637,-3.29048017443444,-22.8797446385622,16.0783687791654,251.912030680719
3300,6654,11998,"Neotoma","Hardscrabble Lake","SM-HRD",39.23123,-107.100655,3070,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.554154706668668,1340.58807667423,-0.244430535176508,-11.9773616031375,11.6111359961948,533.739154257557
3301,6655,680,"Australian pollen","Hardwood River Valley","HRV ss",-42.95,146.31,50,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.35563499859338,4108.49268120025,11.2561443320555,7.4809255790412,15.109363231048,1172.35452679994
3302,6656,7042,"EMPDv2","Hares Down","EPDcoretop_E1677",50.98,-3.64,255,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.33708127626846,3207.49235832513,8.78765029678118,3.39531010922781,14.7387437877696,1472.78963524342
3303,6657,681,"Australian pollen","Harlequin Hill","HHBG",-42.95,146.31,320,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.36838737995893,3652.98220564184,10.008170426416,5.83644208803497,14.4236941709553,1213.13916038857
3303,6658,682,"Australian pollen","Harlequin Hill","HHEM",-42.95,146.31,320,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.36838737995893,3652.98220564184,10.008170426416,5.83644208803497,14.4236941709553,1213.13916038857
3303,6659,683,"Australian pollen","Harlequin Hill","HHS",-42.95,146.31,320,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.36838737995893,3652.98220564184,10.008170426416,5.83644208803497,14.4236941709553,1213.13916038857
3304,6660,11530,"Neotoma","Harney Peak Pond 1","SDPNHP1",43.8671833333333,-103.537183333333,2124,"not known","lake","surface sample","-57","Unpublished data",,22,"steppe",0.418943867838784,2502.43047856002,5.35416242700851,-5.99796069921431,18.6277025403898,401.57426792238
3305,6661,12687,"Neotoma","Harrie Lake","HARRIE",52.933333,-66.95,530,"not known","lake","core","-6","King, G.A. 1986. Deglaciation and vegetation history of western Labrador and adjacent Québec. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,15,"cold evergreen needleleaf forest",1.5847957830978,1359.38102011502,-3.76799909167348,-22.3004787035179,13.3921868221026,828.566473704987
3306,6662,17361,"Neotoma","Harriet","TW066",42.926389,-89.448333,296,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.92539553020325,3389.30636507812,7.26800263056018,-9.5950134840249,21.7701290753436,811.571151695937
3307,6663,15257,"Neotoma","Harrison","AMD024",42.7,-90.55,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.918540829721589,3526.26962052879,7.73094093131992,-9.44422651691556,22.2345119847149,829.395051418551
3308,6664,684,"Australian pollen","Hartz Mountains","HM core top",-43.24,146.75,980,"not applicable","terrestrial","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40088762382269,2570.68337456819,7.04296814950188,1.91989382420987,12.8041967513477,1314.09813976625
3308,6665,685,"Australian pollen","Hartz Mountains","HM Polster",-43.24,146.75,980,"not applicable","terrestrial","moss polster or moss","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40088762382269,2570.68337456819,7.04296814950188,1.91989382420987,12.8041967513477,1314.09813976625
3308,6666,686,"Australian pollen","Hartz Mountains","HM Trap",-43.24,146.75,980,"not applicable","terrestrial","pollen trap","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40088762382269,2570.68337456819,7.04296814950188,1.91989382420987,12.8041967513477,1314.09813976625
3309,6667,16538,"Neotoma","Harvey Lake","KG032",45.73,-67.02,145,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.58062541358947,2601.9531125491,4.74523474464064,-9.92431767691834,18.2552909528394,1182.80105078337
3310,6668,9612,"Gaillard et al., 1992","Haslov","Haslov A",55.439261,13.044929,9,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.893483163282197,2995.87078570836,8.09253890756405,-0.804588725188053,16.9939371731901,604.28189907047
3310,6669,9613,"Gaillard et al., 1992","Haslov","Haslov B",55.439261,13.044929,9,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.893483163282197,2995.87078570836,8.09253890756405,-0.804588725188053,16.9939371731901,604.28189907047
3311,6670,9614,"Gaillard et al., 1992","Hasslo","Hasslo",56.111397,15.461529,5,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.860229234580297,2834.34406723695,7.56222622873476,-1.2271592793809,16.7266609842824,576.890282399187
3312,6671,687,"Australian pollen","Hastie Swamp","Hastie Swamp",-17,145.333,750,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.688589268290181,7895.00035783265,21.6301379666648,16.863864466115,25.0097418218004,1246.66310283577
3313,6672,11824,"Neotoma","Hatch Pond, MA","SJNE10",42.276635,-73.356531,245,"not known","lake","surface sample","-40","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,9,"cool mixed forest",1.29226055465491,3465.59617896271,8.43021349697828,-5.67426953873565,21.3032833458651,1106.38538464868
3314,6673,10564,"BIOME6000 Japan","Hatchodaira C","HatchC0",35.23,135.83,810,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.39527627285582,3677.04513017553,9.67392889296932,-2.48866467153865,22.2596485454832,2097.20137902765
3315,6674,19662,"SMPDSv1","Hatikkajarvi","Seppa_b84",61.37,23.3,113,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03871790822847,2174.64978170932,3.79217075389601,-8.18160546459929,15.976611718229,553.80848748801
3316,6675,8553,"EMPDv2","Haugabreen","Pardoe_c1",61.4,6.44,900,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.0269370571838,1567.16807854289,2.89281771563496,-5.21481761472264,11.4721551969036,1527.48766012951
3316,6676,8554,"EMPDv2","Haugabreen","Pardoe_c2",61.4,6.44,860,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.11703648542854,1594.67111011203,3.06163315591582,-4.94882205843528,11.5645907423545,1570.50584227342
3316,6677,8555,"EMPDv2","Haugabreen","Pardoe_c3",61.4,6.44,820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.20742852344979,1622.75706510263,3.23044859619668,-4.68282650214793,11.6570262878055,1613.52402441733
3316,6678,8556,"EMPDv2","Haugabreen","Pardoe_c4",61.4,6.44,760,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.3435713007837,1666.10531525717,3.48367175661797,-4.28779810020389,11.7956796059819,1678.0512976332
3316,6679,8557,"EMPDv2","Haugabreen","Pardoe_c5",61.4,6.44,720,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.43470641902586,1695.87161513669,3.65248719689883,-4.02865202769243,11.8881151514328,1721.06947977711
3316,6680,8558,"EMPDv2","Haugabreen","Pardoe_c6",61.4,6.44,700,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.48038696470034,1711.0428336549,3.73689491703926,-3.89907899143671,11.9343329241582,1742.57857084906
3316,6681,8559,"EMPDv2","Haugabreen","Pardoe_c7",61.4,6.44,690,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.50325562165556,1718.69497760795,3.77909877710948,-3.83429247330884,11.957441810521,1753.33311638504
3316,6682,8560,"EMPDv2","Haugabreen","Pardoe_c8",61.4,6.44,680,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.52614330520912,1726.41834355195,3.82130263717969,-3.76950595518098,11.9805506968837,1764.08766192102
3316,6683,8561,"EMPDv2","Haugabreen","Pardoe_c9",61.4,6.44,680,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.52614330520912,1726.41834355195,3.82130263717969,-3.76950595518098,11.9805506968837,1764.08766192102
3317,6684,19663,"SMPDSv1","Hauge So","Odgaard_a15",56.259216,9.348913,50,"0.19","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19515767311894,2777.07919964014,7.54279379139933,-0.433114241636522,15.5548390773819,750.32912058256
3318,6685,19664,"SMPDSv1","Haugtjern","Bjune_a289",60.835,10.875,338,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36057722857876,1986.05909486716,3.40038453533089,-7.81638758445786,14.4060919893236,753.516200730303
3319,6686,19665,"SMPDSv1","Hausseebruch","Hausseebruch_ss",53.24517,13.5306,66,"0.03","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801182809127489,3287.99764794196,8.937036415394,-0.692325787431913,17.9689458955884,560.620758045673
3320,6687,19666,"SMPDSv1","Hautajarvi","Bjune_a164",67.3833333333333,22.516666666666602,213,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09430001295367,1534.60538305565,-0.724290168624287,-14.8295080929468,13.966532023178,471.111065106916
3321,6688,11810,"Neotoma","Haviland Lake","LMSJ22",37.535225,-107.81071499999901,2487,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.393503183172165,2488.30255846031,5.14572377308793,-7.55346347186573,17.6510775884605,455.505224015024
3322,6689,12688,"Neotoma","Hawke Hills Kettle","HAWKE",47.322222,-53.133333,220,"not known","lake","core","-27","Macpherson, J.B. 1982. Postglacial vegetational history of the eastern Avalon Peninsula, Newfoundland, and Holocene climatic change along the eastern Canadian seaboard. Géographie physique et Quaternaire 36(1-2):175-196. https://www.erudit.org/revue/gpq/1982/v36/n1-2/032476ar.html.","10.7202/032476ar",9,"cool mixed forest",2.08162295458059,2107.52939601851,4.47325485184081,-5.7449882424956,15.1276557050914,1315.30689539453
3323,6690,16508,"Neotoma","Hay Lake","KG005",46.147155,-68.721395,199,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46577403127418,2566.13106275183,4.28771787663974,-11.0959389410131,18.4100372153135,1084.07922522099
3324,6691,17293,"Neotoma","Hay River","RLF67019",60.85,-115.733333,250,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.627270147702613,1796.18526325365,-3.58203677917507,-25.4665922472111,15.8700714162463,332.464291551853
3325,6692,17426,"Neotoma","Hayck Lake","TW134",41.95,-85.7,274,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",1.00332899103467,3764.15810720479,9.3489838737315,-5.36432162232805,22.4052825296324,903.087234970958
3326,6693,11607,"Neotoma","Hayes Lake","HAY-1C",44.36591,-101.01109,649,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.459431377985415,3523.91406593322,7.85928204420307,-8.47691525033643,23.4775853688142,439.783826187475
3326,6694,11608,"Neotoma","Hayes Lake","HAY-1M",44.36591,-101.01109,649,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.459431377985415,3523.91406593322,7.85928204420307,-8.47691525033643,23.4775853688142,439.783826187475
3326,6695,15773,"Neotoma","Hayes Lake","JHM003",49.583333,-93.75,391,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.911226884918378,2516.05604097631,2.08331690227808,-17.9791647126208,18.9929579867478,671.949102481437
3327,6696,19667,"SMPDSv1","Hayley Wood","Grant_a4",52.159344,-0.114331,80,"1e-04","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05520079765754,3438.95632813391,9.42179815927098,3.39541660797347,16.1703242316972,674.787306779293
3328,6697,688,"Australian pollen","Hazards Lagoon","Hazards Lagoon_Mackenzie 2010",-42.17,148.29,2,"small (0.01-1 km2)","lake","core top","-59","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.828405002060439,4554.77995534531,12.4788491927269,8.18492472037966,16.7624231088932,755.741436448486
3329,6698,11550,"Neotoma","Hazelden Lake","SDDAHA",45.520265,-97.44916,541,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.597246713695251,3294.06413792776,6.21373730081644,-12.1154379416636,22.4090330383772,526.454017230788
3330,6699,3023,"CMPD","Hdgutian","Hdgutian 1",23.14,114.81,590,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32468690084341,6686.67583382131,18.3196598186885,8.68570012033638,26.253510922126,1570.47959170929
3330,6700,3024,"CMPD","Hdgutian","Hdgutian 2",23.14,114.82,531,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35609751972254,6855.55400013978,18.7823397264104,9.3602152855493,26.509677537962,1623.53677304472
3330,6701,3025,"CMPD","Hdgutian","Hdgutian 3",23.12,114.8,626,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3053036596774,6583.76757301149,18.0377193781137,8.27680378271137,26.0946071804377,1538.41074557277
3330,6702,3026,"CMPD","Hdgutian","Hdgutian 4",23.12,114.8,382,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43355784211069,7282.50204327936,19.9520603925462,11.0610094588943,27.1610064158773,1758.83951529479
3330,6703,3027,"CMPD","Hdgutian","Hdgutian 5",23.13,114.81,456,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39549550384506,7070.37987820335,19.3709037758996,10.2160560209829,26.8374286068453,1691.54924883077
3330,6704,3028,"CMPD","Hdgutian","Hdgutian 6",23.14,114.82,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29687689072229,6540.78364376793,17.9199551884053,8.10579763963367,26.0292137468336,1524.42506357962
3331,6705,13504,"Neotoma","Head Lake","HEADLAKE",37.71109,-105.740635,2300,"not known","lake","core","-39","Jodry, M.A., D.S. Shafer, D.J. Stanford, and O.K. Davis. 1989. Late Quaternary environments and human adaptation in the San Luis Valley, south-central Colorado. Pages 189-208 in E.J. Harmon, editor. Water in the valley: a 1989 perspective on water supplies, issues, and solutions in the San Luis Valley, Colorado. Colorado Ground-Water Association Guidebook, Eighth Annual Field Trip, August 19-20, 1989.; Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,22,"steppe",0.310780831200997,2831.50553572922,6.67691605414061,-5.3785975405772,18.8098127600211,362.987879217572
3331,6705,13505,"Neotoma","Head Lake","HEADLAKE",37.71109,-105.740635,2300,"not known","lake","core","6","Jodry, M.A., D.S. Shafer, D.J. Stanford, and O.K. Davis. 1989. Late Quaternary environments and human adaptation in the San Luis Valley, south-central Colorado. Pages 189-208 in E.J. Harmon, editor. Water in the valley: a 1989 perspective on water supplies, issues, and solutions in the San Luis Valley, Colorado. Colorado Ground-Water Association Guidebook, Eighth Annual Field Trip, August 19-20, 1989.; Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,22,"steppe",0.310780831200997,2831.50553572922,6.67691605414061,-5.3785975405772,18.8098127600211,362.987879217572
3332,6706,12689,"Neotoma","Headwaters Lake","HEADWATR",67.933333,-155.05,820,"not known","lake","core","0","Brubaker, L.B., H.L. Garfinkel, and M.E. Edwards. 1983. A late Wisconsin and Holocene vegetation history from the central Brooks Range: implications for Alaskan palaeoecology. Quaternary Research 20:194-214.",,31,"tundra",0.617729218857775,595.26718576881,-10.9089424240237,-26.3720558409157,7.57048916362835,184.300023844142
3333,6707,12690,"Neotoma","Healy Lake","HEALY",64,-144.75,343,"not known","lake","core","1","Ager, T.A. 1975. Late Quaternary environmental history of the Tanana Valley, Alaska. Institute of Polar Studies Report 54. Ohio State University, Columbus, Ohio, USA.; Ager, T.A. 1972. Surficial geology and Quaternary history of the Healy Lake area, Alaska. Thesis. Department of Geology, University of Alaska, Fairbanks, Alaska, USA.; Anderson, J.H. 1975. A palynological study of late Holocene vegetation and climate in the Healy Lake Area of Alaska. Arctic 28:62-69.",,15,"cold evergreen needleleaf forest",0.516589736206154,1618.61801901048,-3.6729937645183,-22.0225013821604,14.8027810260731,224.173408903828
3333,6708,17382,"Neotoma","Healy Lake","TW089",44.43,-86,251,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.975361266645446,3114.51334394013,6.78549911688935,-7.8474854497615,20.3417519872312,802.311605917865
3334,6709,15727,"Neotoma","Heart Lake","HART_C90",44.18236,-73.96963,661,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.42284332537922,2546.8366713711,4.54659376877915,-9.95902683933929,17.6372709366517,1074.02819863546
3334,6710,12513,"Neotoma","Heart Lake","HEARTNY",44.18236,-73.96963,661,"not known","lake","core","0","Whitehead, D.R., and S.T. Jackson. 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.42284332537922,2546.8366713711,4.54659376877915,-9.95902683933929,17.6372709366517,1074.02819863546
3335,6711,15737,"Neotoma","Heavens Lake [Long Pond (TL)]","LNGT_C90",44.131155,-74.42531,601,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.37705104417998,2637.54479404938,4.88513463008168,-9.73692952159306,18.0700619430841,1053.29714403011
3336,6712,12691,"Neotoma","Hebron Lake","HEBRON",58.2,-63.033333,170,"not known","lake","core","0","Lamb, H.F. 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. Journal of Ecology 72:37-59.; Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.",,31,"tundra",1.92747833217186,828.994723561171,-4.92286888780795,-19.8095994874647,9.06850573319193,782.484715405954
3336,6713,15859,"Neotoma","Hebron Lake","HFL71",58.2,-63.033333,170,"not known","lake","surface sample","Modern","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.",,31,"tundra",1.92747833217186,828.994723561171,-4.92286888780795,-19.8095994874647,9.06850573319193,782.484715405954
3337,6714,12692,"Neotoma","Hedrick Pond","HEDRICK",43.75,-110.6,2073,"not known","lake","core","0","Steventon, R.L., and J.E. Kutzbach. 1988. University of Wisconsin radiocarbon dates XXV. Radiocarbon 30:367-383.; Whitlock, C. 1993. Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63:173-198.; Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.",,17,"temperate evergreen needleleaf open woodland",0.498816658480387,2224.54187194732,4.01528664099719,-7.97969827805474,16.8540951451905,461.593844156486
3338,6715,3029,"CMPD","Heihe River Basin","Heihe River Basin 002",39.33,99.7,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106597492956013,3438.41934173006,7.292588823921,-9.62076385825769,21.7017106195022,119.893456788091
3338,6716,3030,"CMPD","Heihe River Basin","Heihe River Basin 005",39.21,99.98,1422,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114912216543772,3323.79260385612,6.91000521119279,-9.82051715493912,21.1971874572473,127.738963029293
3338,6717,3031,"CMPD","Heihe River Basin","Heihe River Basin 008",39.08,100.43,1442,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.118687626734563,3285.13753895753,6.75070408822834,-9.98406326360964,21.1261093535713,131.480576652617
3338,6718,3032,"CMPD","Heihe River Basin","Heihe River Basin 009",39,100.43,1456,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.119564988972642,3258.1600830267,6.65926968653322,-10.0279527782168,20.9966749273277,132.282699681928
3338,6719,3033,"CMPD","Heihe River Basin","Heihe River Basin 013",39.16,100.11,1530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11822787957139,3157.86262087184,6.29729661236353,-10.2551182698223,20.4755459775281,130.136027851453
3338,6720,3034,"CMPD","Heihe River Basin","Heihe River Basin 015",38.89,100.72,1546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123781475019086,3115.3909966558,6.13985082489809,-10.3654839200202,20.3714062216996,135.73172812173
3338,6721,3035,"CMPD","Heihe River Basin","Heihe River Basin 016",38.93,100.32,1549,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.122266425120981,3118.58549196579,6.15585258836118,-10.3462537818444,20.3471773124569,134.234870944233
3338,6722,3036,"CMPD","Heihe River Basin","Heihe River Basin 017",38.89,100.72,1557,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.124121293043084,3099.66007792903,6.08208004384997,-10.4034437472209,20.2992370601502,135.974525205178
3338,6723,3037,"CMPD","Heihe River Basin","Heihe River Basin 018",39.78,98.33,1593,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0907288170226961,3122.93821724683,6.08699852224461,-10.4457795812298,20.3003663491351,100.93685258943
3338,6724,3038,"CMPD","Heihe River Basin","Heihe River Basin 019",39.35,99.08,1609,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104514936903744,3099.51348324555,6.03292352640442,-10.4851511031676,20.1541609114352,115.800643051751
3338,6725,3039,"CMPD","Heihe River Basin","Heihe River Basin 020",37.99,102.51,1615,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.173457020309761,3088.43686181947,6.33281927324165,-9.35675025946262,20.1416682372426,187.89896802596
3338,6726,3040,"CMPD","Heihe River Basin","Heihe River Basin 023",39.94,97.71,1784,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0786874740122881,2877.89276869679,5.12504640845524,-11.138993509663,19.231915901043,86.5630708480899
3338,6727,3041,"CMPD","Heihe River Basin","Heihe River Basin 024",37.6,102.87,1848,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.222672415372341,2837.01461751291,5.65155808782095,-9.16810943638245,18.6771180365457,236.171809201662
3338,6728,3042,"CMPD","Heihe River Basin","Heihe River Basin 027",38.31,100.9,2010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.151485629348328,2455.28462954635,3.77517061810825,-11.5944203978374,17.1708041185998,159.031008723411
3338,6729,3043,"CMPD","Heihe River Basin","Heihe River Basin 032",38.47,101.43,2435,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179583352724561,2014.16631647312,2.13958639037241,-12.3685312805643,14.9055491672881,182.53333903412
3338,6730,3044,"CMPD","Heihe River Basin","Heihe River Basin 033",38.3,100.9,2586,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.175938155331443,1793.03802332537,1.15641644030446,-13.2143124446509,13.76186295112,176.514265185521
3338,6731,3045,"CMPD","Heihe River Basin","Heihe River Basin 034",38.22,100.12,2666,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.1709297342028,1676.27059527375,0.582797233485315,-13.808152390216,13.1225477167934,170.597174582565
3338,6732,3046,"CMPD","Heihe River Basin","Heihe River Basin 035",37.18,101.55,2760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.266826132821898,1962.3471718838,2.51718087817307,-10.8577409593731,14.0700717941718,273.276593851021
3338,6733,3047,"CMPD","Heihe River Basin","Heihe River Basin 036",38.25,100.92,2782,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.187486675043502,1562.78972814588,0.221148187010655,-13.7314864555606,12.4938612307644,184.498271129578
3338,6734,3048,"CMPD","Heihe River Basin","Heihe River Basin 037",37.23,102.85,2791,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.29909456133193,1927.11127564128,2.54049272377834,-10.3220368537687,13.8532582814277,302.712657753516
3338,6735,3049,"CMPD","Heihe River Basin","Heihe River Basin 038",38.16,100.27,2837,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183363670285651,1507.91971541391,-0.0997690125314864,-14.1499015785204,12.1928538534818,180.515581973689
3338,6736,3050,"CMPD","Heihe River Basin","Heihe River Basin 039",38.25,100.91,2840,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.18982919991646,1503.09964799911,-0.0375099844807174,-13.9003386241301,12.1637723363942,185.964140929497
3338,6737,3051,"CMPD","Heihe River Basin","Heihe River Basin 040",38.25,100.91,2869,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.191067997386016,1473.83892229356,-0.164899692698963,-13.9820443429795,12.0002939650662,186.758545406173
3338,6738,3052,"CMPD","Heihe River Basin","Heihe River Basin 041",37.58,101.4,3143,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245321919980168,1422.21879387845,0.0220384321207561,-13.0571732130211,11.4397258830557,241.93636420737
3338,6739,3053,"CMPD","Heihe River Basin","Heihe River Basin 042",39.33,99.7,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106597492956013,3438.41934173006,7.292588823921,-9.62076385825769,21.7017106195022,119.893456788091
3338,6740,3054,"CMPD","Heihe River Basin","Heihe River Basin 044",39.21,99.98,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114866923980879,3326.76466796182,6.92089805367443,-9.81276102041974,21.2101328588337,127.709982881531
3338,6741,3055,"CMPD","Heihe River Basin","Heihe River Basin 045",39.29,100.29,1435,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.113836925338942,3319.17286745816,6.80803859423862,-10.1143751276803,21.3568735650335,126.679357071704
3338,6742,3056,"CMPD","Heihe River Basin","Heihe River Basin 046",38.83,100.58,1537,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123441853180865,3125.03698058872,6.18353770487882,-10.3164952776229,20.3944250967683,135.521219759484
3338,6743,3057,"CMPD","Heihe River Basin","Heihe River Basin 047",38.89,100.72,1548,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123843203111129,3112.53082961457,6.1293470465257,-10.372385706784,20.3582845559633,135.775873045993
3338,6744,3058,"CMPD","Heihe River Basin","Heihe River Basin 048",38.93,100.32,1549,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.122266425120981,3118.58549196579,6.15585258836118,-10.3462537818444,20.3471773124569,134.234870944233
3338,6745,3059,"CMPD","Heihe River Basin","Heihe River Basin 049",39.78,98.32,1594,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0906661450615491,3121.40576064505,6.08129259897631,-10.4491805060288,20.2933656513407,100.860644039747
3338,6746,3060,"CMPD","Heihe River Basin","Heihe River Basin 052",39.23,99.47,1718,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.116090100564798,2920.72085699121,5.39765178761137,-10.883402177356,19.3391978115636,126.56334204143
3338,6747,3061,"CMPD","Heihe River Basin","Heihe River Basin 053",37.6,102.87,1851,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.222848607875696,2833.79595064844,5.64056660109556,-9.17297803529044,18.6611399151077,236.32043631648
3338,6748,3062,"CMPD","Heihe River Basin","Heihe River Basin 054",38.26,101.9,2023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170301335370324,2553.72883290401,4.26854859106615,-10.913566549586,17.6500076829582,179.629308240648
3338,6749,3063,"CMPD","Heihe River Basin","Heihe River Basin 057",38.43,100.83,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.162146873920614,2112.12186482936,2.42773128057219,-12.4662713109221,15.4441445125512,166.245153512855
3338,6750,3064,"CMPD","Heihe River Basin","Heihe River Basin 059",37.18,101.55,2760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.266826132821898,1962.3471718838,2.51718087817307,-10.8577409593731,14.0700717941718,273.276593851021
3338,6751,3065,"CMPD","Heihe River Basin","Heihe River Basin 060",37.24,101.49,2890,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.26515488922964,1802.60229008856,1.82878935919656,-11.4273223181946,13.2937034014361,269.047686986394
3338,6752,3066,"CMPD","Heihe River Basin","Heihe River Basin 061",37.58,101.4,3143,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245321919980168,1422.21879387845,0.0220384321207561,-13.0571732130211,11.4397258830557,241.93636420737
3338,6753,3067,"CMPD","Heihe River Basin","Heihe River Basin 062",39.08,100.51,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.120320702210189,3213.13374067106,6.48629893810285,-10.1663229340903,20.8116322586485,132.68982060863
3338,6754,3068,"CMPD","Heihe River Basin","Heihe River Basin 063",39.12,100.08,1535,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.118441651127378,3148.64673208705,6.26649783308424,-10.2681380053535,20.4279023517704,130.341869090592
3338,6755,3069,"CMPD","Heihe River Basin","Heihe River Basin 065",38.89,100.72,1548,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123843203111129,3112.53082961457,6.1293470465257,-10.372385706784,20.3582845559633,135.775873045993
3338,6756,3070,"CMPD","Heihe River Basin","Heihe River Basin 066",38.89,100.72,1548,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123843203111129,3112.53082961457,6.1293470465257,-10.372385706784,20.3582845559633,135.775873045993
3338,6757,3071,"CMPD","Heihe River Basin","Heihe River Basin 067",38.79,100.61,1576,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.124957856562054,3066.00264651385,5.96909770305329,-10.4512518051973,20.1237927971904,136.707159326953
3338,6758,3072,"CMPD","Heihe River Basin","Heihe River Basin 068",38.1,102.31,1724,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1756928636693,2948.31682645134,5.82508627723906,-9.67848869079653,19.4779981205189,188.798920181547
3338,6759,3073,"CMPD","Heihe River Basin","Heihe River Basin 069",38.82,101.01,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134342262359298,2844.56046303155,5.1458771945923,-10.9713807650982,19.1609292941211,144.619009344644
3338,6760,3074,"CMPD","Heihe River Basin","Heihe River Basin 070",39.94,97.71,1783,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0786787667178505,2879.23983855632,5.13041649459424,-11.1348130990554,19.2378499969068,86.5605553663374
3338,6761,3075,"CMPD","Heihe River Basin","Heihe River Basin 072",39.84,97.95,1869,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0863475786181218,2745.32005896831,4.60093278096346,-11.5473403416254,18.6256589789262,94.0817032350102
3338,6762,3076,"CMPD","Heihe River Basin","Heihe River Basin 073",39.18,100.79,1889,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136990872032939,2652.55110877984,4.39927549988387,-11.5160804507764,18.2462059696977,145.332751023566
3338,6763,3077,"CMPD","Heihe River Basin","Heihe River Basin 075",38.96,99.8,2094,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.131156855986116,2369.92907644817,3.24515948453667,-12.4039818192595,16.806517545336,137.648170844453
3338,6764,3078,"CMPD","Heihe River Basin","Heihe River Basin 076",38.3,101.74,2152,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170321097681163,2353.49565436354,3.47799690730667,-11.4961541232265,16.6528473298809,177.31309079855
3339,6765,9404,"EMPDv2","Heilige Hallen, small hollow","Mrotzek_b1",53.3281833333333,13.3753194444444,140,"0.00049","terrestrial, bog/fen/swamp","moss polster or moss","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.815673526973304,3411.42169587612,9.29840499294019,-0.54001249351603,18.2060370889244,558.521220816686
3340,6766,19668,"SMPDSv1","Heiliger See","Heiliger See_ss",53.0156,13.872,32,"0.091","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.802572999150381,3205.4311446903,8.68033302764068,-0.883683475643295,17.7639983517525,569.570460519995
3341,6767,3079,"CMPD","Heilongjiang","Heilongjiang HLJ-01",50.5397222222222,127.296388888889,123,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.821191464121688,2588.76276671559,-0.493339064332765,-25.1644826987465,20.5944477676879,566.733098115332
3341,6768,3080,"CMPD","Heilongjiang","Heilongjiang HLJ-02",50.7455555555556,127.206666666667,175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.801731896266909,2548.94148481569,-0.635977177475796,-25.1469794123039,20.3732998140843,552.183785340222
3341,6769,3081,"CMPD","Heilongjiang","Heilongjiang HLJ-03",50.5838888888889,127.198333333333,205,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.793692714537891,2528.25370832153,-0.700824832249247,-25.1202079962661,20.2327977669021,548.44586662186
3341,6770,3082,"CMPD","Heilongjiang","Heilongjiang HLJ-04",50.3169444444444,127.2525,235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.79358641069736,2510.13483810405,-0.77458013635756,-25.1630930760826,20.0975629188323,550.824066815545
3341,6771,3083,"CMPD","Heilongjiang","Heilongjiang HLJ-06-1",48.7216666666667,126.118888888889,380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.69026388722467,2573.96124592711,-0.129684319966987,-24.0548740626913,20.1740051928087,510.581774831241
3341,6772,3084,"CMPD","Heilongjiang","Heilongjiang HLJ-06-2",48.7216666666667,126.118888888889,380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.69026388722467,2573.96124592711,-0.129684319966987,-24.0548740626913,20.1740051928087,510.581774831241
3341,6773,3085,"CMPD","Heilongjiang","Heilongjiang HLJ-07",48.7091666666667,126.120833333333,337,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.673078275462094,2639.60783039775,0.295379128797855,-23.5464975652465,20.4833092542276,502.625435407824
3341,6774,3086,"CMPD","Heilongjiang","Heilongjiang HLJ-09",47.9944444444444,126.759166666667,314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.697760766640451,2696.72837059336,0.750265426313877,-23.0030137463885,20.7003034033272,527.30718821464
3341,6775,3087,"CMPD","Heilongjiang","Heilongjiang HLJ-11",47.4338888888889,128.445277777778,390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.814000711656011,2459.29158951082,-0.302697869733096,-23.8988070071812,19.4910538140012,582.527344200628
3341,6776,3088,"CMPD","Heilongjiang","Heilongjiang HLJ-12",47.7025,128.912777777778,283,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.824288072956891,2549.72629166952,0.229677761044052,-23.2302916360617,19.9366740245694,582.041943860979
3341,6777,3089,"CMPD","Heilongjiang","Heilongjiang HLJ-14",47.41,129.716944444444,313,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.850574786709059,2510.42638377884,0.0660310957675365,-23.2480519167005,19.7518412574942,590.39705629585
3341,6778,3090,"CMPD","Heilongjiang","Heilongjiang HLJ-15",47.3641666666667,130.101388888889,226,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.837450441403792,2683.50198502084,1.04420763313633,-22.0190207179743,20.5877390075679,582.770603040039
3341,6779,3091,"CMPD","Heilongjiang","Heilongjiang HLJ-16",46.7488888888889,132.424166666667,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.854716389334024,3012.58513847113,2.96285188700567,-19.5795647675994,21.8418444772445,603.950276901341
3341,6780,3092,"CMPD","Heilongjiang","Heilongjiang HLJ-17",46.0533333333333,129.33666666666701,135,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.769282869007997,2750.7860132042,1.64029231680207,-21.092503880736,20.7763074903648,561.410108397255
3342,6781,19669,"SMPDSv1","Heimretjonn","Bjune_a230",58.2466666666666,8.28833333333333,30,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69986952417712,2611.48138436107,6.76936497372037,-2.1833483878052,15.8050055515123,1036.80602183436
3343,6782,19670,"SMPDSv1","Heinajarvi (Masug.)","Bjune_a165",67.4333333333333,21.7,354,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16827302816519,1307.93634941948,-1.93997097165004,-15.8705164967856,12.6001257790357,485.878831700287
3344,6783,19671,"SMPDSv1","Heinajarvi (parkal)","Bjune_a161",67.75,22.7,288,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09664760236712,1402.02939384887,-1.59058717386165,-15.7674699466922,13.2812101869077,455.060898421984
3345,6784,19672,"SMPDSv1","Heinlammi","Seppa_b74",60.6,23.88,114,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04600731884556,2192.37197670913,3.82300057878422,-8.29714949565158,16.0433581098088,570.16976727285
3346,6785,3093,"CMPD","Heishawan","Heishawan 1",22.11,113.56,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.46467089662856,8295.43112341977,22.7272085573145,14.6707521070944,28.9980424802469,1894.25627171266
3346,6786,3094,"CMPD","Heishawan","Heishawan 2",22.12,113.57,3,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.46822340236907,8289.52586332134,22.7110297625242,14.658230176968,28.9796248813145,1897.99176170359
3347,6787,3095,"CMPD","Heishiding","Heishiding 1",23.37,111.42,220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44058852856412,7651.3754129915,20.9626723643603,12.1150042081105,28.0398041579269,1728.3691994528
3347,6788,3096,"CMPD","Heishiding","Heishiding 2",23.37,111.42,280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43796061136302,7473.49143172241,20.4753189910203,11.4294832036194,27.7893894372644,1714.39584386905
3347,6789,3097,"CMPD","Heishiding","Heishiding 3",23.37,111.42,380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43360776309373,7177.01812960725,19.663063368787,10.2869481961343,27.3720315694935,1691.10691789612
3348,6790,19673,"SMPDSv1","Helaktjern","Bjune_a58",61.68167011,10.63079359,824,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.37575754595379,1341.98550747624,0.405057633499161,-10.5567538586681,11.1360233193817,666.646048377198
3349,6791,15694,"Neotoma","Helen Chutes","DLEF037",58.18,-65.77,30,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.40809779703877,993.218869953932,-5.5328462606543,-22.6273603840455,10.3866281058159,575.255963323964
3349,6792,15696,"Neotoma","Helen Chutes","DLEF038",58.18,-65.77,30,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.40809779703877,993.218869953932,-5.5328462606543,-22.6273603840455,10.3866281058159,575.255963323964
3349,6793,15695,"Neotoma","Helen Chutes","DLEF039",58.18,-65.77,30,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.40809779703877,993.218869953932,-5.5328462606543,-22.6273603840455,10.3866281058159,575.255963323964
3349,6794,15693,"Neotoma","Helen Chutes","DLEF040",58.18,-65.77,30,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.40809779703877,993.218869953932,-5.5328462606543,-22.6273603840455,10.3866281058159,575.255963323964
3350,6795,13757,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","-52","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3350,6795,13758,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","-15","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3350,6795,13759,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","6","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3350,6795,13760,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","14","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3350,6795,13761,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","-26","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3350,6795,13762,"Neotoma","Hell Hole Lake","HELLHOLE",45.7865649999999,-92.21898,298,"not known","lake","core","22","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41.","10.1007/s10980-007-9133-3",9,"cool mixed forest",0.913835577700448,3118.98870236813,5.77365842441143,-12.1242967666351,20.9615210672151,743.155588495275
3351,6796,15394,"Neotoma","Hell's Kitchen Lake","AMS126",46.18693,-89.702685,488,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6797,15393,"Neotoma","Hell's Kitchen Lake","AMS130",46.18693,-89.702685,488,"not known","lake","surface sample","Modern","Swain, A.M., 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research, 10(1), pp.55-68.","10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12224,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","-10","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12225,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","-1","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12226,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","8","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12227,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","18","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12228,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","27","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12229,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","36","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3351,6798,12230,"Neotoma","Hell's Kitchen Lake","HELLSKIT",46.18693,-89.702685,488,"not known","lake","core","45","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quaternary Research 10(1):55-68.","10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(78)90013-3",9,"cool mixed forest",1.03261984622805,2645.22805920537,3.98345043592754,-12.8036174241433,18.9004996891778,792.958295399317
3352,6799,8676,"EMPDv2","Hellstugubreen","Pardoe_c146",61.35,8.28,1460,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.55718261270142,1022.0157670946,-0.872857736295317,-10.7933737438138,9.12932798680205,774.842141111999
3352,6800,8677,"EMPDv2","Hellstugubreen","Pardoe_c147",61.35,8.28,1440,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.57050828957257,1033.57645173467,-0.800976121272473,-10.7179635552805,9.19512791699386,781.388234318229
3352,6801,8678,"EMPDv2","Hellstugubreen","Pardoe_c148",61.35,8.28,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.59717635182113,1056.91550326219,-0.657212891226786,-10.5671431782139,9.32672777737748,794.480420730689
3352,6802,8679,"EMPDv2","Hellstugubreen","Pardoe_c149",61.35,8.28,1380,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.61051865858389,1068.63945372708,-0.585331276203942,-10.4917329896806,9.3925277075693,801.026513936919
3352,6803,8680,"EMPDv2","Hellstugubreen","Pardoe_c150",61.35,8.28,1360,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62386688125426,1080.4514948319,-0.513449661181099,-10.4163228011473,9.45832763776111,807.572607143149
3353,6804,17319,"Neotoma","Helmet","TW021D",46,-89.7,502,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03299022565174,2645.19105910772,3.97338512448376,-12.8189409700798,18.9079929032983,795.431135140093
3354,6805,12693,"Neotoma","Helmetta Bog","HELMETTA",40.383333,-74.433333,15,"not known","terrestrial, bog/fen/swamp","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.16127923546889,4388.95606263749,11.9352833804352,-0.854421088719099,23.9072193975694,1138.47030131095
3354,6805,12694,"Neotoma","Helmetta Bog","HELMETTA",40.383333,-74.433333,15,"not known","terrestrial, bog/fen/swamp","core","33","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.16127923546889,4388.95606263749,11.9352833804352,-0.854421088719099,23.9072193975694,1138.47030131095
3355,6806,13535,"Neotoma","Hemlock Hollow","HEMLKHOL",42.5375,-72.178,348,"not known","small hollow","core","-38","Foster, D.R., and T.M. Zebryk. 1993. Long-term vegetation dynamics and disturbance history of a Tsuga-dominated forest in New England. Ecology 74(4):982-998.; Zebryk, T.M. 1991. Holocene development of a forested wetland in central Massachusetts. Master's thesis. Harvard University, Cambridge, Massachusetts, USA.; Zebryk, T.M., and D.R. Foster. 2003. Harvard Forest HF100: Holocene development of a forested wetland in central Massachusetts from 12500 BP to present. http://harvardforest.fas.harvard.edu:8080/exist/xquery/data.xq?id=hf100.",,9,"cool mixed forest",1.33945924785042,3132.95002108995,7.02995305164935,-7.43672527658448,20.1838294554841,1098.33816828774
3355,6806,13536,"Neotoma","Hemlock Hollow","HEMLKHOL",42.5375,-72.178,348,"not known","small hollow","core","-2","Foster, D.R., and T.M. Zebryk. 1993. Long-term vegetation dynamics and disturbance history of a Tsuga-dominated forest in New England. Ecology 74(4):982-998.; Zebryk, T.M. 1991. Holocene development of a forested wetland in central Massachusetts. Master's thesis. Harvard University, Cambridge, Massachusetts, USA.; Zebryk, T.M., and D.R. Foster. 2003. Harvard Forest HF100: Holocene development of a forested wetland in central Massachusetts from 12500 BP to present. http://harvardforest.fas.harvard.edu:8080/exist/xquery/data.xq?id=hf100.",,9,"cool mixed forest",1.33945924785042,3132.95002108995,7.02995305164935,-7.43672527658448,20.1838294554841,1098.33816828774
3355,6806,13537,"Neotoma","Hemlock Hollow","HEMLKHOL",42.5375,-72.178,348,"not known","small hollow","core","33","Foster, D.R., and T.M. Zebryk. 1993. Long-term vegetation dynamics and disturbance history of a Tsuga-dominated forest in New England. Ecology 74(4):982-998.; Zebryk, T.M. 1991. Holocene development of a forested wetland in central Massachusetts. Master's thesis. Harvard University, Cambridge, Massachusetts, USA.; Zebryk, T.M., and D.R. Foster. 2003. Harvard Forest HF100: Holocene development of a forested wetland in central Massachusetts from 12500 BP to present. http://harvardforest.fas.harvard.edu:8080/exist/xquery/data.xq?id=hf100.",,9,"cool mixed forest",1.33945924785042,3132.95002108995,7.02995305164935,-7.43672527658448,20.1838294554841,1098.33816828774
3356,6807,14070,"Neotoma","Hemlock Lake","HEMLOCK",46.3073,-91.19829,412,"not known","lake","core","-29","Davis, M., C. Douglas, R. Calcote, K.L. Cole, M.G. Winkler, and R. Flakne. 2000. Holocene climate in the western Great Lakes national parks and lakeshores: implications for future climate change. Conservation Biology 14(4):968-983.","10.1046/j.1523-1739.2000.99219.x",9,"cool mixed forest",0.987054316115972,2736.97882545755,4.31090854660691,-13.0378338876886,19.2815973954673,765.29552152198
3356,6807,14071,"Neotoma","Hemlock Lake","HEMLOCK",46.3073,-91.19829,412,"not known","lake","core","-2","Davis, M., C. Douglas, R. Calcote, K.L. Cole, M.G. Winkler, and R. Flakne. 2000. Holocene climate in the western Great Lakes national parks and lakeshores: implications for future climate change. Conservation Biology 14(4):968-983.","10.1046/j.1523-1739.2000.99219.x",9,"cool mixed forest",0.987054316115972,2736.97882545755,4.31090854660691,-13.0378338876886,19.2815973954673,765.29552152198
3356,6807,14072,"Neotoma","Hemlock Lake","HEMLOCK",46.3073,-91.19829,412,"not known","lake","core","26","Davis, M., C. Douglas, R. Calcote, K.L. Cole, M.G. Winkler, and R. Flakne. 2000. Holocene climate in the western Great Lakes national parks and lakeshores: implications for future climate change. Conservation Biology 14(4):968-983.","10.1046/j.1523-1739.2000.99219.x",9,"cool mixed forest",0.987054316115972,2736.97882545755,4.31090854660691,-13.0378338876886,19.2815973954673,765.29552152198
3357,6808,12695,"Neotoma","Hemo Pond","HEMOPOND",47.133,-95.47461,499,"not known","lake","core","-13","Unpublished data",,9,"cool mixed forest",0.863424542337437,2918.73519176391,4.39059861615414,-14.7400364405468,20.1977350945979,691.448946584625
3357,6808,12696,"Neotoma","Hemo Pond","HEMOPOND",47.133,-95.47461,499,"not known","lake","core","6","Unpublished data",,9,"cool mixed forest",0.863424542337437,2918.73519176391,4.39059861615414,-14.7400364405468,20.1977350945979,691.448946584625
3357,6808,12697,"Neotoma","Hemo Pond","HEMOPOND",47.133,-95.47461,499,"not known","lake","core","29","Unpublished data",,9,"cool mixed forest",0.863424542337437,2918.73519176391,4.39059861615414,-14.7400364405468,20.1977350945979,691.448946584625
3358,6809,19674,"SMPDSv1","Hemsjon","Seppa_b166",59.13,14.58,120,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0353399689994,2324.40106985701,5.2181351834352,-4.74189142061664,15.5414564796831,618.433198741902
3359,6810,19675,"SMPDSv1","Hemtrasket","Seppa_b69",60.07,23.47,10,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0469007815155,2401.2332142752,5.2081637031087,-5.77041722775339,16.3832068563683,605.000358873846
3360,6811,3098,"CMPD","Hengduan Mt","Hengduan Mt 01",30.14885,101.85718,3780,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.670491500333457,2260.12257446585,5.56285488953059,-3.53595057744814,13.2782503693425,742.009800374884
3360,6812,3099,"CMPD","Hengduan Mt","Hengduan Mt 02",30.1837,101.87301,3389,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.716999188545899,2628.45006744881,6.86162549915185,-2.30697493890148,14.7027201136155,789.258167012359
3360,6813,3100,"CMPD","Hengduan Mt","Hengduan Mt 03",30.0775,101.7966,4211,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.620737438652591,1879.35090949624,4.12607229060297,-4.88876667530879,11.6916549814435,690.913001285692
3360,6814,3101,"CMPD","Hengduan Mt","Hengduan Mt 04",29.47171,100.2095,4610,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.56756254386402,1115.07302635995,0.393535259285824,-8.85863593868854,8.34138041384402,605.808139621233
3360,6815,3102,"CMPD","Hengduan Mt","Hengduan Mt 05",29.46102,100.19608,4598,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.569106368374536,1127.31329969984,0.464870158774323,-8.77531222273539,8.40006407884962,608.102954881159
3360,6816,3103,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-01",29.78111,92.39229,4930,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.479665993770589,1019.55821301953,-0.772908403572978,-10.9313692264327,8.35186610971714,543.567861945406
3360,6817,3104,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-02",29.79355,92.3899,5001,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.462794154677688,956.819847808738,-1.20510491567935,-11.4606930688594,8.02728781748594,521.246397655025
3360,6818,3105,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-03",29.79013,92.39249,5001,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.462918911784471,956.868019278358,-1.20414769888664,-11.4585673180249,8.02731178187507,521.410310417706
3360,6819,3106,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-04",30.00712,93.91606,3527,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.6763373666803,2495.95358683318,6.53100397363684,-2.19006556972942,13.9891400537795,825.782487241115
3360,6820,3107,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-05",29.8075,94.4333,4050,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.580294577731961,1765.89429440256,3.56208821423013,-5.56063942941119,11.5771841428467,685.408234381647
3360,6821,3108,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-06",29.82515,94.45615,4132,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565557208150552,1670.89697298262,3.11452210567093,-6.07140238395346,11.2149275487419,664.322795665181
3360,6822,3109,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-07",29.76839,94.6096,4150,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.560746728163872,1641.40472446605,2.98125823217382,-6.20278067700987,11.0939585398596,657.413104144762
3360,6823,3110,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-08",29.75839,94.60837,4077,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.573515571754833,1724.12470378629,3.37552304735358,-5.75366303029927,11.4139132094012,675.609868230529
3360,6824,3111,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-09",29.48565,96.66539,3920,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",31,"tundra",0.659653318923509,1584.92256961869,3.06978340563386,-5.23865762427308,10.5602737009873,744.479053918734
3360,6825,3112,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-10",29.65401,96.71648,4431,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",31,"tundra",0.576541317274053,1039.05788676174,0.235817718457387,-8.26767059806153,8.12093494204158,622.796123956028
3360,6826,3113,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-11",30.3042,99.55,4460,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.540530644843062,1386.24640858777,1.73880718546861,-7.53215020958952,9.77847212639664,595.948164824575
3360,6827,3114,"CMPD","Hengduan Mt","Hengduan Mt 05-LC-12",30.3177,99.555,4480,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.538552571711006,1361.15397347321,1.6119123235936,-7.66697065353569,9.66552503830604,592.732746442685
3360,6828,3115,"CMPD","Hengduan Mt","Hengduan Mt 06",29.45527,100.18899,4613,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.567232446144037,1110.33387650418,0.367607492701707,-8.8857471543567,8.31766203670337,605.257534120767
3360,6829,3116,"CMPD","Hengduan Mt","Hengduan Mt 07",27.90091,99.63504,3263,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.753960465836685,2361.06958015794,6.29968414673665,-1.34792960240388,12.7832594484439,863.088175589918
3360,6830,3117,"CMPD","Hengduan Mt","Hengduan Mt 08",27.82635,99.9769,3547,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.717164423277664,2031.90844314486,5.070136313954,-2.84707707471382,11.7803838729409,808.840108192001
3360,6831,3118,"CMPD","Hengduan Mt","Hengduan Mt 09",27.49598,99.73655,3939,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.682399269269268,1361.77586455056,2.18026906582266,-5.89859399053623,9.2778296049693,733.133250455942
3360,6832,3119,"CMPD","Hengduan Mt","Hengduan Mt 10",27.49737,99.73237,3947,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.681396766965678,1353.35605439474,2.13723463919207,-5.94707708989919,9.2427455037911,731.574795289476
3360,6833,3120,"CMPD","Hengduan Mt","Hengduan Mt 11",27.49631,99.73287,3958,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.680132783027015,1340.67115080829,2.07240140419693,-6.02004006263724,9.18880765702315,729.428093888264
3360,6834,3121,"CMPD","Hengduan Mt","Hengduan Mt 12",27.18318,99.91546,3957,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.701374872367624,1217.53424443449,1.50938763148305,-6.50832594774833,8.57218283627876,739.476723609222
3360,6835,3122,"CMPD","Hengduan Mt","Hengduan Mt 13",26.87641,100.14119,2441,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.798689865481152,4320.19119034133,11.8361402475105,4.86490559723191,17.3715967100895,1000.41492943517
3360,6836,3123,"CMPD","Hengduan Mt","Hengduan Mt 14",26.97889,100.16391,3085,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.760631848982923,2675.75505479312,7.32210763801151,-0.0777768517387191,13.49319683702,888.273631278205
3360,6837,3124,"CMPD","Hengduan Mt","Hengduan Mt 15",26.4879,99.91795,2189,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.818942937050177,5094.22496853101,13.9567807357014,7.0246226525678,19.245669289226502,1063.84481450622
3360,6838,3125,"CMPD","Hengduan Mt","Hengduan Mt 16",25.91751,100.11764,1967,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.822137500320797,5811.50950215116,15.92194384151,8.93018746985323,20.9889804720802,1104.40240580014
3360,6839,3126,"CMPD","Hengduan Mt","Hengduan Mt 17",25.64223,100.27161,1960,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.808312632323734,5773.7087421819,15.8183801155668,8.83896592689756,20.8674041311172,1084.31045348941
3360,6840,3127,"CMPD","Hengduan Mt","Hengduan Mt 19",25.68153,100.64532,1620,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811498359539048,6751.16665912966,18.4963470113141,11.4211043092529,23.3557571431226,1122.56417717121
3360,6841,3128,"CMPD","Hengduan Mt","Hengduan Mt 20",26.49167,100.67876,1504,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.806865662894878,7206.96026450496,19.7450966150821,12.7695550337145,24.6715587270936,1129.79267673095
3360,6842,3129,"CMPD","Hengduan Mt","Hengduan Mt 21",27.72597,100.73882,2746,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.754294573922646,3738.62374940326,10.2428047928857,2.85871890035688,16.1737231482579,916.062166588756
3360,6843,3130,"CMPD","Hengduan Mt","Hengduan Mt 22",27.73455,100.72696,2770,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.753409651303686,3680.56812582359,10.0837482899276,2.68610721082864,16.0350817411734,912.859352485897
3360,6844,3131,"CMPD","Hengduan Mt","Hengduan Mt 23",27.73968,100.71982,2777,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.753200754523198,3663.20153667062,10.0361685936181,2.63493554462487,15.9933889578423,911.938776171582
3360,6845,3132,"CMPD","Hengduan Mt","Hengduan Mt 24",27.71231,100.74948,2700,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.756155728552879,3847.8254451543,10.5419875209707,3.18515719920139,16.4335557657149,922.276220222297
3360,6846,3133,"CMPD","Hengduan Mt","Hengduan Mt 25",27.81719,102.29305,1500,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.878658151905276,5359.26372779111,14.6829143227154,6.10873765522015,21.8452016111739,1035.29031907906
3360,6847,3134,"CMPD","Hengduan Mt","Hengduan Mt 26",29.15319,101.406,3705,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.696326405709695,2202.00048399911,5.51872615546689,-3.01389046724372,12.688375490363,779.517202723681
3360,6848,3135,"CMPD","Hengduan Mt","Hengduan Mt 27",29.13947,101.44865,4398,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.638887494786459,1439.03702751626,2.39092405116561,-6.2258217224247,9.58693158853719,699.268412935665
3360,6849,3136,"CMPD","Hengduan Mt","Hengduan Mt 28",29.13721,101.44476,4408,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.638084481160066,1428.27121112011,2.34092056200422,-6.27734867824443,9.53769347979398,698.06713967993
3360,6850,3137,"CMPD","Hengduan Mt","Hengduan Mt 29",29.13614,101.43951,4590,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.622950251691778,1254.59199865471,1.50799666069128,-7.1346044482402,8.7138686030375,676.790277144719
3360,6851,3138,"CMPD","Hengduan Mt","Hengduan Mt 30",29.13374,101.43804,4631,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.619563902136662,1216.64497678718,1.31857151554835,-7.32933787252989,8.52643732267195,672.007429155707
3360,6852,3139,"CMPD","Hengduan Mt","Hengduan Mt 31",29.32833,101.33033,3600,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.700791517217401,2341.63192440652,5.97163302130858,-2.74069424247184,13.3352209725766,783.058616529277
3360,6853,3140,"CMPD","Hengduan Mt","Hengduan Mt 32",29.32559,101.33027,3603,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.700527629782178,2337.90910147384,5.95845342633629,-2.75319889743147,13.3210029114819,782.742506667816
3361,6854,3141,"CMPD","Hengkungaosu","Hengkungaosu",26.81,112.58,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.24647057194264,6426.751604042,17.607538641211,5.42649733267303,29.3226868261678,1403.54738014416
3362,6855,11825,"Neotoma","Henrys Fork (lower exposure)","SS-HF1-1",40.8214,-110.38196,3100,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.708532490176006,1230.07603638051,-0.419156515929888,-10.6928658410284,11.3771900242264,654.231114116507
3362,6856,11826,"Neotoma","Henrys Fork (lower exposure)","SS-HF1-2",40.8214,-110.38196,3100,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.708532490176006,1230.07603638051,-0.419156515929888,-10.6928658410284,11.3771900242264,654.231114116507
3362,6857,11827,"Neotoma","Henrys Fork (lower exposure)","SS-HF1-4",40.8214,-110.38196,3100,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.708532490176006,1230.07603638051,-0.419156515929888,-10.6928658410284,11.3771900242264,654.231114116507
3363,6858,11828,"Neotoma","Henrys Fork (upper exposure)","SS-HF2-1",40.80042,-110.36052,3550,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.901447991331147,755.534436980702,-2.82086693589787,-12.0177247904646,8.28211097760634,784.989803810677
3363,6859,11830,"Neotoma","Henrys Fork (upper exposure)","SS-HF2-2",40.80042,-110.36052,3550,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.901447991331147,755.534436980702,-2.82086693589787,-12.0177247904646,8.28211097760634,784.989803810677
3363,6860,11829,"Neotoma","Henrys Fork (upper exposure)","SS-HF2-4",40.80042,-110.36052,3550,"not known","terrestrial","surface sample","-48","Munroe, J.S. 2001. Late Quaternary history of the northern Uinta Mountains, northeastern Utah. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,22,"steppe",0.901447991331147,755.534436980702,-2.82086693589787,-12.0177247904646,8.28211097760634,784.989803810677
3364,6861,3142,"CMPD","Heqiao","Heqiao",31.5,119.9,51,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06088846717075,5651.86231236625,15.4845542804555,2.88227963914029,27.7159581459949,1171.01613043712
3365,6862,3143,"CMPD","Heqing","Heqing",26.46,100.16,2324,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.804007711961752,4731.73686762313,12.9636626510223,5.97836253448257,18.3871176654166,1030.33451119517
3366,6863,19677,"SMPDSv1","Heraklean Peninsula","Crimea-1",44.57,33.39,2,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.505592929384512,4068.79532346169,11.076726289031,-0.686197595910792,22.2032982133769,496.312619522417
3366,6864,19676,"SMPDSv1","Heraklean Peninsula","Crimea-11",44.55,33.73,314,"not applicable","terrestrial, soil","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.614132199476632,3751.997583984,10.1978215373125,-0.736050707195443,20.8932282018807,606.617620426809
3366,6865,19678,"SMPDSv1","Heraklean Peninsula","Crimea-2",44.53,33.46,29,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.513420193439362,4044.27655006183,11.0104188083748,-0.674010256679081,22.100298459473,504.932393304495
3366,6866,19679,"SMPDSv1","Heraklean Peninsula","Crimea-3",44.51,33.58,82,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.529672074300609,3992.64625192254,10.8683924365325,-0.671719724501141,21.8900489393831,522.071677142027
3366,6867,19680,"SMPDSv1","Heraklean Peninsula","Crimea-4",44.52,33.54,195,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.572955632932837,3869.24375165831,10.5223968373824,-0.728513120610313,21.3809870749849,564.78561837295
3366,6868,19681,"SMPDSv1","Heraklean Peninsula","Crimea-5",44.51,33.58,52,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.518402511035941,4025.02013379447,10.9588706143783,-0.658557362427308,22.0233795724292,510.877243434135
3367,6869,7444,"EMPDv2","Herandsvatn","Hjelle_a33",60.3479124,6.3911044,76,"0.17","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.96778069784234,2614.19486481335,7.1621777118174,0.873366062109041,14.0572296904828,2590.05891479094
3368,6870,689,"Australian pollen","Herberton Range","Herberton Range",-17.35,145.45,1130,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.371869494871919,7341.72238521167,20.1143079046895,14.7584753693911,23.9636092217488,699.354083485271
3369,6871,14991,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-52","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14992,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-46","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14993,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-38","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14994,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-34","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14995,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-24","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14996,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","-4","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6871,14997,"Neotoma","Hermit Lake","HERMIT",38.08806,-105.63166,3450,"not known","lake","core","23","Anderson, R.S., H.R. Soltow, and G. Jiménez-Moreno. 2018. Postglacial environmental change of a high-elevation forest, Sangre de Cristo Mountains of south-central Colorado.S.W. Starratt and M.R. Rosen, editors. From saline to freshwater: the diversity of western lakes in space and time. Special Paper 536. Geological Society of America, Boulder, Colorado, USA.","10.1130/2018.2536(13)",17,"temperate evergreen needleleaf open woodland",0.511136607122873,956.182029254253,-2.33275117185713,-14.246820887845,9.20463324053236,486.339837954398
3369,6872,15961,"Neotoma","Hermit Lake","JAMMBD3",44.266667,-71.316667,1160,"not known","lake","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",2.16849733460447,1508.21218057439,-1.31374179064157,-17.0946441545068,12.683267677217,1387.86538829245
3370,6873,19682,"SMPDSv1","Hermodholtjorni","Bjune_a238",59.8083333333333,7.25333333333333,1107,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.94400465893427,1439.71887477135,1.73970099153913,-7.46910508943794,11.1497161789572,1060.54682245498
3371,6874,7018,"EMPDv2","Herrenwieser See","EPDcoretop_E1578",48.669327,8.296398,830,"0.013","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61066054824527,2795.96534483116,7.47381548689067,-1.44575206101056,16.2538668510825,1204.9141323797
3371,6875,7019,"EMPDv2","Herrenwieser See","EPDcoretop_E1579",48.669327,8.296398,830,"0.013","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61066054824527,2795.96534483116,7.47381548689067,-1.44575206101056,16.2538668510825,1204.9141323797
3371,6876,7020,"EMPDv2","Herrenwieser See","Roesch_a5",48.669327,8.296398,830,"0.012","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61066054824527,2795.96534483116,7.47381548689067,-1.44575206101056,16.2538668510825,1204.9141323797
3372,6877,16599,"Neotoma","Herring Pond","MGW003",41.82485,-69.9855,2,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.40339208359164,3945.47481096548,10.5565730615501,-1.8663383126825701,22.4615353393384,1266.49675829327
3373,6878,15529,"Neotoma","Hershop Bog","DAL001",29.583333,-97.608333,124,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Larson, D.A., Bryant, V.M. and Patty, T.S., 1972. Pollen analysis of a central Texas bog. American Midland Naturalist 88(2),pp.358-367.","10.2307/2424360",22,"steppe",0.633364457420329,7548.71242224757,20.6814038965687,10.3754438654903,29.0958452186139,868.245032178952
3374,6879,19683,"SMPDSv1","Hestetjern","Bjune_a125",59.1807916,8.80402723,135,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.82268699025338,2297.35295308523,5.34613278914759,-4.42951962819515,15.1443481927814,1059.92965377277
3375,6880,23187,"SMPDSv1","Hestmyrskogen","Bjune_a32",65.53612636,13.35516623,290,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.98307641993067,1512.94501182303,2.55672707741388,-5.7199684287808,11.6507545428915,1666.18935641132
3376,6881,3144,"CMPD","Heyuan","Heyuan",23.71,114.59,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57670907427635,8216.33686257564,22.510511952262,14.6282510481225,28.6239787562089,2015.29714349966
3377,6882,3145,"CMPD","Hezuo","Hezuo 1",34.62,102.46,3002,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.463922171355825,2111.2476875837,3.84794450190633,-8.4146869132022,13.9883967445034,476.268172661462
3377,6883,3146,"CMPD","Hezuo","Hezuo 2",34.81,102.75,2996,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.449289886310913,2092.63008212052,3.73000136692556,-8.60555319243083,13.9484477124724,461.259911236908
3377,6884,3147,"CMPD","Hezuo","Hezuo 3",34.81,102.75,2996,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.449289886310913,2092.63008212052,3.73000136692556,-8.60555319243083,13.9484477124724,461.259911236908
3377,6885,3148,"CMPD","Hezuo","Hezuo 4",34.94,102.87,3147,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.4641590370908,1963.35965330299,3.27740293076658,-8.82995562495373,13.322274636109,472.499287363528
3378,6886,15862,"Neotoma","HFL02","HFL02",51.583333,-56.75,195,"not known","coastal, lacustrine","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",9,"cool mixed forest",2.13212390094267,1385.19827459385,0.181264921091388,-11.9417496530904,11.8921451090322,1146.60434749926
3379,6887,15863,"Neotoma","HFL03","HFL03",51.5,-57.233333,43,"not known","coastal, lacustrine","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",9,"cool mixed forest",1.92733427058646,1610.94500370446,1.45159076805422,-10.529738409085,12.9912696960475,1070.80838946561
3380,6888,15887,"Neotoma","HFL28","HFL28",54.3,-61.133333,285,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.87865087782387,1253.01063454264,-2.893987427526,-19.0357839985779,12.4202878450019,914.315861349293
3381,6889,15890,"Neotoma","HFL31","HFL31",54.45,-61.283333,295,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.87140040979863,1221.67989148887,-3.1470480328622,-19.3290937493325,12.2412145317395,901.690665081706
3382,6890,15892,"Neotoma","HFL33","HFL33",54.566667,-61.283333,126,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.85151002884397,1251.07576765147,-2.34395011534036,-17.9017449632019,11.9093660123391,890.669897111909
3383,6891,15893,"Neotoma","HFL34","HFL34",54.3,-60.883333,280,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.88077049011334,1262.18246002574,-2.81085424420541,-18.9296434364263,12.4623161956495,917.147248123298
3384,6892,15894,"Neotoma","HFL35","HFL35",55.1,-62.733333,569,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.78936038626177,1042.04069726338,-5.34482944116372,-22.2594023255914,11.5832522585896,818.526247972377
3385,6893,15895,"Neotoma","HFL36","HFL36",55.2,-62.733333,575,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.78659130751634,1033.39865471861,-5.41648329239557,-22.3222049164646,11.5338729614344,813.826600425809
3386,6894,15900,"Neotoma","HFL41","HFL41",54.8,-62.35,587,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.80713387525366,1070.62862635344,-5.22559809542627,-22.248185211422,11.8334136770179,838.521079324696
3387,6895,15901,"Neotoma","HFL42","HFL42",54.816667,-62.383333,578,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.80695145938082,1069.52841203377,-5.19842356132005,-22.1902460106773,11.8064889995134,837.73064057631
3388,6896,15902,"Neotoma","HFL43","HFL43",57.133333,-63.083333,500,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.91559214130594,745.302436805589,-6.40038112269036,-21.9595148185775,8.92197541280685,777.049745927854
3389,6897,15904,"Neotoma","HFL45","HFL45",57.283333,-63.133333,410,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",31,"tundra",1.94297140483602,752.136841783664,-6.02788922447104,-21.315956564384,8.82622465262341,787.424683004855
3390,6898,15905,"Neotoma","HFL46","HFL46",57.333333,-62.8,500,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",31,"tundra",1.95041258152448,702.907893495456,-6.56340500660458,-21.8978860422408,8.53235424806215,779.165637867871
3391,6899,15907,"Neotoma","HFL50","HFL50",56.65,-64.533333,510,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.78963047956004,842.801027577771,-6.28099969491405,-22.6649364912725,9.79084277992593,750.179652957356
3392,6900,15910,"Neotoma","HFL53","HFL53",56.366667,-64.25,460,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.76188115202965,899.533765935667,-5.96946680230175,-22.5318883865724,10.2370857314856,751.537796402258
3393,6901,15913,"Neotoma","HFL56","HFL56",56.166667,-64.416667,470,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.74448890006619,941.810849617365,-5.81901595769007,-22.6275835900812,10.5767460130108,756.040151572074
3394,6902,15921,"Neotoma","HFL64","HFL64",55.05,-63.116667,554,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.76614700074353,1053.27411267833,-5.29439309203865,-22.3132361326172,11.6066416011063,810.656473319468
3395,6903,15923,"Neotoma","HFL66","HFL66",55.4,-63.383333,526,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.75097342593269,994.134028163942,-5.52867112030322,-22.3521598307877,11.0859915939799,784.94806289514
3396,6904,15925,"Neotoma","HFL68","HFL68",57.333333,-62.916667,500,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",31,"tundra",1.9486216456868,703.103724834754,-6.56442560434406,-21.9013326286773,8.53364059270106,778.505895011973
3397,6905,15927,"Neotoma","HFL70","HFL70",57.616667,-62.666667,150,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.96151918912622,885.858712655901,-4.48136264159572,-19.4462976567646,9.47022143321964,817.252409137661
3398,6906,15928,"Neotoma","HFL72","HFL72",54.333333,-62.883333,450,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.81752044330743,1143.89189815161,-4.41457972448717,-21.3278526182178,12.0833788358582,864.008514144129
3399,6907,15929,"Neotoma","HFL74","HFL74",54.383333,-61.116667,305,"not known","lake","surface sample","Modern","Lamb, H.F., 1984. Modern pollen spectra from Labrador and their use in reconstructing Holocene vegetational history. The Journal of Ecology, pp.37-59. Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.","10.2307/2260005",15,"cold evergreen needleleaf forest",1.88386511748521,1242.20869353605,-3.01853185401107,-19.2118922794413,12.3974379014935,913.842839240758
3400,6908,16705,"Neotoma","Hidden Forest","PWD15",41.291667,-70.008333,6,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41207198665738,3972.69535349081,10.6756226140109,-1.61515227925038,22.4127777985892,1285.41707897212
3401,6909,12699,"Neotoma","Hidden Lake","HIDDEN",63.94,-144.658333,365,"not known","lake","core","36","Ager, T.A. 1983. Holocene vegetational history of Alaska. Pages 128-141 in H.E. Wright, Jr., editor. Late-Quaternary Environments of the United States. Volume 2. The Holocene. University of Minnesota Press. Minneapolis, Minnesota, USA.; Ager, T.A., and J.D. Sims. 1984. Postglacial pollen and tephra records from lakes in the Cook Inlet region, southern Alaska. Pages 103-105 in W.L. Conrad and R.L. Elliot, editors. The United States Geological Survey in Alaska: Accomplishments During 1981. U.S. Geological Survey Circular 868.; Ager, T.A., and L.B. Brubaker. 1985. Quaternary palynology and vegetational history of Alaska. Pages 353-384 in V.M. Bryant, Jr. and R.G. Holloway, editors. Pollen records of late Quaternary North American sediments. American Association of Stragigraphic Palynologists Foundation, Dallas, Texas, USA.; Rymer, M.J., and J.D. Sims. 1982. Lake-sediment evidence for the date of deglaciation of the Hidden Lake area, Kenai Peninsula, Alaska. Geology 10:314-316.",,15,"cold evergreen needleleaf forest",0.518428884529242,1589.25973896883,-3.79358722424181,-22.0896014312574,14.6093298281368,224.68554845765
3401,6910,14975,"Neotoma","Hidden Lake","HIDDENCO",40.504665,-106.60754,2704,"not known","lake","core","44","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.474902436019071,1721.84136520841,1.74929594129238,-9.84824768221166,13.9937589065786,458.196525368006
3402,6911,690,"Australian pollen","Hidden Swamp","Hidden Swamp_HS78",-37.9667,147.7,2,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.733259781634038,5154.19114524419,14.121071630806,9.12347993187215,19.2146888345747,764.421201784467
3403,6912,19685,"SMPDSv1","Hieres sur Amby","EPDcoretop_E1060",45.790833,5.283333,410,"0.06","terrestrial, bog/fen/swamp","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.00683931993637,3738.52319434935,10.2425292995872,1.6022455498807,19.2793554314987,912.649052028034
3403,6913,19684,"SMPDSv1","Hieres sur Amby","EPDcoretop_E59",45.790833,5.283333,410,"0.6","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.00683931993637,3738.52319434935,10.2425292995872,1.6022455498807,19.2793554314987,912.649052028034
3404,6914,10578,"BIOME6000 Japan","Higashiterayama","D12007",35.616667,140.133333,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.59515350882998,5402.81959617374,14.8022454689691,4.53192870656964,26.0380650964524,1565.66469844807
3405,6915,17385,"Neotoma","Higgins Lake","TW092",44.43,-84.7,349,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.94505155265123,2992.05992456958,6.38506936985703,-7.78587343988776,19.8160618340216,769.779001772995
3406,6916,12700,"Neotoma","High Lake","HIGHLAKE",44.516667,-76.6,192,"not known","lake","core","0","Fuller, J.L. 1995. Holocene forest dynamics in Southern Ontario, Canada. Dissertation. University of Cambridge, Cambridge, U.K.; Fuller, J.L. 1997. Holocene forest dynamics in southern Ontario, Canada: fine-resolution pollen data. Canadian Journal of Botany 75:1714-1727..; Fuller, J.L. 1998. Ecological impact of the mid-Holocene hemlock decline in southern Ontario, Canada. Ecology 79:2337-2351.",,9,"cool mixed forest",1.11601183350021,3041.7558536743,6.17256715353502,-9.50335481124247,20.1659368916167,914.061780611588
3407,6917,19686,"SMPDSv1","Hiirlampi","Seppa_b73",60.503846,24.137851,82,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05403180478863,2253.17071971671,4.21765076995191,-7.60585656911728,16.1717139627758,585.413103000826
3408,6918,10599,"BIOME6000 Japan","Hijikura","D20007",36.766667,137.9,980,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.84375571760516,3373.43784338294,8.53346883491931,-3.80735796946867,21.4456137033325,1583.29146620382
3409,6919,17327,"Neotoma","Hilbert","TW030",45.7,-88.4,468,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03216563267305,2597.44997325851,3.84032811342402,-12.7164871863499,18.6391416060434,789.838483309189
3410,6920,15267,"Neotoma","Hillsbor","AMD034",43.72,-90.38,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.934215111112533,3275.87564584452,6.60643899876371,-10.7215277656865,21.4414720160397,802.524467175868
3411,6921,19687,"SMPDSv1","Hiltusenjarvi","Seppa_b21",65.72,28.68,248,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29380943177725,1574.4656205805,-0.325082132741989,-14.4057573810055,14.30849913295,559.084151658573
3412,6922,85,"APD","Hima - Kibale","HIMAKIBA_0",0.883333333333333,30.0111111111111,1480,"not known","not known","not known","modern","Nakimera, I., 2001. The impact of human activities and climate on the vegetation in the Lake Victoria region and on the Rwenzori mountain and its neighbourhood. Unpublished PhD Thesis, Makerere University, 339p.",,2,"tropical semi-evergreen broadleaf forest",0.897919591932221,7248.15385449219,19.857955765732,19.1630262232094,20.5757183923059,1268.15732602771
3413,6923,691,"Australian pollen","Hinchinbrook Channel","H1",-18.4687,146.1633,6,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6924,692,"Australian pollen","Hinchinbrook Channel","H10",-18.4147,143.2128,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6925,693,"Australian pollen","Hinchinbrook Channel","H11",-18.4172,146.2137,6,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6926,694,"Australian pollen","Hinchinbrook Channel","H12",-18.4085,146.2354,2,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6927,695,"Australian pollen","Hinchinbrook Channel","H13",-18.4088,146.2366,3,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6928,696,"Australian pollen","Hinchinbrook Channel","H14",-18.4136,146.2392,4,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6929,697,"Australian pollen","Hinchinbrook Channel","H15",-18.4139,146.2383,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6930,698,"Australian pollen","Hinchinbrook Channel","H16",-18.4214,146.243,4,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6931,699,"Australian pollen","Hinchinbrook Channel","H17",-18.4227,146.2444,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6932,700,"Australian pollen","Hinchinbrook Channel","H18",-18.4294,146.2483,6,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6933,701,"Australian pollen","Hinchinbrook Channel","H2",-18.4667,146.1658,3,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6934,702,"Australian pollen","Hinchinbrook Channel","H3",-18.4652,146.1667,2,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6935,703,"Australian pollen","Hinchinbrook Channel","H4",-18.4621,146.1693,3,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6936,704,"Australian pollen","Hinchinbrook Channel","H5",-18.4599,146.1683,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6937,705,"Australian pollen","Hinchinbrook Channel","H6",-18.4573,146.1573,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6938,706,"Australian pollen","Hinchinbrook Channel","H7",-18.4353,146.1717,5,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6939,707,"Australian pollen","Hinchinbrook Channel","H8",-18.4488,146.1831,6,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3413,6940,708,"Australian pollen","Hinchinbrook Channel","H9",-18.4584,146.2,6,"not applicable","marine","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
3414,6941,14976,"Neotoma","Hinman Lake","HINMAN",40.77162,-106.82759,2501,"not known","lake","core","-45","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.429283865082051,1972.3811272581,2.83694438325443,-9.08092044283256,15.4505338378631,420.748093598343
3414,6941,14977,"Neotoma","Hinman Lake","HINMAN",40.77162,-106.82759,2501,"not known","lake","core","-14","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.429283865082051,1972.3811272581,2.83694438325443,-9.08092044283256,15.4505338378631,420.748093598343
3415,6942,19688,"SMPDSv1","Hinnusjarvi","Seppa_b66",60.9,28.2,45,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03098718706897,2332.2889401798,4.12566269659633,-9.03003307441751,17.0425642029238,582.284452093759
3416,6943,19691,"SMPDSv1","Hinterburgseeli","CH/WVDK/HIN",46.717053,8.065787,1525,"not applicable","terrestrial","pollen trap","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.27621157997133,1810.02384034618,4.09597957899398,-3.828521444165,12.3716064651664,1737.23007472402
3416,6944,19689,"SMPDSv1","Hinterburgseeli","EPDcoretop_E1105",46.430556,8.040556,1510,"not known","not known","core top","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21703298381977,1857.43834273313,4.27423037275397,-3.70160744657093,12.6072340123208,1717.66389809372
3416,6945,19690,"SMPDSv1","Hinterburgseeli","Knaap_a71",46.717053,8.065787,1525,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.27621157997133,1810.02384034618,4.09597957899398,-3.828521444165,12.3716064651664,1737.23007472402
3417,6946,19692,"SMPDSv1","Hipper Sick","EPDcoretop_E1022",53.216064,-1.532455,320,"not known","terrestrial, blanket bog","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.31250275914286,2878.45956003762,7.88619057544553,2.22852435169795,14.2295170288102,1325.86419193105
3418,6947,11540,"Neotoma","Hippie 1 Pond","FH-22",38.10608,-96.45788,477,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.654200384623118,4821.80776454703,12.9412202074471,-2.28190322592205,26.9488329020593,753.429025593584
3419,6948,11541,"Neotoma","Hippie 2 Pond","FH-24",38.127245,-96.480785,472,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.658810128921582,4829.48471097316,12.9691574228472,-2.23903191028213,26.9555798279576,758.629799783814
3420,6949,19693,"SMPDSv1","Hisarkoy","Bakker_b22",37.6220166666666,30.7254666666666,837,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.437004751311396,5084.4013038221,13.929866585814,4.3120301696319,23.8322111081245,623.694609788579
3421,6950,19694,"SMPDSv1","Histol","Bjune_a197",58.3266666666666,7.785,245,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.20062750823475,2264.86574570498,5.49135867756498,-3.56239259826708,14.5870651588801,1305.11709138754
3422,6951,19695,"SMPDSv1","Hive Garn Bottom","Grant_a10",50.933835,-1.720603,85,"0.045","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.16750492180944,3538.36963849214,9.69416339312916,3.95793306791011,16.2524690504035,789.593731098425
3423,6952,9615,"Gaillard et al., 1992","Hjallarod","Hjallarod A",56.046025,13.557404,117,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.04542797227194,2672.97523729014,6.95293186999882,-2.02330239262877,16.0610444110565,684.965532589376
3423,6953,9616,"Gaillard et al., 1992","Hjallarod","Hjallarod B",56.046025,13.557404,117,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.04542797227194,2672.97523729014,6.95293186999882,-2.02330239262877,16.0610444110565,684.965532589376
3424,6954,7409,"EMPDv2","Hjalmsstadir","Hallsdottir_a1",64.23888,-20.680722,80,"not applicable","terrestrial","pollen trap","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.35140735236355,1427.35729158431,3.55368180828819,-1.49684443336944,10.1778054187674,935.319101360427
3424,6955,7410,"EMPDv2","Hjalmsstadir","Hallsdottir_a2",64.23888,-20.680722,80,"not applicable","terrestrial","pollen trap","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.35140735236355,1427.35729158431,3.55368180828819,-1.49684443336944,10.1778054187674,935.319101360427
3424,6956,7411,"EMPDv2","Hjalmsstadir","Hallsdottir_a3",64.23888,-20.680722,80,"not applicable","terrestrial","pollen trap","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.35140735236355,1427.35729158431,3.55368180828819,-1.49684443336944,10.1778054187674,935.319101360427
3425,6957,23175,"SMPDSv1","Hjelmsoya","Bjune_a244",71.0216666666666,24.766666666666602,100,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.9391108616067,1211.26681122262,-0.946693652012538,-12.0101655844986,11.7828356008369,663.269064197139
3426,6958,19696,"SMPDSv1","Hmelevka peatland","hmelevka (CLGZ)_SS",56.3025,33.0325,270,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15023941231093,2428.97818406036,4.13064240409696,-10.151211994621,16.8016670123801,737.61714849789
3426,6959,9420,"EMPDv2","Hmelevka peatland","Novenko_c274",56.3025,33.0325,270,"0.1","terrestrial","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15023941231093,2428.97818406036,4.13064240409696,-10.151211994621,16.8016670123801,737.61714849789
3427,6960,19697,"SMPDSv1","Hoces del Duraton","Lopez_a408",41.3036388888888,-3.86472222222222,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.463448606553143,4181.24078883738,11.4554542159928,3.74637900784995,20.7926499305726,541.541450560108
3427,6961,19698,"SMPDSv1","Hoces del Duraton","Lopez_a409",41.2815277777777,-3.86922222222222,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.462034799756004,4185.11345122641,11.4660642499354,3.75304354825132,20.8130509418614,540.42306287605
3427,6962,19699,"SMPDSv1","Hoces del Duraton","Lopez_a410",41.2870277777777,-3.85463888888888,875,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.45484332453364,4240.68319163105,11.6183101140577,3.88325871609847,20.9677179798684,533.672338043233
3427,6963,19700,"SMPDSv1","Hoces del Duraton","Lopez_a411",41.3472777777777,-3.88205555555555,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.497574180884218,3951.1702074676,10.8251238560756,3.21392426180161,20.1317617692225,572.389397063841
3427,6964,19701,"SMPDSv1","Hoces del Duraton","Lopez_a412",41.3360555555555,-3.87533333333333,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.529674911687101,3730.04164416491,10.2192921757943,2.69628960423543,19.5212322541315,600.920157036852
3427,6965,19702,"SMPDSv1","Hoces del Duraton","Lopez_a413",41.29625,-3.85955555555555,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.511107569040592,3845.48464710229,10.5355743756227,2.96201026787731,19.8567127304988,584.740358220119
3428,6966,11858,"Neotoma","Hocking State Forest pond","KKMFA06",39.457715,-82.580495,309,"not known","lake","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.06430158003092,4054.88973109393,10.6752660124835,-3.08720303663487,22.6703158366507,999.010693598504
3429,6967,11630,"Neotoma","Hodgeman County Fishing Lake","GPPS-19",38.04624,-99.828015,690,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.469916051850892,4815.61454223681,13.0638991619212,-1.24781601536053,26.9309897046682,564.647916519105
3430,6968,709,"Australian pollen","Hogayaku Lake","Hogayaku_a",-3.9833,137.3833,3580,"not known","lake","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.26539000541,5790.85769936451,15.8653635599028,15.1798394255713,16.2339617872878,3033.12548051144
3430,6969,710,"Australian pollen","Hogayaku Lake","Hogayaku_b",-3.9833,137.3833,3580,"not known","lake","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.26539000541,5790.85769936451,15.8653635599028,15.1798394255713,16.2339617872878,3033.12548051144
3430,6970,711,"Australian pollen","Hogayaku Lake","Hogayaku_core top",-3.9833,137.3833,3580,"not known","lake","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.26539000541,5790.85769936451,15.8653635599028,15.1798394255713,16.2339617872878,3033.12548051144
3431,6971,9617,"Gaillard et al., 1992","Hogestads mosse","Hogestads mosse",55.509739,13.844586,44,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.943987216588132,2886.65712252392,7.69156029104298,-1.38097691355335,16.7779730830377,635.1495549959
3432,6972,8651,"EMPDv2","Hogvaglbreen","Pardoe_c121",61.31,8.17,1620,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.29528545781217,960.268295712489,-1.45319584507499,-11.7454437798676,8.84697778726625,654.158065879698
3432,6973,8652,"EMPDv2","Hogvaglbreen","Pardoe_c122",61.31,8.17,1570,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.35465103942408,987.568540244212,-1.24810504416061,-11.4731068463937,8.9945727282204,683.392827131393
3432,6974,8653,"EMPDv2","Hogvaglbreen","Pardoe_c123",61.31,8.17,1540,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.39033925912275,1004.08656207739,-1.12505056361198,-11.3097046863093,9.08312969279289,700.93368388241
3432,6975,8654,"EMPDv2","Hogvaglbreen","Pardoe_c124",61.31,8.17,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.43800543914531,1026.37538413682,-0.960977922880472,-11.0918351395302,9.20120564555621,724.321492883766
3432,6976,8655,"EMPDv2","Hogvaglbreen","Pardoe_c125",61.31,8.17,1470,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.47381687376484,1043.25964528501,-0.837923442331843,-10.9284329794458,9.2897626101287,741.862349634783
3433,6977,15503,"Neotoma","Hoh River 1","CJH082",47.82,-124.25,183,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.14131575490602,3376.29678740873,9.25012818468146,3.61743863181902,15.6626886748332,2349.6634488327
3434,6978,15502,"Neotoma","Hoh River 2","CJH081",47.85,-123.9,168,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.84792242241608,3441.63410647159,9.42913453827833,3.57150063020062,16.0181547837773,2156.26929496505
3435,6979,15504,"Neotoma","Hoh River 3","CJH083",47.83,-124.55,15,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.24132167231206,3507.89310700394,9.61066604658614,4.08865086415128,15.8960588614672,2387.14614902872
3436,6980,15505,"Neotoma","Hoh River 4","CJH084",47.85,-124.67,15,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.25771223162362,3508.40234107063,9.61206120841267,4.11306901294531,15.894422933879,2394.08949802213
3437,6981,15506,"Neotoma","Hoh River 5","CJH085",48,-124.45,183,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.18770009836864,3351.31930486838,9.18169672566679,3.52694562477053,15.6776990952787,2367.98253017953
3438,6982,15507,"Neotoma","Hoh-Bogachiel Divide 1","CJH086",48.22,-124.7,61,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.24624762830145,3450.48401571152,9.45338086496308,3.81749832562537,15.9379876013349,2375.47164772576
3439,6983,15508,"Neotoma","Hoh-Bogachiel Divide 2","CJH087",48.2,-124.5,15,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.22590872100536,3491.92027457763,9.56690486185651,3.89454352667529,16.0344736809968,2361.77918861247
3440,6984,15254,"Neotoma","Hokah","AMD021",43.75,-91.47,213,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.87324524024979,3568.14939694004,7.80376646027026,-9.64643889182547,22.5886530404337,773.92654954915
3441,6985,23196,"SMPDSv1","Hol Municipality","Bjune_a68",60.49859584,8.21180096,1048,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.67002201258139,1408.17067503021,1.32287636932319,-8.47661760920108,11.1535397416579,889.66236995588
3442,6986,19703,"SMPDSv1","Holebudalen","Bjune_a193",59.8433333333333,6.99333333333333,1144,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.97023665003109,1410.03429587258,1.58876422374871,-7.6198204715639,10.9971177032281,1070.869915851
3443,6987,19704,"SMPDSv1","Holetjern","Bjune_a148",58.4669344,6.79877996,484,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.75156476230144,2005.15064578122,4.7782048925288,-3.4845590952117,13.1787347634516,1558.4259421393199
3443,6988,19705,"SMPDSv1","Holetjern","Bjune_a149",60.3117778,10.51858691,391,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.3874253820921,1957.02532235217,3.42057513365531,-7.51941999652812,14.1787571410033,774.780019583241
3444,6989,7420,"EMPDv2","Holevatnet","Hjelle_a9",60.2252008,5.3925143,3,"0.03","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.1177283407597,2717.84415544232,7.44614837107484,1.2168551904267,14.286267303911,2172.52744638984
3445,6990,19706,"SMPDSv1","Holiecht","CH/WVDK/S4",46.230814,8.026161,2185,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.79592146151656,1034.58587366412,0.740336259442129,-6.27999491792235,8.47887568447648,2033.38720662978
3446,6991,17404,"Neotoma","Holland Lake","TW111",43.23,-85.05,255,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.966718829504993,3435.76998498797,8.17253555612553,-6.2050447389082,21.4350200266544,833.396697909156
3447,6992,15256,"Neotoma","Hollndal","AMD023",42.88,-89.88,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.915657393355226,3396.7512458439,7.23345188508236,-9.83304571576064,21.8015734456252,807.554387502225
3448,6993,11821,"Neotoma","Hollow Pond, RI","SJNE7",41.415873,-71.5495835,27,"not known","lake","surface sample","-36","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,13,"temperate deciduous broadleaf forest",1.30960777255291,3888.31851375701,10.3377835165635,-2.21634582287174,22.3773640994117,1187.40133248201
3449,6994,9618,"Gaillard et al., 1992","Holma","Holma",55.57303,12.985967,16,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.9086632271117,2968.25297752728,8.00448687682088,-0.874686224322167,16.9038114929039,612.124292220724
3450,6995,19707,"SMPDSv1","Holtjarnen","EPDcoretop_E1034",60.65,14.916667,232,"0.01","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20337806144788,1963.61976711831,3.3015676079166,-7.56355475312341,14.3327540854283,663.257849798022
3451,6996,19708,"SMPDSv1","Holzmaar","EPDcoretop_E746",50.116667,8.878889,425,"0.058","lake","lacustrine core top","14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04691553924134,2955.97865783911,7.97021351542931,-1.07063230394614,16.6346245356398,746.097526137101
3452,6997,19709,"SMPDSv1","Holzmatten","CH/WVDK/G07",46.655506,8.008699,2020,"not applicable","terrestrial","pollen trap","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73452526332104,1201.98804303117,1.52728050208031,-5.73912931918919,9.38986582656657,2003.38867196987
3452,6998,19710,"SMPDSv1","Holzmatten","CH/WVDK/G15",46.649532,7.99799,1725,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.44180784686197,1556.84078807398,3.08185618424491,-4.58257112340265,11.201221995195,1839.16293967026
3453,6999,19711,"SMPDSv1","Hommerkleivtjonn","Bjune_a233",58.2216666666666,8.24833333333333,25,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.82841034372411,2619.84384168271,6.82891387250179,-2.01903017475866,15.7384659192747,1114.15021261271
3454,7000,10973,"Bush et al., 2020","HoneyCamp","HoneyCamp",18.05,-88.44,10,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.957692912301025,9450.6788243707,25.8922707517006,23.1779631294379,27.7050495773735,1491.37384434073
3455,7001,3149,"CMPD","Hongkong","Hongkong 1",22.27,113.75,-30,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7002,3150,"CMPD","Hongkong","Hongkong 2",22.27,114.03,-30,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7003,3151,"CMPD","Hongkong","Hongkong 3",22.25,114.3,-25,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7004,3152,"CMPD","Hongkong","Hongkong 4",22.28,114.35,-35,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7005,3153,"CMPD","Hongkong","Hongkong 5",22.38,114.33,-15,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7006,3154,"CMPD","Hongkong","Hongkong 6",22.37,114.33,-20,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7007,3155,"CMPD","Hongkong","Hongkong 7",22.38,114.32,-18,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7008,3156,"CMPD","Hongkong","Hongkong z01",22.43,114.25,-12.8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57314183218643,8385.94420545844,22.9751896039957,15.2428869819846,28.964039345787,2049.36382226626
3455,7009,3157,"CMPD","Hongkong","Hongkong z02",22.27,114.17,-15,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56536202084923,8376.59640065652,22.9495791798809,15.2219889270475,28.9359553016794,2033.82734137978
3455,7010,3158,"CMPD","Hongkong","Hongkong z03",22.25,114.27,-12.8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52975235009569,8385.70193244908,22.9745258423263,15.0550622554029,29.1372062909819,1990.66631972957
3455,7011,3159,"CMPD","Hongkong","Hongkong z04",22.13,114.32,-32.9,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52431775555307,8439.14314561614,23.1209401249757,15.2120164616877,29.270933255185,1989.53001244676
3455,7012,3160,"CMPD","Hongkong","Hongkong z05",22.53,114.4,-18.2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58639202252856,8401.72525326476,23.0184253514103,15.3195814197277,28.9945326131465,2068.52140807267
3455,7013,3161,"CMPD","Hongkong","Hongkong z06",22.37,113.9,-19,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55109873356096,8367.58266398604,22.9248840109207,15.1600489079344,28.9383907177269,2008.35971583895
3455,7014,3162,"CMPD","Hongkong","Hongkong z07",22.38,114.47,-21.9,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59056406408992,8418.79277320359,23.0651856800098,15.3987343925593,29.0177795459457,2079.43665547063
3455,7015,3163,"CMPD","Hongkong","Hongkong z08",22.45,114.22,-8.6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56824380324222,8357.87956445761,22.8983001765962,15.1503450509922,28.9033166423469,2033.4288836145
3455,7016,3164,"CMPD","Hongkong","Hongkong z09",22.33,113.98,-14,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55519754821671,8361.66991387389,22.9086846955449,15.1463988421141,28.9228528907354,2015.23946900521
3455,7017,3165,"CMPD","Hongkong","Hongkong z10",22.13,114.22,-25.6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.49177106053365,8381.96112489163,22.9642770544976,14.9635547814095,29.1775988589163,1931.45605192564
3455,7018,3166,"CMPD","Hongkong","Hongkong z11",22.12,114.15,-23.7,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4853592860243,8370.58388652117,22.9331065384142,14.9142803325571,29.162167245973,1921.09868539558
3455,7019,3167,"CMPD","Hongkong","Hongkong z12",22.32,114.42,-25.6,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5881638195624601,8428.42939694723,23.0915873888965,15.4272210477883,29.0400915167448,2077.78113939587
3455,7020,3168,"CMPD","Hongkong","Hongkong z13",22.28,114.18,-17,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56600361798004,8381.60223086902,22.9632937832028,15.2410407113563,28.9443745856162,2035.04021633584
3455,7021,3169,"CMPD","Hongkong","Hongkong z14",22.13,114.42,-31,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
3455,7022,3170,"CMPD","Hongkong","Hongkong z15",22.15,114.05,-22.8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.47522289991169,8357.46156447083,22.897154971153,14.8484376947602,29.1511195217797,1904.40370709891
3455,7023,3171,"CMPD","Hongkong","Hongkong z16",22.3,114.12,-8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5625830814276,8356.21455386396,22.8937385037369,15.1406692685961,28.9037920537884,2027.21456552942
3455,7024,3172,"CMPD","Hongkong","Hongkong z17",22.33,114.02,-16.4,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55733025177951,8369.51894723678,22.9301888965391,15.1789222168816,28.9343818812911,2019.25615171313
3455,7025,3173,"CMPD","Hongkong","Hongkong z18",22.28,114.22,-30,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56866558168897,8415.0129718308,23.0548300598104,15.368019260582,29.0011771185158,2041.8703193119
3455,7026,3174,"CMPD","Hongkong","Hongkong z19",22.35,114.23,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56413495719989,8101.50036792694,22.1958914189779,14.2119380509373,28.4442263054189,2009.34115674703
3455,7027,3175,"CMPD","Hongkong","Hongkong z20",22.15,114.02,-18.1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.47635547363019,8345.07855287546,22.8632289119876,14.8131763527125,29.1200631138855,1904.90924834695
3455,7028,3176,"CMPD","Hongkong","Hongkong z21",22.28,114.13,-10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56310250004712,8362.15665215122,22.9100182250718,15.1643997553958,28.9132013352282,2028.89766834519
3455,7029,3177,"CMPD","Hongkong","Hongkong z22",22.2,114.35,-29.2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52969149289688,8431.25446567136,23.0993273032092,15.1970344463129,29.2457350873893,1995.51382777121
3455,7030,3178,"CMPD","Hongkong","Hongkong z23",22.27,114.08,-9.1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56035770966873,8357.60156298694,22.8975385287313,15.1431113652818,28.9081793623119,2024.34913731747
3456,7031,3179,"CMPD","Hongshen","Hongshen",46.4,123.4,149,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.491791226643364,3233.24105013491,4.30420355042416,-17.3725816081613,22.9828036065007,421.214644811661
3457,7032,3180,"CMPD","Hongyuan","Hongyuan",32.8,102.53,3500,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.591646850409194,2130.50587967299,4.57800215017352,-6.05886913841859,13.4827154896231,616.851677449089
3457,7033,3181,"CMPD","Hongyuan","Hongyuan 01",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7034,3182,"CMPD","Hongyuan","Hongyuan 02",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7035,3183,"CMPD","Hongyuan","Hongyuan 03",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7036,3184,"CMPD","Hongyuan","Hongyuan 04",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7037,3185,"CMPD","Hongyuan","Hongyuan 05",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7038,3186,"CMPD","Hongyuan","Hongyuan 06",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7039,3187,"CMPD","Hongyuan","Hongyuan 07",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7040,3188,"CMPD","Hongyuan","Hongyuan 08",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7041,3189,"CMPD","Hongyuan","Hongyuan 09",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3457,7042,3190,"CMPD","Hongyuan","Hongyuan 10",32.67,102.5,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.624777026441836,2394.4366101812,5.68509078140163,-4.69647331049857,14.4219444916653,657.054081999364
3458,7043,13814,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-47","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13815,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-44","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13816,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-41","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13817,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-38","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13818,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-35","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13819,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-31","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13820,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-27","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13821,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-24","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13822,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-20","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13823,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-17","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13824,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-13","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13825,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","-10","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3458,7043,13826,"Neotoma","Hoodoo Lake","HOODOO",46.320235,-114.65153,1787,"not known","lake","core","20","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.; Brunelle, A., G.E. Rehfeldt, B. Bentz, and A.S. Munson. 2008. Holocene records of Dendroctonus bark beetles in high elevation pine forests of Idaho and Montana, USA. Forest Ecology and Management 255(3-4):836-848.","10.1016/j.foreco.2007.10.008",15,"cold evergreen needleleaf forest",0.483833604907319,2297.12372365716,4.91046607164137,-5.72709475953197,16.7585277048075,418.785635461327
3459,7044,19714,"SMPDSv1","Hopschensee","CH/WVDK/S5",46.252426,8.02179,2030,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6650159147472,1211.17145886488,1.57304908160553,-5.68401767073032,9.45255311020925,1974.9712782524
3459,7045,19712,"SMPDSv1","Hopschensee","EPDcoretop_E1121",46.252419,8.023475,2017,"0.01","lake","lacustrine core top","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.65281227386396,1226.15488234208,1.64154448300549,-5.6338192892944,9.53278743955672,1968.54956522231
3459,7046,19713,"SMPDSv1","Hopschensee","EPDcoretop_E1122",46.252419,8.023475,2017,"0.01","lake","lacustrine core top","-12","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.65281227386396,1226.15488234208,1.64154448300549,-5.6338192892944,9.53278743955672,1968.54956522231
3460,7047,9619,"Gaillard et al., 1992","Horby falad","Horby falad",55.859726,13.648409,85,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.00479720951511,2753.21485975127,7.24640034449519,-1.71952904427762,16.3142225537576,665.313701133576
3461,7048,10586,"BIOME6000 Japan","Horinouchi","D12019",35.75,139.916667,22,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.58714884551397,5353.70743565749,14.6676916045411,4.32173225945274,25.967408141946,1551.1059941666
3462,7049,9620,"Gaillard et al., 1992","Horjel","Horjel Am",55.595548,13.915405,73,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.976118974039282,2799.38178989159,7.40309402861136,-1.59792083437165,16.482998124592,652.720353923563
3462,7050,9621,"Gaillard et al., 1992","Horjel","Horjel Bb",55.595548,13.915405,73,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.976118974039282,2799.38178989159,7.40309402861136,-1.59792083437165,16.482998124592,652.720353923563
3462,7051,9622,"Gaillard et al., 1992","Horjel","Horjel C",55.595548,13.915405,73,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.976118974039282,2799.38178989159,7.40309402861136,-1.59792083437165,16.482998124592,652.720353923563
3463,7052,7022,"EMPDv2","Horni Lomna","EPDcoretop_E1581",49.52,18.63,615,"4e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2454760094776,2598.59575256151,6.25081111004584,-4.79243389626298,15.6220677149465,931.837730130739
3463,7053,10657,"Neotoma","Horni Lomna","MB-5-A",49.520556,18.630833,638,"not known","terrestrial, bog/fen/swamp","core top","-50","Rybníčková, E., Hájková, P. and Rybníček, K., 2005. The origin and development of spring fen vegetation and ecosystems–palaeogeobotanical results, in: Poulíčková, A., Hájek, A., Rybníček, K. (Eds.), Ecology and palaeoecology of spring fens of the West Carpathians. Palacký University Olomouc, Academy of Sciences of the Czech Republic, Masaryk University Brno, Olomouc, Czech Republic, pp.29-62.",,9,"cool mixed forest",1.26992691666465,2562.3311118858,6.11234215605879,-4.92451944919895,15.4758013884836,948.019658597717
3464,7054,19715,"SMPDSv1","Hornstaad/Bodensee","EPDcoretop_E1027",47.7,9.016667,385,"10","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05260819071323,3476.31994747923,9.52238185390889,0.0597344540852836,18.6648535003253,830.379616649342
3465,7055,712,"Australian pollen","Horse Swamp","Horse Swamp core",-31.9167,151.3667,1260,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.48686234139673,4445.60301127542,12.1797342774669,4.04982061772581,19.6373099062488,724.734113421818
3466,7056,10974,"Bush et al., 2020","HorseflyRidge.1","HorseflyRidge.1",8.76555,-82.212712,1178,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.97719502468577,7410.08580263751,20.3016049387329,19.4076831338943,21.0984285597275,3279.9676099453
3467,7057,10975,"Bush et al., 2020","HorseflyRidge.2","HorseflyRidge.2",8.76555,-82.212712,1178,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.97719502468577,7410.08580263751,20.3016049387329,19.4076831338943,21.0984285597275,3279.9676099453
3468,7058,10976,"Bush et al., 2020","HorseflyRidge.3","HorseflyRidge.3",8.76555,-82.212712,1178,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.97719502468577,7410.08580263751,20.3016049387329,19.4076831338943,21.0984285597275,3279.9676099453
3469,7059,10977,"Bush et al., 2020","HorseflyRidge.4","HorseflyRidge.4",8.76555,-82.212712,1178,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.97719502468577,7410.08580263751,20.3016049387329,19.4076831338943,21.0984285597275,3279.9676099453
3470,7060,11647,"Neotoma","Horseshoe Lake","GPPS-17",38.110545,-98.476255,542,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.552104835188965,4941.62329941337,13.4056153812127,-1.30809209738374,27.3199310134368,654.973146015822
3470,7061,13671,"Neotoma","Horseshoe Lake","HORM12",38.70179794,-90.09502746,27,"not known","lake","core","-1","Munoz, S.E., S. Schroeder, D.A. Fike, and J.W. Williams. 2014. A record of sustained prehistoric and historic land use from the Cahokia region, Illinois, USA. Geology 42(6):499-502. http://geology.gsapubs.org/content/42/6/499.short.","10.1130/G35541.1",13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7061,13672,"Neotoma","Horseshoe Lake","HORM12",38.70179794,-90.09502746,27,"not known","lake","core","35","Munoz, S.E., S. Schroeder, D.A. Fike, and J.W. Williams. 2014. A record of sustained prehistoric and historic land use from the Cahokia region, Illinois, USA. Geology 42(6):499-502. http://geology.gsapubs.org/content/42/6/499.short.","10.1130/G35541.1",13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7062,13666,"Neotoma","Horseshoe Lake","HORSESH8",38.70179794,-90.09502746,27,"not known","lake","core","-33","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7062,13667,"Neotoma","Horseshoe Lake","HORSESH8",38.70179794,-90.09502746,27,"not known","lake","core","-16","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7062,13668,"Neotoma","Horseshoe Lake","HORSESH8",38.70179794,-90.09502746,27,"not known","lake","core","2","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7062,13669,"Neotoma","Horseshoe Lake","HORSESH8",38.70179794,-90.09502746,27,"not known","lake","core","20","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7062,13670,"Neotoma","Horseshoe Lake","HORSESH8",38.70179794,-90.09502746,27,"not known","lake","core","38","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7063,13665,"Neotoma","Horseshoe Lake","HORSESHA",38.70179794,-90.09502746,27,"not known","lake","core","21","Ollendorf, A.L. 1993. Changing landscapes in the American Bottom (USA): An interdisciplinary investigation with an emphasis on the late-prehistoric and early-historic periods. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.981150130983558,5023.37763328896,13.602204446156,-1.57635206155611,26.4430243516519,1044.93833990007
3470,7064,11544,"Neotoma","Horseshoe Lake","NDBEHO",47.84686,-98.783705,444,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.58194869473812,2858.48278463127,3.69394847440765,-15.8917229694088,20.3169616244209,472.813336650595
3470,7065,11553,"Neotoma","Horseshoe Lake","SDCOHO",44.977035,-97.327105,520,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.606160642606119,3359.91692637346,6.53622297329894,-11.6969403384781,22.6491080674031,541.619643129111
3471,7066,11477,"Neotoma","Horsethief Lake","SDPNHT",43.893085,-103.481505,1495,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.413232759668992,3014.45283594516,6.97516578194617,-5.95255972419828,20.923245034092,402.899924390731
3472,7067,19716,"SMPDSv1","Horsudputten","Bjune_a104",60.689353,10.7085095,429,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36717683146171,1891.67559512778,3.05988887747442,-8.02877395785169,13.9151553510552,751.368400246836
3473,7068,19717,"SMPDSv1","Hort Timoner","EPDcoretop_E284",39.875,4.126389,40,"not applicable","coastal, estuarine","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.509363694705858,6113.75280999299,16.7500076986109,9.86693962858898,25.0241057084379,622.477609509484
3474,7069,19718,"SMPDSv1","Hoset","Bjune_a260",63.2433333333333,8.58166666666666,340,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.76707040442539,1687.27716338434,3.55130844468443,-4.34246755470196,11.9899086942922,1249.18459043985
3475,7070,10605,"BIOME6000 Japan","Hoshojiri","D7004",37.55,140.05,530,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.75203780369645,3703.43098021905,9.83600019564126,-1.9658082653741,22.7084111566963,1493.54907537768
3476,7071,10569,"BIOME6000 Japan","Hosoike","HosokC0",35.35,134.13,970,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.63772179494823,3102.87840278686,7.5430335922236,-4.52299985735057,20.6111345525709,2095.39236062995
3477,7072,15177,"Neotoma","Hospital Flat Meadow","HOSPFLAT",32.66757,-109.87742,2747,"not known","terrestrial","core","-40","Anderson, R.S., and S.J. Smith. 2009. Vegetation changes within the subalpine and mixed-conifer forest on Mt. Graham, Arizona: proxy evidence for Mt. Graham red squirrel habitat. Pages 153-169 in H.R. Sanderson and J.L. Koprowski, editors. The last refuge of the Mt. Graham red squirrel: ecology of endangerment. University of Arizona Press, Tucson, Arizona, USA.",,20,"xerophytic woods/scrub",0.332870074290671,2315.03995422936,5.78604697751502,-2.96294612433489,15.6743481020349,424.341765600136
3477,7072,15178,"Neotoma","Hospital Flat Meadow","HOSPFLAT",32.66757,-109.87742,2747,"not known","terrestrial","core","31","Anderson, R.S., and S.J. Smith. 2009. Vegetation changes within the subalpine and mixed-conifer forest on Mt. Graham, Arizona: proxy evidence for Mt. Graham red squirrel habitat. Pages 153-169 in H.R. Sanderson and J.L. Koprowski, editors. The last refuge of the Mt. Graham red squirrel: ecology of endangerment. University of Arizona Press, Tucson, Arizona, USA.",,20,"xerophytic woods/scrub",0.332870074290671,2315.03995422936,5.78604697751502,-2.96294612433489,15.6743481020349,424.341765600136
3478,7073,12704,"Neotoma","Hostage Lake","HOSTAGE",46.55,-94.133333,368,"not known","lake","core","-30","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.858487906817384,3100.60884809011,5.34969558231144,-13.3546762475718,21.0600683142453,698.896757254978
3478,7073,12705,"Neotoma","Hostage Lake","HOSTAGE",46.55,-94.133333,368,"not known","lake","core","47","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.858487906817384,3100.60884809011,5.34969558231144,-13.3546762475718,21.0600683142453,698.896757254978
3479,7074,11532,"Neotoma","Houck Pond","FH-15",38.74185,-96.2807699999999,438,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.694708651691945,4779.34390207168,12.8015070391777,-2.43341038670329,26.7883400169546,788.999456422618
3480,7075,12706,"Neotoma","Houghton Bog","HOUGHTON",42.541667,-78.670278,428,"not known","terrestrial, bog/fen/swamp","core","-16","Miller, N.G. 1973. Late-glacial and postglacial vegetation change in southwestern New York State. Bulletin 420. New York State Museum and Science Service, The State Education Department, Albany, New York, USA.",,9,"cool mixed forest",1.18220235577867,3241.78821182569,7.7169450355838896,-5.76922880452561,20.2515583932794,991.276000031335
3480,7075,12707,"Neotoma","Houghton Bog","HOUGHTON",42.541667,-78.670278,428,"not known","terrestrial, bog/fen/swamp","core","17","Miller, N.G. 1973. Late-glacial and postglacial vegetation change in southwestern New York State. Bulletin 420. New York State Museum and Science Service, The State Education Department, Albany, New York, USA.",,9,"cool mixed forest",1.18220235577867,3241.78821182569,7.7169450355838896,-5.76922880452561,20.2515583932794,991.276000031335
3481,7076,15930,"Neotoma","Houston","HOU1",54.72768,-66.6811549999999,564,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68024520109105,1182.40058541588,-4.97383126110933,-23.3591710252599,12.3365516025391,803.762677537788
3481,7077,15932,"Neotoma","Houston","HOU2",54.72768,-66.6811549999999,564,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68024520109105,1182.40058541588,-4.97383126110933,-23.3591710252599,12.3365516025391,803.762677537788
3481,7078,15931,"Neotoma","Houston","HOU3",54.72768,-66.6811549999999,564,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68024520109105,1182.40058541588,-4.97383126110933,-23.3591710252599,12.3365516025391,803.762677537788
3482,7079,12708,"Neotoma","Howes Prairie Marsh","HOWES",41.65,-87.072222,185,"not known","terrestrial, marsh","core","0","Cole, K.L., and R.S. Taylor. 1995. Past and current trends of change in a dune prairie/oak savanna reconstructed through a multiple-scale history. Journal of Vegetation Science 6:399-410.",,13,"temperate deciduous broadleaf forest",0.956750339144745,3859.45260494814,9.57828400939964,-5.72336508086118,22.884882192434,883.337890244208
3482,7079,12709,"Neotoma","Howes Prairie Marsh","HOWES",41.65,-87.072222,185,"not known","terrestrial, marsh","core","17","Cole, K.L., and R.S. Taylor. 1995. Past and current trends of change in a dune prairie/oak savanna reconstructed through a multiple-scale history. Journal of Vegetation Science 6:399-410.",,13,"temperate deciduous broadleaf forest",0.956750339144745,3859.45260494814,9.57828400939964,-5.72336508086118,22.884882192434,883.337890244208
3482,7079,12710,"Neotoma","Howes Prairie Marsh","HOWES",41.65,-87.072222,185,"not known","terrestrial, marsh","core","33","Cole, K.L., and R.S. Taylor. 1995. Past and current trends of change in a dune prairie/oak savanna reconstructed through a multiple-scale history. Journal of Vegetation Science 6:399-410.",,13,"temperate deciduous broadleaf forest",0.956750339144745,3859.45260494814,9.57828400939964,-5.72336508086118,22.884882192434,883.337890244208
3482,7079,12711,"Neotoma","Howes Prairie Marsh","HOWES",41.65,-87.072222,185,"not known","terrestrial, marsh","core","50","Cole, K.L., and R.S. Taylor. 1995. Past and current trends of change in a dune prairie/oak savanna reconstructed through a multiple-scale history. Journal of Vegetation Science 6:399-410.",,13,"temperate deciduous broadleaf forest",0.956750339144745,3859.45260494814,9.57828400939964,-5.72336508086118,22.884882192434,883.337890244208
3483,7080,19719,"SMPDSv1","Hoya de los Aljeces","Barboni_a811",41.368056,-0.234722,336,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402618544115303,5314.28262180688,14.5596784159092,6.48121018013514,23.8378627387908,495.102480485516
3484,7081,19720,"SMPDSv1","Hoya de los Berzas","Barboni_a812",41.413611,-0.225972,340,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.404190589645746,5302.20107455949,14.5265782864644,6.44054774941649,23.81228201058,496.545432637509
3485,7082,19721,"SMPDSv1","Hoya de Rafelez","Barboni_a813",41.374861,-0.230139,342,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.404476991346045,5300.52360289567,14.5219824736868,6.44372572468909,23.8018666444336,496.992051175451
3486,7083,19722,"SMPDSv1","Hoya de Valdcarreta","Barboni_a814",41.389583,-0.230278,340,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40398092160661,5303.83136785886,14.5310448434489,6.44935678793598,23.8132076522797,496.419559497776
3487,7084,19723,"SMPDSv1","Hoya del Castillo","Barboni_a815",41.25972222,-0.513888889,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386212264026141,5456.64687516912,14.9497174662168,6.8049516000697,24.2419941786476,476.841947276196
3488,7085,19724,"SMPDSv1","Hoya del Vinagrero I","Barboni_a816",41.393611,-0.2225,336,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402887516694439,5313.15217530391,14.5565813022025,6.47467798334246,23.8372347075379,495.309976542361
3489,7086,19725,"SMPDSv1","Hoya del Vinagrero II","Barboni_a817",41.394722,-0.213889,337,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403277013062171,5311.46279474338,14.5519528623106,6.4713569027268,23.8314388957781,495.736317464263
3490,7087,13631,"Neotoma","Hoya San Nicolás","SANNICOL",20.3881999999999,-101.256,1702,"not known","lacustrine, drained lake","core","-7","Park, J. 2005. Holocene climate change and human environmental impacts in Guanajuato, Mexico. Doctoral dissertation. University of California Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.518848992383584,7169.01651195098,19.6411411286328,15.8689731362487,23.0740965755735,811.703346992244
3491,7088,19726,"SMPDSv1","Hoyo de Botones","Barboni_a818",41.458889,-0.127361,322,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.399955560502199,5346.80409778885,14.6487783501064,6.56643973068875,23.9210967627423,492.349086637034
3492,7089,19727,"SMPDSv1","Hoyran Golu","EPDcoretop_E949",38.275,30.875,920,"not known","terrestrial, marsh","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.36801722318023,4423.74449047082,12.1198479190981,1.70265420912668,22.2494756964463,489.462869742955
3493,7090,16972,"Neotoma","HR 000 [Yukon River]","SKS001",65.866667,-149.75,100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.824490447453804,1838.50982772522,-2.99156634344878,-22.1455031665673,16.3115801340703,343.739450455809
3493,7091,16973,"Neotoma","HR 000 [Yukon River]","SKS002",65.866667,-149.75,100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.824490447453804,1838.50982772522,-2.99156634344878,-22.1455031665673,16.3115801340703,343.739450455809
3493,7092,16971,"Neotoma","HR 000 [Yukon River]","SKS003",65.866667,-149.75,100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.824490447453804,1838.50982772522,-2.99156634344878,-22.1455031665673,16.3115801340703,343.739450455809
3494,7093,16974,"Neotoma","HR 001","SKS004",65.883333,-149.833333,150,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.820261682727239,1764.62149910849,-3.44645118523689,-22.4374837011945,15.9041576913756,337.149029582252
3495,7094,16976,"Neotoma","HR 002 [Five Mile]","SKS005",65.916667,-149.916667,200,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.809677018883303,1701.22018524364,-3.85970546384988,-22.7438189271515,15.5458416149858,328.81359279379
3495,7095,16977,"Neotoma","HR 002 [Five Mile]","SKS006",65.916667,-149.916667,200,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.809677018883303,1701.22018524364,-3.85970546384988,-22.7438189271515,15.5458416149858,328.81359279379
3495,7096,16975,"Neotoma","HR 002 [Five Mile]","SKS007",65.916667,-149.916667,200,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.809677018883303,1701.22018524364,-3.85970546384988,-22.7438189271515,15.5458416149858,328.81359279379
3496,7097,16978,"Neotoma","HR 003 [Ray River]","SKS008",65.983333,-150,183,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.817426473279069,1717.92126640329,-3.75214930500334,-22.6530047687631,15.6462784447657,332.425931630454
3497,7098,16979,"Neotoma","HR 014","SKS009",66.416667,-150.583333,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.752479030266021,1366.39959001379,-6.30299106506331,-24.6580466827612,13.5656005052074,283.002151650984
3498,7099,16980,"Neotoma","HR 015","SKS010",66.441667,-150.616667,450,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.758327790042342,1381.23559943882,-6.20633354922925,-24.588734272362,13.6638720021269,285.830778091425
3499,7100,16982,"Neotoma","HR 016 [Old Man Climate Station]","SKS011",66.45,-150.666667,416,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77022237565068,1414.20547492115,-5.98383556883373,-24.4233648635856,13.8800330849923,292.00951262485
3499,7101,16983,"Neotoma","HR 016 [Old Man Climate Station]","SKS012",66.45,-150.666667,416,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77022237565068,1414.20547492115,-5.98383556883373,-24.4233648635856,13.8800330849923,292.00951262485
3499,7102,16981,"Neotoma","HR 016 [Old Man Climate Station]","SKS013",66.45,-150.666667,416,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77022237565068,1414.20547492115,-5.98383556883373,-24.4233648635856,13.8800330849923,292.00951262485
3500,7103,16984,"Neotoma","HR 017","SKS014",66.466667,-150.7,650,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.694622602252447,1186.6661250108,-7.57742283182959,-25.5861853832968,12.3578764017984,251.87061976128
3501,7104,16987,"Neotoma","HR 018","SKS015",66.516667,-150.783333,333,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.806798850820284,1473.63636015308,-5.57368480877174,-24.0516802100434,14.2714483204661,307.84190133583
3501,7105,16985,"Neotoma","HR 018","SKS016",66.516667,-150.783333,333,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.806798850820284,1473.63636015308,-5.57368480877174,-24.0516802100434,14.2714483204661,307.84190133583
3501,7106,16986,"Neotoma","HR 018","SKS017",66.516667,-150.783333,333,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.806798850820284,1473.63636015308,-5.57368480877174,-24.0516802100434,14.2714483204661,307.84190133583
3502,7107,16988,"Neotoma","HR 019 [Arctic Circle]","SKS018",66.55,-150.8,433,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.775862532926388,1375.15540280873,-6.24807358143552,-24.557202725491,13.634041152094,290.633858676293
3503,7108,16990,"Neotoma","HR 020","SKS019",66.583333,-150.75,533,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.743579184762723,1290.66011316608,-6.85085395598869,-25.0347280475799,13.0729366095603,274.308747842283
3503,7109,16991,"Neotoma","HR 020","SKS020",66.583333,-150.75,533,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.743579184762723,1290.66011316608,-6.85085395598869,-25.0347280475799,13.0729366095603,274.308747842283
3503,7110,16989,"Neotoma","HR 020","SKS021",66.583333,-150.75,533,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.743579184762723,1290.66011316608,-6.85085395598869,-25.0347280475799,13.0729366095603,274.308747842283
3504,7111,16992,"Neotoma","HR 021","SKS022",66.616667,-150.7,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.786566781884705,1459.10948291094,-5.71299493123981,-24.2535887768134,14.1783852687942,299.666350976682
3505,7112,16994,"Neotoma","HR 022 [South Fork Bonanza Creek]","SKS023",66.633333,-150.666667,283,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.811182225895889,1544.61247697085,-5.15031185744043,-23.8508433142616,14.7225218632872,313.731048504559
3505,7113,16993,"Neotoma","HR 022 [South Fork Bonanza Creek]","SKS024",66.633333,-150.666667,283,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.811182225895889,1544.61247697085,-5.15031185744043,-23.8508433142616,14.7225218632872,313.731048504559
3505,7114,16995,"Neotoma","HR 022 [South Fork Bonanza Creek]","SKS025",66.633333,-150.666667,283,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.811182225895889,1544.61247697085,-5.15031185744043,-23.8508433142616,14.7225218632872,313.731048504559
3506,7115,16996,"Neotoma","HR 024","SKS026",66.75,-150.7,533,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.726264272548333,1285.09096951107,-6.99687559533975,-25.2885169030697,13.0540056817973,267.018407805073
3506,7116,16997,"Neotoma","HR 024","SKS027",66.75,-150.7,533,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.726264272548333,1285.09096951107,-6.99687559533975,-25.2885169030697,13.0540056817973,267.018407805073
3507,7117,16998,"Neotoma","HR 025","SKS028",66.766667,-150.7,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.773887968796453,1453.65424837032,-5.89935682417012,-24.5580628646409,14.1808282448005,293.659457602119
3508,7118,17001,"Neotoma","HR 026 [Prospect Climate Station]","SKS029",66.8,-150.716667,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.78776868233372,1506.06419071083,-5.57224673145597,-24.344780899258,14.5235039654094,301.591975491376
3508,7119,17000,"Neotoma","HR 026 [Prospect Climate Station]","SKS030",66.8,-150.716667,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.78776868233372,1506.06419071083,-5.57224673145597,-24.344780899258,14.5235039654094,301.591975491376
3508,7120,16999,"Neotoma","HR 026 [Prospect Climate Station]","SKS031",66.8,-150.716667,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.78776868233372,1506.06419071083,-5.57224673145597,-24.344780899258,14.5235039654094,301.591975491376
3509,7121,17003,"Neotoma","HR 028","SKS032",66.9,-150.5,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.768363141924509,1454.1136499757,-5.90359727877439,-24.5893414761827,14.1827539420503,291.062397558147
3509,7122,17002,"Neotoma","HR 028","SKS033",66.9,-150.5,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.768363141924509,1454.1136499757,-5.90359727877439,-24.5893414761827,14.1827539420503,291.062397558147
3509,7123,17004,"Neotoma","HR 028","SKS034",66.9,-150.5,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.768363141924509,1454.1136499757,-5.90359727877439,-24.5893414761827,14.1827539420503,291.062397558147
3510,7124,17005,"Neotoma","HR 030 [Grayling Lake]","SKS035",66.95,-150.416667,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.761356766158781,1436.2637480237,-6.01994660891316,-24.6774999319803,14.0651585734919,287.270805734771
3510,7125,17006,"Neotoma","HR 030 [Grayling Lake]","SKS036",66.95,-150.416667,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.761356766158781,1436.2637480237,-6.01994660891316,-24.6774999319803,14.0651585734919,287.270805734771
3510,7126,17007,"Neotoma","HR 030 [Grayling Lake]","SKS037",66.95,-150.416667,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.761356766158781,1436.2637480237,-6.01994660891316,-24.6774999319803,14.0651585734919,287.270805734771
3511,7127,17008,"Neotoma","HR 032","SKS038",67.016667,-150.333333,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.736590486984273,1348.21477157593,-6.59351949400729,-25.0672908035258,13.4802860308013,273.048639218555
3511,7128,17009,"Neotoma","HR 032","SKS039",67.016667,-150.333333,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.736590486984273,1348.21477157593,-6.59351949400729,-25.0672908035258,13.4802860308013,273.048639218555
3511,7129,17010,"Neotoma","HR 032","SKS040",67.016667,-150.333333,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.736590486984273,1348.21477157593,-6.59351949400729,-25.0672908035258,13.4802860308013,273.048639218555
3512,7130,17012,"Neotoma","HR 034","SKS041",67.066667,-150.366667,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.764485542440926,1452.64389430843,-5.92641731018445,-24.6322853817376,14.17479920501,288.74014532511
3512,7131,17011,"Neotoma","HR 034","SKS042",67.066667,-150.366667,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.764485542440926,1452.64389430843,-5.92641731018445,-24.6322853817376,14.17479920501,288.74014532511
3512,7132,17013,"Neotoma","HR 034","SKS043",67.066667,-150.366667,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.764485542440926,1452.64389430843,-5.92641731018445,-24.6322853817376,14.17479920501,288.74014532511
3513,7133,17014,"Neotoma","HR 036","SKS044",67.016667,-150.333333,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77620436985296,1508.75915144946,-5.56485656247841,-24.3923374060804,14.5369071564917,296.523992792791
3513,7134,17015,"Neotoma","HR 036","SKS045",67.016667,-150.333333,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77620436985296,1508.75915144946,-5.56485656247841,-24.3923374060804,14.5369071564917,296.523992792791
3513,7135,17016,"Neotoma","HR 036","SKS046",67.016667,-150.333333,316,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.77620436985296,1508.75915144946,-5.56485656247841,-24.3923374060804,14.5369071564917,296.523992792791
3514,7136,17017,"Neotoma","HR 038 [Coldfoot Climate Station]","SKS047",67.266667,-150.166667,333,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.714266908478283,1436.8143089774,-6.16637218164289,-25.0034612019488,14.0955163826704,268.154250236325
3514,7137,17018,"Neotoma","HR 038 [Coldfoot Climate Station]","SKS048",67.266667,-150.166667,333,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.714266908478283,1436.8143089774,-6.16637218164289,-25.0034612019488,14.0955163826704,268.154250236325
3515,7138,17021,"Neotoma","HR 043","SKS049",67.45,-150.083333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.693101929045935,1371.89859189216,-6.59565161662751,-25.2978903748863,13.6677178519623,256.162395490813
3515,7139,17020,"Neotoma","HR 043","SKS050",67.45,-150.083333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.693101929045935,1371.89859189216,-6.59565161662751,-25.2978903748863,13.6677178519623,256.162395490813
3515,7140,17019,"Neotoma","HR 043","SKS051",67.45,-150.083333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.693101929045935,1371.89859189216,-6.59565161662751,-25.2978903748863,13.6677178519623,256.162395490813
3516,7141,17024,"Neotoma","HR 044","SKS052",67.466667,-149.433333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.633776757973784,1378.14179649635,-6.54471908556533,-25.3984381202846,13.6840464840713,235.620820717904
3516,7142,17022,"Neotoma","HR 044","SKS053",67.466667,-149.433333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.633776757973784,1378.14179649635,-6.54471908556533,-25.3984381202846,13.6840464840713,235.620820717904
3516,7143,17023,"Neotoma","HR 044","SKS054",67.466667,-149.433333,383,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.633776757973784,1378.14179649635,-6.54471908556533,-25.3984381202846,13.6840464840713,235.620820717904
3517,7144,17026,"Neotoma","HR 045","SKS055",67.483333,-149.366667,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.627167967978861,1360.18770630243,-6.65956143275674,-25.4753239324834,13.5633457968063,232.350260864138
3517,7145,17025,"Neotoma","HR 045","SKS056",67.483333,-149.366667,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.627167967978861,1360.18770630243,-6.65956143275674,-25.4753239324834,13.5633457968063,232.350260864138
3518,7146,17028,"Neotoma","HR 046","SKS057",67.533333,-149.833333,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.674600975026434,1350.25095152898,-6.73760944358794,-25.4194433785042,13.5201970691301,248.130035111157
3518,7147,17027,"Neotoma","HR 046","SKS058",67.533333,-149.833333,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.674600975026434,1350.25095152898,-6.73760944358794,-25.4194433785042,13.5201970691301,248.130035111157
3518,7148,17029,"Neotoma","HR 046","SKS059",67.533333,-149.833333,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.674600975026434,1350.25095152898,-6.73760944358794,-25.4194433785042,13.5201970691301,248.130035111157
3519,7149,17031,"Neotoma","HR 047","SKS060",67.550833,-149.733333,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.641931233534532,1352.04194485299,-6.72216848006042,-25.4807976527076,13.5196612419178,236.704672382025
3519,7150,17030,"Neotoma","HR 047","SKS061",67.550833,-149.733333,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.641931233534532,1352.04194485299,-6.72216848006042,-25.4807976527076,13.5196612419178,236.704672382025
3520,7151,17033,"Neotoma","HR 048","SKS062",67.6,-149.783333,433,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.662823143992054,1312.73559163351,-6.98435835399055,-25.5824542984071,13.2672159401635,241.756388895987
3520,7152,17032,"Neotoma","HR 048","SKS063",67.6,-149.783333,433,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.662823143992054,1312.73559163351,-6.98435835399055,-25.5824542984071,13.2672159401635,241.756388895987
3521,7153,17034,"Neotoma","HR 049","SKS064",67.616667,-149.75,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.641012770515797,1283.39718196514,-7.1660108189811,-25.7247252607478,13.0624951872863,232.660954875109
3521,7154,17036,"Neotoma","HR 049","SKS065",67.616667,-149.75,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.641012770515797,1283.39718196514,-7.1660108189811,-25.7247252607478,13.0624951872863,232.660954875109
3521,7155,17035,"Neotoma","HR 049","SKS066",67.616667,-149.75,466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.641012770515797,1283.39718196514,-7.1660108189811,-25.7247252607478,13.0624951872863,232.660954875109
3522,7156,17037,"Neotoma","HR 050 [Dietrich Climate Station]","SKS067",67.066667,-149.733333,500,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.6611848483157,1324.41618067414,-6.74890818566109,-25.3551869060888,13.2944031358725,245.294725694158
3522,7157,17038,"Neotoma","HR 050 [Dietrich Climate Station]","SKS068",67.066667,-149.733333,500,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.6611848483157,1324.41618067414,-6.74890818566109,-25.3551869060888,13.2944031358725,245.294725694158
3522,7158,17039,"Neotoma","HR 050 [Dietrich Climate Station]","SKS069",67.066667,-149.733333,500,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",15,"cold evergreen needleleaf forest",0.6611848483157,1324.41618067414,-6.74890818566109,-25.3551869060888,13.2944031358725,245.294725694158
3523,7159,17040,"Neotoma","HR 051","SKS070",67.716667,-149.25,566,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.574123508174454,1186.32562208935,-7.79677115287508,-26.1997219760264,12.3763745610107,204.826517515671
3523,7160,17042,"Neotoma","HR 051","SKS071",67.716667,-149.25,566,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.574123508174454,1186.32562208935,-7.79677115287508,-26.1997219760264,12.3763745610107,204.826517515671
3523,7161,17041,"Neotoma","HR 051","SKS072",67.716667,-149.25,566,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.574123508174454,1186.32562208935,-7.79677115287508,-26.1997219760264,12.3763745610107,204.826517515671
3524,7162,17043,"Neotoma","HR 052","SKS073",67.766667,-149.283333,600,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.52847003056456,1051.44676525569,-8.83434354468259,-26.8786217332385,11.4437475430664,181.699762981225
3524,7163,17044,"Neotoma","HR 052","SKS074",67.766667,-149.283333,600,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.52847003056456,1051.44676525569,-8.83434354468259,-26.8786217332385,11.4437475430664,181.699762981225
3525,7164,17046,"Neotoma","HR 053","SKS075",67.8,-149.833333,616,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.569762339623867,1037.81991615354,-8.94013064659223,-26.8728749655136,11.3451642562306,194.543047450685
3525,7165,17047,"Neotoma","HR 053","SKS076",67.8,-149.833333,616,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.569762339623867,1037.81991615354,-8.94013064659223,-26.8728749655136,11.3451642562306,194.543047450685
3525,7166,17045,"Neotoma","HR 053","SKS077",67.8,-149.833333,616,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.569762339623867,1037.81991615354,-8.94013064659223,-26.8728749655136,11.3451642562306,194.543047450685
3526,7167,17049,"Neotoma","HR 054 [Timberline Climate Station]","SKS078",67.916667,-149.833333,666,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.558751286683152,994.139706950885,-9.2401636877013,-27.0519489802925,11.0189673697985,188.629158841527
3526,7168,17050,"Neotoma","HR 054 [Timberline Climate Station]","SKS079",67.916667,-149.833333,666,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.558751286683152,994.139706950885,-9.2401636877013,-27.0519489802925,11.0189673697985,188.629158841527
3526,7169,17048,"Neotoma","HR 054 [Timberline Climate Station]","SKS080",67.916667,-149.833333,666,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.558751286683152,994.139706950885,-9.2401636877013,-27.0519489802925,11.0189673697985,188.629158841527
3527,7170,17052,"Neotoma","HR 055","SKS081",67.933333,-149.833333,700,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.555362464826624,972.29470190751,-9.38394781794465,-27.1317200973967,10.8524938655728,186.601573007099
3527,7171,17053,"Neotoma","HR 055","SKS082",67.933333,-149.833333,700,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.555362464826624,972.29470190751,-9.38394781794465,-27.1317200973967,10.8524938655728,186.601573007099
3527,7172,17051,"Neotoma","HR 055","SKS083",67.933333,-149.833333,700,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.555362464826624,972.29470190751,-9.38394781794465,-27.1317200973967,10.8524938655728,186.601573007099
3528,7173,17054,"Neotoma","HR 056","SKS084",67.95,-149.8,733,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.550844334887554,951.21914560544,-9.52270920385618,-27.2108133301241,10.6916115888334,184.254958804468
3528,7174,17056,"Neotoma","HR 056","SKS085",67.95,-149.8,733,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.550844334887554,951.21914560544,-9.52270920385618,-27.2108133301241,10.6916115888334,184.254958804468
3528,7175,17055,"Neotoma","HR 056","SKS086",67.95,-149.8,733,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.550844334887554,951.21914560544,-9.52270920385618,-27.2108133301241,10.6916115888334,184.254958804468
3529,7176,17057,"Neotoma","HR 057 [Table Mountain SC.]","SKS087",67.983333,-149.616667,856,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.518074408235071,873.841432672111,-10.0330008290973,-27.5230943418433,10.0922234569023,170.723447978863
3529,7177,17059,"Neotoma","HR 057 [Table Mountain SC.]","SKS088",67.983333,-149.616667,856,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.518074408235071,873.841432672111,-10.0330008290973,-27.5230943418433,10.0922234569023,170.723447978863
3529,7178,17058,"Neotoma","HR 057 [Table Mountain SC.]","SKS089",67.983333,-149.616667,856,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.518074408235071,873.841432672111,-10.0330008290973,-27.5230943418433,10.0922234569023,170.723447978863
3530,7179,17061,"Neotoma","HR 058","SKS090",68,-149.75,850,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.530135204880502,878.780506191843,-10.0058350545579,-27.4965541507639,10.1300049611205,174.644337818973
3530,7180,17060,"Neotoma","HR 058","SKS091",68,-149.75,850,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.530135204880502,878.780506191843,-10.0058350545579,-27.4965541507639,10.1300049611205,174.644337818973
3530,7181,17062,"Neotoma","HR 058","SKS092",68,-149.75,850,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.530135204880502,878.780506191843,-10.0058350545579,-27.4965541507639,10.1300049611205,174.644337818973
3531,7182,17064,"Neotoma","HR 059","SKS093",68.016667,-149.733333,1100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.50952872504989,736.551102805039,-10.970510246782,-28.0104173343982,8.9836059108502,162.801648528884
3531,7183,17065,"Neotoma","HR 059","SKS094",68.016667,-149.733333,1100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.50952872504989,736.551102805039,-10.970510246782,-28.0104173343982,8.9836059108502,162.801648528884
3531,7184,17063,"Neotoma","HR 059","SKS095",68.016667,-149.733333,1100,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.50952872504989,736.551102805039,-10.970510246782,-28.0104173343982,8.9836059108502,162.801648528884
3532,7185,17066,"Neotoma","HR 060 [Chandler Camp]","SKS096",68.083333,-149.583333,1133,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.50300642274025,716.768051509057,-11.111894127169201,-28.0938375510923,8.8198440404937,159.880165942743
3532,7186,17067,"Neotoma","HR 060 [Chandler Camp]","SKS097",68.083333,-149.583333,1133,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.50300642274025,716.768051509057,-11.111894127169201,-28.0938375510923,8.8198440404937,159.880165942743
3533,7187,17069,"Neotoma","HR 061","SKS098",68.1,-149.55,1466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.488744693839515,548.627326518584,-12.3351268091545,-28.7290711553969,7.35703732061126,149.186775221862
3533,7188,17068,"Neotoma","HR 061","SKS099",68.1,-149.55,1466,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.488744693839515,548.627326518584,-12.3351268091545,-28.7290711553969,7.35703732061126,149.186775221862
3534,7189,17070,"Neotoma","HR 066","SKS100",68.35,-149.333333,1000,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.485847784319538,759.79315065399,-10.8663292788425,-28.0169415952756,9.18264098213244,154.980411407243
3535,7190,17071,"Neotoma","HR 067","SKS101",68.366667,-149.333333,916,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.482899745956659,793.393704576685,-10.6537178587428,-27.917372547457,9.45987978656876,154.965842048671
3536,7191,17074,"Neotoma","HR 068","SKS102",68.383333,-149.333333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483288732899529,785.942945680309,-10.7020517323099,-27.9410519894687,9.39900695240629,154.826547598603
3536,7192,17072,"Neotoma","HR 068","SKS103",68.383333,-149.333333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483288732899529,785.942945680309,-10.7020517323099,-27.9410519894687,9.39900695240629,154.826547598603
3536,7193,17073,"Neotoma","HR 068","SKS104",68.383333,-149.333333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483288732899529,785.942945680309,-10.7020517323099,-27.9410519894687,9.39900695240629,154.826547598603
3537,7194,17075,"Neotoma","HR 069 [Pump Station 4]","SKS105",68.416667,-149.383333,900,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483466432794929,798.659057014244,-10.624275671128,-27.9039085959416,9.50298269470995,155.130787644054
3537,7195,17076,"Neotoma","HR 069 [Pump Station 4]","SKS106",68.416667,-149.383333,900,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483466432794929,798.659057014244,-10.624275671128,-27.9039085959416,9.50298269470995,155.130787644054
3538,7196,17077,"Neotoma","HR 070 [Atigun Gorge]","SKS107",68.433333,-149.333333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.482778001358126,784.43764581473,-10.7152483640289,-27.949822841027,9.38713638940874,154.472023070888
3539,7197,17078,"Neotoma","HR 071 [Galbraith Climate Station]","SKS108",68.45,-149.466667,1000,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.489357899103948,757.960365658267,-10.8844618156125,-28.0241099065223,9.16764889114358,155.703035580376
3539,7198,17079,"Neotoma","HR 071 [Galbraith Climate Station]","SKS109",68.45,-149.466667,1000,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.489357899103948,757.960365658267,-10.8844618156125,-28.0241099065223,9.16764889114358,155.703035580376
3540,7199,17080,"Neotoma","HR 072","SKS110",68.475,-149.516667,1000,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.490797121040128,757.614590419985,-10.8881421773286,-28.0246278513513,9.16474075207948,156.058733575321
3540,7200,17081,"Neotoma","HR 072","SKS111",68.475,-149.516667,1000,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.490797121040128,757.614590419985,-10.8881421773286,-28.0246278513513,9.16474075207948,156.058733575321
3541,7201,17083,"Neotoma","HR 073","SKS112",68.558333,-149.533333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.488189589554316,782.157041604512,-10.7375848600745,-27.9572158875783,9.36820148397834,155.695265825536
3541,7202,17082,"Neotoma","HR 073","SKS113",68.558333,-149.533333,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.488189589554316,782.157041604512,-10.7375848600745,-27.9572158875783,9.36820148397834,155.695265825536
3542,7203,17086,"Neotoma","HR 074 [Toolik Lake Climate Station]","SKS114",68.6325,-149.6,833,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.485928514679505,820.2576147899,-10.5034720423365,-27.8483542531048,9.67954924690805,155.812954958527
3542,7204,17084,"Neotoma","HR 074 [Toolik Lake Climate Station]","SKS115",68.6325,-149.6,833,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.485928514679505,820.2576147899,-10.5034720423365,-27.8483542531048,9.67954924690805,155.812954958527
3542,7205,17085,"Neotoma","HR 074 [Toolik Lake Climate Station]","SKS116",68.6325,-149.6,833,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.485928514679505,820.2576147899,-10.5034720423365,-27.8483542531048,9.67954924690805,155.812954958527
3543,7206,17087,"Neotoma","HR 075","SKS117",68.633333,-149.5,866,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483829185575973,806.496588045063,-10.5902066934916,-27.8935965087488,9.56810685666412,154.785624883883
3544,7207,17088,"Neotoma","HR 076 [Kuparuk River]","SKS118",68.633333,-149.416667,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483680185500494,779.512113118534,-10.7599345611976,-27.9766304816746,9.34754736783098,154.00784758498
3544,7208,17089,"Neotoma","HR 076 [Kuparuk River]","SKS119",68.633333,-149.416667,933,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483680185500494,779.512113118534,-10.7599345611976,-27.9766304816746,9.34754736783098,154.00784758498
3545,7209,17091,"Neotoma","HR 077","SKS120",68.65,-149.333333,900,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.479514368432333,791.486155320684,-10.6860135968694,-27.9466779195222,9.44691872019248,152.998028645379
3545,7210,17090,"Neotoma","HR 077","SKS121",68.65,-149.333333,900,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.479514368432333,791.486155320684,-10.6860135968694,-27.9466779195222,9.44691872019248,152.998028645379
3546,7211,17092,"Neotoma","HR 078 [Toolik River Climate Station]","SKS122",68.066667,-149.166667,866,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483535266303951,856.749166302931,-10.1473777629206,-27.6244344569501,9.96281739861527,158.911167600984
3546,7212,17093,"Neotoma","HR 078 [Toolik River Climate Station]","SKS123",68.066667,-149.166667,866,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.483535266303951,856.749166302931,-10.1473777629206,-27.6244344569501,9.96281739861527,158.911167600984
3547,7213,17095,"Neotoma","HR 079","SKS124",68.7,-149.066667,733,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.449159561900395,846.650934839687,-10.3523577163382,-27.8144564261243,9.90326360733289,144.710253993921
3547,7214,17094,"Neotoma","HR 079","SKS125",68.7,-149.066667,733,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.449159561900395,846.650934839687,-10.3523577163382,-27.8144564261243,9.90326360733289,144.710253993921
3548,7215,17097,"Neotoma","HR 080","SKS126",68.716667,-149.983333,616,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.506584947308398,911.049337963938,-9.93452545780733,-27.5307587236272,10.3977615019602,164.541807649569
3548,7216,17096,"Neotoma","HR 080","SKS127",68.716667,-149.983333,616,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.506584947308398,911.049337963938,-9.93452545780733,-27.5307587236272,10.3977615019602,164.541807649569
3549,7217,17099,"Neotoma","HR 082","SKS128",68.816667,-149.866667,500,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.478485954568425,924.343939938958,-9.9098394861477,-27.5621692450542,10.5059034902765,155.021919284236
3549,7218,17098,"Neotoma","HR 082","SKS129",68.816667,-149.866667,500,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.478485954568425,924.343939938958,-9.9098394861477,-27.5621692450542,10.5059034902765,155.021919284236
3550,7219,17100,"Neotoma","HR 084","SKS130",68.891667,-149.883333,433,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.475043179613559,946.914969689746,-9.77730750363666,-27.5004925585876,10.6823204379771,154.223908096409
3551,7220,17101,"Neotoma","HR 086","SKS131",68.966667,-149.866667,386,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.471527454310891,961.919807211955,-9.69097895373198,-27.4628051103055,10.7999480629201,153.221825743899
3551,7221,17103,"Neotoma","HR 086","SKS132",68.966667,-149.866667,386,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.471527454310891,961.919807211955,-9.69097895373198,-27.4628051103055,10.7999480629201,153.221825743899
3551,7222,17102,"Neotoma","HR 086","SKS133",68.966667,-149.866667,386,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.471527454310891,961.919807211955,-9.69097895373198,-27.4628051103055,10.7999480629201,153.221825743899
3552,7223,17104,"Neotoma","HR 087","SKS134",69.025,-149.866667,366,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.470093286636497,967.619365999591,-9.65935652702536,-27.4491012786836,10.8440194844416,152.715206475327
3553,7224,17105,"Neotoma","HR 088","SKS135",69.05,-148.016667,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.372351230853941,883.011435901615,-10.1741738862119,-27.6789283468276,10.1946609218776,119.256174391182
3553,7225,17106,"Neotoma","HR 088","SKS136",69.05,-148.016667,400,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.372351230853941,883.011435901615,-10.1741738862119,-27.6789283468276,10.1946609218776,119.256174391182
3554,7226,17108,"Neotoma","HR 090 [Happy Valley Climate Station]","SKS137",69.149167,-148.9,350,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.412122031054978,955.625983787957,-9.77722387742067,-27.5865760389577,10.7782933090904,133.620468228821
3554,7227,17107,"Neotoma","HR 090 [Happy Valley Climate Station]","SKS138",69.149167,-148.9,350,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.412122031054978,955.625983787957,-9.77722387742067,-27.5865760389577,10.7782933090904,133.620468228821
3555,7228,17109,"Neotoma","HR 092","SKS139",69.183333,-148.841667,283,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.406911717363555,979.295444610269,-9.64157749648779,-27.5243980551661,10.9641113305405,132.32510947021
3556,7229,17110,"Neotoma","HR 111","SKS140",70.016667,-148.666667,50,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.378816233416942,1025.62566676518,-9.38067439329516,-27.3561959676668,11.3118923385673,122.03499564054
3557,7230,17112,"Neotoma","HR 112","SKS141",70.058333,-148.583333,40,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.376724794048009,1026.74016021096,-9.370589094727,-27.343745743633,11.3183096069452,121.29575404766
3557,7231,17111,"Neotoma","HR 112","SKS142",70.058333,-148.583333,40,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",31,"tundra",0.376724794048009,1026.74016021096,-9.370589094727,-27.343745743633,11.3183096069452,121.29575404766
3558,7232,17113,"Neotoma","HR 113","SKS143",70.091667,-148.5,33,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.374802190671334,1026.81141080974,-9.36609619054914,-27.3336548629477,11.3165889728863,120.60955758611
3559,7233,17114,"Neotoma","HR 114","SKS144",70.133333,-148.45,26,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.373492127223807,1027.24342506717,-9.36104800949796,-27.3254671894852,11.318090624043,120.107013035715
3559,7234,17115,"Neotoma","HR 114","SKS145",70.133333,-148.45,26,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.373492127223807,1027.24342506717,-9.36104800949796,-27.3254671894852,11.318090624043,120.107013035715
3560,7235,17116,"Neotoma","HR 115","SKS146",70.183333,-148.45,20,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.373136149009197,1028.14901390266,-9.35609465432132,-27.3215837334989,11.3243114923916,119.900507518364
3561,7236,17118,"Neotoma","HR 116","SKS147",70.225,-148.366667,16,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.371381023922499,1026.57586322951,-9.36057999881535,-27.3146469854908,11.3094445398284,119.219137924278
3561,7237,17119,"Neotoma","HR 116","SKS148",70.225,-148.366667,16,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.371381023922499,1026.57586322951,-9.36057999881535,-27.3146469854908,11.3094445398284,119.219137924278
3561,7238,17117,"Neotoma","HR 116","SKS149",70.225,-148.366667,16,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.371381023922499,1026.57586322951,-9.36057999881535,-27.3146469854908,11.3094445398284,119.219137924278
3562,7239,17120,"Neotoma","HR 118 [Prudhoe Pad F Climate Station]","SKS150",70.35,-148.916667,10,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.381793567708107,1026.29790429525,-9.44658107647804,-27.4480630053702,11.327408071443,121.951790266281
3562,7240,17121,"Neotoma","HR 118 [Prudhoe Pad F Climate Station]","SKS151",70.35,-148.916667,10,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.381793567708107,1026.29790429525,-9.44658107647804,-27.4480630053702,11.327408071443,121.951790266281
3563,7241,17122,"Neotoma","HR 120","SKS152",70.383333,-148.583333,10,"not known","not known","surface sample","Modern","Short, S.K., Andrews, J.T. and Webber, P.J., 1986. Pollen, vegetation, and climate relationships along the Dalton highway, Alaska, USA: A basis for Holocene paleoecological and paleoclimatic studies. Arctic and Alpine Research, 18(1), pp.57-72.; Short, S.K., Baker, S.A., Andrews, J.T., Webber, P.J., 1983. Pollen, vegetation, and climate relationships along the Alaskan Haul Road: the basis for Holocene paleoecological and paleoclimatic studies. Final Report to the National Science Foundation, Division of Polar Programs, DPP-79-26238.; Webber, P.J., Komarkova, V., Walker, D.A. and Werbe, E., 1979. Geobotanical studies along a latitudinal gradient between the Yukon River and Prudhoe Bay, Alaska. US Army CRREL Internal Rep, 585, p.366.","10.1080/00040851.1986.12004063;
",30,"tundra",0.372379529956116,1010.62908610586,-9.47840424560364,-27.3805029967345,11.1845409676854,118.670928488751
3564,7242,19728,"SMPDSv1","Hryashevka","hryashevka_SS",54.845,41.1617,95,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.851154626623472,2716.57663366243,4.61425777186004,-11.1822015511822,18.8134002394699,589.582289048362
3565,7243,9796,"Herzschuh et al., 2019","Hu Mao","Hu Mao 01",52.275,123.925,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824451912510183,1743.88612991497,-5.23529152661959,-29.1395633626458,15.9098319630314,474.900930476312
3565,7244,9797,"Herzschuh et al., 2019","Hu Mao","Hu Mao 02",52.275,123.925,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824451912510183,1743.88612991497,-5.23529152661959,-29.1395633626458,15.9098319630314,474.900930476312
3565,7245,9798,"Herzschuh et al., 2019","Hu Mao","Hu Mao 04",52.275,123.925,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824451912510183,1743.88612991497,-5.23529152661959,-29.1395633626458,15.9098319630314,474.900930476312
3565,7246,9799,"Herzschuh et al., 2019","Hu Mao","Hu Mao 07",52.305,123.905,700,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824929126417307,1731.10548637364,-5.30690719577445,-29.2203454845905,15.8361171881309,474.870867775841
3565,7247,9800,"Herzschuh et al., 2019","Hu Mao","Hu Mao 09",52.285,123.975,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824553155360442,1744.92949806922,-5.22694287905449,-29.1309384281835,15.914907198517,475.159341375111
3565,7248,9801,"Herzschuh et al., 2019","Hu Mao","Hu Mao 10",52.285,123.975,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824553155360442,1744.92949806922,-5.22694287905449,-29.1309384281835,15.914907198517,475.159341375111
3565,7249,9802,"Herzschuh et al., 2019","Hu Mao","Hu Mao 11",52.285,123.975,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824553155360442,1744.92949806922,-5.22694287905449,-29.1309384281835,15.914907198517,475.159341375111
3565,7250,9803,"Herzschuh et al., 2019","Hu Mao","Hu Mao 12",52.285,123.975,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.824553155360442,1744.92949806922,-5.22694287905449,-29.1309384281835,15.914907198517,475.159341375111
3565,7251,9804,"Herzschuh et al., 2019","Hu Mao","Hu Mao 13",52.255,123.985,720,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.823785354523788,1723.36971738903,-5.34025092150193,-29.2634111240008,15.7878479914878,475.637531220857
3565,7252,9805,"Herzschuh et al., 2019","Hu Mao","Hu Mao 14",52.255,123.985,720,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.823785354523788,1723.36971738903,-5.34025092150193,-29.2634111240008,15.7878479914878,475.637531220857
3565,7253,9806,"Herzschuh et al., 2019","Hu Mao","Hu Mao 15",52.255,123.985,720,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.823785354523788,1723.36971738903,-5.34025092150193,-29.2634111240008,15.7878479914878,475.637531220857
3566,7254,3191,"CMPD","Huajiang","Huajiang XD-1",25.6848028,105.656911,682,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05443934799363,6954.51398187943,19.0534629640532,9.62640476409938,26.2457226186623,1194.31710852854
3566,7255,3192,"CMPD","Huajiang","Huajiang XD-2",25.676792,105.686992,784,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04906470762599,6773.19801760018,18.5567068975347,9.18973669083844,25.7300165275284,1189.53599217468
3566,7256,3193,"CMPD","Huajiang","Huajiang XD-3",25.677447,105.6747722,784,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04919374465869,6773.03083275662,18.5562488568674,9.18875575619833,25.7293501321909,1189.69982723025
3566,7257,3194,"CMPD","Huajiang","Huajiang XD-4",25.665522,105.6637194,729,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05141924964332,6872.51091321386,18.8287970225037,9.435482607274,26.004282853858,1191.96899797273
3567,7258,11574,"Neotoma","Hual Cu Cuish Meadow","ERW2002-26",32.967,-116.583,1451,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.365476607838812,4361.99133811733,11.9506612003215,4.72718457645505,21.7794764909256,502.720258405606
3567,7259,11576,"Neotoma","Hual Cu Cuish Meadow","ERW2002-27",32.967,-116.583,1451,"not known","terrestrial","surface sample","-46","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,20,"xerophytic woods/scrub",0.365476607838812,4361.99133811733,11.9506612003215,4.72718457645505,21.7794764909256,502.720258405606
3567,7260,11575,"Neotoma","Hual Cu Cuish Meadow","ERW2002-31",32.967,-116.583,1451,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,20,"xerophytic woods/scrub",0.365476607838812,4361.99133811733,11.9506612003215,4.72718457645505,21.7794764909256,502.720258405606
3567,7261,11573,"Neotoma","Hual Cu Cuish Meadow","ERW2002-32",32.967,-116.583,1451,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,20,"xerophytic woods/scrub",0.365476607838812,4361.99133811733,11.9506612003215,4.72718457645505,21.7794764909256,502.720258405606
3568,7262,3195,"CMPD","Huangjiapu","Huangjiapu",40.5667,115.15,605,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.456444623591487,3721.89878584381,8.45277968440017,-8.34587822120497,22.9832355071299,475.143825336712
3569,7263,3196,"CMPD","Huangpu","Huangpu",22.93,113.15,6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.53636631020346,8298.0452783276,22.7343706255551,14.8614535727498,28.8155480592499,1957.12082858896
3570,7264,3197,"CMPD","Huangshui","Huangshui",36.59,101.23,2732,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.313713131633529,2248.34181459777,3.95278093443635,-9.24203618407127,14.9499336722016,328.939482852615
3571,7265,3198,"CMPD","Huaping","Huaping 01",25.6,109.9,1113,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29137206111569,4805.36735800523,13.1653900219321,1.92292325698086,23.4469233363264,1349.69311972474
3571,7266,3199,"CMPD","Huaping","Huaping 02",25.61,109.9,793,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31401955920224,5659.86250370048,15.506472612878,4.53813078277102,25.2688231019948,1419.67479773838
3571,7267,3200,"CMPD","Huaping","Huaping 03",25.59,109.89,1315,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27612272650802,4265.93421491397,11.6874909997643,0.269695462936134,22.2991409427423,1304.7348968139
3571,7268,3201,"CMPD","Huaping","Huaping 04",25.6,109.9,1052,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29573955643621,4968.4235715425,13.612119374089,2.42208272370988,23.7944093996578,1363.09003053878
3571,7269,3202,"CMPD","Huaping","Huaping 05",25.59,109.89,1329,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27509790417049,4229.64548522087,11.5849197559926,0.155000993474844,22.2194696493087,1301.6550281645
3571,7270,3203,"CMPD","Huaping","Huaping 06",25.6,109.9,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30300705260458,5241.07494499825,14.3591094383514,3.25674281561743,24.3754516694906,1385.49142239176
3571,7271,3204,"CMPD","Huaping","Huaping 07",25.6,109.9,970,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30158521059209,5187.61389137947,14.2126407982999,3.09308397406693,24.2615218126607,1381.09899261667
3571,7272,3205,"CMPD","Huaping","Huaping 08",25.59,109.89,1318,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27590289712673,4257.97417594835,11.6655114475275,0.245118076623,22.2820685227208,1304.07492496046
3571,7273,3206,"CMPD","Huaping","Huaping 09",25.61,109.91,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30706020323358,5373.75464770844,14.7226154731738,3.66229606739364,24.6597228641141,1396.91389714008
3571,7274,3207,"CMPD","Huaping","Huaping 10",25.61,109.91,870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30917605616934,5453.91122199903,14.9422225260247,3.90749158073087,24.830791062436,1403.49106281629
3571,7275,3208,"CMPD","Huaping","Huaping 11",25.62,109.9,857,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30937585008725,5487.99201940334,15.0355945737078,4.01198852231771,24.9026078467586,1405.30914911729
3571,7276,3209,"CMPD","Huaping","Huaping 12",25.62,109.89,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31711315333758,5800.84117524819,15.8927155486252,4.96926813617611,25.5692512713342,1430.35999774251
3571,7277,3210,"CMPD","Huaping","Huaping 13",25.6,109.9,1202,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28496608577999,4567.46566940168,12.5136045737032,1.19464141208113,22.9399354734331,1330.14680722558
3571,7278,3211,"CMPD","Huaping","Huaping 14",25.59,109.89,1276,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27897626447686,4370.22719027753,11.9732251788425,0.589201485006869,22.5210824030215,1313.31453090866
3571,7279,3212,"CMPD","Huaping","Huaping 15",25.6,109.9,1237,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2824346108127,4473.90882556883,12.2572844536132,0.908238439367758,22.7405582239807,1322.46005511916
3571,7280,3213,"CMPD","Huaping","Huaping 16",25.6,109.9,1180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28655361316993,4626.27282838234,12.6747200777598,1.37466613778668,23.0652583159461,1334.97847997818
3571,7281,3214,"CMPD","Huaping","Huaping 17",25.61,109.91,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31058523887152,5507.34893819276,15.0886272279254,4.07095525628902,24.944836527984,1407.87583993377
3571,7282,3215,"CMPD","Huaping","Huaping 18",25.6,109.9,1148,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28885792288949,4711.81051417238,12.9090699018421,1.63652028426748,23.247546086874,1342.00636761833
3571,7283,3216,"CMPD","Huaping","Huaping 19",25.59,109.89,1316,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27604941863492,4263.26003605849,11.680164482352,0.261503000831756,22.2934501360685,1304.51490619609
3571,7284,3217,"CMPD","Huaping","Huaping 20",25.61,109.9,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31352436157816,5641.15545958822,15.455220437228,4.48089761548597,25.2289112927998,1418.13660439437
3571,7285,3218,"CMPD","Huaping","Huaping 21",25.6,109.9,934,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30414351468254,5283.84378789327,14.4762843503925,3.38766988885783,24.4665955549546,1389.00536621183
3571,7286,3219,"CMPD","Huaping","Huaping 22",25.6,109.9,1020,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29802403058188,5053.96125733254,13.8464691981713,2.68393687019068,23.9766971705858,1370.11791817893
3571,7287,3220,"CMPD","Huaping","Huaping 23",25.6,109.9,978,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30101606649347,5166.22946993196,14.1540533422793,3.02762043744673,24.2159498699287,1379.34202070663
3572,7288,10978,"Bush et al., 2020","HuaypoB","HuaypoB",-13.4,-72.134,3499,"not known","lake","lake surface sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.612036754263992,3726.59077818348,10.2098377484479,8.18199760758705,11.4969847086725,887.412079109714
3573,7289,10979,"Bush et al., 2020","HuaypoC","HuaypoC",-13.4,-72.134,3499,"not known","lake","lake surface sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.612036754263992,3726.59077818348,10.2098377484479,8.18199760758705,11.4969847086725,887.412079109714
3574,7290,12712,"Neotoma","Hudson Lake","HUDSONLK",41.67,-86.53,239,"not known","lake","core","42","Bailey, R.E. 1972. Late- and postglacial environmental changes in northwestern Indiana. Doctoral dissertation. Indiana University, Bloomington, Indiana, USA.",,13,"temperate deciduous broadleaf forest",1.01509612972675,3923.26693899135,9.89731603587388,-5.05613844217513,22.9128022034104,933.803303446084
3575,7291,11854,"Neotoma","Hueston Woods","KKMFA02",39.59083333,-84.76111111,283,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.04426702731511,4139.2439732904,10.8095468980668,-3.62687706264993,23.3125569190267,1000.79417197911
3576,7292,12713,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","-14","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12714,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","-10","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12715,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","-8","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12716,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","-5","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12717,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","1","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12718,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","6","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12719,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","12","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12720,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","18","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12721,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","24","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12722,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","30","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12723,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","36","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12724,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","42","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3576,7292,12725,"Neotoma","Hug Lake","HUGLAKE",47.958333,-90.933333,570,"not known","lake","core","48","Swain, A.M. 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Swain, A.M. 1980. Landscape patterns and forest history in the Boundary Waters Canoe Area, Minnesota: a pollen study from Hug Lake. Ecology 61:747-754.",,9,"cool mixed forest",1.04379077242541,2150.32973620365,0.934354589982497,-18.0730361174749,16.7994139863049,745.472294217623
3577,7293,11926,"Neotoma","Hughes Site 6","NICHICUN6",52.55,-70.4666666666667,575,"not known","terrestrial, bog/fen/swamp","surface sample","-9","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.68926511161549,1384.66314849296,-3.78169815237532,-22.8154019630734,13.4649153462557,896.003643381706
3578,7294,11927,"Neotoma","Hughes Site 7","NICHICUN7",55.1166666666667,-68.8166666666667,585,"not known","terrestrial","surface sample","-9","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.65612891301105,1203.63434594457,-5.00654145627333,-23.8202911563219,12.4475475409634,791.415477300197
3579,7295,11928,"Neotoma","Hughes Site 8","NICHICUN8",53.85,-69.0333333333333,544,"not known","terrestrial","surface sample","-9","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.6183996370534,1217.29099115808,-4.92432499268186,-23.7625866145151,12.5135389758607,790.241333051536
3580,7296,3221,"CMPD","Huidong","Huidong 1",23.15,115.2,201,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50691948546714,7791.04816940644,21.3453374504286,13.130502360606,27.9268776967244,1901.64636129803
3580,7297,3222,"CMPD","Huidong","Huidong 2",23.14,115.12,267,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.48017581484569,7605.91720217721,20.8381293210335,12.3867187945445,27.6386446727166,1849.0124331299
3581,7298,10980,"Bush et al., 2020","Huinaymarca","Huinaymarca",-15.17,-70,3816,"not known","lake","lake surface sample","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.616039725879086,3291.36387648343,9.0174352780368,6.60672377137232,10.503333560198,907.871291851351
3582,7299,3223,"CMPD","Huitong","Huitong",26.93,109.99,466,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.25680474461747,5996.20833485895,16.4279680407094,4.91068544679297,27.0185826091966,1359.33384085066
3583,7300,9807,"Herzschuh et al., 2019","Hulun Nur Lake","Hulun Nur Lake_2006",49.13,117.51,545,"2339","lake","lake surface sample","10","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.351231847168915,2631.7685787724,0.364627573280397,-22.7418410002044,20.9190468852598,288.548826337537
3584,7301,3224,"CMPD","Huma","Huma",51.8,126.2,250,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.795932949393622,2341.0237613263,-2.03843001888051,-26.8599252704228,19.4002007211409,511.74060914761
3585,7302,19729,"SMPDSv1","Humalalampi","Seppa_b48",62.48,27.48,126,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02978628825021,2133.77792032978,2.99389430609164,-10.5405548543499,16.5813676981107,545.779257447662
3586,7303,12726,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","-29","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12727,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","-22","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12728,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","-13","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12729,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","-5","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12730,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","3","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12731,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","12","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12732,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","20","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12733,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","28","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12734,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","37","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3586,7303,12735,"Neotoma","Humber Pond 3","HUMBER3",43.64,-79.48,74,"not known","lake","core","45","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.980950242192006,3415.84800582504,8.2000167657592,-5.80516548049223,21.5460674627895,857.090133031545
3587,7304,12736,"Neotoma","Humber Pond 5","HUMBER5",43.64,-79.49,74,"not known","lake","core","-25","Weninger, J.M., and J.H. McAndrews. 1989. Late Holocene aggradation in the lower Humber River valley, Toronto, Ontario. Canadian Journal of Earth Sciences 26:1842-1849.",,9,"cool mixed forest",0.981080831997676,3416.21512574742,8.2019887341663,-5.80168115909996,21.5468406315075,857.226791322699
3588,7305,12737,"Neotoma","Humber Pond 7","HUMBER7",43.65,-79.5,74,"not known","lake","core","-24","Unpublished data",,9,"cool mixed forest",0.98142258622985,3415.97041227932,8.20097045438975,-5.80337540695498,21.5460840175769,857.372740670408
3588,7305,12738,"Neotoma","Humber Pond 7","HUMBER7",43.65,-79.5,74,"not known","lake","core","32","Unpublished data",,9,"cool mixed forest",0.98142258622985,3415.97041227932,8.20097045438975,-5.80337540695498,21.5460840175769,857.372740670408
3589,7306,10981,"Bush et al., 2020","humido.3dist","humido.3dist",10.862403,-85.682788,239,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32040182210313,9352.65651422207,25.6237164773207,24.6372261330197,27.0708631136448,2333.75850150799
3590,7307,15086,"Neotoma","Hummingbird Lake","HUMBIRD",56.55185,-135.01205,46,"not known","lake","core","-31","Ager, T.A. 2019. Late Quaternary vegetation development following deglaciation of northwestern Alexander Archipelago, Alaska. Frontiers in Earth Science 7:104.","10.3389/feart.2019.00104",8,"cool evergreen needleleaf forest",3.35905333274745,2448.47219009859,6.68221419065764,-0.252553865824247,13.4362944738842,1788.40490886667
3591,7308,15487,"Neotoma","Humptulips 1","CJH066",47.45,-123.84,76,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.75963996150265,3566.43644379971,9.77105875013618,4.1309437003958,16.0623105678142,2096.30725279992
3592,7309,15488,"Neotoma","Humptulips 2","CJH067",47.5,-123.85,76,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.77073000438505,3563.04788938297,9.7617750394054,4.11412390480202,16.0619683736407,2102.38414115541
3593,7310,15489,"Neotoma","Humptulips 3","CJH068",47.55,-123.6,152,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.56142640309839,3548.67890129111,9.72240794874277,3.87351839899174,16.2423826152748,1968.4775696842
3594,7311,23230,"SMPDSv1","HUN/EM/APV-14","HUN/EM/APV-14",46.894,16.261,290,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.920897178693882,3586.72833304296,9.64760371513712,-1.61820469159512,19.3847349173283,810.995399467489
3595,7312,23231,"SMPDSv1","HUN/EM/CSIK-11","HUN/EM/CSIK-11",47.433,21.78,121,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.663221430767779,3760.17600538433,10.0108674806574,-2.54015497994915,20.1119140831299,586.353388034552
3596,7313,23232,"SMPDSv1","HUN/EM/CSOR-15","HUN/EM/CSOR-15",46.889,16.261,350,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.962727481041224,3474.40830605927,9.29776232145095,-1.87550438819919,18.9913034543718,841.941220471287
3597,7314,23233,"SMPDSv1","HUN/EM/ET-4","HUN/EM/ET-4",47.847,19.95,500,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.930199355726898,2905.83726511614,7.25179037348279,-4.318064634422,16.912762632852,752.268697944728
3598,7315,23234,"SMPDSv1","HUN/EM/HAL-9","HUN/EM/HAL-9",47.512,21.847,121,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.667928985819057,3753.06272746138,9.98588705449985,-2.57490572553801,20.0889323715908,589.324239298551
3599,7316,23235,"SMPDSv1","HUN/EM/KM-2","HUN/EM/KM-2",47.883,20,730,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15515254081476,2429.66115004252,5.55051138605544,-5.54403025696657,14.9829305467618,885.412394612814
3600,7317,23236,"SMPDSv1","HUN/EM/ORR-12","HUN/EM/ORR-12",46.894,16.275,300,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.927132440714702,3567.57348742521,9.588179684756,-1.66299377352159,19.3183654738621,815.410007946885
3601,7318,23237,"SMPDSv1","HUN/EM/SOM-1","HUN/EM/SOM-1",47.891,19.997,540,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.967719754032024,2819.76008731975,6.953057754177,-4.5345320778626,16.5752193720564,774.900813315237
3602,7319,3225,"CMPD","Hunan","Hunan",26.94,109.97,278,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.23630401733574,6265.53569650713,17.1658512233072,5.40589293990203,28.0838300467253,1351.47734139592
3603,7320,15392,"Neotoma","Hungry Jack Lake","AMS125",48.15,-91.12,453,"not known","lake","surface sample","Modern","Swain, A.M., 1973. A History of Fire and Vegetation in Northeastern Minnesota as Recorded in Lake Sediments. Quaternary research, 3(3), pp.383-396; Swain, A.M., 1974. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1016/0033-5894(73)90004-5",9,"cool mixed forest",1.02578430401971,2324.74561112476,2.01440371480046,-16.4386885031717,17.561622457903,743.154266689726
3604,7321,3226,"CMPD","Hungshui","Hungshui 1",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7322,3227,"CMPD","Hungshui","Hungshui 2",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7323,3228,"CMPD","Hungshui","Hungshui 3",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7324,3229,"CMPD","Hungshui","Hungshui 4",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7325,3230,"CMPD","Hungshui","Hungshui 5",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7326,3231,"CMPD","Hungshui","Hungshui 6",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3604,7327,3232,"CMPD","Hungshui","Hungshui 7",37.77,115.7,35,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.487621115484781,5040.52480074514,13.498206862722,-2.4508179570453,27.0031693594688,555.137338595223
3605,7328,11985,"Neotoma","Hunky Dory Lake","SM-HDY",39.42175,-106.483975,3452,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.571937452798947,920.531378552291,-2.53132663477024,-13.769513434234,8.99906245643799,518.808659291853
3606,7329,16522,"Neotoma","Hunter Pond","KG019",46,-67.92,146,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50755697543433,2614.55481325155,4.69942551928104,-10.2346808267925,18.4233154497309,1123.53326165294
3607,7330,14441,"Neotoma","Hunters Lake","HUNTERS",37.611035,-106.843695,3516,"not known","lake","core","-46","Anderson, R.S., C.D. Allen, J.L. Toney, R.B. Jass, and A.N. Bair. 2008. Holocene vegetation and fire regimes in subalpine and mixed conifer forests, southern Rocky Mountains, USA. International Journal of Wildland Fire 17(1):96-114.","10.1071/WF07028",17,"temperate evergreen needleleaf open woodland",0.685425849590391,746.779598107554,-3.7857255613668,-15.4928819839276,7.78826401162316,620.86781502382
3607,7330,14442,"Neotoma","Hunters Lake","HUNTERS",37.611035,-106.843695,3516,"not known","lake","core","47","Anderson, R.S., C.D. Allen, J.L. Toney, R.B. Jass, and A.N. Bair. 2008. Holocene vegetation and fire regimes in subalpine and mixed conifer forests, southern Rocky Mountains, USA. International Journal of Wildland Fire 17(1):96-114.","10.1071/WF07028",17,"temperate evergreen needleleaf open woodland",0.685425849590391,746.779598107554,-3.7857255613668,-15.4928819839276,7.78826401162316,620.86781502382
3608,7331,15728,"Neotoma","Huntley Pond","HUNT_C90",43.832335,-74.118845,482,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34823565902994,2743.67862867629,5.24923203203797,-9.61458010188596,18.6217303782574,1045.77967149184
3609,7332,9097,"EMPDv2","Hurecka, Sumava","EPDcoretop_E1583",49.15,13.33,870,"0.622","terrestrial, bog/fen/swamp","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.5343285812951,2424.14719186404,5.99173590972194,-3.41941878818615,14.7867741267971,1124.60989413392
3609,7333,9096,"EMPDv2","Hurecka, Sumava","Svobodova_a14",49.1552,13.3286444444444,865.5,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.52664508658891,2430.97278260895,6.0147778951506,-3.40692649786708,14.8161584376046,1119.15055225319
3610,7334,9091,"EMPDv2","Hurecky, Sumava","Svobodova_a9",49.1240805555556,13.315475,1099.4,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.90358226622276,2089.62642417096,4.83233066999414,-4.04768774379051,13.3109917569355,1370.67236644212
3611,7335,19730,"SMPDSv1","Hurmajarvi","Seppa_b95",60.78,27.28,90,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04650067317552,2236.00227252667,3.67440665103757,-9.41779205722527,16.749291392509,580.468127584224
3612,7336,8641,"EMPDv2","Hurrbreen","Pardoe_c111",61.36,8.1,1375,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.59547118490837,1097.56987599647,-0.441175105251536,-10.3901090101154,9.56760693998518,799.957362437216
3612,7337,8642,"EMPDv2","Hurrbreen","Pardoe_c112",61.36,8.1,1350,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62735534568193,1111.9245529436,-0.338430940742353,-10.25094231581,9.63969260299982,815.390195074028
3612,7338,8643,"EMPDv2","Hurrbreen","Pardoe_c113",61.36,8.1,1320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.66567884167085,1129.24722221105,-0.215137943331334,-10.0839422826435,9.72619539861739,833.909594238201
3612,7339,8644,"EMPDv2","Hurrbreen","Pardoe_c114",61.36,8.1,1270,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.72970464942738,1158.46333603564,-0.00964961431296866,-9.80560889403267,9.87036672464667,864.775259511824
3612,7340,8645,"EMPDv2","Hurrbreen","Pardoe_c115",61.36,8.1,1200,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.81966685806432,1199.9997755425,0.278034046312743,-9.41594214997749,10.0722065810877,907.987190894896
3613,7341,12739,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-32","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12740,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-30","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12741,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-28","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12742,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-22","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12743,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-13","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12744,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","-2","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12745,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","9","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12746,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","20","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12747,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","31","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3613,7341,12748,"Neotoma","Hustler Lake","HUSTLER",48.229815,-92.16005,401,"not known","lake","core","42","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.983349240767366,2510.83780145024,2.82429384877625,-15.7172556050764,18.4410479963043,727.328840848432
3614,7342,17412,"Neotoma","Hutchin's Lake","TW119",42.58,-86.13,192,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.962145747892882,3667.09112171868,8.97339180103011,-5.84312319832601,22.2807880673061,858.298649879266
3615,7343,3233,"CMPD","Hutuo River","Hutuo River 1",38.23,115.77,18,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.48907975179795,5032.26239501419,13.452600907294,-2.57938269187013,27.0308823731714,553.764009615623
3615,7344,3234,"CMPD","Hutuo River","Hutuo River 2",38.23,115.77,18,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.48907975179795,5032.26239501419,13.452600907294,-2.57938269187013,27.0308823731714,553.764009615623
3615,7345,3235,"CMPD","Hutuo River","Hutuo River 3",38.23,115.77,18,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.48907975179795,5032.26239501419,13.452600907294,-2.57938269187013,27.0308823731714,553.764009615623
3616,7346,6996,"EMPDv2","Huzenbacher See","EPDcoretop_E1478",48.575536,8.349523,747,"0.025","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.50815399643427,2896.07317528483,7.79387207550762,-1.17841311710515,16.6078253296002,1136.03907907178
3616,7347,6997,"EMPDv2","Huzenbacher See","Roesch_a2",48.575536,8.349523,747,"0.025","lake","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.50815399643427,2896.07317528483,7.79387207550762,-1.17841311710515,16.6078253296002,1136.03907907178
3617,7348,9623,"Gaillard et al., 1992","Hyby","Hyby",55.58158,13.258778,35,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.939715090129289,2907.85336828738,7.78434241670959,-1.19016320120976,16.78299046268,631.460304765307
3618,7349,14201,"Neotoma","Hyde Park","HYDEPARK",41.78575,-73.90115,74,"not known","artificial water body","core","-39","Robinson, G.S., L.P. Burney, and D.A. Burney. 2005. Landscape paleoecology and megafaunal extinction in southeastern New York State. Ecological Monographs 75(3):295-315.",,9,"cool mixed forest",1.22985446291708,3983.83325167857,10.457058624977,-3.07251482144778,22.9751906382366,1132.29368820306
3619,7350,12749,"Neotoma","Hynes Brook Salt Marsh","HYNES",48.618611,-58.965,0,"not known","terrestrial, marsh","core","11","Brookes, I.A., D.B. Scott, and J.H. McAndrews. 1985. Postglacial relative sea-level change, Port au Port area, west Newfoundland. Canadian Journal of Earth Sciences 22:1039-1047.",,9,"cool mixed forest",1.83151178081155,2160.66666365334,4.31951892922003,-6.98490363542279,15.8214329754848,1177.03117622534
3620,7351,10647,"Neotoma","Hypkana","Hypkana core top",48.913385,22.16346,840,"0.021","terrestrial, bog/fen/swamp","core top","42","Hájková, P., Pařil, P., Petr, L., Chattová, B., Grygar, T.M. and Heiri, O., 2016. A first chironomid-based summer temperature reconstruction (13–5 ka BP) around 49 N in inland Europe compared with local lake development. Quaternary Science Reviews, 141, pp.94-111.","10.1016/j.quascirev.2016.04.001",9,"cool mixed forest",1.27568601525595,2237.05732125497,4.69347689186617,-6.63426747129118,14.2230575184076,915.263015680171
3621,7352,9808,"Herzschuh et al., 2019","hyQ","hyQ",36.56,100.74,3194,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.288182267584286,1587.81071631624,0.949799391089428,-12.170852255933,12.0109118822043,292.547731415483
3622,7353,19731,"SMPDSv1","Hyttevatn","Bjune_a25",68.42195688,15.93321223,292,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.18691543213147,1253.05579619109,0.949111342851706,-7.39250878583977,11.0801061422898,1185.81828140515
3623,7354,6016,"EMBSeCBIO","Iaz","Iaz Core_0",47.108333,22.661111,300,"0.0035","terrestrial, bog/fen/swamp","core","15","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.754050095802897,3474.63628433862,9.07398437975118,-3.40788319201101,19.0519457230699,656.369927936442
3623,7355,6017,"EMBSeCBIO","Iaz","Iaz Core_5",47.108333,22.661111,300,"0.0035","terrestrial, bog/fen/swamp","core","48","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.754050095802897,3474.63628433862,9.07398437975118,-3.40788319201101,19.0519457230699,656.369927936442
3623,7356,9199,"EMPDv2","Iaz","Tantau_a4",47.1083333333333,22.6611111111111,300,"0.0035","terrestrial, bog/fen/swamp","peat","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.754050108255446,3474.63626163261,9.07398429294477,-3.40788332607811,19.0519456485092,656.369934119893
3624,7357,11653,"Neotoma","Ibis Pond","GPPS-26",36.389075,-102.66887,1306,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.312792054028913,4642.82998302129,12.7200821452638,0.453961569802895,25.2277552039431,413.686559701336
3625,7358,9134,"EMPDv2","Ic Ponor","Tantau_a5",47.6166666666667,22.8,1050,"0.07","terrestrial, bog/fen/swamp","peat","-11","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.25498981801096,2152.18882623143,4.20785354570824,-7.71428353389111,13.7899036012309,934.756497909634
3626,7359,11791,"Neotoma","Ice Lake","LMSJ3",37.81393,-107.809025,3736,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.843336884463033,538.638965844974,-4.98605920448405,-16.2156151222414,6.25980405360449,742.845502160957
3627,7360,11790,"Neotoma","Ice Lake Basin Pond","LMSJ2",37.810885,-107.80989,3749,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.849286645708173,523.761272308681,-5.08767274394405,-16.3007938838558,6.14440510224382,745.846014183154
3628,7361,14260,"Neotoma","Idavain Lake","IDAVAIN",58.7722944444444,-155.945094999999,223,"not known","lake","core","25","Brubaker, L.B., P.M. Anderson, and F.S. Hu. 2001. Vegetation ecotone dynamics in southwest Alaska during the late Quaternary. Quaternary Science Reviews 20:175-188.",,15,"cold evergreen needleleaf forest",1.46301216463852,1384.34276232539,0.190335993924332,-9.9891894993268,11.592266504121,664.150425182712
3629,7362,9624,"Gaillard et al., 1992","Ideboas","Ideboas",57.097714,15.672859,178,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.937654670220075,2463.48272565781,6.07684107252803,-3.20408832263165,15.7318351108356,600.635881153853
3630,7363,9625,"Gaillard et al., 1992","Idholm","Idholm",56.153702,15.743671,2,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.85472402019248,2822.24942259763,7.52727923337491,-1.22469378368583,16.7064301246587,572.148892585565
3631,7364,9004,"EMPDv2","Igaliku","Schofield_a35",60.9984,-45.4195,8,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54201079780409,1017.45031634162,0.830262325834374,-5.58679349788178,8.42573430415973,1105.65882437657
3631,7365,9005,"EMPDv2","Igaliku","Schofield_a36",60.9985,-45.4195,13,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54459064033799,1013.00178337984,0.807763674935311,-5.60148234264516,8.40559937186693,1106.15236570032
3631,7366,9006,"EMPDv2","Igaliku","Schofield_a37",60.9985,-45.4194,13,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54462354720087,1012.99932469427,0.807758442953179,-5.6014724557717,8.40558873820038,1106.1668701344
3631,7367,9007,"EMPDv2","Igaliku","Schofield_a38",60.9987,-45.4192,22,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54933645195579,1005.02800296646,0.767253623756622,-5.6278921885303,8.36933069124052,1107.08214262854
3631,7368,9008,"EMPDv2","Igaliku","Schofield_a39",60.9988,-45.4191,19,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54778403147339,1007.68970918809,0.780775534276154,-5.61906467331661,8.38145476178254,1106.78315486241
3631,7369,9009,"EMPDv2","Igaliku","Schofield_a40",60.9992,-45.4184,39,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.55837860487156,990.019301564844,0.690742898228948,-5.67775140466882,8.30083649259666,1108.85908356789
3632,7370,12750,"Neotoma","Iglutalik Lake","IGLUTALK",66.135,-66.083333,90,"not known","lake","core","15","Unpublished data",,30,"tundra",1.16620673776894,451.108988118316,-9.45465372810921,-24.3966360830114,6.19689231271129,355.639269959269
3633,7371,10615,"BIOME6000 Japan","Iinogawa","IingwC0",38.53,141.29,7,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.67165547926421,4261.59091559281,11.6755915495693,0.58691109576436,24.0492657520184,1451.82624203651
3634,7372,713,"Australian pollen","Ijomba","Ijomba_core top",-4.0333,137.2167,3630,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.32587895880439,5716.63721650966,15.6620197712593,14.9813739198186,16.0314868357638,3108.39316368269
3635,7373,8390,"EMPDv2","IK","Nakagawa_b1",37.5128083333333,137.220116666667,7.8,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.86567656602205,4764.93375515225,13.0546130278144,0.809855146949495,26.3268980191212,1712.74351313492
3635,7374,8391,"EMPDv2","IK","Nakagawa_b2",38.2063916666667,139.729525,449,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.80367650662692,3743.66547265126,9.92580998976551,-2.05994170637093,23.0518623132846,1520.28188297214
3635,7375,8392,"EMPDv2","IK","Nakagawa_b3",37.7955361111111,139.771975,550,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.81361550665997,3623.24080071292,9.52942248681966,-2.37301194420622,22.5193593019259,1526.68247779678
3635,7376,8393,"EMPDv2","IK","Nakagawa_b4",37.57065,139.380127777778,193,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.70247475380833,4301.09558247871,11.762382396209,-0.0260270741238571,24.7568212973915,1506.7340335071
3635,7377,8394,"EMPDv2","IK","Nakagawa_b5",36.8161861111111,138.759688888889,907,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.7843225824453,3391.86795881769,8.66099072665518,-3.46774846598143,21.5105366023555,1530.76888752061
3635,7378,8395,"EMPDv2","IK","Nakagawa_b6",37.1441,136.697916666667,1.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.95924973913932,4915.51402207449,13.4671617043137,1.42078806655635,26.4965814597851,1819.32837155564
3636,7379,10557,"BIOME6000 Japan","Ikenohira","IknhrD0",34.52,136.18,600,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",2.28227222452583,4231.65723761551,11.583378699632,0.058161857711279,23.6484838044106,2148.53653503768
3637,7380,10580,"BIOME6000 Japan","Ikenokochi","IkenoC0",35.65,136.14,300,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.89923662072459,4766.49953289326,13.0589028298446,1.54415949944584,25.38138259952,1806.94151579299
3638,7381,7133,"EMPDv2","Ile d Errand","EPDcoretop_E2142",47.37,-2.16,3,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.94576955280386,4422.92285242238,12.1175968559517,6.01957889634058,18.7685306323783,813.322177386237
3639,7382,19733,"SMPDSv1","Ilmen lake","Ilmen lake_SS",58.3,31.2333,18,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.983275759239467,2492.6319411682,4.72664713196562,-8.83618991482874,17.2951483253357,592.034053896614
3640,7383,19732,"SMPDSv1","Ilmen Lake","EPDcoretop_E289",58.3,31.233333,18,"1200","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.983275860421469,2492.63181060377,4.72664584294551,-8.83619387199596,17.295147251488,592.034107853673
3641,7384,19734,"SMPDSv1","Imatu Mire","EPDcoretop_E290",59.133333,27.433333,45,"1.5","not known","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02519958476854,2422.84206892175,4.73645022958578,-7.78928334306576,16.7772408978461,609.595457415123
3642,7385,7975,"EMPDv2","Imchyn_1","Mikishin-Gvozdeva_a35",51.5327777777778,143.0425,58,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22587826224083,1847.4117467038,-0.558758831692872,-18.6837518875317,15.279252688002,665.744751194562
3643,7386,7976,"EMPDv2","Imchyn_2","Mikishin-Gvozdeva_a36",51.5316666666667,143.041944444444,54,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22398627507705,1851.54246508218,-0.542954504059904,-18.6771832522768,15.3011439989385,664.988774910264
3644,7387,5945,"EMBSeCBIO","Imera","Imera core 1_0",41.65,44.22,1610,"0.12","terrestrial, bog/fen/swamp","core","-51","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.714560263956326,2718.31568249152,5.50435091564,-8.84465524234401,18.0517731858576,730.921274824503
3644,7388,5946,"EMBSeCBIO","Imera","Imera core 1_5",41.65,44.22,1610,"0.12","terrestrial, bog/fen/swamp","core","35","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.714560263956326,2718.31568249152,5.50435091564,-8.84465524234401,18.0517731858576,730.921274824503
3645,7389,19735,"SMPDSv1","Imera lake","Connor_a35 (Imera-1)",41.6498,44.2140333333333,1610,"0.06","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.714577861182043,2718.17273848534,5.50393818513649,-8.84480824465414,18.0498739200067,730.932472605793
3645,7390,19736,"SMPDSv1","Imera lake","Connor_a36 (Imera-2)",41.6498,44.2140333333333,1610,"0.06","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.714577861182043,2718.17273848534,5.50393818513649,-8.84480824465414,18.0498739200067,730.932472605793
3645,7391,19737,"SMPDSv1","Imera lake","Connor_a37 (Imera-3)",41.6498,44.2140333333333,1610,"0.06","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.714577861182043,2718.17273848534,5.50393818513649,-8.84480824465414,18.0498739200067,730.932472605793
3645,7392,19738,"SMPDSv1","Imera lake","Connor_a38 (Imera-4)",41.6498,44.2140333333333,1610,"0.06","lake","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.714577861182043,2718.17273848534,5.50393818513649,-8.84480824465414,18.0498739200067,730.932472605793
3646,7393,7198,"EMPDv2","Immenmoor","EPDcoretop_E2520",53.67,8.72,7,"0.01","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22023668431677,3184.72315301573,8.72526891237186,0.739980733843835,16.597603627221,787.477143622886
3647,7394,6908,"EMPDv2","Impa","Colombaroli_a23",37.9909166666667,14.4691944444444,660,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.447803868875002,5505.56991562197,15.0837531934848,8.48726474545963,23.3316389680144,602.104656456424
3648,7395,16739,"Neotoma","Imperial","RJM001",51.311111,-105.383333,556,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,22,"steppe",0.481087657103032,2554.60409564107,2.25094995028467,-17.0192975720804,18.5885342012966,369.4135749079
3649,7396,11610,"Neotoma","Independence","IND-1C",43.76344,-95.0478349999999,479,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.754223961071054,3441.63553062509,7.06220418777092,-10.628414710054,22.5540039338371,684.939497783259
3649,7397,11609,"Neotoma","Independence","IND-1M",43.76344,-95.0478349999999,479,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.754223961071054,3441.63553062509,7.06220418777092,-10.628414710054,22.5540039338371,684.939497783259
3650,7398,11964,"Neotoma","Independence Lake","SM-IND",39.14353,-106.56814,3785,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.666367442534633,585.038550497148,-4.69361247027685,-15.7653767362106,6.64911707017534,579.700984341756
3651,7399,12146,"Neotoma","INEL1","INEL1",43.83415,-112.7247,1459,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.306559252073967,3040.24364522119,7.32554654986636,-5.31888452537834,20.3750830862814,305.451742648114
3652,7400,12147,"Neotoma","INEL2","INEL2",43.83415,-112.74455,1459,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.306426117638626,3040.89229062088,7.32940274831364,-5.31094237452139,20.3759932854496,305.348647600127
3653,7401,12148,"Neotoma","INEL3","INEL3",43.51455,-112.9461,1506,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.315315047832715,3021.34568601213,7.34683005921918,-4.9960300772959,20.2289377563824,317.082411430179
3654,7402,12149,"Neotoma","INEL4","INEL4",43.45645,-112.7484,1570,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.331961589134536,2913.09034638088,6.91585011015359,-5.43456611577988,19.8295982461368,330.642409571354
3655,7403,12150,"Neotoma","INEL5","INEL5",43.46043,-112.744375,1582,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.334742019107876,2895.56161052944,6.85279457826763,-5.47631441212286,19.7551714414395,332.876851908131
3656,7404,12151,"Neotoma","INEL6","INEL6",43.47095,-112.7484,1591,"not known","terrestrial","surface sample","-31","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.336796932353465,2882.31939271317,6.80529719890832,-5.50681779648844,19.698238477825,334.471683511668
3657,7405,714,"Australian pollen","Ingar Swamp","Ingar 1",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7406,715,"Australian pollen","Ingar Swamp","Ingar 2",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7407,716,"Australian pollen","Ingar Swamp","Ingar 3",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7408,717,"Australian pollen","Ingar Swamp","Ingar 4",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,718,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,719,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,720,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,721,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,722,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,723,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,724,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3657,7409,725,"Australian pollen","Ingar Swamp","Ingar Swamp_JC91",-33.7699,150.4564,584,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.688725451471968,5036.74438322695,13.7992996800738,6.85139565857354,20.2810216220423,901.120766624229
3658,7410,3236,"CMPD","Inner Mongolia","Inner Mongolia 01",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7411,3237,"CMPD","Inner Mongolia","Inner Mongolia 02",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7412,3238,"CMPD","Inner Mongolia","Inner Mongolia 03",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7413,3239,"CMPD","Inner Mongolia","Inner Mongolia 04",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7414,3240,"CMPD","Inner Mongolia","Inner Mongolia 05",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7415,3241,"CMPD","Inner Mongolia","Inner Mongolia 06",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7416,3242,"CMPD","Inner Mongolia","Inner Mongolia 07",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7417,3243,"CMPD","Inner Mongolia","Inner Mongolia 08",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7418,3244,"CMPD","Inner Mongolia","Inner Mongolia 09",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7419,3245,"CMPD","Inner Mongolia","Inner Mongolia 10",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7420,3246,"CMPD","Inner Mongolia","Inner Mongolia 11",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7421,3247,"CMPD","Inner Mongolia","Inner Mongolia 12",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7422,3248,"CMPD","Inner Mongolia","Inner Mongolia 13",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7423,3249,"CMPD","Inner Mongolia","Inner Mongolia 14",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7424,3250,"CMPD","Inner Mongolia","Inner Mongolia 15",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7425,3251,"CMPD","Inner Mongolia","Inner Mongolia 16",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7426,3252,"CMPD","Inner Mongolia","Inner Mongolia 17",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7427,3253,"CMPD","Inner Mongolia","Inner Mongolia 18",43,117,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365046757782379,2569.10662791779,2.23301784668416,-17.1035208347183,19.2042598376609,353.802945794569
3658,7428,3254,"CMPD","Inner Mongolia","Inner Mongolia C01",41.64,111.6,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.221995727152709,3243.25976327307,5.41898880127335,-13.9682872100986,22.3720617419901,246.717511591204
3658,7429,3255,"CMPD","Inner Mongolia","Inner Mongolia C02",42.2,112.3,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186630328608286,3135.21781525216,4.43453501994023,-15.9491668475858,22.340813285313,207.628495199888
3658,7430,3256,"CMPD","Inner Mongolia","Inner Mongolia C03",42.3,112.4,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176965264722961,3106.0648713158,4.15642336999461,-16.5393282662577,22.2921332436841,197.230344126267
3658,7431,3257,"CMPD","Inner Mongolia","Inner Mongolia C04",42.66,112.6,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177164155729281,3092.86359049988,4.04745195627919,-16.7566661864185,22.2479918375526,196.443513958056
3658,7432,3258,"CMPD","Inner Mongolia","Inner Mongolia C05",42.84,112.61,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169791362793919,3074.23972458459,3.8219254060323,-17.2910081218215,22.2289449400943,188.497023986841
3658,7433,3259,"CMPD","Inner Mongolia","Inner Mongolia C06",43.72,113.4,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.187513403570944,2995.05076681164,3.35305821101293,-17.9675084135826,21.8519180482595,202.063473101171
3658,7434,3260,"CMPD","Inner Mongolia","Inner Mongolia C07",43.86,113.9,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.204517501871157,3037.18207988525,3.68394508356779,-17.3757254687408,21.9299044198583,218.287906779541
3658,7435,3261,"CMPD","Inner Mongolia","Inner Mongolia C08",43.92,115.2,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.245100542832955,2802.00553831915,2.30069708828188,-19.2509708341273,20.9839660262069,249.29745469871
3658,7436,3262,"CMPD","Inner Mongolia","Inner Mongolia C09",43.87,116.2,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.26589066247144,2639.95615856475,1.37361777561956,-20.3169065337142,20.3158098147449,263.707468362555
3658,7437,3263,"CMPD","Inner Mongolia","Inner Mongolia C10",43.84,116.44,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.277690418084781,2595.36215902816,1.21180014589722,-20.3015461594313,20.0706699395821,273.023787867929
3658,7438,3264,"CMPD","Inner Mongolia","Inner Mongolia C11",43.66,116.6,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.271357368466924,2629.5087658075,1.37984850291521,-20.1611763592293,20.2503377312947,268.916481796198
3658,7439,3265,"CMPD","Inner Mongolia","Inner Mongolia C12",43.67,116.61,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.271653680139649,2628.66789870652,1.37743421018071,-20.1585814480976,20.2453852976536,269.128521098212
3658,7440,3266,"CMPD","Inner Mongolia","Inner Mongolia C13",43.3,116.01,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.244968797108913,2704.60886182006,1.60158600213325,-20.3478048873324,20.6801910523641,248.1805844505
3658,7441,3267,"CMPD","Inner Mongolia","Inner Mongolia C14",43.18,116,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.239700049280444,2742.18706259311,1.78675549057937,-20.2450929168753,20.8507541275936,244.398172827752
3658,7442,3268,"CMPD","Inner Mongolia","Inner Mongolia C15",43.44,115.7,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.237123614734139,2732.65689247802,1.74530953937926,-20.2011471216856,20.8082155104658,241.584598105191
3658,7443,3269,"CMPD","Inner Mongolia","Inner Mongolia DS01",42.2745333333333,110.950166666667,1179,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186372849687857,3075.45273737545,4.43612330382366,-15.3426990574982,21.8877372219101,208.180656403102
3658,7444,3270,"CMPD","Inner Mongolia","Inner Mongolia DS02",42.6514166666667,111.954833333333,1003,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.167027382204789,3125.17304601758,4.23680861306309,-16.4936399765548,22.4005226378094,186.996237685759
3658,7445,3271,"CMPD","Inner Mongolia","Inner Mongolia DS03",42.74925,110.752466666667,968,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.147032244268042,3198.82644907395,4.59673694557157,-16.0172403172541,22.7674401868848,166.723488217907
3658,7446,3272,"CMPD","Inner Mongolia","Inner Mongolia DS04",42.7488333333333,110.567183333333,1024,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.153928920019864,3195.25329773101,4.72307535930118,-15.5625039232265,22.6421415947487,174.100790042609
3658,7447,3273,"CMPD","Inner Mongolia","Inner Mongolia DS05",42.6636333333333,110.4689,1053,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.158301725101038,3184.36954533847,4.73478247829263,-15.4172380471905,22.5475151389728,178.85284258274
3658,7448,3274,"CMPD","Inner Mongolia","Inner Mongolia DS06",42.9244333333333,110.807,1031,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.154374655375653,3155.91057605395,4.4314332401497,-16.1241120118645,22.5130035110636,173.979089394885
3658,7449,3275,"CMPD","Inner Mongolia","Inner Mongolia DS07",43.1575833333333,111.204783333333,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180645886287406,3061.86709128627,4.23093724620911,-15.8512293809723,21.909738299379,200.12510616678
3658,7450,3276,"CMPD","Inner Mongolia","Inner Mongolia DS08",43.1525333333333,111.360633333333,1053,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.161834831416833,3097.29064827049,4.11249748425466,-16.5883910594001,22.2563913912305,180.792940511869
3658,7451,3277,"CMPD","Inner Mongolia","Inner Mongolia DS09",43.2528666666667,111.469,1057,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.160743792156252,3079.4918199224,3.97325650781884,-16.8412134118869,22.1962326615719,179.227160302007
3658,7452,3278,"CMPD","Inner Mongolia","Inner Mongolia DS10",43.3531666666667,111.586616666667,965,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.139190721917837,3104.81620936083,3.82113973768692,-17.5741781763952,22.468488468476,156.353028398547
3658,7453,3279,"CMPD","Inner Mongolia","Inner Mongolia DS11",43.52385,112.0775,984,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150572480709191,3066.37352611741,3.64600810258166,-17.7784581557515,22.2688205490024,167.570142243646
3658,7454,3280,"CMPD","Inner Mongolia","Inner Mongolia DS12",43.198,111.8234,1057,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168483827408315,3068.14865884094,3.93282304168589,-16.889511835291,22.1296018072214,187.157615876083
3658,7455,3281,"CMPD","Inner Mongolia","Inner Mongolia DS13",42.9189666666667,111.8567,1124,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.185320553033548,3037.15709859595,3.99866425008862,-16.3691209493589,21.8499232388479,204.782750306383
3658,7456,3282,"CMPD","Inner Mongolia","Inner Mongolia DS14",42.80035,112.150866666667,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196102407180352,3012.61124251521,3.98568657543046,-16.1603795437965,21.6644908513597,215.670001422026
3658,7457,3283,"CMPD","Inner Mongolia","Inner Mongolia DS15",42.7579166666667,112.430533333333,1099,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.189742967905645,3027.1859439388,3.88122715797459,-16.6326771514432,21.8298033204672,208.941764491161
3658,7458,3284,"CMPD","Inner Mongolia","Inner Mongolia DS16",43.0627666666667,112.459266666667,1085,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.18553438513894,3025.41797371766,3.79635928747961,-16.8831028925006,21.8649345985931,203.90684797921801
3658,7459,3285,"CMPD","Inner Mongolia","Inner Mongolia DS17",43.2306666666667,112.341933333333,1022,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.16923965685739,3054.91642764671,3.7360426129366,-17.3761977532092,22.130560377583,187.176227091847
3658,7460,3286,"CMPD","Inner Mongolia","Inner Mongolia DS18",43.3482833333333,112.16905,1033,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.162860445984573,3045.99572441431,3.68722241123058,-17.4341038509799,22.0952416024401,180.542558807873
3658,7461,3287,"CMPD","Inner Mongolia","Inner Mongolia MS01",42.3578833333333,116.182266666667,1291,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.360883716853237,2605.7189128714,2.51174250525282,-16.8263464385736,19.2245504866119,355.404220011845
3658,7462,3288,"CMPD","Inner Mongolia","Inner Mongolia MS02",42.2677666666667,116.335816666667,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.365173422351435,2542.70781687225,2.28669563637018,-16.8700816911867,18.8804931650569,360.582701552775
3658,7463,3289,"CMPD","Inner Mongolia","Inner Mongolia MS03",42.2937833333333,116.450666666667,1281,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.381743495488382,2568.22023041111,2.46303346579967,-16.5890149875627,18.972432192542,371.819561485342
3658,7464,3290,"CMPD","Inner Mongolia","Inner Mongolia MS04",42.2476666666667,116.625833333333,1279,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.394122047950015,2610.57981226519,2.80665183205691,-15.9591255508791,19.0625936144095,384.262370249041
3658,7465,3291,"CMPD","Inner Mongolia","Inner Mongolia MS05",42.1891333333333,116.690516666667,1272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.396711644427128,2612.91419336042,2.83966849863069,-15.8797297826569,19.0588497986297,386.652871991886
3658,7466,3292,"CMPD","Inner Mongolia","Inner Mongolia MS06",42.1891333333333,116.690516666667,1272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.396711644427128,2612.91419336042,2.83966849863069,-15.8797297826569,19.0588497986297,386.652871991886
3658,7467,3293,"CMPD","Inner Mongolia","Inner Mongolia MS07",42.1471666666667,116.8945,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.401290459970007,2558.33081521572,2.59257395647074,-16.0767074227559,18.8129287765889,389.062269907411
3658,7468,3294,"CMPD","Inner Mongolia","Inner Mongolia MS08",42.1471666666667,116.8945,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.401290459970007,2558.33081521572,2.59257395647074,-16.0767074227559,18.8129287765889,389.062269907411
3658,7469,3295,"CMPD","Inner Mongolia","Inner Mongolia MS09",42.1698166666667,116.9891,1262,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406693077861481,2586.26440474752,2.766345019413,-15.8136606478875,18.9162664787339,393.885081923851
3658,7470,3296,"CMPD","Inner Mongolia","Inner Mongolia MS10",42.1698166666667,116.9891,1262,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406693077861481,2586.26440474752,2.766345019413,-15.8136606478875,18.9162664787339,393.885081923851
3658,7471,3297,"CMPD","Inner Mongolia","Inner Mongolia MS11",42.2521333333333,117.07535,1336,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.391732385739662,2509.81874374114,2.2568308825359,-16.5863151998523,18.6734414877034,379.52435666632
3658,7472,3298,"CMPD","Inner Mongolia","Inner Mongolia MS12",42.5021833333333,117.28625,1565,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.376325857537807,2312.45426579294,1.09679905206964,-18.1253225924525,17.8549179760478,362.625435926974
3658,7473,3299,"CMPD","Inner Mongolia","Inner Mongolia MS13",42.5021833333333,117.28625,1565,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.376325857537807,2312.45426579294,1.09679905206964,-18.1253225924525,17.8549179760478,362.625435926974
3658,7474,3306,"CMPD","Inner Mongolia","Inner Mongolia TS01",42.6774666666667,115.950683333333,1311,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.348225945655042,2617.75622356351,2.46462923847922,-17.0800486078469,19.352402291390302,344.158147220321
3658,7475,3307,"CMPD","Inner Mongolia","Inner Mongolia TS02",42.61745,116.115416666667,1374,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35851085794654,2589.12771653742,2.43999479881082,-16.8691344932815,19.1385708236209,353.519953583627
3658,7476,3308,"CMPD","Inner Mongolia","Inner Mongolia TS03",42.61745,116.115416666667,1374,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35851085794654,2589.12771653742,2.43999479881082,-16.8691344932815,19.1385708236209,353.519953583627
3658,7477,3309,"CMPD","Inner Mongolia","Inner Mongolia TS04",42.3712,116.073216666667,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.358162925709963,2610.23706149715,2.53071875175113,-16.8114129513329,19.2453125414393,353.608120871206
3658,7478,3310,"CMPD","Inner Mongolia","Inner Mongolia TS05",42.5140333333333,116.094516666667,1441,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.363678052690093,2578.2400975838,2.48491460195852,-16.6228622343694,19.0151486589263,359.427669577986
3658,7479,3311,"CMPD","Inner Mongolia","Inner Mongolia TS06",42.3754166666667,116.203316666667,1314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361298660336039,2600.19301469851,2.498506350588,-16.8098816717459,19.1885847109587,355.98471210129
3658,7480,3312,"CMPD","Inner Mongolia","Inner Mongolia TS07",42.3754166666667,116.203316666667,1314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361298660336039,2600.19301469851,2.498506350588,-16.8098816717459,19.1885847109587,355.98471210129
3658,7481,3313,"CMPD","Inner Mongolia","Inner Mongolia TS08",41.7438833333333,116.01425,1462,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.373660116565225,2534.19434705681,2.45060553098452,-16.3241522533659,18.6796974615322,369.646207626092
3658,7482,3314,"CMPD","Inner Mongolia","Inner Mongolia TS09",41.75195,115.945116666667,1452,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36531946584409,2563.54939604867,2.52314173622645,-16.3771696730017,18.8637311986316,363.51057993028
3658,7483,3315,"CMPD","Inner Mongolia","Inner Mongolia TS10",41.6946666666667,115.803616666667,1449,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372561670778138,2565.09097143176,2.62264761950499,-16.0935820204206,18.8057184312943,369.976442128415
3658,7484,3316,"CMPD","Inner Mongolia","Inner Mongolia TS11",41.4697,115.33755,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.359606369820028,2586.07271194985,2.76849478477597,-15.8235414387077,18.8707589099438,361.548105546129
3658,7485,3317,"CMPD","Inner Mongolia","Inner Mongolia TS12",41.5155666666667,115.311433333333,1447,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361790447622713,2617.88082619792,2.93441259445897,-15.6239804669716,19.0080588829018,363.870982664466
3658,7486,3318,"CMPD","Inner Mongolia","Inner Mongolia TS13",41.6159333333333,115.208966666667,1405,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.357219046232352,2691.4006708078,3.31821831100881,-15.1424317072606,19.3320497242899,361.736877634991
3658,7487,3319,"CMPD","Inner Mongolia","Inner Mongolia TS14",41.38365,114.93065,1378,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.359343013293623,2727.73439410524,3.56604380690437,-14.7156875111038,19.443800349955,365.603330331859
3658,7488,3320,"CMPD","Inner Mongolia","Inner Mongolia TS15",41.3250166666667,114.572616666667,1364,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349342776679003,2780.41101965172,3.86911896742428,-14.2653670171475,19.6589185778421,359.13822135964
3658,7489,3321,"CMPD","Inner Mongolia","Inner Mongolia TS16",41.2932,114.3846,1339,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.350051278545425,2802.40528746631,3.99145529700807,-14.0980541052012,19.7423758502981,360.251265036114
3658,7490,3322,"CMPD","Inner Mongolia","Inner Mongolia TS17",41.3118833333333,114.446716666667,1344,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.350010426238293,2797.04846927153,3.95933636155586,-14.1461276104077,19.7235039252113,360.018268858886
3658,7491,3323,"CMPD","Inner Mongolia","Inner Mongolia TS18",41.4503666666667,114.405,1367,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.344512812613031,2777.71430872243,3.83819721762943,-14.330852382419,19.6701411023658,354.337182919544
3658,7492,3324,"CMPD","Inner Mongolia","Inner Mongolia TS19",41.60145,114.588516666667,1427,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.34008194516589,2729.71187059564,3.57194743095159,-14.6860016395764,19.4895554774026,349.192972955502
3658,7493,3325,"CMPD","Inner Mongolia","Inner Mongolia TS20",43.57415,115.0371,1066,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.239234683302546,2789.97463199926,2.2595787403975,-19.2809212811631,20.8964015736771,245.933426631868
3658,7494,3326,"CMPD","Inner Mongolia","Inner Mongolia TS21",43.7471166666667,114.749066666667,1137,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.242517829000374,2803.21413109358,2.47751879599267,-18.765541669284,20.8400411739618,250.290468752285
3658,7495,3327,"CMPD","Inner Mongolia","Inner Mongolia TS22",43.9304333333333,114.831016666667,1157,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.249330118789027,2717.45041474721,1.93729360339456,-19.5246078075177,20.5048117570382,254.080011929926
3658,7496,3328,"CMPD","Inner Mongolia","Inner Mongolia TS23",43.9492,114.696066666667,1128,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.234913895876601,2788.29632109141,2.27778007611995,-19.1978033999773,20.8500122440175,242.445818485344
3658,7497,3329,"CMPD","Inner Mongolia","Inner Mongolia TS24",43.8951333333333,114.681816666667,1011,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.226353215854707,2942.72061180223,3.13515675632379,-18.1479049985722,21.5312530209981,236.160653816725
3658,7498,3330,"CMPD","Inner Mongolia","Inner Mongolia TS25",43.9134666666667,113.635466666667,1035,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195219089134948,2986.2908206844,3.35486647313166,-17.8633537536302,21.7607175789396,209.230831604044
3658,7499,3331,"CMPD","Inner Mongolia","Inner Mongolia TS26",43.9134666666667,113.635466666667,1035,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195219089134948,2986.2908206844,3.35486647313166,-17.8633537536302,21.7607175789396,209.230831604044
3658,7500,3332,"CMPD","Inner Mongolia","Inner Mongolia TS27",43.8156,113.62775,1082,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1986256672878,2919.09670436062,2.96827235225326,-18.364133356098,21.4755974876046,212.04624732309
3658,7501,3333,"CMPD","Inner Mongolia","Inner Mongolia TS28",43.6344166666667,113.392016666667,1043,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.194194706379575,2964.1630191209,3.24956411035839,-17.965848895093,21.6736161298322,208.674319894722
3658,7502,3334,"CMPD","Inner Mongolia","Inner Mongolia TS29",43.46555,113.149216666667,1048,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.18658738007293801,2986.23062635676,3.38956346123831,-17.7532047996213,21.7749512288939,202.499309143155
3658,7503,3335,"CMPD","Inner Mongolia","Inner Mongolia TS30",43.2525,113.000566666667,1038,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.184142081530014,2997.21174668017,3.45525102219289,-17.6637390388468,21.8278007772202,200.721256142675
3658,7504,3336,"CMPD","Inner Mongolia","Inner Mongolia TS32",42.5955833333333,112.60505,1163,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210125255165558,2997.38245540468,3.98682609629224,-16.000830144382,21.5258733891809,229.481392071839
3658,7505,3337,"CMPD","Inner Mongolia","Inner Mongolia TS33",42.8548833333333,112.578233333333,1112,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.193854889742291,3013.76863580045,3.84290179917248,-16.6146814259649,21.7452010867506,212.637171648973
3658,7506,3338,"CMPD","Inner Mongolia","Inner Mongolia TS34",42.8990833333333,112.728983333333,1117,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196501401518132,3006.20436037449,3.81699259526544,-16.6163359219217,21.6987910794716,214.999201029656
3658,7507,3339,"CMPD","Inner Mongolia","Inner Mongolia TS35",43.7806166666667,113.70455,1161,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.204555482928399,2806.01414747574,2.28404552911418,-19.2897966399221,20.993853606111202,216.508653964417
3658,7508,3340,"CMPD","Inner Mongolia","Inner Mongolia TS36",43.6923666666667,113.822166666667,1148,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.223294101846432,2861.12162194471,2.81500547247783,-18.2659250766163,21.1008659776935,234.931396668434
3658,7509,3341,"CMPD","Inner Mongolia","Inner Mongolia TS37",43.51175,114.1731,1094,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.220157716138671,2895.03115919259,2.95435082183231,-18.1978802564097,21.2818853046759,232.207171898841
3658,7510,3342,"CMPD","Inner Mongolia","Inner Mongolia TS38",43.27615,114.32565,1066,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.223353031554779,2887.53460589187,2.87275280399497,-18.3838478448524,21.2733668089344,234.901457945515
3658,7511,3343,"CMPD","Inner Mongolia","Inner Mongolia TS39",43.17155,114.4552,1072,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.226780672061838,2891.56988966349,2.91153756252954,-18.3225424422432,21.2734887084314,238.411878089961
3658,7512,3344,"CMPD","Inner Mongolia","Inner Mongolia TS40",43.0237833333333,114.47945,1113,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.23985173477381,2868.89818415568,2.95868289542565,-17.9589738809004,21.0595567920985,251.065703698475
3658,7513,3345,"CMPD","Inner Mongolia","Inner Mongolia TS41",42.9646,114.336666666667,1072,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.227061988343617,2900.70425426533,3.00046431011735,-18.1366351752991,21.2907130581382,239.467280235066
3658,7514,3346,"CMPD","Inner Mongolia","Inner Mongolia TS42",42.9373833333333,114.387433333332,1080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.229860247414495,2893.71571205141,2.99107597197356,-18.0988976290481,21.2402618716046,242.0959562387
3658,7515,3347,"CMPD","Inner Mongolia","Inner Mongolia TS43",42.8344333333333,114.5377,1146,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.250666970724319,2850.72963555608,3.00207740990086,-17.650977663264,20.883943548788,261.650439202136
3658,7516,3348,"CMPD","Inner Mongolia","Inner Mongolia TS44",42.7360666666667,114.651616666667,1159,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.260207088523858,2844.36892579532,3.09533684509451,-17.312286862505,20.7713354407755,270.691954859847
3658,7517,3349,"CMPD","Inner Mongolia","Inner Mongolia TS45",42.3228166666667,115.12005,1396,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.350195506462043,2679.43702714382,3.11528408394843,-15.6585728954897,19.3896688138031,351.809936179145
3658,7518,3350,"CMPD","Inner Mongolia","Inner Mongolia TS46",42.3546666666667,115.214716666667,1334,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.328771792918117,2708.76435090339,3.0121138647743,-16.2716853334405,19.7020285138087,332.561967424843
3658,7519,3351,"CMPD","Inner Mongolia","Inner Mongolia TS50",42.3740333333333,115.660033333333,1363,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.350335146786058,2652.79729432665,2.808890587604,-16.373295673748,19.3827490887034,349.686839089
3658,7520,3352,"CMPD","Inner Mongolia","Inner Mongolia TS51",42.4653,115.553366666667,1293,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.330319868763691,2677.19119202631,2.70935515618801,-16.9160097528291,19.6550467640713,331.26378355506
3658,7521,3353,"CMPD","Inner Mongolia","Inner Mongolia TS52",42.575,115.424533333333,1279,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.322716439964905,2691.12540466355,2.70969951524768,-17.0483525523323,19.7681569622857,324.392399525823
3658,7522,3354,"CMPD","Inner Mongolia","Inner Mongolia TS53",42.6165833333333,115.166283333333,1265,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.303936155040305,2743.70524117032,2.90214432977694,-16.9553035788529,20.0669499968706,309.298662574899
3658,7523,3355,"CMPD","Inner Mongolia","Inner Mongolia TS54",42.6563666666667,114.926416666667,1186,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.274758962191547,2795.96519819855,2.88272129957052,-17.5180208763607,20.5106099575927,283.01141046009
3658,7524,3356,"CMPD","Inner Mongolia","Inner Mongolia TS55",42.6412166666667,114.8064,1148,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.261272188848966,2822.03048863759,2.8828436993936,-17.7694490658168,20.7247777743805,270.78940973163
3658,7525,3357,"CMPD","Inner Mongolia","Inner Mongolia TS56",42.51135,114.805866666667,1207,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.28072050088844003,2791.22239777761,2.96157509403264,-17.2239338842133,20.4189812386237,289.214901923399
3658,7526,3358,"CMPD","Inner Mongolia","Inner Mongolia TS57",42.2841833333333,114.871683333333,1306,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.314900871345936,2736.74283653504,3.07839209851504,-16.3253609867225,19.8904036662112,321.042365357114
3658,7527,3359,"CMPD","Inner Mongolia","Inner Mongolia TS58",42.39575,114.681366666667,1249,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.287884962126211,2797.97958731605,3.2090194278216,-16.4992706602536,20.3130123214975,297.438608891258
3658,7528,3360,"CMPD","Inner Mongolia","Inner Mongolia TS59",42.4325833333333,114.479333333333,1285,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.296913757386691,2782.97045587638,3.27838522014998,-16.1263990891379,20.1486190830623,305.838667146536
3658,7529,3361,"CMPD","Inner Mongolia","Inner Mongolia TS60",42.5499166666667,114.241633333333,1138,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.246032052493539,2893.44855824834,3.36303122970033,-16.9364301170509,21.0118803280025,259.467021416271
3658,7530,3362,"CMPD","Inner Mongolia","Inner Mongolia TS62",42.4729,114.031166666667,1190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.257532867729904,2870.67161676159,3.44509500231491,-16.4448006703581,20.7804740886143,270.864305605711
3658,7531,3363,"CMPD","Inner Mongolia","Inner Mongolia TS63",42.40045,113.980766666667,1240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.270083939512995,2842.0587736629,3.47360793163908,-16.0683255232693,20.5318559151364,282.860063822162
3658,7532,3364,"CMPD","Inner Mongolia","Inner Mongolia TS64",42.32535,113.929,1311,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.288006180911366,2799.6003940837,3.4979309762347,-15.5675082590041,20.1745354749114,299.675852645194
3658,7533,3365,"CMPD","Inner Mongolia","Inner Mongolia TS65",42.2470666666667,114.00635,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.295535965456434,2823.26482364602,3.68485835077503,-15.2278675422264,20.2184379114194,307.380541122596
3658,7534,3366,"CMPD","Inner Mongolia","Inner Mongolia TS66",42.1163,113.869066666667,1461,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.327978139087047,2726.53135974194,3.64182561489423,-14.4040884001536,19.4734633042933,337.506564803761
3658,7535,3367,"CMPD","Inner Mongolia","Inner Mongolia TS68",42.1306833333333,114.564266666667,1345,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.324666379744582,2766.24971009574,3.52002331917853,-15.2095184448066,19.8264848080103,332.670677645722
3658,7536,3368,"CMPD","Inner Mongolia","Inner Mongolia TS69",42.0677166666667,114.566833333333,1416,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.339524300216453,2721.13225962847,3.47544582504628,-14.9002160056045,19.4947537972379,346.112055617128
3658,7537,3369,"CMPD","Inner Mongolia","Inner Mongolia TS70",41.9374666666667,114.508566666667,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.352552717507408,2673.76925918136,3.42375187278592,-14.5879836925217,19.1546445569255,358.155462787137
3658,7538,3370,"CMPD","Inner Mongolia","Inner Mongolia TS71",41.9374666666667,114.508566666667,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.352552717507408,2673.76925918136,3.42375187278592,-14.5879836925217,19.1546445569255,358.155462787137
3658,7539,3371,"CMPD","Inner Mongolia","Inner Mongolia TS72",41.8383833333333,114.688066666667,1461,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.348975913470465,2691.31639670777,3.43340565562005,-14.7374630453716,19.2819744071949,355.337065911184
3658,7540,3372,"CMPD","Inner Mongolia","Inner Mongolia TS73",41.8383833333333,114.688066666667,1461,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.348975913470465,2691.31639670777,3.43340565562005,-14.7374630453716,19.2819744071949,355.337065911184
3658,7541,3373,"CMPD","Inner Mongolia","Inner Mongolia TS74",41.8489833333333,114.915066666667,1484,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.358083213696025,2623.04270550625,3.04026832814355,-15.3168995630333,18.9991696178282,360.752741784985
3658,7542,3374,"CMPD","Inner Mongolia","Inner Mongolia TS75",41.8489833333333,114.915066666667,1484,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.358083213696025,2623.04270550625,3.04026832814355,-15.3168995630333,18.9991696178282,360.752741784985
3658,7543,3375,"CMPD","Inner Mongolia","Inner Mongolia TS76",41.8829333333333,115.040183333333,1466,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.357390631949833,2632.70598160725,3.0454088623835,-15.4038470131884,19.068611894683,359.884096164616
3658,7544,3376,"CMPD","Inner Mongolia","Inner Mongolia TS77",41.8829333333333,115.040183333333,1466,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.357390631949833,2632.70598160725,3.0454088623835,-15.4038470131884,19.068611894683,359.884096164616
3658,7545,3377,"CMPD","Inner Mongolia","Inner Mongolia TS78",42.24285,115.6298,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354679702621081,2700.59736388764,3.10037414705361,-15.9422206938679,19.5560112594512,354.759617363273
3658,7546,3378,"CMPD","Inner Mongolia","Inner Mongolia TS79",42.1934833333333,115.568333333333,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354705829063522,2690.42855937511,3.07148646496646,-15.9292089096532,19.4947999341921,355.034407856331
3658,7547,3379,"CMPD","Inner Mongolia","Inner Mongolia TS80",42.1145333333333,115.502566666667,1406,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35513694404998,2638.00789682585,2.86212014707968,-16.0578703613476,19.2222064124529,355.338299195461
3658,7548,3380,"CMPD","Inner Mongolia","Inner Mongolia TS81",42.0424666666667,115.32035,1432,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35438103227097,2628.65048930769,2.85485498864375,-15.9795335026386,19.1537052732829,355.249536479652
3658,7549,3381,"CMPD","Inner Mongolia","Inner Mongolia TS82",42.0424666666667,115.32035,1432,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35438103227097,2628.65048930769,2.85485498864375,-15.9795335026386,19.1537052732829,355.249536479652
3658,7550,3382,"CMPD","Inner Mongolia","Inner Mongolia TS83",41.8501333333333,115.271933333333,1483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354574951613398,2592.4607471354,2.72463113270875,-16.0187176592969,18.9557233316485,355.946534534679
3658,7551,3383,"CMPD","Inner Mongolia","Inner Mongolia TS84",41.8501333333333,115.271933333333,1483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354574951613398,2592.4607471354,2.72463113270875,-16.0187176592969,18.9557233316485,355.946534534679
3658,7552,3384,"CMPD","Inner Mongolia","Inner Mongolia TS85",41.8501333333333,115.271933333333,1483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354574951613398,2592.4607471354,2.72463113270875,-16.0187176592969,18.9557233316485,355.946534534679
3658,7553,3385,"CMPD","Inner Mongolia","Inner Mongolia TS86",41.7515666666667,115.170966666667,1443,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.35630025423453,2647.96292766851,3.08981048507074,-15.4211383713786,19.1558304061787,359.508372039156
3658,7554,3386,"CMPD","Inner Mongolia","Inner Mongolia TS87",41.63965,115.017333333333,1407,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.353684514082582,2695.1290211138,3.33896539904297,-15.1066350756048,19.3521259055013,358.809467466574
3658,7555,3387,"CMPD","Inner Mongolia","Inner Mongolia TS88",41.5658,111.6328,1464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.272690339817888,2889.52025792156,4.27300280945281,-14.1233651495171,20.4134018283467,294.72250107011
3658,7556,3388,"CMPD","Inner Mongolia","Inner Mongolia TS89",41.64385,111.449133333333,1464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.269275306339273,2890.32594590812,4.25972403376616,-14.1689570140083,20.4382871517765,291.147236860653
3658,7557,3389,"CMPD","Inner Mongolia","Inner Mongolia TS90",41.75125,111.318283333333,1529,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.268931839870833,2833.338612183,4.01426314088379,-14.3653189041362,20.1830421610136,289.837247216217
3658,7558,3390,"CMPD","Inner Mongolia","Inner Mongolia TS91",41.8780833333333,111.198,1485,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.252692646304952,2887.92117528306,4.16942684383056,-14.4063027921118,20.5217366632215,274.467787077478
3658,7559,3391,"CMPD","Inner Mongolia","Inner Mongolia TS92",42.13115,111.006633333333,1194,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.199665097951075,3078.47443955315,4.58452553880865,-14.921914570966,21.7903731454831,222.104139254928
3658,7560,3392,"CMPD","Inner Mongolia","Inner Mongolia TS93",42.72495,112.57585,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.200649255390546,3022.53674915384,3.99292225981312,-16.2336729460189,21.7220413315122,219.847334042628
3658,7561,3393,"CMPD","Inner Mongolia","Inner Mongolia TS94",42.4761666666667,112.5039,1239,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.224493103507242,2955.72847215842,3.96998105336531,-15.6436887069819,21.2054957267928,243.929245344487
3658,7562,3394,"CMPD","Inner Mongolia","Inner Mongolia TS95",42.34045,112.366066666667,1235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.22217837163208,2962.71769300644,3.99595128685148,-15.6341213910889,21.2466141849707,242.179244916815
3658,7563,3395,"CMPD","Inner Mongolia","Inner Mongolia TS96",42.2128333333333,112.265716666667,1287,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.240900917322846,2947.53002773644,4.13304965113724,-15.068386699099,21.0176742598874,261.02852130429
3659,7564,3300,"CMPD","Inner Mongolia MS","Inner Mongolia MS15",42.1654166666667,116.410633333333,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.389950210197615,2617.64809070541,2.82919691793318,-15.9664371956195,19.0976894596356,381.708373598746
3659,7565,3301,"CMPD","Inner Mongolia MS","Inner Mongolia MS16",42.0899333333333,116.457,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.38851628802267,2597.41758535307,2.72871633966644,-16.0757370164027,19.0080102571349,380.527680195121
3659,7566,3302,"CMPD","Inner Mongolia MS","Inner Mongolia MS17",41.9593,116.167916666667,1443,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36572583522454,2549.73191235573,2.4066686901602,-16.6023942530503,18.8358532464416,362.193284214965
3659,7567,3303,"CMPD","Inner Mongolia MS","Inner Mongolia MS18",41.9593,116.167916666667,1443,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36572583522454,2549.73191235573,2.4066686901602,-16.6023942530503,18.8358532464416,362.193284214965
3659,7568,3304,"CMPD","Inner Mongolia MS","Inner Mongolia MS19",41.8284333333333,116.087416666667,1489,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361820883350729,2521.75694020711,2.2711834458221,-16.7395028530769,18.7036742708007,359.209713879833
3659,7569,3305,"CMPD","Inner Mongolia MS","Inner Mongolia MS20",41.70065,116.119233333333,1518,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370249968579234,2469.30150947967,2.0996442574006,-16.7606089128802,18.4020695165659,365.330476204996
3660,7570,19739,"SMPDSv1","Innertjern","Bjune_a84",58.7016659,6.16764432,210,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.07636217985774,2403.63777442704,6.4842927223859,-0.737092863282618,13.9881778299263,1719.83581258263
3661,7571,17291,"Neotoma","Inuvik","RLF67005",68.35,-113.716667,6,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",30,"tundra",0.476940998668953,586.905274355497,-12.4770230703682,-30.6181194903869,7.66042347277474,144.496424663076
3662,7572,19740,"SMPDSv1","Ioannina II","EPDcoretop_E295",39.691944,20.839722,470,"0.05","terrestrial, marsh","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.642955907731653,5099.74249949414,13.971897258888,5.2280948468518,23.0525006192038,814.647964805188
3663,7573,19741,"SMPDSv1","Iosipovo","EPDcoretop_E810",51.2,28,8,"medium (1.1-50 km2)","terrestrial, blanket bog","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.854613499773794,2848.9766936479,6.380642674982,-6.98833346710391,17.5561361201598,652.228367054489
3664,7574,19742,"SMPDSv1","Ipojarvi","Seppa_b12",66.7,28.93,262,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29310343223935,1486.8219822532,-0.778826288491768,-14.6169778555887,13.8849705454556,535.155568893599
3665,7575,10588,"BIOME6000 Japan","Ippekiko","D22001",35.916667,139.1,186,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.66438471845097,4966.79655681111,13.6076617994825,2.80042805413805,25.2845269373775,1594.30471727737
3666,7576,9626,"Gaillard et al., 1992","Ire","Ire Am",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7577,9627,"Gaillard et al., 1992","Ire","Ire B",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7578,9628,"Gaillard et al., 1992","Ire","Ire C",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7579,9629,"Gaillard et al., 1992","Ire","Ire D",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7580,9631,"Gaillard et al., 1992","Ire","Ire E",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7581,9632,"Gaillard et al., 1992","Ire","Ire F",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3666,7582,9630,"Gaillard et al., 1992","Ire","Ire G",56.376642,14.844425,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.946335283152671,2609.93961114353,6.71020361581726,-2.25915699316024,16.0288355796855,620.757527580058
3667,7583,15493,"Neotoma","Irely Lake","CJH072",47.65,-124,91,"not known","lake","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.85204660364361,3534.39315215323,9.68326891000886,4.05758469542466,15.9798580039161,2153.45881166162
3668,7584,11560,"Neotoma","Iron Hills Site 1","IRON-S1",44.0758383333333,-103.776003333333,1743,"not known","terrestrial, bog/fen/swamp","surface sample","-49","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.41467718753999,2800.45453275382,6.28057173723354,-6.07961660649965,20.0057384242579,399.787806331528
3669,7585,11561,"Neotoma","Iron Hills Site 2","IRON-S2",44.0759583333333,-103.769483333333,1730,"not known","terrestrial, bog/fen/swamp","surface sample","-49","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.414570598277616,2811.03805426484,6.31415277822057,-6.07807995380953,20.0528072305019,399.823959796988
3670,7586,12752,"Neotoma","Irvin Lake","IRVIN",47.135556,-93.643611,478,"not known","lake","core","-30","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87284936199865,2692.9609659236,3.43378396277329,-15.6307130120336,19.2493213699494,678.343127002639
3670,7586,12753,"Neotoma","Irvin Lake","IRVIN",47.135556,-93.643611,478,"not known","lake","core","12","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87284936199865,2692.9609659236,3.43378396277329,-15.6307130120336,19.2493213699494,678.343127002639
3670,7586,12754,"Neotoma","Irvin Lake","IRVIN",47.135556,-93.643611,478,"not known","lake","core","33","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87284936199865,2692.9609659236,3.43378396277329,-15.6307130120336,19.2493213699494,678.343127002639
3671,7587,13622,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","-40","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3671,7587,13623,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","-13","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3671,7587,13624,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","0","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3671,7587,13625,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","15","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3671,7587,13626,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","22","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3671,7587,13627,"Neotoma","Irwin Smith Bog","IRWINSMT",45.0265,-83.61,223,"not known","terrestrial, bog/fen/swamp","core","22","Booth, R.K., S. Brewer, M. Blaauw, T.A. Minckley, and S.T. Jackson. 2012. Decomposing the mid-Holocene Tsuga decline in eastern North America. Ecology 93(8):1841-1852.",,9,"cool mixed forest",0.991731186605057,2949.31906055542,6.03037951882444,-8.73941918508444,19.6209007973182,803.327318647366
3672,7588,23238,"SMPDSv1","IS/MH/01","IS/MH/01",64.251,-19.305,200,"not applicable","terrestrial","pollen trap","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.53193619357461,1346.49164316215,3.18487512945746,-1.79513059427795,10.0027902549559,1000.68863481482
3673,7589,23239,"SMPDSv1","IS/MH/02","IS/MH/02",64.256,-19.302,320,"not applicable","terrestrial","pollen trap","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.55175892585755,1252.57011950829,2.7433153216722,-2.2330375515617,9.68604342484245,1002.59417576563
3674,7590,23240,"SMPDSv1","IS/MH/03","IS/MH/03",64.258,-19.302,335,"not applicable","terrestrial","pollen trap","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.55386856122851,1241.07286634494,2.68750122485159,-2.29103163627425,9.6461095820682,1002.62694043684
3675,7591,8935,"EMPDv2","Isaak-Ty","Salonen_a13",66.166667,58.36666667,45,"3.32","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.33266657392389,1348.35585329183,-3.56624948613245,-20.6446719543736,15.0479618816657,507.196438556991
3676,7592,19743,"SMPDSv1","Isbenttjonn","Bjune_a194",59.7666666666666,7.43666666666666,783,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.39624926177147,1640.70567126074,2.84623345854116,-6.16836473156148,12.0166958164251,1298.91320464202
3677,7593,7418,"EMPDv2","Isdalsvann","Hjelle_a7",60.56365,5.27275,32,"0.05","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.17462499651667,2633.57942235753,7.21528608865076,1.06139224062766,14.0167393181689,2167.30398481818
3678,7594,19744,"SMPDSv1","Isernia La Pineta","Mercuri_f1",41.6025,14.2333333333333,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.691032947615627,4895.33478149214,13.4118761136771,5.55984452166692,22.1259855230775,766.667661860981
3679,7595,17578,"Phelps et al., 2020","Ishiba Ngandu","SHIWA_0",-11.25,31.75,1472,"5","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.786041778883473,7468.14592014037,20.4606737538092,16.5735349534136,23.3587027822408,1225.09820736778
3680,7596,10613,"BIOME6000 Japan","Ishinomaki","IshinmC0",38.47,141.41,2,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.6686072536846701,4280.76161481631,11.7281140131954,0.664335773854966,24.0741995226683,1452.56148245115
3681,7597,8037,"EMPDv2","Iska_Vlasjevo","Mikishin-Gvozdeva_a99",53.4283333333333,140.897777777778,0,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17469133851083,1898.34098326547,-1.33128030302874,-21.0186802235427,15.622789584481,621.327115140967
3682,7598,17311,"Neotoma","Island","TW016",45.3,-91.4,330,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.932545316962845,3112.33304119795,5.79342943889755,-11.9039799925192,20.9172790303056,764.12122238995
3683,7599,11637,"Neotoma","Island Lake","GPPS-6",41.73992,-102.394335,1154,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.418118115302944,3615.25233159522,9.09599816218237,-4.54932353046622,23.3347918434005,439.795620951443
3683,7600,14195,"Neotoma","Island Lake","MS7812X",47.8302549999999,-66.1822699999999,264,"not known","lake","core","19","Mott, R.J., H. Jettè, J. Guiot, and A. Cloutier. 2004. Postglacial vegetation, climate history and land-sea interaction at Island Lake, Baie des Chaleurs, New Brunswick, as documented by palynological analysis. Geographie physique et Quaternaire 58(1):109-122.",,9,"cool mixed forest",1.5751709576901,2219.4315101848,2.71036546658166,-12.6057082860642,17.2352268624676,1095.32657677509
3684,7601,16511,"Neotoma","Island Pond","KG008",46.95,-68.85,379,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.48581450584336,2343.24424426161,2.87899718975233,-13.314323808951,17.5777826593165,1063.09048361859
3685,7602,19745,"SMPDSv1","Islas Chafarinas","Lopez_a396",35.1766666666666,-2.44172222222222,15,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.296174717034157,6639.54767522277,18.1905415759528,11.9783990501324,25.7467468705688,389.097305189768
3686,7603,19746,"SMPDSv1","Iso Hakojarvi","Seppa_b23",65.37,27.6,183,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17675112380727,1735.94416510481,0.636231426021932,-13.4152961540057,15.0602147529936,535.955325848887
3687,7604,19747,"SMPDSv1","Iso Ivalampi","Seppa_b18",66.32,29.17,253,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30045039430161,1508.91355720106,-0.666360851201792,-14.571492617432,14.0020846389357,545.782429789211
3688,7605,19748,"SMPDSv1","Iso Kieppisjavri","Bjune_a155",68.2666666666666,22.016666666666602,354,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17124601420999,1272.28255569419,-2.31151119171931,-16.3257830956641,12.5081738129857,470.289036838596
3689,7606,19749,"SMPDSv1","Iso Kuivajarvi","Seppa_b4",68.63,27.83,180,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20814149286601,1365.99372529818,-1.28790454400983,-14.5828775744911,13.2889280667597,448.517393964128
3690,7607,19750,"SMPDSv1","Iso Peltointaustanjarvi","Seppa_b88",61.35,25.08,140,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01458717046591,2132.86322432662,3.36565585818165,-9.2709482580811,16.0690993954993,553.491042121343
3691,7608,19751,"SMPDSv1","Iso Ruonajarvi","Seppa_b77",60.35,23.65,115,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04676003784916,2191.03568497165,3.83752996174991,-8.21263923964473,16.0125649289589,568.837545257302
3692,7609,19752,"SMPDSv1","Iso Vihtajarvi","Seppa_b42",62.95,30.43,196,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17620081553819,1887.91468789042,1.46416576134021,-12.8254891469901,15.7877494897068,589.698101116792
3693,7610,19753,"SMPDSv1","Iso-Mustiainen","Seppa_b59",62.35,25.17,206,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.95409677734544,2024.22925903874,2.8114121680313,-10.0027684309581,15.6985812237684,504.579883944544
3694,7611,19754,"SMPDSv1","Isokarret","EPDcoretop_E297",60.216667,22.133333,16,"not known","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01809181236436,2332.25670843575,4.94597304179659,-5.94101618534834,16.1686073221917,579.871655321221
3695,7612,19755,"SMPDSv1","Isonlampi","Seppa_b40",63.3,30.22,152,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14985984324686,1953.83759517648,1.84479655270906,-12.3901497501081,15.9952597588179,580.807136668246
3696,7613,19756,"SMPDSv1","Ispani","ISPANI2",41.8652777777777,41.7961111111111,1,"1","terrestrial, bog/fen/swamp","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.4689416085216,5515.95564275081,15.1122072404132,5.95503392390643,23.5277640408381,1488.4783044791
3697,7614,5947,"EMBSeCBIO","Ispani-II","Ispani II core_0",41.87,41.8,2,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-53","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",1.46872475704959,5513.74434798267,15.1061488985827,5.94647843785534,23.5234451672263,1488.13517238981
3697,7615,5948,"EMBSeCBIO","Ispani-II","Ispani II core_25",41.87,41.8,2,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","43","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",1.46872475704959,5513.74434798267,15.1061488985827,5.94647843785534,23.5234451672263,1488.13517238981
3698,7616,19757,"SMPDSv1","Ispani-II bog, Colchis","Connor_d1",41.863,41.8012,1.5,"1","terrestrial, bog/fen/swamp","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.46906462907539,5514.8983051056,15.1093104249468,5.95109785082877,23.5251035700523,1488.55802533106
3699,7617,16694,"Neotoma","Issoudon","PJHR055",46.566667,-71.6,112,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.55448680848244,2617.27750703825,4.00334214826467,-12.6092737466277,18.6624688968221,1141.53590602133
3700,7618,9558,"EMPDv2","Istochek peatland","Novenko_c81",54.068,37.5132,232,"0.07","not known","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.854787129788979,2778.57871368902,5.16406099367194,-9.78148685188873,18.4868894919067,613.323909077973
3701,7619,19758,"SMPDSv1","IT29","Barboni_a35",40.32,15.62,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.628837874637537,5032.58000602514,13.7878904274661,6.32071742927427,22.3880166921254,737.220120363071
3702,7620,19759,"SMPDSv1","IT30","Barboni_a36",40.32,15.63,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.628742420170144,5033.16836014401,13.7895023565589,6.32257371960551,22.3896005394546,737.219997832854
3703,7621,19760,"SMPDSv1","IT31","Barboni_a37",40.32,15.63,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.628742420170144,5033.16836014401,13.7895023565589,6.32257371960551,22.3896005394546,737.219997832854
3704,7622,19761,"SMPDSv1","IT32","Barboni_a38",40.32,15.63,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.628742420170144,5033.16836014401,13.7895023565589,6.32257371960551,22.3896005394546,737.219997832854
3705,7623,19762,"SMPDSv1","IT33","Barboni_a39",40.32,15.63,475,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.628742420170144,5033.16836014401,13.7895023565589,6.32257371960551,22.3896005394546,737.219997832854
3706,7624,19763,"SMPDSv1","IT34","Barboni_a40",40.32,15.65,580,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.648714241217157,4806.07114332297,13.1673182008849,5.66752401421762,21.8177168505037,754.475495300957
3707,7625,19764,"SMPDSv1","IT35","Barboni_a41",40.32,15.65,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.654547447664968,4740.84939919603,12.988628490948,5.47930630781801,21.6534133489761,759.405289406763
3708,7626,19765,"SMPDSv1","IT36","Barboni_a42",40.32,15.65,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.654547447664968,4740.84939919603,12.988628490948,5.47930630781801,21.6534133489761,759.405289406763
3709,7627,19766,"SMPDSv1","IT37","Barboni_a43",40.32,15.65,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.654547447664968,4740.84939919603,12.988628490948,5.47930630781801,21.6534133489761,759.405289406763
3710,7628,19767,"SMPDSv1","IT38","Barboni_a44",40.28,15.7,710,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673138654257515,4536.56956160463,12.4289577030264,4.90033345347543,21.1358962873096,776.606882056913
3711,7629,19768,"SMPDSv1","IT39","Barboni_a45",40.28,15.7,710,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673138654257515,4536.56956160463,12.4289577030264,4.90033345347543,21.1358962873096,776.606882056913
3712,7630,19769,"SMPDSv1","IT40","Barboni_a46",40.28,15.7,710,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673138654257515,4536.56956160463,12.4289577030264,4.90033345347543,21.1358962873096,776.606882056913
3713,7631,19770,"SMPDSv1","IT41","Barboni_a47",40.28,15.7,710,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.673138654257515,4536.56956160463,12.4289577030264,4.90033345347543,21.1358962873096,776.606882056913
3714,7632,19771,"SMPDSv1","IT42","Barboni_a48",40.25,15.67,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.634603700395653,4988.07054354032,13.665946694631,6.25049102203781,22.2452769620501,746.724302458412
3715,7633,19772,"SMPDSv1","IT43","Barboni_a49",40.25,15.67,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.634603700395653,4988.07054354032,13.665946694631,6.25049102203781,22.2452769620501,746.724302458412
3716,7634,19773,"SMPDSv1","IT44","Barboni_a50",40.25,15.67,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.634603700395653,4988.07054354032,13.665946694631,6.25049102203781,22.2452769620501,746.724302458412
3717,7635,19774,"SMPDSv1","IT45","Barboni_a51",40.25,15.65,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.642313644040124,4897.58240182309,13.4180339775975,5.98399808540316,22.0193429080124,753.070253873921
3718,7636,19775,"SMPDSv1","IT46","Barboni_a52",40.32,15.6,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.635728567918519,4954.85106847341,13.5749344341737,6.09539958768402,22.1923879824161,742.960086907439
3719,7637,19776,"SMPDSv1","IT47","Barboni_a53",40.32,15.6,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.635728567918519,4954.85106847341,13.5749344341737,6.09539958768402,22.1923879824161,742.960086907439
3720,7638,19777,"SMPDSv1","IT48","Barboni_a54",40.32,15.6,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.635728567918519,4954.85106847341,13.5749344341737,6.09539958768402,22.1923879824161,742.960086907439
3721,7639,19778,"SMPDSv1","IT49","Barboni_a55",40.32,15.55,640,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.661587487448587,4665.44220022532,12.7820334252749,5.25357422863853,21.4661113308778,764.214689982967
3722,7640,19779,"SMPDSv1","IT50","Barboni_a56",40.32,15.55,640,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.661587487448587,4665.44220022532,12.7820334252749,5.25357422863853,21.4661113308778,764.214689982967
3723,7641,19780,"SMPDSv1","IT66","Barboni_a57",44.15,7.68,1905,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48853634231965,1942.76237096258,4.79949012210093,-2.48360649304803,13.2144283158693,1398.24056914709
3724,7642,19781,"SMPDSv1","IT67","Barboni_a58",44.14,7.6,2080,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.56841395793446,1716.95812979566,3.89041706775391,-3.27846138493273,12.265131145743,1449.36505198613
3725,7643,10594,"BIOME6000 Japan","Itakuranuma","D10001",36.216667,139.6,10,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.58329970413028,5300.96758333266,14.5231988584456,3.999203709841,26.0550768730655,1528.98835909969
3726,7644,6185,"EMPDv2","Itzer, Khenifra","AlbaSanchez_a114",32.976551,-5.061569,2067,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.326970730210248,4581.03870178915,12.5507909638059,3.26096174758607,24.311403922417,472.4024450049
3726,7645,6186,"EMPDv2","Itzer, Khenifra","AlbaSanchez_a115",33.006335,-5.071464,2202,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.326674936267302,4426.24401552884,12.1266959329557,2.6515728954186,24.1817643836601,472.721896698249
3727,7646,19782,"SMPDSv1","Ivanovskoe boloto","Ivanovskoe boloto_SS1",56.8167,38.7667,141,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.967901407892462,2552.05930390244,4.24519523881591,-11.0153116913552,18.0662663206949,627.154331425485
3728,7647,19784,"SMPDSv1","Ivanovskoye Peat Bog","EPDcoretop_E23",56.816667,38.766667,141,"12","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.967901195536862,2552.06062560663,4.24520348751854,-11.0152965432338,18.0662682020641,627.1546732037
3729,7648,19783,"SMPDSv1","Ivanovskoye peatland","Ivanovskoye peatland (Novenko_c41)",52.7066,45.8243,257,"0.01","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.691045304533979,2918.01721198896,4.7900602111727,-11.9978168986364,20.1798255331774,527.523634305154
3730,7649,10575,"BIOME6000 Japan","Iwaya","IwayaC0",35.53,135.88,20,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.66876740269849,5490.5123816431,15.0424996757345,4.00442863540356,27.1179754445561,1674.0600064754601
3731,7650,10982,"Bush et al., 2020","Ixlu","Ixlu",16.97,-89.69,127,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.30108873922711,9365.85173830169,25.659867776169,22.7376229244484,27.7502471765576,2102.12357095564
3732,7651,10983,"Bush et al., 2020","Izabal","Izabal",15.46,-89.11,4,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.73933324258739,9548.80526276316,26.1611103089401,23.4643476390674,28.060454380705,2953.99178448776
3733,7652,9466,"EMPDv2","Iziel river area","Novenko_c209",64.3319,52.3331,206,"0.01","terrestrial, soil","soil sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37226569462557,1625.28223033246,-1.23523659148489,-18.4966763411942,15.9487406924639,578.536170033978
3733,7653,9467,"EMPDv2","Iziel river area","Novenko_c210",64.3083,52.3101,234,"0.01","terrestrial, soil","soil sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3777829626128,1636.42681789963,-1.17706096812651,-18.4931631273074,15.9619008427801,584.15270443268
3733,7654,9468,"EMPDv2","Iziel river area","Novenko_c211",64.3322,52.28,220,"0.01","terrestrial, soil","soil sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3750923850016,1629.91615627854,-1.21044503358282,-18.4971949790999,15.9507617646905,581.120211221533
3733,7655,9469,"EMPDv2","Iziel river area","Novenko_c212",52.5114,64.3127,229,"0.01","terrestrial, soil","soil sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.377763726286552,2972.90026045247,3.25791853612091,-16.6052052642995,21.801256295159,292.927200513651
3734,7656,19785,"SMPDSv1","J1 (Suukoskenlampi)","Seppa_b97",66.921268,25.39482,136,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04033983510115,1736.96944707607,0.545399971946212,-13.3662886684441,15.1665424583197,460.038170284125
3735,7657,19786,"SMPDSv1","J32  (Ullantomajarvi)","Seppa_b99",68.420353,22.896216,320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14042800228238,1319.7951265744,-2.1812759557884,-16.4221161328149,12.8716148825419,453.453038623995
3736,7658,19787,"SMPDSv1","J39  (Tsokkajavri)","Seppa_b100",68.655177,22.017828,530,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.53431457567717,1046.62520242898,-3.43197523290496,-16.7374465895178,11.0685008244726,582.453823006161
3737,7659,19788,"SMPDSv1","J4 (Pikku Laitajarvi)","Seppa_b98",67.990191,23.673125,260,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08260208264206,1455.86643981628,-1.36189289812349,-15.6578194099315,13.6712078182921,443.368560547053
3738,7660,19789,"SMPDSv1","J46 (Myrskyjarvi)","Seppa_b101",69.053217,20.658105,499,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.95367857658036,983.486256462153,-2.86269261873783,-14.5026753877791,10.4742132603872,702.934362257201
3739,7661,19790,"SMPDSv1","J47 (Reetajarvi)","Seppa_b102",68.715833,21.558378,457,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.41764177161006,1122.07554452362,-2.9464174119018,-16.3696490114966,11.5265539657556,546.815751045539
3740,7662,19791,"SMPDSv1","Jaaska","Seppa_b121",57.75,26.25,72,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00297163800283,2482.32043412203,5.14957726667464,-6.91136846071605,16.6594566462731,618.228420356719
3741,7663,726,"Australian pollen","Jabiluka Billabong","Core M8_0",-12.46496,132.8752,6,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.82239653697227,9982.43624882792,27.3491404077477,24.28837278147,29.5669196063477,1432.50175673075
3741,7664,727,"Australian pollen","Jabiluka Billabong","Core M8_10",-12.46496,132.8752,6,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","33","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.82239653697227,9982.43624882792,27.3491404077477,24.28837278147,29.5669196063477,1432.50175673075
3741,7665,728,"Australian pollen","Jabiluka Billabong","Core M8_5",-12.46496,132.8752,6,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.82239653697227,9982.43624882792,27.3491404077477,24.28837278147,29.5669196063477,1432.50175673075
3742,7666,10984,"Bush et al., 2020","JachchaKkota","JachchaKkota",-16.5782,-68.167583,3753,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.38432237976329,3532.79083021866,9.67887898690044,6.57580626335916,11.7810042033449,570.905320486018
3743,7667,12755,"Neotoma","Jack Lake","JACKLAKE",47.316667,-81.766667,430,"not known","lake","core","21","Liu, K.-B., and N.S.-N. Lam. 1985. Paleovegetational reconstruction based on modern and fossil pollen data: an application of discriminant analysis. Annals of the Association of American Geographers 75(1):115-130. http://www.jstor.org/stable/2563179.; Liu, K.-B. 1990. Holocene paleoecology of the boreal forest and Great Lakes-St. Lawrence forest in northern Ontario. Ecological Monographs 60:179-212.",,9,"cool mixed forest",1.19150297302017,2377.19595940649,2.40440624918451,-15.0432894847811,17.8796341489655,878.565504247246
3744,7668,17375,"Neotoma","Jackson Lake","TW081",45.08,-84.316667,280,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.972081597536164,2928.02235508412,6.0217904799517,-8.4655487797357,19.5352811130232,780.26626021483
3745,7669,12756,"Neotoma","Jackson Pond","JACKSON",37.43255,-85.7246199999999,260,"not known","lake","core","-25","Wilkins, G.R. 1985. Late-quaternary vegetational history at Jackson Pond, Larue County, Kentucky. Thesis. The University of Tennessee, Knoxville, Tennessee, USA.; Wilkins, G.R., P.A. Delcourt, H.R. Delcourt, F.W. Harrison, and M.R. Turner. 1991. Paleoecology of central Kentucky since the last glacial maximum. Quaternary Research 36:224-239.",,13,"temperate deciduous broadleaf forest",1.17102907181812,4822.51215557751,13.2018175799009,-0.0293860629076791,24.6972617716181,1242.40917279593
3745,7669,12757,"Neotoma","Jackson Pond","JACKSON",37.43255,-85.7246199999999,260,"not known","lake","core","-6","Wilkins, G.R. 1985. Late-quaternary vegetational history at Jackson Pond, Larue County, Kentucky. Thesis. The University of Tennessee, Knoxville, Tennessee, USA.; Wilkins, G.R., P.A. Delcourt, H.R. Delcourt, F.W. Harrison, and M.R. Turner. 1991. Paleoecology of central Kentucky since the last glacial maximum. Quaternary Research 36:224-239.",,13,"temperate deciduous broadleaf forest",1.17102907181812,4822.51215557751,13.2018175799009,-0.0293860629076791,24.6972617716181,1242.40917279593
3745,7669,12758,"Neotoma","Jackson Pond","JACKSON",37.43255,-85.7246199999999,260,"not known","lake","core","13","Wilkins, G.R. 1985. Late-quaternary vegetational history at Jackson Pond, Larue County, Kentucky. Thesis. The University of Tennessee, Knoxville, Tennessee, USA.; Wilkins, G.R., P.A. Delcourt, H.R. Delcourt, F.W. Harrison, and M.R. Turner. 1991. Paleoecology of central Kentucky since the last glacial maximum. Quaternary Research 36:224-239.",,13,"temperate deciduous broadleaf forest",1.17102907181812,4822.51215557751,13.2018175799009,-0.0293860629076791,24.6972617716181,1242.40917279593
3745,7669,12759,"Neotoma","Jackson Pond","JACKSON",37.43255,-85.7246199999999,260,"not known","lake","core","32","Wilkins, G.R. 1985. Late-quaternary vegetational history at Jackson Pond, Larue County, Kentucky. Thesis. The University of Tennessee, Knoxville, Tennessee, USA.; Wilkins, G.R., P.A. Delcourt, H.R. Delcourt, F.W. Harrison, and M.R. Turner. 1991. Paleoecology of central Kentucky since the last glacial maximum. Quaternary Research 36:224-239.",,13,"temperate deciduous broadleaf forest",1.17102907181812,4822.51215557751,13.2018175799009,-0.0293860629076791,24.6972617716181,1242.40917279593
3746,7670,729,"Australian pollen","Jacksons Bog","Jackson's Bog A",-37.1,149.1333,750,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.835809448524253,3949.33826730389,10.8201048419285,4.25625843305207,17.1793534571011,956.288213610455
3746,7670,730,"Australian pollen","Jacksons Bog","Jackson's Bog A",-37.1,149.1333,750,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.835809448524253,3949.33826730389,10.8201048419285,4.25625843305207,17.1793534571011,956.288213610455
3746,7671,731,"Australian pollen","Jacksons Bog","Jacksons Bog B",-37.1,149.1333,750,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.835809448524253,3949.33826730389,10.8201048419285,4.25625843305207,17.1793534571011,956.288213610455
3747,7672,15839,"Neotoma","Jacksonville Lake","GMP10",39.67,-90.22,183,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.943456824565792,4484.31336662812,11.7573229463247,-3.74278172256237,24.9498091556911,965.09902174398
3748,7673,12760,"Neotoma","Jacob Lake","JACOB",34.333333,-110.833333,2285,"not known","lake","core","26","Jacobs, B.F. 1983. Past vegetation and climate of the Mogollon Rim Area, Arizona. Dissertation. University of Arizona, Tucson, Arizona, USA.",,22,"steppe",0.288539612426244,3336.11155270768,8.81256973770441,-2.24346312004089,20.7317272631743,395.165073867903
3748,7674,11947,"Neotoma","Jacob Lake","JACOBP1",36.70725,-112.23096,2399,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.322131166679707,2734.29965675417,6.92968012457451,-3.20741737738642,18.5830047818997,402.775725228026
3749,7675,12761,"Neotoma","Jacobson Lake","JACOBSN2",46.416944,-92.716944,324,"not known","lake","core","16","Wright, H.E., Jr., and W.A. Watts. 1969. Glacial and vegetational history of northeastern Minnesota. Special Publications Series 11. Minnesota Geological Survey, University of Minnesota, Minneapolis, Minnesota, USA.; Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658.","10.1017/S0033822200011413",9,"cool mixed forest",0.912203667655936,3035.80572526587,5.38125217830892,-12.6236274435341,20.629438467421,729.579142785753
3749,7675,12762,"Neotoma","Jacobson Lake","JACOBSN2",46.416944,-92.716944,324,"not known","lake","core","41","Wright, H.E., Jr., and W.A. Watts. 1969. Glacial and vegetational history of northeastern Minnesota. Special Publications Series 11. Minnesota Geological Survey, University of Minnesota, Minneapolis, Minnesota, USA.; Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658.","10.1017/S0033822200011413",9,"cool mixed forest",0.912203667655936,3035.80572526587,5.38125217830892,-12.6236274435341,20.629438467421,729.579142785753
3750,7676,10985,"Bush et al., 2020","Jacumarini","Jacumarini",-16.362967,-70.393033,4437,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.367217738969516,2052.5162626957,5.62333222656355,2.78037697156055,7.38895131858527,526.627747305263
3751,7677,732,"Australian pollen","Jaka Lake","Jaka Lake",-36.8,141.8,140,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.474496296055207,5256.04747493136,14.4001300683051,8.81847572804275,20.3867386916047,531.410658004597
3752,7678,10986,"Bush et al., 2020","Jaluncocha","Jaluncocha",-15.6623,-70.195533,3829,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.48579973273953,3212.03305162875,8.80009055240752,6.30676682333069,10.3142901610966,718.749795441135
3753,7679,12763,"Neotoma","James Bay","JBL004",50.22,-80.2,265,"not known","not known","core","-15","Unpublished data",,9,"cool mixed forest",1.28879813196255,2043.42899116708,0.0214946208802155,-19.0107141875278,16.3098210508511,832.446121970227
3753,7679,12764,"Neotoma","James Bay","JBL004",50.22,-80.2,265,"not known","not known","core","45","Unpublished data",,9,"cool mixed forest",1.28879813196255,2043.42899116708,0.0214946208802155,-19.0107141875278,16.3098210508511,832.446121970227
3754,7680,10987,"Bush et al., 2020","Jamolun","Jamolun",19.47,-89.5,140,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.754344999842407,9354.6601553369,25.6292059050326,22.1574046993218,28.1470342454912,1164.72038774498
3755,7681,14001,"Neotoma","Jan Lake","JANLAKE",63.56466,-143.91772,503,"not known","lake","core","-17","Carlson, L.J. 2003. Describing the postglacial pattern and rate of Picea expansion in Alaska using paleoecological records. Doctoral dissertation. University of Washington, Seattle, Washington, USA.; Carlson, L.J., and B.P. Finney. 2004. A 13000-year history of vegetation and environmental change at Jan Lake, east-central Alaska. The Holocene 14(6):818-827.","10.1191/0959683604hl762rp",15,"cold evergreen needleleaf forest",0.497492678433946,1478.7116783559,-4.13431203277668,-22.2873424893085,13.8301942346336,216.501687828974
3756,7682,14845,"Neotoma","Jane's Cove","JANESCV",41.37585,-70.56858,7,"not known","not known","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36168402723627,3923.78141013626,10.4891012114365,-1.90993597820263,22.4056556095338,1236.20533286634
3756,7682,14846,"Neotoma","Jane's Cove","JANESCV",41.37585,-70.56858,7,"not known","not known","core","45","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36168402723627,3923.78141013626,10.4891012114365,-1.90993597820263,22.4056556095338,1236.20533286634
3757,7683,19792,"SMPDSv1","Jansvatn","Bjune_a250",70.6516666666666,23.6716666666666,53,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.21204696478638,1215.91956108513,-1.03433692872277,-12.1134954203021,11.9345552164133,755.797878077303
3758,7684,8161,"EMPDv2","Japan_Sea1","Mikishin-Gvozdeva_a224",50.2583333333333,141.183333333333,-100,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3759,7685,8170,"EMPDv2","Japan_Sea10","Mikishin-Gvozdeva_a233",46.1666666666667,141.05,-300,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3760,7686,8162,"EMPDv2","Japan_Sea2","Mikishin-Gvozdeva_a225",50.0583333333333,141.458611111111,-157,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3761,7687,8163,"EMPDv2","Japan_Sea3","Mikishin-Gvozdeva_a226",48.6666666666667,141.8,-59,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3762,7688,8164,"EMPDv2","Japan_Sea4","Mikishin-Gvozdeva_a227",48.5916666666667,141.458333333333,-200,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3763,7689,8165,"EMPDv2","Japan_Sea5","Mikishin-Gvozdeva_a228",48.05,141.275,-300,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3764,7690,8166,"EMPDv2","Japan_Sea6","Mikishin-Gvozdeva_a229",48.0333333333333,141.753333333333,-60,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3765,7691,8167,"EMPDv2","Japan_Sea7","Mikishin-Gvozdeva_a230",47.75,141.391666666667,-150,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3766,7692,8168,"EMPDv2","Japan_Sea8","Mikishin-Gvozdeva_a231",47.4916666666667,141.733333333333,-93,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3767,7693,8169,"EMPDv2","Japan_Sea9","Mikishin-Gvozdeva_a232",46.2083333333333,141.266666666667,-60,"not applicable","marine","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
3768,7694,19793,"SMPDSv1","Jaramakairatj","Bjune_a153",68.3666666666666,21.0333333333333,523,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.48863473740082,1051.56308058642,-3.14199942657176,-16.16186641901,11.0069419938428,568.308948224125
3769,7695,19794,"SMPDSv1","Jarveotsa","Seppa_b114",59.1,24.167,46,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0710904606719,2422.02662297239,5.14169621998624,-6.15119587725909,16.4988294321627,636.266507729776
3770,7696,19795,"SMPDSv1","Jasiel","EPDcoretop_E302",49.372778,21.886944,680,"0.1","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12376645954309,2556.73439693392,5.91196338330917,-5.6952894190256,15.5624232976843,839.203386376334
3771,7697,19796,"SMPDSv1","Jaska","Meltsov_a6",57.77028,26.25912,57,"0.143","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00294424770819,2469.6454022038,5.08295471491426,-7.00796233093312,16.6983149967065,617.117978953965
3772,7698,7104,"EMPDv2","Jaunay","EPDcoretop_E2022",46.66,-1.89,1,"not known","coastal, lagoon","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.947580471676247,4537.07087541427,12.4303311655185,6.30900200438686,19.0182746194979,843.025733753092
3773,7699,14138,"Neotoma","Jay Lake","JAYLAKE",46.23435,-89.28155,544,"not known","lake","core","36","Ewing, H.A. 2000. Ecosystem development and response to climatic change: a comparative study of forest-lake ecosystems on different substrates. Doctoral dissertation. University of Minnesota, St Paul, Minnesota, USA.; Ewing, H.A. 2002. The influence of substrate on vegetation history and ecosystem development. Ecology 83:2766-2781.",,9,"cool mixed forest",1.04527825195778,2598.08345677459,3.77834819853681,-12.9041731279061,18.6916430510935,797.790151327633
3774,7700,10988,"Bush et al., 2020","Jayokota","Jayokota",-16.733983,-68.30175,3878,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.358309702123289,3249.80966856162,8.90358813304553,5.75294821846882,10.9834707765842,528.51710394097
3775,7701,6136,"EMPDv2","Jbel Kelti, Chefchaouen","AlbaSanchez_a64",35.347574,-5.303285,662,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.429936193796939,5758.34525957956,15.7762883824097,9.39703074443674,23.8598804841296,565.655246614229
3775,7702,6137,"EMPDv2","Jbel Kelti, Chefchaouen","AlbaSanchez_a65",35.346624,-5.294552,1635,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.430757154006793,4663.73024718564,12.7773431429744,5.48389226844282,23.0452535023066,566.012098710955
3775,7703,6138,"EMPDv2","Jbel Kelti, Chefchaouen","AlbaSanchez_a66",35.345739,-5.292949,1635,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.430681285162968,4663.9770852491,12.7780194116414,5.48389041628265,23.0468248314777,565.93144619793
3776,7704,7023,"EMPDv2","Jeleni louze","EPDcoretop_E1586",50.89,14.27,460,"0.002","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.925615992170073,2948.46088094113,7.67803432887417,-2.62586900898335,17.0509768258009,666.260511310345
3777,7705,9086,"EMPDv2","Jezerni hora, Sumava","Svobodova_a4",49.1740222222222,13.1821916666667,1343,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.32739294222618,1750.86063303597,3.60964869848292,-4.61820563868546,11.702604625564,1622.85257351409
3778,7706,9098,"EMPDv2","Jezerni slat, Sumava","Svobodova_a15",49.039775,13.5732166666667,1060,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.83560898053973,2157.65201575389,5.06712997722001,-3.9446677877817,13.6173003759693,1338.15387887909
3779,7707,19797,"SMPDSv1","Jezioro Druzno","EPDcoretop_E994",54.102361,19.47125,-2,"13","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.887275347478222,3022.14599152206,7.89464517405349,-2.51287956811735,17.4592431914167,618.472783842838
3780,7708,16078,"Neotoma","JHMN01 (McAndrews and Wright 1969)","JHMN01",48.8,-113.65,1463,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.695983567165293,2039.84075470467,3.40952236875073,-8.37311044766068,15.1346907702785,548.009262433412
3781,7709,16079,"Neotoma","JHMN02 (McAndrews and Wright 1969)","JHMN02",48.833333,-113.566667,1463,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.691496061946114,2043.12062363864,3.41679064898192,-8.39087296918977,15.148992742848,544.528302123286
3782,7710,16080,"Neotoma","JHMN03 (McAndrews and Wright 1969)","JHMN03",48.85,-113.45,1372,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.643388411226989,2162.11793675412,3.83571706449773,-8.34161165529841,15.7103277320443,513.501724723181
3783,7711,16081,"Neotoma","JHMN04 (McAndrews and Wright 1969)","JHMN04",48.833333,-113.366667,1463,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.674740854381279,2058.85469466358,3.47795149020465,-8.37508132894739,15.225047920157,532.53906138121
3784,7712,16082,"Neotoma","JHMN05 (McAndrews and Wright 1969)","JHMN05",48.85,-113.3,1585,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.723203862988094,1918.27093327705,2.98486793671945,-8.41685332116629,14.5515212869555,561.495612875752
3785,7713,16083,"Neotoma","JHMN06 (McAndrews and Wright 1969)","JHMN06",48.85,-113.25,1524,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.66984044004514,2006.93979962183,3.32164952905081,-8.34133144790523,14.9579422014193,525.397492736956
3786,7714,16084,"Neotoma","JHMN07 (McAndrews and Wright 1969)","JHMN07",48.766667,-113.166667,1433,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.618440197580632,2136.23519850895,3.77213569220328,-8.2963635265851,15.5999605715542,493.053007808327
3787,7715,16085,"Neotoma","JHMN08 (McAndrews and Wright 1969)","JHMN08",48.716667,-113.116667,1524,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.61313681589304,2110.06833802013,3.76064835249324,-8.00149049332514,15.5265101873074,488.45183502684
3788,7716,16086,"Neotoma","JHMN09 (McAndrews and Wright 1969)","JHMN09",48.55,-113.116667,1433,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.573205339749376,2227.82375660589,4.177753650306,-7.92807266566697,16.0944695929436,463.629220334947
3789,7717,16087,"Neotoma","JHMN10 (McAndrews and Wright 1969)","JHMN10",48.616667,-113.016667,1402,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.561782466843251,2263.14606337339,4.28816183797603,-7.96117190631584,16.2582728182012,455.724674554745
3790,7718,16088,"Neotoma","JHMN11 (McAndrews and Wright 1969)","JHMN11",48.533333,-112.966667,1402,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.552882812112689,2277.68053784565,4.34910260357732,-7.91593123179023,16.3360741037092,449.822006774944
3791,7719,16089,"Neotoma","JHMN12 (McAndrews and Wright 1969)","JHMN12",48.583333,-112.75,1280,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.488793424859637,2443.12295149694,4.86804792163611,-8.03606915724204,17.1170441957716,404.884536345132
3792,7720,16090,"Neotoma","JHMN13 (McAndrews and Wright 1969)","JHMN13",48.733333,-112.183333,1098,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.423753387318919,2692.67896755102,5.54935672893364,-8.42614048758663,18.4528585017184,359.2974427727
3793,7721,16091,"Neotoma","JHMN14 (McAndrews and Wright 1969)","JHMN14",48.75,-111.916667,1037,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.414294919479673,2737.60001644021,5.62073902706604,-8.67149373081189,18.69915520214,352.700362416634
3794,7722,16092,"Neotoma","JHMN15 (McAndrews and Wright 1969)","JHMN15",48.75,-111.7,1037,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.406748824241845,2747.22576273677,5.58169175440242,-8.87123331049609,18.8610921971369,346.394774230167
3795,7723,16093,"Neotoma","JHMN16 (McAndrews and Wright 1969)","JHMN16",48.75,-111.416667,1067,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.409184324200408,2728.34184549391,5.5403207622546,-8.80306890804137,18.7936962801415,347.700957432704
3796,7724,16094,"Neotoma","JHMN17 (McAndrews and Wright 1969)","JHMN17",48.883333,-111.266667,1250,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.426866869014846,2598.54785423863,5.43947744987233,-7.87099477834485,18.0332120268886,357.154778470798
3797,7725,16095,"Neotoma","JHMN18 (McAndrews and Wright 1969)","JHMN18",48.916667,-111.116667,1341,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.411372847913396,2674.80480697204,6.05129476237683,-6.68253757767421,18.462516466792,345.565830837732
3798,7726,16096,"Neotoma","JHMN19 (McAndrews and Wright 1969)","JHMN19",48.883333,-111.033333,1341,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.412843394269194,2674.09633857579,6.02943900155381,-6.74318810102361,18.4796879157915,347.048403624608
3799,7727,16097,"Neotoma","JHMN20 (McAndrews and Wright 1969)","JHMN20",48.95,-110.983333,1037,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.401423734132735,2755.42235903814,5.46766509603429,-9.26312421293335,19.1181410868231,340.756240072497
3800,7728,16098,"Neotoma","JHMN21 (McAndrews and Wright 1969)","JHMN21",48.883333,-110.883333,1037,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.401343958656039,2758.34787040955,5.46510787874991,-9.28970368894153,19.1571735747557,341.059305209173
3801,7729,16099,"Neotoma","JHMN22 (McAndrews and Wright 1969)","JHMN22",48.883333,-110.5,945,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.398859428317553,2771.39255366652,5.11793629045441,-10.4329404303533,19.4278140426651,339.031905797157
3802,7730,16100,"Neotoma","JHMN23 (McAndrews and Wright 1969)","JHMN23",48.8,-110.116667,823,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.383789934771933,2814.5511105198,4.99228991627456,-11.1989668510601,19.7037733011837,326.818904042628
3803,7731,16101,"Neotoma","JHMN24 (McAndrews and Wright 1969)","JHMN24",48.9,-109.866667,854,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.389932085051425,2780.75941246115,4.8653765625451,-11.2684049766432,19.5617546665823,330.518214053598
3804,7732,16102,"Neotoma","JHMN25 (McAndrews and Wright 1969)","JHMN25",48.75,-109.616667,823,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.37811710814843,2858.10626324876,5.16800227382164,-11.0328898203714,20.0628958690721,322.857912433079
3805,7733,16103,"Neotoma","JHMN26 (McAndrews and Wright 1969)","JHMN26",48.866667,-108.95,1067,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.42482714590801,2587.02456642252,4.15937176148304,-11.5579446714625,18.7782333795628,354.367674204781
3806,7734,16104,"Neotoma","JHMN27 (McAndrews and Wright 1969)","JHMN27",48.866667,-108.666667,976,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.413933310610543,2647.18949685927,4.30899586942435,-11.7007646826562,19.0148499109148,346.459127937828
3807,7735,16105,"Neotoma","JHMN28 (McAndrews and Wright 1969)","JHMN28",48.866667,-108.466667,915,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.404301423470924,2696.61516856815,4.42783197216307,-11.8048748774071,19.2520132496206,339.6130849045
3808,7736,16106,"Neotoma","JHMN29 (McAndrews and Wright 1969)","JHMN29",48.916667,-108.133333,854,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.397790953242124,2737.96614699378,4.47975752026652,-12.0455351969885,19.4599877359026,334.648299572664
3809,7737,16107,"Neotoma","JHMN30 (McAndrews and Wright 1969)","JHMN30",48.833333,-107.783333,854,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.396429884644029,2739.69118733857,4.47297134290648,-12.0752970324645,19.4879593917892,333.89358925203
3810,7738,16108,"Neotoma","JHMN31 (McAndrews and Wright 1969)","JHMN31",48.75,-107.583333,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.378812530705651,2851.9629386511,4.83261750934139,-12.0346541937756,20.1571723999495,322.016215750851
3811,7739,16109,"Neotoma","JHMN32 (McAndrews and Wright 1969)","JHMN32",48.733333,-107.283333,854,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.393258895515401,2783.23182737247,4.63034234128661,-12.0153947482344,19.7828551123099,333.075457112543
3812,7740,16110,"Neotoma","JHMN33 (McAndrews and Wright 1969)","JHMN33",48.8,-107.083333,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.392146082313251,2787.11778939046,4.46903457169434,-12.5918804363601,19.8237481325399,330.671173814833
3813,7741,16111,"Neotoma","JHMN34 (McAndrews and Wright 1969)","JHMN34",48.883333,-106.8,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.396566202406958,2770.24724782314,4.36745966331516,-12.7627240144279,19.7450875749366,333.2624945528
3814,7742,16112,"Neotoma","JHMN35 (McAndrews and Wright 1969)","JHMN35",48.883333,-106.533333,945,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.41406118696844,2539.50749925926,3.45638526331568,-13.2961243239992,18.5815971340282,342.165320372059
3815,7743,16113,"Neotoma","JHMN36 (McAndrews and Wright 1969)","JHMN36",48.866667,-106.233333,945,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.412034000918121,2582.99684284815,3.65627715569913,-13.1545384217854,18.8603822358906,341.86878215647
3816,7744,16114,"Neotoma","JHMN37 (McAndrews and Wright 1969)","JHMN37",47.8,-103.166667,701,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.45303386196157,2969.95403005827,5.03778343729187,-12.6353435982157,20.988341780684,387.530027592546
3817,7745,16115,"Neotoma","JHMN38 (McAndrews and Wright 1969)","JHMN38",47.966667,-102.7,671,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.47083411864002,2932.11002337867,4.75309984293209,-13.1752519619131,20.8068147202857,398.492348337611
3818,7746,16116,"Neotoma","JHMN39 (McAndrews and Wright 1969)","JHMN39",47.966667,-102.033333,640,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.493079078707172,2899.60759574778,4.52024689926355,-13.603692572305,20.6373239313122,413.38736850881
3819,7747,16117,"Neotoma","JHMN40 (McAndrews and Wright 1969)","JHMN40",47.966667,-101.733333,640,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.499065508146869,2899.61928996761,4.5318224983353,-13.5637549066779,20.6306351843459,417.52242098346
3820,7748,16118,"Neotoma","JHMN41 (McAndrews and Wright 1969)","JHMN41",47.966667,-101.216667,640,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.502549504570481,2905.18367714696,4.58276508338063,-13.4560854163773,20.6469485260602,419.078004842742
3821,7749,16119,"Neotoma","JHMN42","JHMN42",48.92,-111.12,1071,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.401404428362774,2750.20646656806,5.58061598089953,-8.8748795571977,19.0312339093919,340.612997556531
3822,7750,16120,"Neotoma","JHMS06 (McAndrews and Wright 1969)","JHMS06",42.316667,-109.516667,2043,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.281822944977627,2479.42423290793,4.78557491681719,-7.91293301853275,18.3484535595181,278.605907613649
3823,7751,16121,"Neotoma","JHMS07 (McAndrews and Wright 1969)","JHMS07",42.3,-109.033333,2134,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.302635022253385,2400.84100752949,4.49624859779352,-8.01496210316669,17.9995739630136,296.95118854076
3824,7752,16122,"Neotoma","JHMS08 (McAndrews and Wright 1969)","JHMS08",42.45,-108.866667,2439,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.369644791893928,2008.41024156249,2.91418702530466,-8.92336068729648,16.0095353652639,349.572579581103
3825,7753,16123,"Neotoma","JHMS09 (McAndrews and Wright 1969)","JHMS09",42.55,-108.716667,2500,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.379809586976886,1963.91854684719,2.73225099925882,-9.00247745564412,15.7876434153457,357.660900595373
3826,7754,16124,"Neotoma","JHMS10 (McAndrews and Wright 1969)","JHMS10",42.95,-108.5,1524,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.206023232621085,3225.83899812284,7.64958942895334,-5.78325139092159,21.8125015411053,210.070729592307
3827,7755,16125,"Neotoma","JHMS11 (McAndrews and Wright 1969)","JHMS11",43.366667,-108.116667,1494,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.228321488230482,3166.19112400905,7.50682800490045,-5.72724620232023,21.511505330369,227.912937877589
3828,7756,16126,"Neotoma","JHMS12 (McAndrews and Wright 1969)","JHMS12",43.466667,-108.183333,1524,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.232800923188472,3117.98209771547,7.33601801804617,-5.84254540440196,21.2995717200626,231.27517268204
3829,7757,16127,"Neotoma","JHMS13 (McAndrews and Wright 1969)","JHMS13",43.8,-108.116667,1235,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.234395181920715,3358.41891227647,8.16759719368914,-5.44691789576479,22.2473277987493,232.126140239895
3830,7758,16128,"Neotoma","JHMS14 (McAndrews and Wright 1969)","JHMS14",44.016667,-107.533333,1402,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.294549953557812,3093.15199483116,7.21014226938105,-6.11354764239584,21.1662518197213,285.897291137752
3831,7759,16129,"Neotoma","JHMS15 (McAndrews and Wright 1969)","JHMS15",44.166667,-107.25,2439,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.347224395946469,2171.61440313712,3.72664093045071,-7.90439466786846,17.0354527020642,322.163492055081
3832,7760,16130,"Neotoma","JHMS16 (McAndrews and Wright 1969)","JHMS16",44.166667,-107.133333,2866,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",15,"cold evergreen needleleaf forest",0.342409950516916,1857.86180071512,2.46941745700358,-8.36788482231959,15.4416879662849,313.48175537765
3833,7761,16131,"Neotoma","JHMS17 (McAndrews and Wright 1969)","JHMS17",44.316667,-106.933333,2256,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.339420666052049,2300.1629805998,4.3052614457054,-7.45430846507793,17.6455710178489,315.562487134745
3834,7762,16132,"Neotoma","JHMS18 (McAndrews and Wright 1969)","JHMS18",44.333333,-106.733333,1524,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.372023343364227,2909.45946522432,6.46250360652269,-6.78270029394637,20.4803097174568,354.185599413233
3835,7763,16133,"Neotoma","JHMS19 (McAndrews and Wright 1969)","JHMS19",44.283333,-105.533333,1387,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.392738005985209,3096.77028208624,7.18799312050775,-6.15149654211132,21.3529323606343,380.048251916966
3836,7764,16134,"Neotoma","JHMS20 (McAndrews and Wright 1969)","JHMS20",44.266667,-105.166667,1372,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.401424813090224,3110.48741247548,7.235901403075,-6.12024699862137,21.4147312043532,388.998359024323
3837,7765,16135,"Neotoma","JHMS21 (McAndrews and Wright 1969)","JHMS21",44.3,-104.916667,1280,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",17,"temperate evergreen needleleaf open woodland",0.405545698428606,3158.54658168784,7.32808537608529,-6.36227279776955,21.6463430906509,391.938963391726
3838,7766,16136,"Neotoma","JHMS22 (McAndrews and Wright 1969)","JHMS22",44.533333,-104.183333,1220,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.414688183259449,3177.12513086519,7.34112918335921,-6.51183157555808,21.7210072793374,398.956312466443
3839,7767,16137,"Neotoma","JHMS23 (McAndrews and Wright 1969)","JHMS23",44.333333,-103.716667,1738,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",13,"temperate deciduous broadleaf forest",0.423607401886236,2784.52433283977,6.19811685096199,-6.19292809984384,19.932713267879,405.515756484472
3840,7768,16138,"Neotoma","JHMS24 (McAndrews and Wright 1969)","JHMS24",44.416667,-103.416667,976,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.415558624008651,3355.14132267855,7.83479959192088,-6.65723554147691,22.4763011781253,401.812795555019
3841,7769,16139,"Neotoma","JHMS25 (McAndrews and Wright 1969)","JHMS25",44.516667,-102.85,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.42190546308253,3470.04561256438,8.06728088147455,-7.07564871766185,23.0086310729919,406.982272570213
3842,7770,16140,"Neotoma","JHMS26 (McAndrews and Wright 1969)","JHMS26",44.583333,-102.45,854,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.428051539490114,3413.95909042985,7.8650398426892,-7.19510416286226,22.785244194486,411.653946700674
3843,7771,16141,"Neotoma","JHMS27 (McAndrews and Wright 1969)","JHMS27",44.666667,-102.066667,762,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.436313499498409,3458.53460235903,7.87651440305971,-7.6695263409173,23.0454209397802,417.724748394702
3844,7772,16143,"Neotoma","JHMS28 (McAndrews and Wright 1969)","JHMS28D",45.033333,-102,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.436110818121875,3375.68198765416,7.55471947483894,-7.97702186265214,22.6905074842247,411.73733261263
3844,7773,16142,"Neotoma","JHMS28 (McAndrews and Wright 1969)","JHMS28T",45.033333,-102,793,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.436110818121875,3375.68198765416,7.55471947483894,-7.97702186265214,22.6905074842247,411.73733261263
3845,7774,16144,"Neotoma","JHMS29 (McAndrews and Wright 1969)","JHMS29",45,-101.2,732,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.440304174598362,3413.82189437933,7.58625825028964,-8.28978953085686,22.8889237585866,415.480764119166
3846,7775,16145,"Neotoma","JHMS30 (McAndrews and Wright 1969)","JHMS30",45.066667,-100.35,579,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.481480922016826,3424.68467413218,7.12496591656031,-10.15147829783,23.1087191770365,444.361750855618
3847,7776,16146,"Neotoma","JHMS31 (McAndrews and Wright 1969)","JHMS31",45.033333,-99.333333,549,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.502859901448143,3398.48457311425,6.85339314299679,-10.8529526976232,22.9896716811456,459.794260677658
3848,7777,16147,"Neotoma","JHMS32 (McAndrews and Wright 1969)","JHMS32D",44.9,-98.75,412,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.559576395494244,3424.39959731227,6.78873995206204,-11.455394685901,22.9850294137089,504.920086691537
3848,7778,16148,"Neotoma","JHMS32 (McAndrews and Wright 1969)","JHMS32T",44.9,-98.75,412,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.559576395494244,3424.39959731227,6.78873995206204,-11.455394685901,22.9850294137089,504.920086691537
3849,7779,16149,"Neotoma","JHMS33 (McAndrews and Wright 1969)","JHMS33",44.883333,-97.466667,549,"not known","terrestrial","surface sample","Modern","McAndrews, J.H. and Wright Jr, H.E., 1969. Modern pollen rain across the Wyoming basins and the northern Great Plains (USA). Review of Palaeobotany and Palynology, 9(1-2), pp.17-43.","10.1016/0034-6667(69)90011-6",22,"steppe",0.605634497917278,3371.92729726058,6.62271831073419,-11.5178639992838,22.7222052711803,544.068999330905
3850,7780,3396,"CMPD","Jiajihe","Jiajihe",48.7,128.1,380,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.800355151008373,2495.33803567079,-0.40758357633374,-24.3345054915714,19.7488824019156,571.841194167378
3851,7781,3397,"CMPD","Jiangcun","Jiangcun",34.4,109.5,879,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.611279600980241,4362.54570595031,11.7497091388801,-1.63967338089292,24.0509498766215,664.52561151694
3852,7782,3398,"CMPD","Jianggao","Jianggao",23.35,113.1,18,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.5054179052245,8233.74551690733,22.5582068956365,14.5049693357384,28.7928135095372,1900.83229220191
3853,7783,3399,"CMPD","Jiangjunpaozi","Jiangjunpaozi",42.374,117.47,1490,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.38562047975357,2364.43356965891,1.45794922214589,-17.53680230574,18.0509972631305,371.530468002051
3854,7784,3400,"CMPD","Jiangsu","Jiangsu",33.45,119.92,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.90289957090761,5362.68094193594,14.6922765532491,1.66989298109174,27.0346730782059,989.982524199566
3855,7785,9809,"Herzschuh et al., 2019","Jiangsu HQ","Jiangsu HQ98",32.255,120.235,6,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.950572218756678,5498.55601630546,15.0645370309738,2.25031826591802,27.332379140725,1049.99424813432
3856,7786,3401,"CMPD","Jigong Mt","Jigong Mt 01",29.6872333333333,106.404066666667,553,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05778975726462,6223.93879817827,17.0518871182966,6.30923749081016,27.0647324837034,1114.16575889188
3856,7787,3402,"CMPD","Jigong Mt","Jigong Mt 02",29.6866833333333,106.40525,604,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06263447762253,6154.30184498373,16.8611009451609,6.11574241520861,26.8497273386226,1118.52374524704
3856,7788,3403,"CMPD","Jigong Mt","Jigong Mt 03",29.68665,106.40545,605,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06273210994826,6152.93482583304,16.8573556872138,6.11193512711538,26.8455303586267,1118.61253424847
3856,7789,3404,"CMPD","Jigong Mt","Jigong Mt 04",29.689,106.406933333333,632,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0653549270769,6115.94066909506,16.7560018331372,6.00895795621301,26.7317216884285,1120.95005445795
3856,7790,3405,"CMPD","Jigong Mt","Jigong Mt 05",29.6887666666667,106.406,643,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06638307144848,6100.94422996295,16.7149156985286,5.96736292091979,26.6852313759495,1121.86670134332
3857,7791,9810,"Herzschuh et al., 2019","Jijig Achit. 40A","Jijig Achit. 40A",49.55647,90.70455,1438,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.287770162395496,1973.84621631752,-2.62228738785395,-25.5356931361903,15.9629085891107,243.326963924681
3858,7792,9811,"Herzschuh et al., 2019","Jijig bayan II. 37A","Jijig bayan II. 37A",48.84742,90.92545,1582,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.226953488681799,1949.47884691808,-2.69056174851722,-25.6029444922154,15.7775490761202,199.143040712442
3859,7793,9812,"Herzschuh et al., 2019","Jijig Doroo. 25B","Jijig Doroo. 25B",48.2414,90.67625,2853,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.288544111745633,869.543672057087,-7.79241737158564,-27.1036448401608,8.94253185595753,242.368680551535
3860,7794,9813,"Herzschuh et al., 2019","Jijig Tolbo. 32A","Jijig Tolbo. 32A",48.45031,90.20694,2085,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.24672175551216,1448.96164373525,-4.69109216827543,-25.3729048796197,12.7198813095148,214.005547084799
3861,7795,9814,"Herzschuh et al., 2019","Jijig Xox Nuur. 46A","Jijig Xox Nuur. 46A",49.80134,91.76354,1738,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.378353597996515,1635.61849140906,-4.55095875773627,-27.2262951566687,14.0690080497844,306.051411285937
3862,7796,17579,"Phelps et al., 2020","Jikariya Lake","JIKARIYA_1",13.313667,11.077,328,"not known","lake","core top","34","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.180018362386502,10150.1683185583,27.8086803248174,21.5261794405653,32.8830119076278,389.950381538373
3863,7797,16552,"Neotoma","Jimmie Pond","KG046",44.28,-69.87,52,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.45592411346811,3086.17623057514,6.94544379162682,-7.2143291369821,20.12856171959,1159.65987933692
3864,7798,3406,"CMPD","Jinfo Mt","Jinfo Mt 01",29.0350666666667,107.192766666667,2230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19739120383301,3758.98106238159,10.2101771902522,-0.642946282057331,20.4248326769198,1210.56247715123
3864,7799,3407,"CMPD","Jinfo Mt","Jinfo Mt 02",29.0357166666667,107.18655,2170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.1925973445127,3835.35614041634,10.4493520912033,-0.400887793200292,20.6570851571711,1207.88765657318
3864,7800,3408,"CMPD","Jinfo Mt","Jinfo Mt 03",29.0345333333333,107.182733333333,2150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19085308610662,3861.16651165029,10.5291566051117,-0.32029594988664,20.7342959323108,1206.83227414416
3864,7801,3409,"CMPD","Jinfo Mt","Jinfo Mt 04",29.0293666666667,107.186266666667,2110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18745071483747,3914.4496448925,10.6921541682864,-0.155686642043045,20.8921658759845,1204.92615704806
3864,7802,3410,"CMPD","Jinfo Mt","Jinfo Mt 05",29.0316666666667,107.183266666667,2090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18600777347425,3940.57015390599,10.7711374829279,-0.0755437412425015,20.9690911214063,1204.15395706051
3864,7803,3411,"CMPD","Jinfo Mt","Jinfo Mt 06",29.0442333333333,107.184266666667,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.15003647885559,4649.02607849716,12.7370577493073,1.91594388230456,22.8809106891958,1184.45288810152
3864,7804,3412,"CMPD","Jinfo Mt","Jinfo Mt 07",29.0454,107.1862,1530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.14502677898216,4751.67791866803,13.0182956675836,2.20071448764062,23.1543964913538,1181.6196102072
3864,7805,3413,"CMPD","Jinfo Mt","Jinfo Mt 08",29.0574833333333,107.19935,1190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12143455139337,5249.79105565478,14.3829891935747,3.58232566515118,24.4821052001729,1168.01208945609
3864,7806,3414,"CMPD","Jinfo Mt","Jinfo Mt 09",29.0609833333333,107.202333333333,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12020697412296,5278.95561637823,14.4628920996664,3.66322568979951,24.5601711417944,1167.33710217912
3864,7807,3415,"CMPD","Jinfo Mt","Jinfo Mt 10",29.05615,107.201883333333,952,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10483713984903,5598.71371983472,15.3389416981773,4.54957890788905,25.4109541745987,1157.87437715014
3864,7808,3416,"CMPD","Jinfo Mt","Jinfo Mt2 01",29.033,107.187,2037,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18213089239237,4012.3303922091,10.9843811918471,0.140579000725188,21.176692333077,1202.17495204714
3864,7809,3417,"CMPD","Jinfo Mt","Jinfo Mt2 02",29.03,107.187,2157,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19115073258742,3852.83239007231,10.5034290250679,-0.346709746032572,20.7088641099258,1206.94398180026
3864,7810,3418,"CMPD","Jinfo Mt","Jinfo Mt2 03",29.029,107.187,2156,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19099530149148,3854.23784819649,10.5077513705793,-0.342435041404924,20.7129259713927,1206.82952380006
3864,7811,3419,"CMPD","Jinfo Mt","Jinfo Mt2 04",29.028,107.187,2155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19083996481939,3855.6431530526,10.5120732684435,-0.338160560447143,20.7169874561965,1206.71515377542
3864,7812,3420,"CMPD","Jinfo Mt","Jinfo Mt2 05",29.028,107.1865,2155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19082754877619,3855.60494554895,10.5119546930131,-0.338292370747587,20.7168488183056,1206.6974474426
3864,7813,3421,"CMPD","Jinfo Mt","Jinfo Mt2 06",29.028,107.1867,2155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19083251653585,3855.62022582583,10.5120021141943,-0.338239660184035,20.7169042700699,1206.70453102658
3864,7814,3422,"CMPD","Jinfo Mt","Jinfo Mt2 07",29.028,107.186,2155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19081512154794,3855.56676074515,10.5118361924915,-0.338424068090969,20.7167102086655,1206.67973235376
3864,7815,3423,"CMPD","Jinfo Mt","Jinfo Mt2 08",29.0315,107.186,2139,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18984723756354,3876.07011487504,10.575011782583,-0.274097140461768,20.7785949812259,1206.2712662265
3864,7816,3424,"CMPD","Jinfo Mt","Jinfo Mt2 09",29.035,107.186,2124,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18895363793968,3895.39362761701,10.6341978553903,-0.213816622894191,20.8365927328813,1205.89919430619
3864,7817,3425,"CMPD","Jinfo Mt","Jinfo Mt2 10",29.046,107.186,1542,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.14592555125191,4734.03658315538,12.9699632415216,2.15182296488166,23.1074773361694,1182.14570644152
3864,7818,3426,"CMPD","Jinfo Mt","Jinfo Mt2 11",29.046,107.187,1483,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.1416593810951,4820.59701120059,13.2071150991797,2.39188636329435,23.3379591686063,1179.68889066766
3864,7819,3427,"CMPD","Jinfo Mt","Jinfo Mt2 12",29.047,107.189,1477,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.14132138683111,4829.36572133858,13.2311389625714,2.41624114803207,23.3615225199751,1179.53901218333
3864,7820,3428,"CMPD","Jinfo Mt","Jinfo Mt2 13",29.051,107.19,1417,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.13718144995114,4917.17704172575,13.4717179225363,2.65995766146588,23.5956566424894,1177.19037923264
3864,7821,3429,"CMPD","Jinfo Mt","Jinfo Mt2 14",29.061,107.196,1233,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12452000817583,5186.66693927729,14.2100464089789,3.4075185637006,24.3140695610724,1169.86102534058
3864,7822,3430,"CMPD","Jinfo Mt","Jinfo Mt2 15",29.066,107.192,1188,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12137976656531,5252.62452023566,14.3907521102347,3.59063953690608,24.4896030952387,1167.95504533421
3864,7823,3431,"CMPD","Jinfo Mt","Jinfo Mt2 16",29.066,107.192,1188,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12137976656531,5252.62452023566,14.3907521102347,3.59063953690608,24.4896030952387,1167.95504533421
3864,7824,3432,"CMPD","Jinfo Mt","Jinfo Mt2 17",29.068,107.199,1040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.1111630673358,5469.60173414754,14.9852102305412,4.19198978226802,25.067650584111,1161.80825271514
3864,7825,3433,"CMPD","Jinfo Mt","Jinfo Mt2 18",29.067,107.198,1078,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11378030583074,5413.89133259263,14.8325789934045,4.03756769933375,24.9192691752854,1163.40155847443
3864,7826,3434,"CMPD","Jinfo Mt","Jinfo Mt2 19",29.066,107.202,956,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10533134124125,5592.75108873367,15.322605722558,4.53321125662452,25.3955237010447,1158.21986814833
3864,7827,3435,"CMPD","Jinfo Mt","Jinfo Mt2 20",29.086,107.203,956,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10579603896444,5592.50315550323,15.3219264534335,4.53283165830439,25.3958208530095,1158.59645065536
3864,7828,3436,"CMPD","Jinfo Mt","Jinfo Mt2 21",29.098,107.2,618,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08246150041031,6089.34820493747,16.683145766952,5.90957588733058,26.7223028442507,1143.63028922287
3864,7829,3437,"CMPD","Jinfo Mt","Jinfo Mt2 22",29.065,107.205,903,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10171946792123,5670.35193975142,15.5352107938395,4.74818820057234,25.6022574396698,1155.99555224832
3864,7830,3438,"CMPD","Jinfo Mt","Jinfo Mt2 23",29.059,107.203,1026,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11005905845585,5490.1352498676,15.0414664379934,4.24858290404487,25.1221804226872,1161.12692375156
3864,7831,3439,"CMPD","Jinfo Mt","Jinfo Mt2 24",29.046,107.188,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.13346946003374,4987.81435720714,13.6652448142661,2.85563784947434,23.7831474801937,1174.91142463138
3864,7832,3440,"CMPD","Jinfo Mt","Jinfo Mt2 25",29.035,107.183,2142,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19027443640448,3871.56513988932,10.5612147848173,-0.287781736295491,20.7655263481102,1206.54261064973
3864,7833,3441,"CMPD","Jinfo Mt","Jinfo Mt2 26",29.036,107.184,2120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18866967915469,3900.41456222789,10.6495202957801,-0.198246424567437,20.8515231882526,1205.73330913191
3864,7834,3442,"CMPD","Jinfo Mt","Jinfo Mt2 27",29.034,107.185,2150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.19086858597558,3861.39022070369,10.5298444604321,-0.319601260438416,20.7349973363974,1206.87402705675
3864,7835,3443,"CMPD","Jinfo Mt","Jinfo Mt2 28",29.028,107.189,2125,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18857125832232,3895.00855833972,10.6329633096373,-0.215699827596702,20.8345809846626,1205.54539992942
3864,7836,3444,"CMPD","Jinfo Mt","Jinfo Mt2 29",29.026,107.191,2110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18731339356384,3915.13701053421,10.6942166218453,-0.153828819742283,20.8939414675261,1204.85328456037
3864,7837,3445,"CMPD","Jinfo Mt","Jinfo Mt2 30",29.024,107.193,2085,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18529438179902,3948.70346277751,10.7955588738074,-0.0513611248093902,20.9922776203049,1203.75144585495
3864,7838,3446,"CMPD","Jinfo Mt","Jinfo Mt2 31",29.018,107.19,2115,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.18706498821381,3909.27235860545,10.6763197377142,-0.172762688634203,20.8754067926079,1204.4551855080001
3864,7839,3447,"CMPD","Jinfo Mt","Jinfo Mt2 32",29.031,107.187,2106,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18728406929928,3919.63358745178,10.7078940227382,-0.139571857505624,20.9077196561222,1204.90179409713
3864,7840,3448,"CMPD","Jinfo Mt","Jinfo Mt2 33",28.979,107.189,1467,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.13753159095776,4847.58097885608,13.2810437776879,2.46321105097068,23.4042098504927,1176.32896068944
3864,7841,3449,"CMPD","Jinfo Mt","Jinfo Mt2 34",28.979,107.19,1446,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.13610436619793,4878.26822128161,13.3651184144702,2.54840326792831,23.4860833212952,1175.53915533305
3864,7842,3450,"CMPD","Jinfo Mt","Jinfo Mt2 35",28.983,107.193,1536,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.1426227055165,4746.65077173041,13.0045226622751,2.18315612653263,23.1358163538532,1179.32493798931
3864,7843,3451,"CMPD","Jinfo Mt","Jinfo Mt2 36",29,107.1855,1805,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.16257715430136,4351.95991202178,11.9231778411556,1.08862620464971,22.0852624974562,1190.60918975347
3864,7844,3452,"CMPD","Jinfo Mt","Jinfo Mt2 37",29.017,107.178,2074,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.18356130663604,3963.04960126647,10.8384631703678,-0.00886580022322008,21.0322960315777,1202.29087260962
3864,7845,3453,"CMPD","Jinfo Mt","Jinfo Mt2 38",29.053,107.118,666,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08326731009047,6024.25098862402,16.5047972291069,5.73359493473829,26.5354251656259,1143.52827471247
3865,7846,3454,"CMPD","Jinggang Mt","Jinggang Mt 1",26.53,114.14,754,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35427111142066,5997.71760136567,16.4321030174402,5.51964474058476,26.4431803558727,1543.38484133209
3865,7847,3455,"CMPD","Jinggang Mt","Jinggang Mt 2",26.53,114.14,792,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35867273337066,5957.56759598459,16.3221030026975,5.46808726945726,26.2704956023553,1546.94172531106
3865,7848,3456,"CMPD","Jinggang Mt","Jinggang Mt 3",26.54,114.14,1003,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.38338144685275,5733.88512782763,15.7092743228154,5.1790363365649,25.3107325362454,1566.56352011232
3865,7849,3457,"CMPD","Jinggang Mt","Jinggang Mt 4",26.53,114.14,897,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37089715581827,5846.62679164215,16.0181555935401,5.32562583607867,25.7933403623731,1556.76995735821
3865,7850,3458,"CMPD","Jinggang Mt","Jinggang Mt 5",26.79,114.51,169,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2976441891289,6595.17371032424,18.0689690693815,6.16334470646744,29.0886600488847,1505.51036785356
3865,7851,3459,"CMPD","Jinggang Mt","Jinggang Mt 6",26.79,114.51,169,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2976441891289,6595.17371032424,18.0689690693815,6.16334470646744,29.0886600488847,1505.51036785356
3866,7852,19798,"SMPDSv1","Jinninstjonn","Bjune_a218",58.2733333333333,7.74,165,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.37992820574347,2388.21492369375,6.04751663800639,-2.68181302552217,14.8498833709164,1416.6113302549
3867,7853,3460,"CMPD","Jinxiu","Jinxiu",24.15,110.21,1195,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4740124652698,4711.03829229916,12.9069542254772,0.975117497407699,23.8520195489973,1578.35676464074
3868,7854,3461,"CMPD","Jinyun Mt","Jinyun Mt 1",29.842,106.406,412,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04174389474812,6365.47736084622,17.4396640023184,6.68502418625698,27.5355187080899,1095.92360928257
3868,7855,3462,"CMPD","Jinyun Mt","Jinyun Mt 2",29.843,106.404,472,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05031460016557,6281.08964919389,17.208464792312,6.45078500015509,27.2926032363079,1104.30064727338
3868,7856,3463,"CMPD","Jinyun Mt","Jinyun Mt 3",29.84,106.396,691,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08174934854098,5973.30603130412,16.3652220035729,5.59670767720007,26.4065415091232,1134.92492830929
3868,7857,3464,"CMPD","Jinyun Mt","Jinyun Mt 4",29.834,106.39,669,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07843517451814,6004.61067014768,16.4509881373909,5.6841420662996,26.4954834916576,1131.73013241156
3868,7858,3465,"CMPD","Jinyun Mt","Jinyun Mt 5",29.831,106.384,713,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08470224911034,5942.68816270741,16.2813374320751,5.51249475581529,26.3182598126263,1137.79576284004
3868,7859,3466,"CMPD","Jinyun Mt","Jinyun Mt 6",29.831,106.38,843,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10354331048691,5759.18492396523,15.7785888327814,5.00285736390383,25.8905270288472,1155.95917021193
3868,7860,3467,"CMPD","Jinyun Mt","Jinyun Mt 7",29.827,106.376,912,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11350470699241,5661.79457612989,15.5117659619997,4.73252824997623,25.6633566067799,1165.52757365477
3868,7861,3468,"CMPD","Jinyun Mt","Jinyun Mt 8",29.833,106.384,824,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10084174942096,5786.04061620353,15.8521660717905,5.07728409303396,25.9533574185672,1153.36921663078
3868,7862,3469,"CMPD","Jinyun Mt","Jinyun Mt 9",29.838,106.393,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07865642420206,6002.95992918329,16.4464655594063,5.6792536844144,26.4913470544867,1131.92516071757
3869,7863,3470,"CMPD","Jiuxian Mt","Jiuxian Mt",25.75,118.13,1360,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52073856637995,4983.05386364609,13.6522023661537,3.45935594220202,22.7233362185038,1662.25918244948
3870,7864,10989,"Bush et al., 2020","Jobal","Jobal",18.7,-90.11,78,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.856381816450626,9486.76871492346,25.9911471641739,22.6166523577084,28.4069680743099,1335.98291394306
3871,7865,14843,"Neotoma","Jobs Neck Pond","JOBSNCK",41.357865,-70.5841399999999,2,"not known","lake","core","-41","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36338477289866,3939.54432426859,10.5493258960986,-1.81139796397452,22.4335875149092,1239.62440140957
3871,7865,14844,"Neotoma","Jobs Neck Pond","JOBSNCK",41.357865,-70.5841399999999,2,"not known","lake","core","10","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36338477289866,3939.54432426859,10.5493258960986,-1.81139796397452,22.4335875149092,1239.62440140957
3872,7866,12771,"Neotoma","Joe Lake","JOELAKE",66.766667,-157.216667,183,"not known","lake","core","0","Anderson, P.M. 1988. Late Quaternary pollen records from the Kobuk and Noatak River drainages, northwestern Alaska. Quaternary Research 29:263-276.",,31,"tundra",0.733865612886956,1043.58681483179,-7.26748690077932,-23.2739231603413,11.1215838760819,248.268442959066
3873,7867,11428,"Neotoma","Joe River Transect","WLRJR-1",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7868,11427,"Neotoma","Joe River Transect","WLRJR-10",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7869,11430,"Neotoma","Joe River Transect","WLRJR-11",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7870,11429,"Neotoma","Joe River Transect","WLRJR-12",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7871,11433,"Neotoma","Joe River Transect","WLRJR-2",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7872,11432,"Neotoma","Joe River Transect","WLRJR-3",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7873,11434,"Neotoma","Joe River Transect","WLRJR-4",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7874,11437,"Neotoma","Joe River Transect","WLRJR-5",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7875,11431,"Neotoma","Joe River Transect","WLRJR-6",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7876,11426,"Neotoma","Joe River Transect","WLRJR-7",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7877,11436,"Neotoma","Joe River Transect","WLRJR-8",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3873,7878,11435,"Neotoma","Joe River Transect","WLRJR-9",25.216564,-81.007587,1,"not known","terrestrial","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.794497206901901,9038.16147589205,24.7620862353207,20.0374084571982,28.6590888765352,1194.82970335797
3874,7879,11956,"Neotoma","Joe's Mud Hole","JOEMUDP1",36.576825,-112.21153,2585,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.358242374624619,2424.45059663711,5.80687689742331,-3.94555851446167,17.2454762403374,438.403813718937
3875,7880,12772,"Neotoma","Joes Pond","JOES3",48.24,-58.24,100,"not known","lake","core","-18","Anderson, T.W., and C.F.M. Lewis. 1992. Climatic inferences of deglacial drainage changes in southern Canada at 10 to 8 ka suggested by pollen evidence. Geographie Physique et Quaternaire 46:255-272.",,9,"cool mixed forest",2.13667936601339,2064.70839457208,3.99180975382205,-7.12901995330471,15.2224520385563,1370.61068353132
3876,7881,733,"Australian pollen","John Forrest NP","John Forrest NP (1)",-31.867,116.083,200,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.404909157778727,6351.04968195637,17.400136114949,11.5883828453042,24.1436698939351,591.994797051537
3876,7882,734,"Australian pollen","John Forrest NP","John Forrest NP (2)",-31.867,116.083,160,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.42270841697506,6421.45014796203,17.5930141040056,11.9911588060948,24.1939483770354,617.856562224665
3877,7883,15771,"Neotoma","John Klondike Bog","FLR-B",60.356667,-123.646667,460,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Matthews, J.V., Jr. 1980. Paleoecology of John Klondike Bog, Fisherman Lake region, southwest district of Mackenzie. Geological Survey of Canada Paper 80-22..",,15,"cold evergreen needleleaf forest",0.885736189349437,1847.05953540581,-2.58584601385096,-22.5371643012796,15.190230700876,467.539173277817
3877,7884,12574,"Neotoma","John Klondike Bog","JOHNKLON",60.356667,-123.646667,460,"not known","terrestrial, bog/fen/swamp","core","-21","Matthews, J.V., Jr. 1980. Paleoecology of John Klondike Bog, Fisherman Lake region, southwest district of Mackenzie. Geological Survey of Canada Paper 80-22..",,15,"cold evergreen needleleaf forest",0.885736189349437,1847.05953540581,-2.58584601385096,-22.5371643012796,15.190230700876,467.539173277817
3878,7885,13755,"Neotoma","Johnson Lake","MNPPJL",45.44376,-95.272065,364,"not known","lake","core","-26","Unpublished data",,22,"steppe",0.759968008591918,3278.09778945739,5.99364115822363,-12.8253174911488,21.9386829582817,648.023677926834
3878,7885,13756,"Neotoma","Johnson Lake","MNPPJL",45.44376,-95.272065,364,"not known","lake","core","49","Unpublished data",,22,"steppe",0.759968008591918,3278.09778945739,5.99364115822363,-12.8253174911488,21.9386829582817,648.023677926834
3879,7886,12773,"Neotoma","Johnson River Bog","JNSNRVBG",63.711111,-144.65,442,"not known","terrestrial, bog/fen/swamp","core","29","Ager, T.A. 1975. Late Quaternary environmental history of the Tanana Valley, Alaska. Institute of Polar Studies Report 54. Ohio State University, Columbus, Ohio, USA.; Anderson, J.H. 1975. A palynological study of late Holocene vegetation and climate in the Healy Lake Area of Alaska. Arctic 28:62-69.; Reeburgh, W.S., and M.S. Young. 1976. University of Alaska radiocarbon dates 1. Radiocarbon 18:1-15.",,15,"cold evergreen needleleaf forest",0.530044245244227,1570.12577778354,-3.66539039181054,-21.8615236202977,14.3991936258715,230.884232946447
3880,7887,11957,"Neotoma","Jolly Sink","JOLLYP1",36.6880199999999,-112.186444999999,2451,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.33110911854012,2646.92667004434,6.62182355834065,-3.40635329144839,18.2149509427818,411.502724043857
3881,7888,11611,"Neotoma","Jones Lake","JON-1C",44.468855,-98.9484899999999,544,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.519067878207586,3511.83845413671,7.42645702706691,-9.97735675146959,23.4530244336957,486.518373329141
3881,7889,11612,"Neotoma","Jones Lake","JON-1M",44.468855,-98.9484899999999,544,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.519067878207586,3511.83845413671,7.42645702706691,-9.97735675146959,23.4530244336957,486.518373329141
3881,7890,13850,"Neotoma","Jones Lake","JONES",49.4502449999999,-99.2891449999999,409,"not known","lake","core","-50","Teed, R.E., C.E. Umbanhowar, and P. Camill. 2009. Multiproxy lake sediment records at the northern and southern boundaries of the Aspen Parkland region of Manitoba, Canada. The Holocene 19(6):937-948.","10.1177/0959683609336569",9,"cool mixed forest",0.625645257835115,2675.19027825064,2.65144075717504,-17.3282216220919,19.4318303793661,488.918736844972
3881,7890,13851,"Neotoma","Jones Lake","JONES",49.4502449999999,-99.2891449999999,409,"not known","lake","core","-24","Teed, R.E., C.E. Umbanhowar, and P. Camill. 2009. Multiproxy lake sediment records at the northern and southern boundaries of the Aspen Parkland region of Manitoba, Canada. The Holocene 19(6):937-948.","10.1177/0959683609336569",9,"cool mixed forest",0.625645257835115,2675.19027825064,2.65144075717504,-17.3282216220919,19.4318303793661,488.918736844972
3881,7890,13852,"Neotoma","Jones Lake","JONES",49.4502449999999,-99.2891449999999,409,"not known","lake","core","10","Teed, R.E., C.E. Umbanhowar, and P. Camill. 2009. Multiproxy lake sediment records at the northern and southern boundaries of the Aspen Parkland region of Manitoba, Canada. The Holocene 19(6):937-948.","10.1177/0959683609336569",9,"cool mixed forest",0.625645257835115,2675.19027825064,2.65144075717504,-17.3282216220919,19.4318303793661,488.918736844972
3881,7891,12774,"Neotoma","Jones Lake","MNSHBL",45.428085,-93.9814749999999,293,"not known","lake","core","-9","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852752926343178,3441.06850014204,6.88727085318884,-11.5603173975939,22.4636772823132,728.027362952018
3881,7891,12775,"Neotoma","Jones Lake","MNSHBL",45.428085,-93.9814749999999,293,"not known","lake","core","23","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852752926343178,3441.06850014204,6.88727085318884,-11.5603173975939,22.4636772823132,728.027362952018
3881,7892,16185,"Neotoma","Jones Lake","TW085",44.784167,-84.5925,381,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.932812602961395,2956.11808569606,6.27084628828933,-7.75911963041098,19.6647575104283,753.881974865984
3882,7893,15704,"Neotoma","Jones Lake (US:North Carolina)","DRW001",34.68,-78.6,21,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.07877067386779,6167.03818008265,16.8959950139251,6.19985525888539,26.6260056694779,1271.00733388571
3883,7894,12620,"Neotoma","Jones Lake [Glenboro site]","GLENBORO",49.448,-99.28965,409,"not known","lake","core","0","Ritchie, J.C., and S. Lichti-Federovich. 1968. Holocene pollen assemblages from the Tiger Hills, Manitoba. Canadian Journal of Earth Sciences 5:873-880.",,9,"cool mixed forest",0.625610545027618,2675.34449922496,2.65225518438466,-17.3273317375552,19.4325722132576,488.917016873595
3883,7894,12621,"Neotoma","Jones Lake [Glenboro site]","GLENBORO",49.448,-99.28965,409,"not known","lake","core","23","Ritchie, J.C., and S. Lichti-Federovich. 1968. Holocene pollen assemblages from the Tiger Hills, Manitoba. Canadian Journal of Earth Sciences 5:873-880.",,9,"cool mixed forest",0.625610545027618,2675.34449922496,2.65225518438466,-17.3273317375552,19.4325722132576,488.917016873595
3883,7894,12622,"Neotoma","Jones Lake [Glenboro site]","GLENBORO",49.448,-99.28965,409,"not known","lake","core","35","Ritchie, J.C., and S. Lichti-Federovich. 1968. Holocene pollen assemblages from the Tiger Hills, Manitoba. Canadian Journal of Earth Sciences 5:873-880.",,9,"cool mixed forest",0.625610545027618,2675.34449922496,2.65225518438466,-17.3273317375552,19.4325722132576,488.917016873595
3883,7894,12623,"Neotoma","Jones Lake [Glenboro site]","GLENBORO",49.448,-99.28965,409,"not known","lake","core","47","Ritchie, J.C., and S. Lichti-Federovich. 1968. Holocene pollen assemblages from the Tiger Hills, Manitoba. Canadian Journal of Earth Sciences 5:873-880.",,9,"cool mixed forest",0.625610545027618,2675.34449922496,2.65225518438466,-17.3273317375552,19.4325722132576,488.917016873595
3884,7895,19799,"SMPDSv1","Jonsnudtjern","Bjune_a307",60.8666666666666,10.8783333333333,170,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.38746142213691,2231.23849007091,4.48412034651864,-6.67666820635442,15.4853481659385,795.196374634909
3885,7896,10990,"Bush et al., 2020","Juanacatlan","Juanacatlan",20.63,-104.74,2038,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.469681370359662,6505.03217791971,17.8220059669033,13.6080803888487,21.5548023078514,768.447585557367
3886,7897,10991,"Bush et al., 2020","Juarez","Juarez",20.8,-87.34,10,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.794128067683989,9413.86543883254,25.791412161185,22.660607103851,27.9150394216066,1210.25777616357
3887,7898,17543,"Neotoma","Julius Bog","LFR65076",49.9683,-96.24795,280,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87.",,9,"cool mixed forest",0.706940735489054,2603.00521818022,2.0773777408383,-18.66223257177,19.2016106868513,531.949746745945
3888,7899,15492,"Neotoma","July Creek","CJH071",47.6,-124.25,15,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.15624880696793,3546.72426811623,9.71705278935952,4.37433996972694,15.7178779656306,2344.99309980197
3889,7900,3471,"CMPD","Junshan","Junshan",29.3,112.8,31,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11128721466704,6289.21717412777,17.2307319839117,4.77977859377045,29.1279394069888,1250.457918397
3890,7901,1,"Harrison et al., 2021","Juodonys","juodonys_core",55.74,25.44,20,"small (0.01-1 km2)",,"core top","modern","Harrison, S.P., Villegas-Diaz, R., Cruz-Silva, E., Gallagher, D., Kesner, D., Lincoln, P., Shen, Y., Sweeney, L., Colombaroli, D., Ali, A., Barhoumi, C., Bergeron, Y., Blyakharchuk, T., Bobek, P., Bradshaw, R., Clear, J.L., Czerwiński, S., Daniau, A-L., Dodson, J., Edwards, K.J., Edwards, M.E., Feurdean, A., Foster, D., Gajewski, K., Gałka, M., Garneau, M., Giesecke, T.,  Gil Romera, G., Girardin, M.P., Hoefer, D., Huang, K., Inoue, J., Jamrichová, E., Jasiunas, N., Jiang, W., Jiménez-Moreno, G., Karpińska-Kołaczek, M., Kołaczek, P., Kuosmanen, N., Lamentowicz, M., Lavoie, M., Li, F., Li, J., Lisitsyna, O., López-Sáez, J.A., Luelmo-Lautenschlaeger, R., Magnan, G., Magyari, E.K., Maksims, A., Marcisz, K., Marinova, E., Marlon, J., Mensing, S., Miroslaw-Grabowska, J., Oswald, W., Pérez-Díaz, S., Pérez-Obiol, R., Piilo, S., Poska, A., Qin, X., Remy, C.C., Richard, P.J.H., Salonen, S., Sasaki, N., Schneider, H., Shotyk, W., Stancikaite, M., Šteinberga, D., Stivrins, N., Takahara, H., Tan, Z., Trasune, L., Umbanhowar, C.E., Väliranta, M., Vassiljev, J., Xiao, X., Xu, Q., Xu, X., Zawisza, E., Zhao, Y., Zhou, Z., Paillard, J., 2021/2022. The Reading Palaeofire database: an expanded global resource to document changes in fire regimes from sedimentary charcoal records Earth System Science Data Discussions https://doi.org/10.5194/essd-2021-272. Earth System Science Data 14: 1109-1124 https://doi.org/10.5194/essd-14-1109-2022","10.5194/essd-2021-272",9,"cool mixed forest",0.905637799970795,2655.17504276844,6.03765302017556,-5.56683530319954,16.767346105972,593.929420796807
3891,7902,19800,"SMPDSv1","Jure Vetere","Mercuri_g1",39.2641666666666,16.6380555555555,1090,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.691369307152514,4239.25046337969,11.6143848311772,4.30083501262902,20.4356167441061,837.023261861402
3892,7903,3472,"CMPD","Juyanhai Lake","Juyanhai Lake 01",41.8675,101.8695,1068,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0818928977594874,3686.6087882859,7.3164618587997,-11.8667150701896,24.2670503707919,93.9050412706918
3892,7904,3473,"CMPD","Juyanhai Lake","Juyanhai Lake 02",42.4413333333333,100.925333333333,967,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0749211166357971,3696.73097869911,7.38254603991916,-11.7363344244797,24.1876624951414,84.7665591454639
3892,7905,3474,"CMPD","Juyanhai Lake","Juyanhai Lake 03",41.9603333333333,101.076166666667,990,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0769651048516642,3726.44902697902,7.53730760367133,-11.5390776817782,24.2814203971485,87.427364893216
3892,7906,3475,"CMPD","Juyanhai Lake","Juyanhai Lake 04",41.983,101.124166666667,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0772810545941243,3714.76471577797,7.48729272581574,-11.5878601346345,24.2391870640496,87.7942220931503
3892,7907,3476,"CMPD","Juyanhai Lake","Juyanhai Lake 05",41.9903333333333,101.1895,1040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.078438563507377,3669.9659027918,7.30708816060745,-11.7356819655026,24.0560674957314,89.1836444661501
3892,7908,3477,"CMPD","Juyanhai Lake","Juyanhai Lake 06",42.1511666666667,101.233833333333,1119,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0804655587774814,3573.23599506153,6.91285140073081,-12.0608043874609,23.6526558963064,91.4759200718373
3892,7909,3478,"CMPD","Juyanhai Lake","Juyanhai Lake 07",42.1828333333333,101.096666666667,962,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0760167676525983,3748.35169231065,7.61007073696435,-11.5127299986138,24.3898147893735,86.1271404880446
3892,7910,3479,"CMPD","Juyanhai Lake","Juyanhai Lake 08",41.8061666666667,101.0995,936,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0757719344802615,3795.35133525884,7.81110029743582,-11.3193424613882,24.5680569768088,86.1107089930388
3892,7911,3480,"CMPD","Juyanhai Lake","Juyanhai Lake 09",41.758,101.143833333333,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0762573569572318,3782.49388478761,7.76089863691861,-11.3589096632722,24.5163951633057,86.7354819811299
3892,7912,3481,"CMPD","Juyanhai Lake","Juyanhai Lake 10",42.0095,101.577166666667,933,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.076848049510294,3808.31393846789,7.80282045283732,-11.4736687400854,24.73851695016,87.3988398466956
3892,7913,3482,"CMPD","Juyanhai Lake","Juyanhai Lake 11",42.3305,101.272166666667,959,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0763060329917017,3724.72807905142,7.44754220886344,-11.8077421524385,24.3986151247829,86.5248794780492
3892,7914,3483,"CMPD","Juyanhai Lake","Juyanhai Lake 12",42.2253333333333,101.116666666667,1006,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.077168147725046,3696.44779836377,7.403478050185,-11.6781006837096,24.1735560107705,87.4684737547314
3892,7915,3484,"CMPD","Juyanhai Lake","Juyanhai Lake 13",41.758,101.143833333333,944,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0760996659482292,3789.26619355864,7.78708457389058,-11.3394764844104,24.54525659142,86.5456201059485
3892,7916,3485,"CMPD","Juyanhai Lake","Juyanhai Lake 14",41.983,101.124166666667,943,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0757874035479823,3779.90305679947,7.74074797585809,-11.3964166279907,24.5160089803952,86.0040052846072
3893,7917,19801,"SMPDSv1","Jvari lake","Connor_a11 (JV1)",41.8386666666666,44.74015,570,"0.03","lake","surface sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.580465392797484,4203.04572489498,11.3524717631534,-1.47434609417169,23.4098142377388,599.936306969317
3893,7918,19802,"SMPDSv1","Jvari lake","Connor_a12 (JV0)",41.8386666666666,44.74015,570,"0.03","lake","surface sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.580465392797484,4203.04572489498,11.3524717631534,-1.47434609417169,23.4098142377388,599.936306969317
3894,7919,16937,"Neotoma","K1 (Kapp 1965]","ROK001",38.28,-96.33,335,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.82911924006767,4912.53207122431,13.2719426332852,-1.75110467978162,26.6936783947602,937.280218181413
3895,7920,16943,"Neotoma","K11 (Kapp 1965]","ROK007",43.08,-97.37,390,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.629622386977279,3815.06276740831,8.62824454707493,-9.07775715352321,24.1461018083203,604.166417868507
3896,7921,16944,"Neotoma","K12 (Kapp 1965]","ROK008",43.75,-96.17,409,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.721786116498496,3546.59950368442,7.41359086434824,-10.5969782565068,23.0252408848076,658.923811165106
3897,7922,16945,"Neotoma","K14 (Kapp 1965]","ROK009",43.52,-91.95,285,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,13,"temperate deciduous broadleaf forest",0.909277708573114,3579.5950118093,7.80207229811267,-9.75271074201819,22.5768940781153,814.646761833113
3898,7923,16946,"Neotoma","K17 (Kapp 1965]","ROK010",38.05,-101.38,920,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.389782075957375,4548.47269347118,12.2966199958497,-1.42060330515506,26.014167608517,473.551327946984
3899,7924,16947,"Neotoma","K18 (Kapp 1965]","ROK011",40.98,-93.75,346,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.878376188083652,3973.43741986422,9.55934651548919,-7.19317083136419,24.0529514775436,867.222754862143
3900,7925,16948,"Neotoma","K19 (Kapp 1965]","ROK012",40.12,-94.07,274,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,13,"temperate deciduous broadleaf forest",0.89917513855011,4420.78388001873,11.429028926242,-4.51509915885387,25.2888737053829,934.374180265313
3901,7926,16938,"Neotoma","K2 (Kapp 1965]","ROK002",37.12,-99.15,635,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.492015074159529,5200.6453780125,14.2441790325116,0.173442078562314,27.6307284802418,610.679330655722
3902,7927,16939,"Neotoma","K3 (Kapp 1965]","ROK003",36.97,-100.05,622,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.492367625364472,5323.58136050365,14.5851544123388,0.600884382873367,27.8465068818949,616.913803377587
3903,7928,16940,"Neotoma","K5 (Kapp 1965]","ROK004",37.25,-100.5,762,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.433673300579463,5026.01211263406,13.7506182855197,-0.111206004101142,27.1871290255527,541.009819489658
3904,7929,16941,"Neotoma","K6 (Kapp 1965]","ROK005",38.95,-99.33,610,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.521417631501717,4589.63973313701,12.2267479859901,-2.71010018787678,26.5460605282213,601.024440493632
3905,7930,16942,"Neotoma","K9 (Kapp 1965]","ROK006",42.77,-97.42,390,"not known","artificial water body","surface sample","Modern","Kapp, R.O., 1965. Illinoian and Sangamon vegetation in southwestern Kansas and adjacent Oklahoma. Contributions from the Museum of Paleontology 19:167-255.",,22,"steppe",0.633783533702248,3824.50449912405,8.67715063816342,-8.98500665504003,24.1616796453377,611.057294538253
3906,7931,19803,"SMPDSv1","Kaamanen","FIN/SPH/F4",69.1228638888889,27.2396166666667,155,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12865184627843,1383.95498624994,-1.28919949201008,-14.7516737830222,13.4383937683762,413.502194387272
3907,7932,19804,"SMPDSv1","Kaarkotinlampi","EPDcoretop_E315",61.416667,25.866667,104,"0.002","lake","lacustrine core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05348924605731,2195.30297205294,3.60909576249621,-9.12386230804853,16.3958109876153,583.115745333907
3908,7933,19805,"SMPDSv1","Kaartlamminsuo","EPDcoretop_E316",60.733333,24.216667,115,"0.5","terrestrial, bog/fen/swamp","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04505698554449,2190.06966330509,3.79023110047074,-8.39620738227038,16.0569451654825,570.233511357315
3909,7934,735,"Australian pollen","Kaban/Kalunga","Kaban/Kalunga Waterhole",-17.517,145.417,900,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",3,"tropical deciduous broadleaf forest and woodland",0.510876477386109,7688.86946357161,21.0653957906072,15.9382976809095,24.7245215999205,941.934795084296
3910,7935,92,"APD","Kabesi River Delta","LT98-18M_1",-5.97666666666666,29,773,"not applicable","fluvial","core","-47","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7936,93,"APD","Kabesi River Delta","LT98-18M_12",-5.97666666666666,29,773,"not applicable","fluvial","core","-12","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7937,94,"APD","Kabesi River Delta","LT98-18M_15",-5.97666666666666,29,773,"not applicable","fluvial","core","10","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7938,95,"APD","Kabesi River Delta","LT98-18M_18",-5.97666666666666,29,773,"not applicable","fluvial","core","46","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7939,96,"APD","Kabesi River Delta","LT98-18M_3",-5.97666666666666,29,773,"not applicable","fluvial","core","-38","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7940,97,"APD","Kabesi River Delta","LT98-18M_6",-5.97666666666666,29,773,"not applicable","fluvial","core","-29","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3910,7941,98,"APD","Kabesi River Delta","LT98-18M_9",-5.97666666666666,29,773,"not applicable","fluvial","core","-21","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",22,"steppe",0.752115438526308,8577.0619894295,23.4987999710397,22.2146307790652,24.4331378568765,1147.00726896122
3911,7942,19806,"SMPDSv1","Kacha","Crimea-18",44.73,33.63,35,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.5097565604396,4037.89738264425,10.9905595215323,-0.693595213653283,22.1026366385465,500.953303171686
3912,7943,8473,"EMPDv2","Kacimskoye peatland","Novenko_c36",53.3616,46.5881,299,"0.07","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.719823041660646,2891.73041168765,4.63245208692922,-12.2006884606454,20.1425822211335,540.769721881902
3913,7944,19807,"SMPDSv1","Kadarbiku","Seppa_b120",57.88,25.87,83,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0233595122537,2482.28380271588,5.19371570192881,-6.72720548611076,16.6084973471076,630.569916515497
3914,7945,19808,"SMPDSv1","Kadastiku","Meltsov_a9",57.88612,25.87011,73,"0.072","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02337020771915,2484.23654243766,5.2170645571479,-6.65272646000197,16.6354692514353,630.102845258879
3915,7946,3486,"CMPD","Kaili","Kaili 1",26.66,108.21,660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18592351986059,5972.85683399744,16.3639913260204,5.50026308163838,25.9351741319623,1270.89936402774
3915,7947,3487,"CMPD","Kaili","Kaili 2",26.6,108.04,871,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.13480808568616,5744.80024066527,15.7391787415487,5.14529454534773,24.9951866153492,1207.01109394778
3916,7948,3488,"CMPD","Kaitong","Kaitong",44.8,123.1,148,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.480065909877189,3455.75260188681,5.71944335282449,-15.127899553523,23.6533203070817,437.196134236852
3917,7949,19809,"SMPDSv1","Kaivosjarvi","Bjune_a169",67.55,22.6333333333333,262,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10825564868136,1445.93706005271,-1.2671827350326,-15.3795934693727,13.4982972878206,467.105179542207
3918,7950,12777,"Neotoma","Kaiyak Lake","KAIYAK",68.15,-161.416667,190,"not known","lake","core","0","Anderson, P.M. 1985. Late Quaternary vegetational change in the Kotzebue Sound area, northwestern Alaska. Quaternary Research 24:307-321.",,31,"tundra",0.620286048624539,817.789380599305,-8.03327493638492,-22.8535718926518,9.70266454684244,188.751161042974
3919,7951,19810,"SMPDSv1","Kalajarvi","Seppa_b29",64.47,27.68,198,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12148322066993,1827.10956929835,1.15700702314989,-12.9314238918822,15.4418072930522,528.653280991956
3920,7952,15494,"Neotoma","Kalaloch 1","CJH073",47.3,-124.3,46,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.09870119025172,3543.0832642938,9.70707743642136,4.43762818489026,15.6445428056983,2319.00656570055
3921,7953,15495,"Neotoma","Kalaloch 2","CJH074",47.7,-124.35,61,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.18527965207624,3506.23107437993,9.60611253254776,4.23522608937374,15.6896447392954,2363.63817393024
3922,7954,15496,"Neotoma","Kalaloch 3","CJH075",47.73,-124.12,503,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.96046902114842,3204.2050976126,8.77864410304822,3.16045426289669,15.2610918727735,2270.56883265083
3923,7955,736,"Australian pollen","Kalamunda NP","Kalamunda NP",-31.95,116.067,100,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.453708000081535,6517.53511315049,17.856260583974,12.5738320573383,24.2382418094437,661.317501358663
3924,7956,737,"Australian pollen","Kalbarri","Kalbarri_Sample 15",-27.4922,114.7285,233,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.162655516852847,7639.86978518018,20.9311500963841,13.8674819007444,28.483248705845,288.9534883027
3924,7957,738,"Australian pollen","Kalbarri","Kalbarri_Sample 16",-27.5726,114.9729,224,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.163198416174599,7656.1266842933,20.975689546009,13.914692212361,28.5059867674241,289.77653532847
3924,7958,739,"Australian pollen","Kalbarri","Kalbarri_Sample 17",-27.5823,115.0389,233,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.161476990588321,7655.05273475148,20.9727472184972,13.8506762368829,28.5465666345611,286.91037183974
3924,7959,740,"Australian pollen","Kalbarri","Kalbarri_Sample 18",-27.6309,114.9399,220,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.165197532051068,7643.61544071172,20.9414121663335,13.9246123885398,28.4411576552854,292.782959972871
3924,7960,741,"Australian pollen","Kalbarri","Kalbarri_Sample 19",-27.7963,114.8329,197,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.182317302957515,7527.07649887967,20.6221273941909,13.9145759757305,27.9104224457362,318.695997580467
3924,7961,742,"Australian pollen","Kalbarri","Kalbarri_Sample 20",-27.6261,114.289,161,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.178310018353942,7638.33193495211,20.926936808088,14.3410579707421,28.1201388089589,314.208109702508
3925,7962,743,"Australian pollen","Kalgoorlie","Kalgoorlie 1",-30.586,121.574,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.157178850078554,6859.76482142746,18.7938762230889,10.8274064552859,26.5493430063006,252.807535507113
3925,7963,744,"Australian pollen","Kalgoorlie","Kalgoorlie 10",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7964,745,"Australian pollen","Kalgoorlie","Kalgoorlie 11",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7965,746,"Australian pollen","Kalgoorlie","Kalgoorlie 2",-30.439,121.6757,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155283846173442,6882.85830450052,18.8571460397275,10.8563121778507,26.6333853928839,250.68236281991
3925,7966,747,"Australian pollen","Kalgoorlie","Kalgoorlie 3",-30.4936,121.6565,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155885284667058,6874.85167577176,18.8352100706075,10.846471730023,26.6028039041779,251.321864320672
3925,7967,748,"Australian pollen","Kalgoorlie","Kalgoorlie 4",-30.5669,121.629,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.15670327343106,6864.08717616187,18.8057182908545,10.8332580498725,26.5617343826277,252.192254316149
3925,7968,749,"Australian pollen","Kalgoorlie","Kalgoorlie 5",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7969,750,"Australian pollen","Kalgoorlie","Kalgoorlie 6",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7970,751,"Australian pollen","Kalgoorlie","Kalgoorlie 7",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7971,752,"Australian pollen","Kalgoorlie","Kalgoorlie 8",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3925,7972,753,"Australian pollen","Kalgoorlie","Kalgoorlie 9",-30.97,121.118,468,"not applicable","terrestrial","pollen trap","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.171687727089237,6700.32588285733,18.3570572133078,10.6269329192261,25.9968146299744,270.45347852325
3926,7973,6233,"EMPDv2","Kalininsky Ryam","Binney2017_E2196",56.92,70.97,104,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.734306548603916,2374.39005873853,0.837643051908666,-18.3369606866292,19.2817470678344,422.201021348272
3927,7974,23202,"SMPDSv1","Kallebrann","Bjune_a92",69.30157917,29.16538604,148,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.40831653927308,1261.52280698459,-1.01282118528085,-12.5630567841727,12.4584653988685,506.087532902277
3928,7975,7224,"EMPDv2","Kalna bog","EPDcoretop_E2595",57.95,24.59,46,"3.4768","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.03135149511797,2529.15819537426,5.58832183654514,-5.75223876129141,16.6623694024929,637.453311345601
3929,7976,19811,"SMPDSv1","Kalsa Mire","EPDcoretop_E24",58.166667,27.45,38,"1.7","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.994394646700568,2461.9429675448,4.89038237048752,-7.68664859101597,16.8492939026101,609.758912485369
3930,7977,19812,"SMPDSv1","Kaly boloto","Kaly boloto_SS (Novenko_c185)",61.7667,51.7833,90,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28416570220749,1877.21414669611,0.168372701261818,-17.4240239561298,17.0572275133278,571.508200280475
3931,7978,19813,"SMPDSv1","Kamchia River estuary","Kamchia River estuary/MFBG16S",43.0175,27.8838888888889,9,"not applicable","fluvial","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.547018953128431,4458.20852034948,12.2142699187657,0.771662463527642,22.3465724346595,535.410527517231
3932,7979,19814,"SMPDSv1","Kamenicky","EPDcoretop_E25",49.733333,15.966667,624,"0.005","terrestrial, bog/fen/swamp","peat core top","-26","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05113394688641,2717.13074230385,6.82543443374475,-3.62811868558714,16.1490422421716,770.638824829303
3933,7980,19815,"SMPDSv1","Kamennye palatki","Kamennye palatki_SS",56.9267,60.4114,250,"not known","not known","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.900116315023049,2316.78331012268,1.85621628345815,-15.7959921868682,18.574019685116,542.232224730653
3934,7981,10583,"BIOME6000 Japan","Kamezaki","KmzkC0",35.68,140.21,4,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.58880561109805,5392.40826894095,14.7737212847697,4.49186664522693,26.0261958527217,1556.9490328703
3935,7982,17580,"Phelps et al., 2020","Kamiranzovu Swamp","KAMI_0",-2.55,29,1684,"not known","terrestrial, bog/fen/swamp","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.09641691356493,6922.31312270343,18.9652414320642,18.2600230208215,19.3691024554768,1425.86076585674
3936,7983,8068,"EMPDv2","Kamora_1","Mikishin-Gvozdeva_a130",53.1463888888889,140.678055555556,3,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15798691658621,1934.96136184082,-1.27630105726943,-21.274295740154,15.7883139249751,620.499705801856
3937,7984,8071,"EMPDv2","Kamora_2","Mikishin-Gvozdeva_a134",53.1686111111111,140.708611111111,20,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1603951110691,1921.33048064741,-1.36977442060609,-21.3896326292889,15.7297777784979,620.962469494884
3938,7985,12778,"Neotoma","Kanaaupscow","KAN",54.027778,-76.643889,200,"not known","lake","core","0","Richard, P.J.H. 1979. Contribution à l'histoire postglaciaire de la végétation au nord-est de la Jamésie, Nouveau-Québec. Géographie physique et Quaternaire 33(1):93-112.","10.7202/1000324ar",15,"cold evergreen needleleaf forest",1.33577227833399,1361.28040308802,-3.79527782204178,-22.7900319472668,12.3548988196059,670.39855457159
3939,7986,10571,"BIOME6000 Japan","Kanai site","D14006",35.366667,139.516667,9,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.6464306392585,5484.27586379904,15.0254133254768,4.81903306762,26.1582506651001,1632.70612880859
3940,7987,3489,"CMPD","Kanas Lake","Kanas Lake KNSB-01",48.1537777777778,86.4826111111111,637,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.218472585640366,3315.03560100167,5.13307313720358,-14.4787929882253,22.3869214580331,212.777071293767
3940,7988,3490,"CMPD","Kanas Lake","Kanas Lake KNSB-02",48.1589166666667,86.5287222222222,717,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.228704098016628,3190.21439859219,4.60603674059067,-14.8930858247891,21.8028349381448,221.143397710144
3940,7989,3491,"CMPD","Kanas Lake","Kanas Lake KNSB-03",48.1723611111111,86.7279166666667,807,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.236269490752741,3057.43744697994,4.03318817922407,-15.3661178394098,21.1637355747302,227.338734624901
3940,7990,3492,"CMPD","Kanas Lake","Kanas Lake KNSB-04",48.2333611111111,86.7803055555555,898,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.238655791472298,2919.24270898864,3.41704601924878,-15.9184488301121,20.4751336327746,229.136269534292
3940,7991,3493,"CMPD","Kanas Lake","Kanas Lake KNSB-05",48.2568333333333,86.7608888888889,996,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.265384416889145,2730.17009139736,2.54402413741345,-16.6597046782452,19.5716929503907,250.411814687638
3940,7992,3494,"CMPD","Kanas Lake","Kanas Lake KNSB-06",48.2736944444444,86.7495,1098,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.296669942617263,2567.28041805503,1.80756551518893,-17.2044056659614,18.798527938151,273.964254014251
3940,7993,3495,"CMPD","Kanas Lake","Kanas Lake KNSB-07a",48.2855,86.748,1202,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.314697390406739,2413.9782124246,1.0945593905412,-17.7826251626833,18.0273501464192,286.90270794549
3940,7994,3496,"CMPD","Kanas Lake","Kanas Lake KNSB-08",48.3034722222222,86.7366666666667,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.331869352787316,2278.56378284356,0.453225220141988,-18.3018531625597,17.3345938503176,298.908022560567
3940,7995,3497,"CMPD","Kanas Lake","Kanas Lake KNSB-09",48.3528333333333,86.7429166666667,1211,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.318573742831503,2396.8682321913,1.01215059837933,-17.8507167298375,17.9426562351266,289.581921221105
3940,7996,3498,"CMPD","Kanas Lake","Kanas Lake KNSB-10",48.4064166666667,86.7481111111111,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.337444290088788,2252.03723839985,0.321404708045595,-18.415907590487,17.1995662068808,302.635842633975
3940,7997,3499,"CMPD","Kanas Lake","Kanas Lake KNSB-11",48.4455,86.7144722222222,1178,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.316970038917764,2438.39267821523,1.20547379780025,-17.6902499917502,18.1577958754753,288.397358395267
3940,7998,3500,"CMPD","Kanas Lake","Kanas Lake KNSB-12",48.5134444444444,86.6969444444444,1253,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.332951619469461,2325.52546142853,0.671005034629413,-18.125022388017,17.5850824597373,299.545288045876
3940,7999,3501,"CMPD","Kanas Lake","Kanas Lake KNSB-13",48.5469444444444,86.7093055555556,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.356310985709616,2144.43571385049,-0.203294366939105,-18.8436408723195,16.6436522738298,315.364680545693
3940,8000,3502,"CMPD","Kanas Lake","Kanas Lake KNSB-14",48.5633888888889,86.7038333333332,1531,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.385164407319684,1935.7292173037,-1.23926789471377,-19.6927124219698,15.5276583406183,334.207969096305
3940,8001,3503,"CMPD","Kanas Lake","Kanas Lake KNSB-15",48.5736944444444,86.6986666666667,1616,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.402085418484481,1821.13754598244,-1.82299266225596,-20.171194836487,14.8990796062269,344.898778599186
3940,8002,3504,"CMPD","Kanas Lake","Kanas Lake KNSB-16",48.5880555555556,86.6865833333333,1515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.383738535553109,1955.59680803763,-1.13980255713977,-19.6096007897323,15.6370249579864,333.337366254843
3940,8003,3505,"CMPD","Kanas Lake","Kanas Lake KNSB-17",48.6039722222222,86.6975277777778,1409,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.364082065081263,2100.72631392597,-0.41928276805735,-19.020832842847,16.4149310233984,320.516388085575
3940,8004,3506,"CMPD","Kanas Lake","Kanas Lake KNSB-18",48.6176111111111,86.704,1511,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.383277103959915,1960.34837321986,-1.11797369250393,-19.5964035925454,15.6628662593411,332.975526583631
3940,8005,3507,"CMPD","Kanas Lake","Kanas Lake KNSB-19",48.6279722222222,86.70975,1615,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.403317266650066,1820.56350008232,-1.8294764284239,-20.1828661557596,14.8971062770255,345.605003650583
3940,8006,3508,"CMPD","Kanas Lake","Kanas Lake KNSB-20",48.6362222222222,86.8177777777778,1479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.351802499175921,2033.22873934345,-0.778540556259993,-19.4253135102343,16.0264694670893,310.666309052587
3940,8007,3509,"CMPD","Kanas Lake","Kanas Lake KNSB-21",48.6378888888889,86.7124444444445,1341,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.352299109811644,2194.60700650616,0.0377067835388935,-18.6483669572109,16.9092461197256,312.622325632356
3940,8008,3510,"CMPD","Kanas Lake","Kanas Lake KNSB-22",48.6691666666667,86.7533611111111,1413,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.344790263044163,2115.86664748251,-0.363757293745745,-19.0613825256199,16.4686828542514,306.211702078905
3940,8009,3511,"CMPD","Kanas Lake","Kanas Lake KNSB-23",48.6995,86.8254722222222,1511,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.359155064558517,1987.67427653828,-1.00852565207511,-19.6185952963835,15.7836403742528,315.395286340449
3940,8010,3512,"CMPD","Kanas Lake","Kanas Lake KNSB-24",48.7166388888889,86.8359166666667,1602,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.374847514883256,1868.61588344522,-1.61566359176323,-20.1313416026287,15.1370718036491,325.353712925913
3940,8011,3513,"CMPD","Kanas Lake","Kanas Lake KNSB-25",48.7268055555556,86.8473055555556,1708,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.3932394393379,1733.45554363485,-2.31960684006459,-20.7264568070728,14.3873017902272,336.702251474945
3940,8012,3514,"CMPD","Kanas Lake","Kanas Lake KNSB-26",48.7410555555555,86.8635555555556,1602,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.374432515382305,1869.03084246484,-1.61581525074651,-20.137703172104,15.1388911695046,324.983813885566
3940,8013,3515,"CMPD","Kanas Lake","Kanas Lake KNSB-27",48.7536666666667,86.8928333333333,1708,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.410978059970287,1706.42457881019,-2.49933939750481,-20.9340660136367,14.2554432610294,349.032161572404
3940,8014,3516,"CMPD","Kanas Lake","Kanas Lake KNSB-28",48.7076944444444,86.9860277777778,1574,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.362606048625368,1914.80001038513,-1.38959311811491,-19.9780291904266,15.3830771844364,317.060205888451
3940,8015,3517,"CMPD","Kanas Lake","Kanas Lake KNSB-29",48.7024444444444,87.0000833333333,1435,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.338953496190168,2098.72391160163,-0.465463058964012,-19.203160192354,16.3681437597615,301.683451769293
3940,8016,3518,"CMPD","Kanas Lake","Kanas Lake KNSB-30",48.6955555555556,87.0324166666667,1378,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.328227813306397,2177.46447482755,-0.0796406885708538,-18.8864058420982,16.7801143418175,294.455145934881
3940,8017,3519,"CMPD","Kanas Lake","Kanas Lake KNSB-31",48.7166666666667,87.0299166666667,1381,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.329579437110815,2171.93289889836,-0.106387637631229,-18.9068423821579,16.7518844202155,295.362389034815
3940,8018,3520,"CMPD","Kanas Lake","Kanas Lake KNSB-32",48.6132777777778,87.0545833333333,1326,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.316228924988468,2254.45412135432,0.293378783454901,-18.5837635288255,17.1771387058996,286.300458136017
3940,8019,3521,"CMPD","Kanas Lake","Kanas Lake KNSB-33",48.7805555555556,87.0323611111111,1351,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.350515915915475,2164.27073267103,-0.162523328887422,-18.9541400766361,16.7391275965506,311.126743215703
3940,8020,3522,"CMPD","Kanas Lake","Kanas Lake KNSB-34",48.6356111111111,87.0505,1427,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.333058240203014,2116.5137575724402,-0.381330500050236,-19.1485916035551,16.4579959716394,297.655879591697
3940,8021,3523,"CMPD","Kanas Lake","Kanas Lake KNSB-35",48.6226111111111,87.0519722222222,1334,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.317906144677359,2242.79562831543,0.237180780126611,-18.6296947193935,17.1172677760566,287.448153135419
3940,8022,3524,"CMPD","Kanas Lake","Kanas Lake KNSB-36",48.5940555555556,87.0715277777778,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.31009177743879,2298.95481372333,0.507266723549871,-18.4096698921945,17.4055359441355,282.055095946721
3940,8023,3525,"CMPD","Kanas Lake","Kanas Lake KNSB-37",48.5588888888889,87.1242222222222,1235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.297713049071908,2386.87862268586,0.923681232514824,-18.0761010679352,17.8511172008275,273.345587264812
3940,8024,3526,"CMPD","Kanas Lake","Kanas Lake KNSB-38",48.5304722222222,87.1342222222222,1327,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.310269697257414,2262.92987698821,0.327634621301522,-18.5809747342445,17.2152464300542,282.079331826375
3940,8025,3527,"CMPD","Kanas Lake","Kanas Lake KNSB-39",48.51175,87.1315,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.321019902406861,2165.08800575227,-0.14855355448884,-18.9806452712225,16.7065984673376,289.426604028919
3940,8026,3528,"CMPD","Kanas Lake","Kanas Lake KNSB-40",48.4861388888889,87.1497777777778,1504,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.335768718820776,2029.29583762634,-0.822383267833332,-19.5512278762105,15.9874215181846,299.225764884011
3940,8027,3529,"CMPD","Kanas Lake","Kanas Lake KNSB-41",48.4812222222222,87.1549722222222,1589,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.349095367993172,1918.87375803895,-1.37977104019055,-20.0196268973589,15.392432252057,307.884887988096
3940,8028,3530,"CMPD","Kanas Lake","Kanas Lake KNSB-42",48.4710277777778,87.1505,1678,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.36367734310671,1805.02892612769,-1.964343648645,-20.5079988290652,14.7676122645067,317.176064249244
3940,8029,3531,"CMPD","Kanas Lake","Kanas Lake KNSB-43",48.4653055555556,87.1613611111111,1780,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.380252459107915,1677.95085714274,-2.63174706955657,-21.069737006619,14.0552661891244,327.396426791287
3940,8030,3532,"CMPD","Kanas Lake","Kanas Lake KNSB-44",48.4598333333333,87.1805555555556,1708,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.366856542411477,1769.6731019291,-2.15067555601774,-20.6723450611485,14.5697198632288,319.047177686238
3940,8031,3533,"CMPD","Kanas Lake","Kanas Lake KNSB-45",48.4514166666667,87.1939722222222,1798,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.38119896740952,1658.62022198759,-2.73695121156394,-21.1667481165484,13.9440002807215,327.826018001863
3940,8032,3534,"CMPD","Kanas Lake","Kanas Lake KNSB-46",48.4436388888889,87.2043611111111,1909,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.399770761540661,1524.40499378263,-3.46205586890673,-21.776294724454,13.1698354217959,338.901253934393
3940,8033,3535,"CMPD","Kanas Lake","Kanas Lake KNSB-47",48.4353611111111,87.2092777777778,1980,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.411924136725216,1440.44518726866,-3.92522847132753,-22.1648674916434,12.6749299378586,345.970731974232
3940,8034,3536,"CMPD","Kanas Lake","Kanas Lake KNSB-48",48.4195555555556,87.214,1873,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.392064721974167,1569.73285529045,-3.21527035958567,-21.5717522665732,13.4324023681112,334.284166056875
3940,8035,3537,"CMPD","Kanas Lake","Kanas Lake KNSB-49",48.3945833333333,87.1823333333333,1761,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.373485899595656,1706.64224621022,-2.4799442770382,-20.947372646728,14.214557340379,323.172325325435
3940,8036,3538,"CMPD","Kanas Lake","Kanas Lake KNSB-50",48.3670833333333,87.1553333333333,1585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.344573116130763,1930.41914340484,-1.3195063747973,-19.9704969236021,15.451973120583,305.017672225976
3940,8037,3539,"CMPD","Kanas Lake","Kanas Lake KNSB-51",48.3145,87.1148888888889,1451,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.323213222770198,2107.47269467558,-0.429513663568896,-19.2175873598403,16.3995708144985,291.068416529121
3940,8038,3540,"CMPD","Kanas Lake","Kanas Lake KNSB-52",48.2700833333333,87.0584166666667,1272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.296508796696815,2350.59537403496,0.754544205655077,-18.2179010505134,17.6630225851946,272.821105484126
3940,8039,3541,"CMPD","Kanas Lake","Kanas Lake KNSB-53",48.208,87.0261388888889,1176,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268704712875552,2527.132700467,1.61600586175933,-17.4643101872834,18.5443651351196,251.799079214137
3940,8040,3542,"CMPD","Kanas Lake","Kanas Lake KNSB-54",48.1835833333333,87.0258333333333,1017,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.246060920415815,2758.33124856749,2.67406396193652,-16.5989560359985,19.6847999195816,234.8674973341
3940,8041,3543,"CMPD","Kanas Lake","Kanas Lake KNSB-55",48.1806666666667,87.0331944444445,902,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.230429660661899,2928.45349520067,3.43414873304125,-15.9800301203302,20.505409133878,222.76221098122
3940,8042,3544,"CMPD","Kanas Lake","Kanas Lake KNSB-56",48.1689166666667,87.0558888888889,788,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214690503504648,3101.5551806184,4.19204165583567,-15.3682116429092,21.3243764377841,210.243972809781
3940,8043,3545,"CMPD","Kanas Lake","Kanas Lake KNSB-57",48.0952222222222,87.0983888888889,698,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.200074789108713,3247.71792674738,4.81785602506024,-14.8765505727558,22.0017301552806,198.38394738833
3940,8044,3546,"CMPD","Kanas Lake","Kanas Lake KNSB-58",48.0935,87.0881388888889,772,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.209570703420408,3134.30990934417,4.3305346465513,-15.2707482480286,21.4747998200149,206.176577172512
3940,8045,3547,"CMPD","Kanas Lake","Kanas Lake KNSB-59",48.0885555555555,87.0753888888889,867,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.221939998921164,2990.86677156736,3.70571484285795,-15.7761644714992,20.7989923763172,216.136669740887
3940,8046,3548,"CMPD","Kanas Lake","Kanas Lake KNSB-60",48.0771944444444,87.031,941,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.23254878452422,2879.75475726558,3.2193225194573,-16.1583130406123,20.2699905802019,224.519734533114
3940,8047,3549,"CMPD","Kanas Lake","Kanas Lake KNSB-61",48.0547222222222,86.9933333333333,829,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.21820304931078,3048.13234433007,3.96559437113425,-15.5405103607185,21.0735923508781,213.169592874296
3940,8048,3550,"CMPD","Kanas Lake","Kanas Lake KNSB-62",48.0385277777778,86.9238333333333,659,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.197671609305492,3308.24376640022,5.09262826212803,-14.6066736397426,22.2890106663878,196.345275492194
3940,8049,3551,"CMPD","Kanas Lake","Kanas Lake KNSB-63",48.0226944444444,86.8480277777778,546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.18472432044519,3485.37520767522,5.84434104222078,-13.9796515610273,23.1002612637733,185.364275999423
3940,8050,3552,"CMPD","Kanas Lake","Kanas Lake KNSB-64",47.8945277777778,86.8464444444445,487,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.173783292193455,3593.20617765561,6.28825564659321,-13.6370864782943,23.5826012747838,176.08133435516
3941,8051,7015,"EMPDv2","Kancelarsky prikop","EPDcoretop_E1549",50.65,16.1,677,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21269114760333,2594.19636597251,6.33986658886136,-4.2074002145131,15.6420593735874,857.386598172214
3942,8052,8252,"EMPDv2","Kangauz (Sukhodol river)","Mikishin-Gvozdeva_b83",43.2286111111111,132.449166666667,19,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.939170640910616,3146.57056882249,5.81233160897108,-12.1115823428399,21.3338119620971,739.99729389426
3943,8053,19816,"SMPDSv1","Kangerjoki","EPDcoretop_E318",66.116667,29,288,"0.16","terrestrial, bog/fen/swamp","lacustrine core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36403904906911,1448.90810168655,-0.986296934486159,-14.7827961449171,13.6650814919448,567.229344046079
3944,8054,10552,"BIOME6000 Japan","Kannarashiike","KannrsD0",33.78,133.22,1600,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.42869973193183,2402.61477165652,4.71034803063257,-7.27865256905538,17.5240063366578,2076.63392752599
3945,8055,19817,"SMPDSv1","Kansjon","EPDcoretop_E26",57.633333,14.533333,308,"0.08","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08538188284326,2331.499912857,5.52908609951078,-3.84605368698407,15.1237537732567,669.327686107084
3946,8056,19818,"SMPDSv1","Kapelka boloto","Kapelka boloto_SS",54.8619,41.1396,112,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.83720572216096,2742.51842621249,4.70751520540772,-11.0749501603376,18.8896597821506,584.686453310443
3947,8057,23173,"SMPDSv1","Kappsjavatnet","Bjune_a242",71.095,25.795,46,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.79334729756152,1211.16966936365,-0.469162575644451,-10.8181056687767,11.5479779449826,601.831685414256
3948,8058,7175,"EMPDv2","Kara-Bogaz Gol","EPDcoretop_E2317",41.85,53.25,-28,"not known","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.119967159606021,5122.39809729987,14.0339673898626,0.377505026914349,27.694264981929,145.904252555349
3949,8059,8358,"EMPDv2","Karabulak","Naidina_a4",51.1,52.7833333333333,70,"not applicable","terrestrial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.389315271291465,3419.16235680642,6.03067609610122,-12.7726656040985,23.4325646336185,318.443443127357
3950,8060,10549,"BIOME6000 Japan","Karaike","KaraikD0",33.6,133.08,1220,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.09607920843987,3094.006082756,7.71383110425761,-3.8034986547313,19.9410944986348,1959.79299589785
3951,8061,10596,"BIOME6000 Japan","Karakemi","D20010",36.483333,137.883333,950,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.85677360589879,3433.88179615826,8.78761298393882,-3.46687906873267,21.5728939317503,1612.07846096365
3952,8062,19819,"SMPDSv1","Karakol Lake","KaraKol",43.38,51.34,-27.5,"medium (1.1-50 km2)","lake","sediment sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.173974368249526,4572.40431738024,12.1870083029831,-2.29793057827763,26.3696484098458,194.726603924691
3953,8063,9193,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a22",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3953,8064,9194,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a23",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3953,8065,9195,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a24",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3953,8066,9196,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a25",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3953,8067,9197,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a26",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3953,8068,9192,"EMPDv2","Karakol lake uplands; Picea forests","Tinner_a27",42.8333333333333,77.3833333333333,2353,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.328165832778707,2176.15249703942,2.16777218510396,-13.8217286657963,15.7730493607679,330.924362981823
3954,8069,24431,"Southern Hemisphere pollen","Karamea Bluff","Karamea Bluff_mod",-41.216,172.1047,70,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",3.16300118427442,4386.02203415543,12.0164987237135,7.59878542330062,16.3374412086885,2837.72633362144
3955,8070,24432,"Southern Hemisphere pollen","Karamea Pond","Karamea Pond_mod",-41.254,172.113,50,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",3.03476310538606,4412.38055584686,12.0887138516352,7.5976079113069,16.4226890127284,2721.87946057313
3956,8071,6070,"EMBSeCBIO","Kararmik Batakligi","KB-1",38.425,30.8,1000,"40","terrestrial, bog/fen/swamp","core top","-14","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.371570205700505,4288.81132671202,11.7501680183891,1.27086277751726,21.8880288599651,491.522548506834
3957,8072,19820,"SMPDSv1","Karaseozerskij-torfyanik","Karaseozerskij-torfyanik_SS (Novenko_c179)",56.7714,60.7614,230,"0.01","terrestrial, bog/fen/swamp","surface sample","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.854337008755572,2354.57649968841,1.97829337850293,-15.7681233789768,18.7663778605191,523.904512313024
3958,8073,19821,"SMPDSv1","Karasie lake","Karasie lake_SS",56.7666666666666,26.1833,435,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05516171552615,2471.07522285096,4.45092648648658,-9.42525171610119,16.2451693058458,676.322746406631
3959,8074,19822,"SMPDSv1","Karasieozerskoe","EPDcoretop_E320",56.766667,60.75,230,"9.14","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.862505927995296,2348.48736068824,1.97813478315764,-15.7256713779467,18.7386122182767,526.432543808155
3960,8075,8226,"EMPDv2","Karasje_1","Mikishin-Gvozdeva_b57",42.6547222222222,130.966666666667,3,"1.17","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.917462779124145,3291.5376640354,6.50534072122782,-11.2735747834078,21.8807587891631,748.650733404967
3961,8076,8227,"EMPDv2","Karasje_2","Mikishin-Gvozdeva_b58",42.6547222222222,130.969166666667,3,"1.17","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.917531770953615,3291.36889993051,6.5047119678461804,-11.2741135657378,21.8801546623817,748.668428495427
3962,8077,8228,"EMPDv2","Karasje_3","Mikishin-Gvozdeva_b59",42.6544444444444,130.9725,3,"1.17","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.91762067514464,3291.16550902906,6.50396901537141,-11.2747186249142,21.8794269434479,748.695681889095
3963,8078,23153,"SMPDSv1","Karasjok","Bjune_a13",69.60194031,25.85593541,328,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.59147086448277,1161.38332069707,-2.99016182360252,-16.7544143652313,12.1241069297548,574.054061366269
3964,8079,19823,"SMPDSv1","Karbuschsee","Karbuschsee_ss",52.18666,13.6543,34,"0.122","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.762001110603077,3363.3025723373,9.14836282960416,-0.67091242025548,18.261315976999,545.257189448315
3965,8080,19824,"SMPDSv1","Kardashinski Swamp","EPDcoretop_E1135",46.516667,32.616667,4,"30","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.550225598878436,3630.03938786751,9.5601482397162,-2.78945291435247,20.7264223449394,491.130525553614
3966,8081,19825,"SMPDSv1","Karesunvento","Barboni_a372",68.5,22.3,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.47897647786723,1079.31880180448,-3.36055404465478,-16.8881466459011,11.3182831501003,565.096614427693
3967,8082,19826,"SMPDSv1","Karesuvento","Barboni_a373",68.5,22.2,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.46277180394746,1082.40514440277,-3.27211818130271,-16.7273712291647,11.3110305994365,561.193643274929
3968,8083,7073,"EMPDv2","Kargopolovo","EPDcoretop_E1866",55,83,75,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.741233715189077,2396.13939260067,0.98052651073222,-17.639150153442,19.5540549817483,453.714802492604
3969,8084,19827,"SMPDSv1","Karistjern","Bjune_a80",59.37768917,8.33123619,719,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75041870458621,1707.33269448585,2.78027689741456,-7.03696321320019,12.5882743709197,982.814788219259
3970,8085,8234,"EMPDv2","Karjer_Kupalnya","Mikishin-Gvozdeva_b65",42.7936111111111,131.295,-2,"0.23","artificial water body","sediment sample","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.931823570866834,3242.51323350664,6.28817785416589,-11.5205102229479,21.7027767816711,749.466620342358
3971,8086,8236,"EMPDv2","Karjer_Vostok","Mikishin-Gvozdeva_b67",42.7955555555556,131.313055555556,-3,"0.23","artificial water body","sediment sample","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.932513485688383,3242.93568889862,6.29138049436117,-11.5142282806387,21.7049273307276,749.840966745597
3972,8087,8235,"EMPDv2","Karjer_Zapad","Mikishin-Gvozdeva_b66",42.7947222222222,131.299722222222,-3,"0.23","artificial water body","sediment sample","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.932096718927017,3243.63099103549,6.29394886018917,-11.5124793031971,21.7074632780206,749.665541290445
3973,8088,17581,"Phelps et al., 2020","Karonge/Kirasa River","LT98-82M_1",-3.583611,29.325278,767,"not applicable","fluvial","not known","14","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.70204538072772,8817.46957541904,24.157450891559,23.0359234733007,25.1308993937801,1059.87818193289
3973,8089,17582,"Phelps et al., 2020","Karonge/Kirasa River","LT98-82M_3",-3.583611,29.325278,767,"not applicable","fluvial","not known","43","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.70204538072772,8817.46957541904,24.157450891559,23.0359234733007,25.1308993937801,1059.87818193289
3974,8090,23951,"SMPDSv1","Karpinska_a1","Karpinska_a1",50.0878333333333,19.8444833333333,230,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.850036321268718,3149.08877429522,8.23031725254108,-2.95343488140786,17.7601817185386,661.403189538421
3975,8091,23952,"SMPDSv1","Karpinska_a10","Karpinska_a10",50.0368055555555,19.9458333333333,215,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.837292535901283,3172.58013252339,8.3044882489558,-2.91224832101065,17.852239874263,653.555794877662
3976,8092,23953,"SMPDSv1","Karpinska_a11","Karpinska_a11",50.0447777777777,19.8315,250,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.867184845995416,3118.17693562076,8.12428783887967,-3.05402950481468,17.6472817396652,673.811249093851
3977,8093,23954,"SMPDSv1","Karpinska_a12","Karpinska_a12",50.0449166666666,19.8315555555555,254,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.870399525891148,3111.90295063054,8.10269467177202,-3.07416632197535,17.6245180201682,676.026506614952
3978,8094,23955,"SMPDSv1","Karpinska_a13","Karpinska_a13",50.0450277777777,19.8315277777777,251,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.867984298168998,3116.60579824951,8.1188841963831,-3.05904974310691,17.6415840262093,674.359436759483
3979,8095,23956,"SMPDSv1","Karpinska_a14","Karpinska_a14",50.0451166666666,19.8319666666666,254,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.870387484935061,3111.89745299383,8.10266082479938,-3.07426277604896,17.6245299817769,676.016543956911
3980,8096,23957,"SMPDSv1","Karpinska_a15","Karpinska_a15",50.04075,19.8190166666666,215,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.83945591363016,3173.6691910686,8.31420531695978,-2.87456696523889,17.8459733696441,654.625650958915
3981,8097,23958,"SMPDSv1","Karpinska_a16","Karpinska_a16",50.0436,19.9095166666666,206,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830672071027977,3187.13801554075,8.35567817812928,-2.85594018896408,17.9015308977544,648.759440237054
3982,8098,23959,"SMPDSv1","Karpinska_a2","Karpinska_a2",50.036,19.9443611111111,220,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.841273176943361,3164.67425684138,8.27769168776851,-2.93678356505616,17.8237033157093,656.321665632532
3983,8099,23960,"SMPDSv1","Karpinska_a3","Karpinska_a3",50.0317166666666,19.9041833333333,205,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830234863786211,3188.93119076954,8.36175079888974,-2.8504534988648502,17.9074172996193,648.601882677306
3984,8100,23961,"SMPDSv1","Karpinska_a4","Karpinska_a4",50.0317333333333,19.9048,205,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830224079043219,3188.92533622228,8.3617019350539,-2.85063671974445,17.9074467902888,648.596035293565
3985,8101,23962,"SMPDSv1","Karpinska_a5","Karpinska_a5",50.0320333333333,19.9046333333333,205,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830220236679849,3188.9229784575,8.3617084468716,-2.85055867544488,17.9074273287375,648.588744831066
3986,8102,23963,"SMPDSv1","Karpinska_a6","Karpinska_a6",50.0330666666666,19.90215,203,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828661825039463,3192.11452369253,8.37266132153305,-2.83972177887919,17.9186599308129,647.482875242643
3987,8103,23964,"SMPDSv1","Karpinska_a7","Karpinska_a7",50.0414027777777,19.9577111111111,223,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.843296417208496,3159.73831011902,8.2603773998377,-2.95512265954974,17.8070163612372,657.685248399938
3988,8104,23965,"SMPDSv1","Karpinska_a8","Karpinska_a8",50.0414027777777,19.9577111111111,223,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.843296417208496,3159.73831011902,8.2603773998377,-2.95512265954974,17.8070163612372,657.685248399938
3989,8105,23966,"SMPDSv1","Karpinska_a9","Karpinska_a9",50.0372722222222,19.9448277777777,230,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.849132011725861,3148.85506127359,8.22376872965016,-2.98659483989931,17.7666803842874,661.74384230948294
3990,8106,23950,"SMPDSv1","Karpinska_b1","Karpinska_b1",54.2961694444444,22.0589333333333,149,"0.015","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.904145282650479,2818.0796404709,6.8563836314699,-4.62569699374841,17.0404131010847,627.737477027117
3991,8107,23967,"SMPDSv1","Karpinska_c1","Karpinska_c1",50.045,21.5933,211,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.798951034083132,3163.32339144228,8.17529050553297,-3.46901332743183,17.9836755500346,623.429859385625
3992,8108,23968,"SMPDSv1","Karpinska_c10","Karpinska_c10",50.0181,21.5453,222,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.807505408226894,3149.73849295648,8.12807701339118,-3.51291941857011,17.9292396113977,629.819415392592
3993,8109,23969,"SMPDSv1","Karpinska_c11","Karpinska_c11",50.0111,21.5492,228,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811653828100307,3141.60900368911,8.09970612981615,-3.53958830550116,17.8980902889102,632.727752517717
3994,8110,23970,"SMPDSv1","Karpinska_c12","Karpinska_c12",50.0097,21.5511,225,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809617984569397,3145.8405609491,8.11428145854001,-3.52673995699451,17.914271641041,631.350589977937
3995,8111,23971,"SMPDSv1","Karpinska_c13","Karpinska_c13",50.0089,21.5519,225,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809622363362775,3145.86613081856,8.1143371560025,-3.52683527026593,17.9143699826793,631.361180330923
3996,8112,23972,"SMPDSv1","Karpinska_c14","Karpinska_c14",50.0075,21.5517,224,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.808969101501382,3147.32385403274,8.11934321685657,-3.52249855933536,17.9198871799587,630.934567688491
3997,8113,23973,"SMPDSv1","Karpinska_c15","Karpinska_c15",50.0064,21.5514,225,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809669534471312,3145.97562022548,8.11465176532056,-3.52685264687686,17.9146927888713,631.428118710712
3998,8114,23974,"SMPDSv1","Karpinska_c16","Karpinska_c16",50.0058,21.5522,223,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80831354404746,3148.78751948243,8.12435226121613,-3.51823517017282,17.9254399710388,630.507697589745
3999,8115,23975,"SMPDSv1","Karpinska_c17","Karpinska_c17",50.0047,21.5511,226,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81037971361323,3144.65202290083,8.11002877695914,-3.53122257561998,17.9095739434704,631.936089125648
4000,8116,23976,"SMPDSv1","Karpinska_c18","Karpinska_c18",50.0036,21.5611,231,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813685955690261,3137.62282492471,8.08554914622658,-3.55394506478977,17.88301112464,634.168883554691
4001,8117,23977,"SMPDSv1","Karpinska_c19","Karpinska_c19",49.9967,21.5575,227,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811120145049962,3143.52736517919,8.10582996566504,-3.53638004232264,17.9052333538486,632.523155942137
4002,8118,23978,"SMPDSv1","Karpinska_c2","Karpinska_c2",50.0439,21.5936,213,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80033790497996,3160.60009786481,8.16582257943574,-3.47775683609228,17.9732282813995,624.394188815132
4003,8119,23979,"SMPDSv1","Karpinska_c20","Karpinska_c20",49.9964,21.5567,227,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811133841686395,3143.54741865072,8.10590109981358,-3.53631393624522,17.9052748141484,632.539351614221
4004,8120,23980,"SMPDSv1","Karpinska_c21","Karpinska_c21",49.988,21.5474,233,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.815434576746106,3135.58159220848,8.07823374330181,-3.5618099060238,17.8743033137354,635.61366691965
4005,8121,23981,"SMPDSv1","Karpinska_c22","Karpinska_c22",49.9778,21.5519,237,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.818256334674187,3130.38356108626,8.05982780587019,-3.57992621753446,17.8542032562078,637.651863310168
4006,8122,23982,"SMPDSv1","Karpinska_c23","Karpinska_c23",49.9886,21.5617,232,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814598607341937,3136.83807166297,8.08240612917152,-3.55874881641971,17.8795699381336,634.985690587122
4007,8123,23983,"SMPDSv1","Karpinska_c24","Karpinska_c24",49.9892,21.5592,229,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812581148438886,3141.02855335758,8.09695159076494,-3.54544350328524,17.8955108503427,633.611917351545
4008,8124,23984,"SMPDSv1","Karpinska_c25","Karpinska_c25",49.985,21.5619,239,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819403191225282,3127.24436550421,8.04895608643614,-3.58933808654008,17.8426575240827,638.302878303669
4009,8125,23985,"SMPDSv1","Karpinska_c26","Karpinska_c26",49.9759,21.5575,232,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814846252563144,3137.39729291003,8.08403652765201,-3.55871589272096,17.8811830557845,635.336324459416
4010,8126,23986,"SMPDSv1","Karpinska_c27","Karpinska_c27",49.9744,21.5647,232,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814795659829145,3137.39916682403,8.08390593157974,-3.55941144862571,17.8813702035334,635.296025486832
4011,8127,23987,"SMPDSv1","Karpinska_c28","Karpinska_c28",49.9719,21.5744,237,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.818124040289012,3130.46186107821,8.05961784240946,-3.58211789306378,17.8550093601194,637.561030393686
4012,8128,23988,"SMPDSv1","Karpinska_c29","Karpinska_c29",49.9661,21.5786,239,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819528769562302,3127.89320911609,8.05044362563551,-3.59135868838945,17.8450815176187,638.578507065419
4013,8129,23989,"SMPDSv1","Karpinska_c3","Karpinska_c3",50.0317,21.5706,214,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801524531479201,3160.02176679709,8.16374177467048,-3.48018093992066,17.969828646431,625.455648646809
4014,8130,23990,"SMPDSv1","Karpinska_c30","Karpinska_c30",49.9642,21.5783,237,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.818205777700383,3130.7470971796,8.06033664119599,-3.58268183191003,17.8559873691599,637.704242014983
4015,8131,23991,"SMPDSv1","Karpinska_c31","Karpinska_c31",49.948,21.6158,247,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.824886550248039,3117.32000293934,8.01255552650971,-3.62990658135773,17.8049717826511,642.334153207154
4016,8132,23992,"SMPDSv1","Karpinska_c32","Karpinska_c32",49.9505,21.6167,262,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.835067250880332,3096.51290749827,7.94001704982,-3.69513294034012,17.7249790283026,649.209075356643
4017,8133,23993,"SMPDSv1","Karpinska_c33","Karpinska_c33",49.95,21.6247,251,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.827503334634418,3111.6759607346,7.99280625285382,-3.64799684789775,17.7835769307142,644.057579683987
4018,8134,23994,"SMPDSv1","Karpinska_c34","Karpinska_c34",49.9467,21.6086,247,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.824970362184185,3117.40853568317,8.01292997837145,-3.62932838272846,17.8050657207413,642.431808837678
4019,8135,23995,"SMPDSv1","Karpinska_c35","Karpinska_c35",49.9517,21.5949,243,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.82230577762948,3122.82370815288,8.0321388616968,-3.61060446308068,17.825637714628,640.600622599914
4020,8136,23996,"SMPDSv1","Karpinska_c36","Karpinska_c36",49.9539,21.588,242,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.821659170990982,3124.16340440077,8.03696698442728,-3.60558903473343,17.8306511824886,640.155411610171
4021,8137,23997,"SMPDSv1","Karpinska_c37","Karpinska_c37",49.9353,21.5722,253,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.829514150396308,3109.6912189247,7.98625681133381,-3.65265226795573,17.7740278331493,645.783111056319
4022,8138,23998,"SMPDSv1","Karpinska_c38","Karpinska_c38",49.9403,21.5791,252,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828709994076213,3110.86053849421,7.99036660252826,-3.64873927615348,17.7788605116622,645.150421825608
4023,8139,23999,"SMPDSv1","Karpinska_c39","Karpinska_c39",49.9403,21.5791,252,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828709994076213,3110.86053849421,7.99036660252826,-3.64873927615348,17.7788605116622,645.150421825608
4024,8140,24000,"SMPDSv1","Karpinska_c4","Karpinska_c4",50.0319,21.5506,217,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80380722591518,3156.07470889115,8.15032414402571,-3.49132169862894,17.9540748131878,627.090771010938
4025,8141,24001,"SMPDSv1","Karpinska_c5","Karpinska_c5",50.0292,21.5575,239,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.818787448530164,3125.51324040493,8.04421684982837,-3.58779077158328,17.8372111839199,637.321715336997
4026,8142,24002,"SMPDSv1","Karpinska_c6","Karpinska_c6",50.0292,21.5542,235,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.816086306333342,3131.07091264524,8.06363638452884,-3.57007566724487,17.8585027306988,635.493763496845
4027,8143,24003,"SMPDSv1","Karpinska_c7","Karpinska_c7",50.0344,21.5544,223,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80780881834045,3147.56621002094,8.12090119598999,-3.51774110096985,17.9217617084068,629.778443961053
4028,8144,24004,"SMPDSv1","Karpinska_c8","Karpinska_c8",50.03,21.5503,222,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.807247725230814,3149.18651412183,8.12643803877842,-3.51310307941621,17.9276777414927,629.468213675227
4029,8145,24005,"SMPDSv1","Karpinska_c9","Karpinska_c9",50.0236,21.5444,220,"not known","not known","not known","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.806063710992447,3152.30996631832,8.13713985763997,-3.50398932107913,17.9392110582141,628.765710850206
4030,8146,19828,"SMPDSv1","Karsimusjarvi","Seppa_b15",66.5,27.2,166,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15178983661743,1683.89936028041,0.250714255006998,-13.8481702419282,14.9072127868121,508.174549446955
4031,8147,9633,"Gaillard et al., 1992","Karups angar","Karups angar",55.669502,13.551246,24,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.925502694889031,2935.7798071041602,7.87239443093647,-1.13451055653491,16.8876942309039,622.304962086819
4032,8148,17583,"Phelps et al., 2020","Kasenda Lake","KASENDA_0.5",0.433333,30.283333,1242,"0.13","lake","core","4","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.83995616258205,7783.41655025457,21.324428904807,20.6485871930804,22.0315115312203,1207.20734109598
4032,8149,17584,"Phelps et al., 2020","Kasenda Lake","KASENDA_2.5",0.433333,30.283333,1242,"0.13","lake","core","19","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.83995616258205,7783.41655025457,21.324428904807,20.6485871930804,22.0315115312203,1207.20734109598
4032,8150,17585,"Phelps et al., 2020","Kasenda Lake","KASENDA_4.5",0.433333,30.283333,1242,"0.13","lake","core","35","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.83995616258205,7783.41655025457,21.324428904807,20.6485871930804,22.0315115312203,1207.20734109598
4032,8151,17586,"Phelps et al., 2020","Kasenda Lake","KASENDA_6.5",0.433333,30.283333,1242,"0.13","lake","core","50","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.83995616258205,7783.41655025457,21.324428904807,20.6485871930804,22.0315115312203,1207.20734109598
4033,8152,19829,"SMPDSv1","Kashimskoe boloto","Kashimskoe boloto_SS",53.3616,46.5881,299,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.719823041660646,2891.73041168765,4.63245208692922,-12.2006884606454,20.1425822211335,540.769721881902
4034,8153,88,"APD","Kashiru Swamp I","KA1_15",-3.466667,29.566667,2240,"not known","terrestrial, bog/fen/swamp","core","modern","Bonnefille, R. and Riollet, G., 1988. The Kashiru pollen sequence (Burundi) palaeoclimatic implications for the last 40,000 yr BP in tropical Africa. Quaternary Research, 30(1), pp.19-35.;
Bonnefille, R., Chalié, F., Guiot, J. and Vincens, A., 1992. Quantitative estimates of full glacial temperatures in equatorial Africa from palynological data. Climate Dynamics, 6(3), pp.251-257.","10.1016/0033-5894(88)90085-3;
10.1007/BF00193538",4,"warm-temperate evergreen and mixed forest",1.27455627552211,5893.61765225147,16.1468976774013,15.4405241521148,16.6537528285866,1595.32593181208
4034,8154,89,"APD","Kashiru Swamp I","KA1_25",-3.466667,29.566667,2240,"not known","terrestrial, bog/fen/swamp","core","modern","Bonnefille, R. and Riollet, G., 1988. The Kashiru pollen sequence (Burundi) palaeoclimatic implications for the last 40,000 yr BP in tropical Africa. Quaternary Research, 30(1), pp.19-35.;
Bonnefille, R., Chalié, F., Guiot, J. and Vincens, A., 1992. Quantitative estimates of full glacial temperatures in equatorial Africa from palynological data. Climate Dynamics, 6(3), pp.251-257.","10.1016/0033-5894(88)90085-3;
10.1007/BF00193538",4,"warm-temperate evergreen and mixed forest",1.27455627552211,5893.61765225147,16.1468976774013,15.4405241521148,16.6537528285866,1595.32593181208
4034,8155,90,"APD","Kashiru Swamp I","KA1_3",-3.466667,29.566667,2240,"not known","terrestrial, bog/fen/swamp","core","modern","Bonnefille, R. and Riollet, G., 1988. The Kashiru pollen sequence (Burundi) palaeoclimatic implications for the last 40,000 yr BP in tropical Africa. Quaternary Research, 30(1), pp.19-35.;
Bonnefille, R., Chalié, F., Guiot, J. and Vincens, A., 1992. Quantitative estimates of full glacial temperatures in equatorial Africa from palynological data. Climate Dynamics, 6(3), pp.251-257.","10.1016/0033-5894(88)90085-3;
10.1007/BF00193538",4,"warm-temperate evergreen and mixed forest",1.27455627552211,5893.61765225147,16.1468976774013,15.4405241521148,16.6537528285866,1595.32593181208
4035,8156,19830,"SMPDSv1","Kashubian Lakeland","Swieta_i1",54.260167,17.709,185,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.917612172120129,2828.95897005335,7.41464953860688,-2.36686351889623,16.5260365435652,634.505463009991
4035,8157,19831,"SMPDSv1","Kashubian Lakeland","Swieta_i2",54.258,17.724167,185,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.917615969245663,2828.79228895256,7.41417751290879,-2.36690732890371,16.5253612540744,634.538635796647
4035,8158,19832,"SMPDSv1","Kashubian Lakeland","Swieta_i3",54.385667,18.010333,185,"not applicable","terrestrial","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.919005182567333,2823.87799077879,7.40098542127676,-2.36504932337762,16.5065019878258,634.387355440581
4035,8159,19833,"SMPDSv1","Kashubian Lakeland","Swieta_i4",54.3665,18.029167,185,"not applicable","terrestrial","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.91828875391935,2824.28270825067,7.40207686337162,-2.36533540756709,16.5081944850702,634.172811694196
4035,8160,19834,"SMPDSv1","Kashubian Lakeland","Swieta_i5",54.3635,18.0475,185,"not applicable","terrestrial","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.918092199594663,2824.30483204402,7.40210422685745,-2.36565958692136,16.5083143815726,634.095916882689
4035,8161,19835,"SMPDSv1","Kashubian Lakeland","Swieta_i6",54.45,18.5,185,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.911647199841864,2836.9051846844,7.42546651445178,-2.44677227531509,16.5583833190203,630.126749345001
4035,8162,19836,"SMPDSv1","Kashubian Lakeland","Swieta_i7",54.4445,18.490667,185,"not applicable","not known","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.911620886894766,2836.8294107395,7.4253169128248,-2.44609109746469,16.5582811590264,630.16538295728
4035,8163,19837,"SMPDSv1","Kashubian Lakeland","Swieta_i8",54.45,18.5,185,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.911647199841864,2836.9051846844,7.42546651445178,-2.44677227531509,16.5583833190203,630.126749345001
4035,8164,9189,"EMPDv2","Kashubian Lakeland","Zimny_a1",54.2574,17.7181,202,"not applicable","terrestrial","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.923060502869786,2812.63624160961,7.36134030200892,-2.4212451343925,16.4575020847622,637.839670519769
4035,8165,9190,"EMPDv2","Kashubian Lakeland","Zimny_a2",54.2588,17.7109,201,"not applicable","not known","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.922714605070585,2813.68369677414,7.36469755637622,-2.41819371368705,16.4619248685433,637.610532483983
4035,8166,9191,"EMPDv2","Kashubian Lakeland","Zimny_a3",54.3665,18.0292,226,"not applicable","terrestrial","pollen trap","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.935447660002116,2781.13445353817,7.27059433608768,-2.45408078514174,16.3220326137956,644.675514213523
4036,8167,19838,"SMPDSv1","Kasmu","Seppa_b135",59.58,25.88,22,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04216865903772,2389.78863953945,4.70110638505577,-7.45933302714451,16.733101478991,606.965514802356
4037,8168,19839,"SMPDSv1","Kassjon","EPDcoretop_E323",63.916667,20.016667,84,"0.23","lake","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06952519235165,1871.61028737997,2.33737857295962,-9.68709107419055,14.8947737522154,529.986898254069
4038,8169,19840,"SMPDSv1","Kastorias","Barboni_a796",40.53,21.3,700,"medium (1.1-50 km2)","lake","core","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.621580857633704,4187.72729463436,11.4732254647517,1.45392545734377,21.2118421738109,723.387314039865
4039,8170,24174,"Neotoma","Katantica","KATANTI",-14.8,-69.183333,4820,"not known","not known","core","50","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,22,"steppe",0.337746245902149,1681.00988846901,4.60550654375071,2.12301577086676,6.34590189063916,484.251170908691
4040,8171,17245,"Neotoma","Katherine Lake","LFR68089",50.658,-99.89525,642,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.6479873378147,2344.16482948659,1.13812874033569,-18.4345362332949,17.5995091102849,482.854854772301
4041,8172,754,"Australian pollen","Katoomba Swamp","K 1",-33.7175,150.3217,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.546102493236262,4276.26786748765,11.7158023766785,3.98831788727312,19.29625546345,737.503764109363
4041,8173,755,"Australian pollen","Katoomba Swamp","K 2",-33.7175,150.3217,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.546102493236262,4276.26786748765,11.7158023766785,3.98831788727312,19.29625546345,737.503764109363
4041,8174,756,"Australian pollen","Katoomba Swamp","K 3",-33.7175,150.3217,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.546102493236262,4276.26786748765,11.7158023766785,3.98831788727312,19.29625546345,737.503764109363
4041,8175,757,"Australian pollen","Katoomba Swamp","K 4",-33.7175,150.3217,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.546102493236262,4276.26786748765,11.7158023766785,3.98831788727312,19.29625546345,737.503764109363
4041,8176,758,"Australian pollen","Katoomba Swamp","K 5",-33.7175,150.3217,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.546102493236262,4276.26786748765,11.7158023766785,3.98831788727312,19.29625546345,737.503764109363
4041,8177,759,"Australian pollen","Katoomba Swamp","KS Core 1",-33.7175,150.321666666667,950,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-59","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.54610256509069,4276.26721573029,11.7158005910419,3.98831615574434,19.2962563822898,737.503826174845
4042,8178,19841,"SMPDSv1","Katouna depression, eastern slope","Jahns_f5",38.7949999999999,21.1388888888888,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541598508585967,6140.28053796177,16.8226864053747,9.11586471317429,25.2830054470554,737.671562108355
4042,8179,19842,"SMPDSv1","Katouna depression, eastern slope","Jahns_f6",38.7949999999999,21.1388888888888,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541598508585967,6140.28053796177,16.8226864053747,9.11586471317429,25.2830054470554,737.671562108355
4042,8180,19843,"SMPDSv1","Katouna depression, eastern slope","Jahns_f7",38.7949999999999,21.1388888888888,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541598508585967,6140.28053796177,16.8226864053747,9.11586471317429,25.2830054470554,737.671562108355
4043,8181,21906,"SMPDSv1","Katouna Depression, plateau site","Jahns_f1",38.7919444444444,21.0969444444444,350,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.573620222100465,5553.93013320605,15.2162469402905,7.05283828753992,23.9483517602269,762.956820007856
4044,8182,19844,"SMPDSv1","Katouna depression, western slope","Jahns_f2",38.7952777777777,21.1275,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541930961534526,6140.2236105423,16.8225304398419,9.11673870919624,25.2826432698687,738.050408395245
4044,8183,19845,"SMPDSv1","Katouna depression, western slope","Jahns_f3",38.7952777777777,21.1275,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541930961534526,6140.2236105423,16.8225304398419,9.11673870919624,25.2826432698687,738.050408395245
4044,8184,19846,"SMPDSv1","Katouna depression, western slope","Jahns_f4",38.7952777777777,21.1275,100,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.541930961534526,6140.2236105423,16.8225304398419,9.11673870919624,25.2826432698687,738.050408395245
4045,8185,19847,"SMPDSv1","Kautokeino","FIN/SPH/N27",69.2363527777778,23.7912944444444,435,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.56328063449008,1069.84789969481,-3.63595563550282,-17.3678771941338,11.3949785468922,568.251571952018
4046,8186,19848,"SMPDSv1","Kayaalti","Bakker_b44",37.6197166666666,30.3469333333333,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407585276496889,4442.95096902569,12.1724684082896,2.10433926052065,22.3462102238976,568.365167016653
4046,8187,19849,"SMPDSv1","Kayaalti","Bakker_b45",37.6197166666666,30.3364333333333,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407502595779944,4443.63771116774,12.1743498936102,2.10725901836089,22.3480584250835,568.29963934275
4047,8188,19850,"SMPDSv1","Kayrajarvi","Bjune_a170",67.3666666666666,22.0333333333333,295,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12877605139517,1396.23301092776,-1.47940248020691,-15.4990021357663,13.1557160340156,477.104034302453
4048,8189,6018,"EMBSeCBIO","Kaz Golu","Kaz Golu core",40.283333,36.15,541,"2.74","terrestrial, marsh","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",17,"temperate evergreen needleleaf open woodland",0.520821747293112,4288.68137446532,11.7498119848365,1.82022992266932,20.7518180728628,588.38648795518
4049,8190,8007,"EMPDv2","Kazarovka","Mikishin-Gvozdeva_a67",49.3625,142.88,100,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.41321814852917,1926.7102257008,0.744766511567432,-15.8619135810926,15.5670713099334,806.793685533328
4050,8191,5949,"EMBSeCBIO","KBG08-01","KBG08-01_0-1",41.85,53.25,-28.4,"not applicable","marine","marine core","-46","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8192,5950,"EMBSeCBIO","KBG08-01","KBG08-01_11",41.85,53.25,-28.4,"not applicable","marine","marine core","-32","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8193,5951,"EMBSeCBIO","KBG08-01","KBG08-01_14",41.85,53.25,-28.4,"not applicable","marine","marine core","-29","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8194,5952,"EMBSeCBIO","KBG08-01","KBG08-01_17-18",41.85,53.25,-28.4,"not applicable","marine","marine core","-24","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8195,5953,"EMBSeCBIO","KBG08-01","KBG08-01_18-19",41.85,53.25,-28.4,"not applicable","marine","marine core","-23","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8196,5954,"EMBSeCBIO","KBG08-01","KBG08-01_26-27",41.85,53.25,-28.4,"not applicable","marine","marine core","-6","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8197,5955,"EMBSeCBIO","KBG08-01","KBG08-01_27-28",41.85,53.25,-28.4,"not applicable","marine","marine core","-4","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8198,5956,"EMBSeCBIO","KBG08-01","KBG08-01_34-35",41.85,53.25,-28.4,"not applicable","marine","marine core","10","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8199,5957,"EMBSeCBIO","KBG08-01","KBG08-01_42-43",41.85,53.25,-28.4,"not applicable","marine","marine core","27","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8200,5958,"EMBSeCBIO","KBG08-01","KBG08-01_46-47",41.85,53.25,-28.4,"not applicable","marine","marine core","36","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4050,8201,5959,"EMBSeCBIO","KBG08-01","KBG08-01_50-51",41.85,53.25,-28.4,"not applicable","marine","marine core","45","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4051,8202,14359,"Neotoma","Kealia Pond","KEALIA",20.79429,-156.475355,0,"not known","lake","core","-2","Pau, S., G.M. MacDonald, and T.W. Gillespie. 2012. A dynamic history of climate change and human impact on the environment from Kealia Pond, Maui, Hawaiian Islands. Annals of the Association of American Geographers 102(4):748-762.",,20,"xerophytic woods/scrub",1.44239353758058,8528.11279406488,23.3646925864791,21.4992223941562,25.0927436370707,2041.87553568813
4052,8203,12779,"Neotoma","Keele Lake","KEELE",64.166667,-127.616667,1150,"not known","lake","core","0","Szeicz, J.M., G.M. MacDonald, and A. Duk-Rodkin. 1995. Late Quaternary vegetation history of the central Mackenzie Mountains, Northwest Territories, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology 113:351-371.",,15,"cold evergreen needleleaf forest",0.86688119386243,1038.08835945244,-8.51391892011407,-27.64244801056,11.5174519086058,364.413703119396
4053,8204,12780,"Neotoma","Kegan Lake","KEGAN",44.75836,-93.11674,285,"not known","lake","core","-12","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85900029083726,3425.04018703515,6.85811065592959,-11.527861807106,22.3532736091509,735.841530395378
4053,8204,12781,"Neotoma","Kegan Lake","KEGAN",44.75836,-93.11674,285,"not known","lake","core","11","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85900029083726,3425.04018703515,6.85811065592959,-11.527861807106,22.3532736091509,735.841530395378
4053,8204,12782,"Neotoma","Kegan Lake","KEGAN",44.75836,-93.11674,285,"not known","lake","core","42","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85900029083726,3425.04018703515,6.85811065592959,-11.527861807106,22.3532736091509,735.841530395378
4054,8205,17362,"Neotoma","Kegonsa","TW067",43,-89.3,257,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.955710968471084,3574.50471132301,8.09259684360574,-8.53392735857091,22.3590684188598,852.326008473058
4055,8206,19851,"SMPDSv1","Keihasjarvi","Seppa_b14",66.7,27.67,172,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18315902808845,1653.73380332166,0.0337083525624883,-14.1629872178996,14.7726851919389,512.950247063105
4056,8207,16414,"Neotoma","Keith Bay","JTA230",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8208,16410,"Neotoma","Keith Bay","JTA231",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8209,16412,"Neotoma","Keith Bay","JTA232",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8210,16409,"Neotoma","Keith Bay","JTA233",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8211,16407,"Neotoma","Keith Bay","JTA234",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8212,16408,"Neotoma","Keith Bay","JTA235",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8213,16411,"Neotoma","Keith Bay","JTA236",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4056,8214,16413,"Neotoma","Keith Bay","JTA237",68.33,-88.17,100,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.679935846487227,452.354198606076,-14.0816587388769,-32.1323430501329,7.15096754088351,189.42409828952
4057,8215,13727,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13728,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","-13","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13729,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","-2","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13730,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","10","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13731,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","21","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13732,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","32","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4057,8215,13733,"Neotoma","Keiver's Lake","KEIVER",51.68784,-113.55489,912,"not known","lake","core","43","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.568724162448829,2361.44063441333,3.21224771920906,-12.2813687566398,16.5748050166344,433.394983749706
4058,8216,3553,"CMPD","Kekexili","Kekexili 1",34.24,92.46,4532,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.192567706377493,633.347835677173,-4.59983771712149,-16.3999995148325,6.70802226639388,190.553155346582
4058,8217,3554,"CMPD","Kekexili","Kekexili 2",34.58,92.41,4668,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.190467774570571,541.588958335291,-5.26676570772822,-16.9800360394072,6.02011065705825,185.493919650474
4058,8218,3555,"CMPD","Kekexili","Kekexili 3",34.95,92.95,4657,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.174887887553248,526.610324168416,-5.37676072041831,-17.0959952772181,5.94645254523202,169.616310920568
4058,8219,3556,"CMPD","Kekexili","Kekexili 4",34.22,92.44,4570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196365368510989,614.73636859844,-4.73505152552648,-16.5218224415183,6.56362034145999,193.820069086574
4058,8220,3557,"CMPD","Kekexili","Kekexili 5",34.22,92.44,4560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195414767228132,619.584524051089,-4.70025615462746,-16.4911806521228,6.60144907645,193.013141145126
4058,8221,3558,"CMPD","Kekexili","Kekexili 6",34.38,92.61,4680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.196476699791228,547.353763247211,-5.21664744045397,-16.9334587674425,6.0526804633259,191.993782676975
4058,8222,3559,"CMPD","Kekexili","Kekexili 7",34.47,92.72,4632,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.191972588551179,573.91319066393,-4.99705041856825,-16.7204426844448,6.26446555681261,188.372198499318
4059,8223,760,"Australian pollen","Kelela Swamp","Kelela_core top",-4.05,138.9167,1540,"not known","terrestrial, bog/fen/swamp","core top","11","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.45386949980703,8285.38138258081,22.6996750207693,21.9878775419116,23.0727474848284,3365.95720589227
4060,8224,3560,"CMPD","Keligao","Keligao",36,97.56,3110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170636039061934,2137.54192541768,3.10584071875889,-10.7185902432341,15.2279573667661,197.050423846482
4061,8225,12786,"Neotoma","Kellners Lake","KELLNERS",44.238056,-87.848056,261,"not known","lake","core","-23","Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1978. University of Wisconsin radiocarbon dates XV. Radiocarbon 20:157-167.; Goodwin, R.G. 1976. Vegetation response to the Two Rivers Till Advance based on a pollen diagram from Kellners Lake, Manitowoc County, Wisconsin. Thesis. Geology and Geophysics, University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.937477219882433,3212.42112370781,6.72116883047671,-9.45466789799609,21.0972374544118,782.202204668806
4062,8226,14290,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-48","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14291,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-47","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14292,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-47","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14293,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-47","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14294,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-47","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14295,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-46","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14296,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-46","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14297,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-46","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14298,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-46","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14299,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-45","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14300,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-45","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14301,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-45","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14302,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-45","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14303,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-44","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14304,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-44","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14305,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-43","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14306,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-42","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14307,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-42","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14308,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-41","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14309,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-40","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14310,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-40","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14311,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-39","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14312,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-39","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14313,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-38","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14314,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-38","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14315,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-38","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14316,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-38","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14317,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-37","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14318,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-36","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14319,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-35","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14320,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-34","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14321,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-33","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14322,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-32","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14323,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-30","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14324,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-29","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14325,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-27","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14326,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-27","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14327,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-26","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14328,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-25","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14329,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-24","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14330,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-23","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14331,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-22","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14332,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-20","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14333,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-19","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14334,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-17","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14335,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-16","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14336,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-16","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14337,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-14","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14338,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-13","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14339,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-11","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14340,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-11","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14341,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-10","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14342,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-9","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14343,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-9","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14344,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-8","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14345,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-8","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14346,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-7","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14347,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-6","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4062,8226,14348,"Neotoma","Kelly Lake","KELLY",46.44356,-81.0682449999999,254,"not known","lake","core","-4","Richard, M.J. 2006. Pollen analysis of a sediment core from Kelly Lake, Sudbury, Canada. Master's thesis. Laurentian University, Sudbury, Ontario, Canada.",,9,"cool mixed forest",1.08758359188886,2710.9783491079,4.42509372331069,-12.0429635458889,19.0150143636777,854.097621011576
4063,8227,7163,"EMPDv2","Kelly s Lough","EPDcoretop_E2243",52.958028,-6.4245660000000004,478,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.210785401429688,2534.048305034,6.94259809598355,2.06254921480893,13.222030139229,119.787438228386
4064,8228,13778,"Neotoma","Kelly-Dudley Lake","KELLYDUD",44.3544349999999,-93.365935,320,"not known","lake","core","4","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.858562027279682,3438.27472241327,6.90546697088715,-11.4272866521791,22.3799174282219,745.037837478318
4064,8228,13779,"Neotoma","Kelly-Dudley Lake","KELLYDUD",44.3544349999999,-93.365935,320,"not known","lake","core","25","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.858562027279682,3438.27472241327,6.90546697088715,-11.4272866521791,22.3799174282219,745.037837478318
4064,8228,13780,"Neotoma","Kelly-Dudley Lake","KELLYDUD",44.3544349999999,-93.365935,320,"not known","lake","core","41","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.858562027279682,3438.27472241327,6.90546697088715,-11.4272866521791,22.3799174282219,745.037837478318
4065,8229,12783,"Neotoma","Kellys Hollow","KELLHOL1",45.3,-90.35,470,"not known","terrestrial, bog/fen/swamp","core","-29","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Heide, K.M. 1981. Late Quaternary vegetational history of north-central Wisconsin, U.S.A.: estimating forest composition from pollen data. Dissertation, Brown University, Providence, Rhode Island, USA.; Heide, K.M. 1984. Holocene pollen stratigraphy from a lake and small hollow in north-central Wisconsin, USA. Palynology 8:3-19.","10.1017/S0033822200037504",9,"cool mixed forest",1.01186691884337,2729.19991914664,4.2797097409218,-12.7601859230489,19.3168920774674,794.989713650456
4065,8229,12784,"Neotoma","Kellys Hollow","KELLHOL1",45.3,-90.35,470,"not known","terrestrial, bog/fen/swamp","core","40","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Heide, K.M. 1981. Late Quaternary vegetational history of north-central Wisconsin, U.S.A.: estimating forest composition from pollen data. Dissertation, Brown University, Providence, Rhode Island, USA.; Heide, K.M. 1984. Holocene pollen stratigraphy from a lake and small hollow in north-central Wisconsin, USA. Palynology 8:3-19.","10.1017/S0033822200037504",9,"cool mixed forest",1.01186691884337,2729.19991914664,4.2797097409218,-12.7601859230489,19.3168920774674,794.989713650456
4065,8230,12785,"Neotoma","Kellys Hollow","KELLHOL2",45.3,-90.35,470,"not known","terrestrial, bog/fen/swamp","core","-29","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100. Heide, K.M. 1981. Late Quaternary vegetational history of north-central Wisconsin, U.S.A.: estimating forest composition from pollen data. Dissertation, Brown University, Providence, Rhode Island, USA.; Heide, K.M. 1984. Holocene pollen stratigraphy from a lake and small hollow in north-central Wisconsin, USA. Palynology 8:3-19.","10.1017/S0033822200004926",9,"cool mixed forest",1.01186691884337,2729.19991914664,4.2797097409218,-12.7601859230489,19.3168920774674,794.989713650456
4066,8231,10640,"BIOME6000 Japan","Kenbuchi Basin","D1002",44.05,142.383333,135,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.64197199533209,2760.10005063975,5.79761309777078,-7.46948232474927,19.2936480692722,1149.27835960932
4067,8232,3561,"CMPD","Kenli","Kenli 1",37.53,118.57,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.593591180160469,4774.31276326691,12.6992196896184,-2.82811749588232,26.0401879196529,656.171838792056
4067,8233,3562,"CMPD","Kenli","Kenli 2",37.53,118.57,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.593591180160469,4774.31276326691,12.6992196896184,-2.82811749588232,26.0401879196529,656.171838792056
4067,8234,3563,"CMPD","Kenli","Kenli 3",37.53,118.57,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.593591180160469,4774.31276326691,12.6992196896184,-2.82811749588232,26.0401879196529,656.171838792056
4068,8235,12787,"Neotoma","Kennys Pond","KENNYS",47.590278,-52.713889,70,"not known","lake","core","-32","Blake, W., Jr. 1987. Geological Survey of Canada radiocarbon dates XXVI. Paper 86-7, Geological Survey of Canada, Ottawa, Ontario, Canada.; Blake, W., Jr. 1983. Geological Survey of Canada radiocarbon dates XXIII. Geological Survey of Canada Paper 83-7:5..",,9,"cool mixed forest",2.12175553695172,2225.20811284405,5.13201790375425,-4.56874669168007,15.4145134621663,1379.27114369652
4069,8236,12788,"Neotoma","Kenosee Lake","KENOSEE",49.816667,-102.3,746,"not known","lake","core","25","Vance, R.E., W.M. Last, and A.J. Smith. 1997. Hydrologic and climatic implications of a multidisciplinary study of late Holocene sediment from Kenosee Lake, southeastern Saskatchewan, Canada. Journal of Paleolimnology 18(4):365-393. Porter, S.C., and M.A. Sauchyn. 1992. Moose Mountain Palynology Study: Final Report. Unpublished. Prepared for Terrestrial and Aquatic Environmental Managers Ltd. Melville, Saskatchewan, Canada.","10.1023/A:1007948909342",22,"steppe",0.469300202830779,2656.88236992537,3.1677418644617,-15.5403321635048,19.394509061301,381.512662086424
4070,8237,5880,"Dugerdil et al., 2021","Kentii","MMNT1M01",48.3983,106.8594,1137,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.430970942636778,2106.11300441487,-1.1847307281383,-22.7453080256471,17.1350231682333,337.464565410703
4070,8238,5881,"Dugerdil et al., 2021","Kentii","MMNT1M02",48.4014,106.8613,1161,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.429800784201959,2085.79706455251,-1.28252090898889,-22.7916051629675,17.0273317243717,336.908336037174
4070,8239,5882,"Dugerdil et al., 2021","Kentii","MMNT2M01",48.4472,107.0542,1438,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.420133690367235,1850.12051890713,-2.45962577187523,-23.3886940194549,15.757158133985,332.149230020158
4070,8240,5883,"Dugerdil et al., 2021","Kentii","MMNT2M02",48.446,107.0551,1333,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.424786442609237,1936.20997204091,-2.02747105892581,-23.1764353782714,16.2345439337375,334.31188169764
4070,8241,5884,"Dugerdil et al., 2021","Kentii","MMNT2M03",48.4449,107.0564,1265,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.427842451112532,1992.71836131455,-1.74753081197806,-23.0388505355712,16.5437977475667,335.703506252392
4070,8242,5885,"Dugerdil et al., 2021","Kentii","MMNT2M04",48.4441,107.058,1266,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.427773178757598,1991.89583553803,-1.7516054128744,-23.0407319282086,16.5393779456232,335.670356756135
4070,8243,5886,"Dugerdil et al., 2021","Kentii","MMNT2M05",48.4425,107.0593,1262,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.427892047797891,1995.30283456159,-1.73474732778453,-23.0320560430444,16.5579146029581,335.722324747732
4070,8244,5887,"Dugerdil et al., 2021","Kentii","MMNT2M05p",48.4444,107.0634,1273,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.427516153899147,1985.90759700203,-1.78143410608738,-23.0559435080319,16.5071783690398,335.548825489422
4070,8245,5888,"Dugerdil et al., 2021","Kentii","MMNT2M06",48.4412,107.0629,1328,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.424884410580263,1940.4106355592,-2.00662772794003,-23.165586618562,16.2579124191024,334.351832838552
4070,8246,5889,"Dugerdil et al., 2021","Kentii","MMNT2M07",48.4381,107.066,1475,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",15,"cold evergreen needleleaf forest",0.418336435471132,1820.31130565903,-2.61169103973533,-23.4626060866267,15.5897525947638,331.305960739211
4071,8247,19852,"SMPDSv1","Kenttalammi","Seppa_b10",67.3,29.4,289,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34093936898959,1398.50387268405,-1.14906663564072,-14.6165268726699,13.388368465556,535.298627937418
4072,8248,17322,"Neotoma","Kentuck","TW024",46,-89,519,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.04108056340705,2589.55268543935,3.76134682082808,-12.8839739483414,18.6350216287387,795.334082577037
4073,8249,19853,"SMPDSv1","Kepskoe","EPDcoretop_E327",65.083333,32.166667,124,"0.05","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19460011139127,1660.38202609978,0.329402754641814,-13.5077935846933,14.7826626616932,542.01628571971
4074,8250,19854,"SMPDSv1","Kepskoe boloto","Kepskoe boloto_SS",65.0853,32.1037,124,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19524697167745,1659.30454890577,0.320969840436732,-13.5178437835611,14.7795657279315,542.016089587053
4075,8251,19855,"SMPDSv1","Kesajarvi","Seppa_b20",66.17,29.13,325,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.43995433203733,1354.061023825,-1.49771561905755,-15.0757925340229,13.138793177754,584.00859477456
4076,8252,19856,"SMPDSv1","Kessel See","Kessel See_ss",52.41206,14.3562,27,"0.035","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.759812796344645,3263.33234509142,8.83296466212166,-0.991524134383379,17.9950653600099,547.479513622466
4077,8253,19857,"SMPDSv1","Kesselsee","Kesselsee_ss",52.5292,14.0796,18,"0.027","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.768457180939115,3258.82286055073,8.83684936380253,-0.853820238070615,17.9257918174114,551.106088317107
4078,8254,6124,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a51",34.904032,-4.5082700000000004,1786,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.32649907064995,4864.46485627329,13.3273009760912,4.69817622770184,25.1858693037732,458.775102070427
4078,8255,6125,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a52",34.909996,-4.617827,1618,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.334835508259802,5018.89709795944,13.7504030081081,5.44493276297198,25.0360128637928,466.268802644087
4078,8256,6126,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a53",34.896955,-4.653223,1648,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.333233030430399,4991.32089892747,13.6748517778835,5.32330946268741,25.0489356130527,464.558403960154
4078,8257,6127,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a54",34.907986,-4.536485,1866,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.322793965292854,4789.17097298782,13.1210163643502,4.36067529094593,25.2261030763696,454.841645329425
4078,8258,6128,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a55",34.849704,-4.611571,1633,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.332886482902126,5009.95101105325,13.7258931809678,5.38049054674868,25.074580268447,464.695912193124
4078,8259,6129,"EMPDv2","Ketama/Issaguen, Al Hoceima","AlbaSanchez_a57",34.840495,-4.532196,2133,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.309056396432688,4546.02925047887,12.4548746588462,3.2113533405946,25.4331796616785,441.406389158969
4079,8260,9815,"Herzschuh et al., 2019","Kettle 1. 27A","Kettle 1. 27A",48.52093,90.63166,2370,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.267478335052206,1212.94902238211,-6.0358092681314,-26.5433329265993,11.2781664182109,227.274953123436
4080,8261,9816,"Herzschuh et al., 2019","Kettle 2. 28A","Kettle 2. 28A",48.52239,90.62848,2370,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.267547307030942,1212.7745312433,-6.03669938838419,-26.543325200198,11.2770476303194,227.317431352012
4081,8262,14432,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","-45","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14433,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","-29","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14434,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","-14","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14435,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","1","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14436,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","16","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14437,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","31","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4081,8262,14438,"Neotoma","Kettle Lake","KETTLE",48.6071199999999,-103.623989999999,605,"not known","lake","core","46","Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, P.G. Mueller, B.C.S. Hansen, and I. Stefanova. 2005. Fire cycles in North American interior grasslands and their relation to prairie drought. Proceedings of the National Academy of Sciences of the United States of America 102(25):8865-8870. Clark, J.S., E.C. Grimm, J.J. Donovan, S.C. Fritz, D.R. Engstrom, and J.E. Almendinger. 2002. Drought cycles and landscape responses to past aridity on praries of the northern Great Plains, USA. Ecology 83(3):595-601. Grimm, E.C., J.J. Donovan, and K.J. Brown. 2011. A high-resolution record of climate variability and landscape response from Kettle Lake, northern Great Plains, North America. Quaternary Science Reviews 30(19-20):2626-2650.","10.1073/pnas.0503621102;
10.1890/0012-9658(2002)083[0595:DCALRT]2.0.CO;2;
10.1016/j.quascirev.2011.05.015",22,"steppe",0.474734661078345,2779.86091039231,3.72239951878179,-14.9977599337491,20.0137346344252,393.465248704163
4082,8263,13234,"Neotoma","Kettle's Lake [Second Lake]","SECOND4",44.843875,-79.97824,196,"not known","lake","core","-24","Burden, E.T., G. Norris, and J.H. McAndrews. 1986. Geochemical indicators in lake sediment of upland erosion caused by Indian and European farming, Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):55-65. Burden, E.T., J.H. McAndrews, and G. Norris. 1986. Palynology of Indian and European forest clearance and farming in lake sediment cores from Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):43-54. Burden, E.T. 1978. Pollen and algal assemblages in cored sediments from Gignac Lake and Second Lake (Simcoe Co., Ontario): relationships with lacustrine facies, geochemistry and vegetation. Master's thesis. University of Toronto, Toronto, Ontario, Canada.","10.1139/e86-006;
10.1139/e86-005",9,"cool mixed forest",1.09306750454315,2950.6702596546,5.91226935192653,-9.32357325828646,19.7118776564461,908.597820012355
4082,8263,13235,"Neotoma","Kettle's Lake [Second Lake]","SECOND4",44.843875,-79.97824,196,"not known","lake","core","-18","Burden, E.T., G. Norris, and J.H. McAndrews. 1986. Geochemical indicators in lake sediment of upland erosion caused by Indian and European farming, Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):55-65. Burden, E.T., J.H. McAndrews, and G. Norris. 1986. Palynology of Indian and European forest clearance and farming in lake sediment cores from Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):43-54. Burden, E.T. 1978. Pollen and algal assemblages in cored sediments from Gignac Lake and Second Lake (Simcoe Co., Ontario): relationships with lacustrine facies, geochemistry and vegetation. Master's thesis. University of Toronto, Toronto, Ontario, Canada.","10.1139/e86-006;
10.1139/e86-005",9,"cool mixed forest",1.09306750454315,2950.6702596546,5.91226935192653,-9.32357325828646,19.7118776564461,908.597820012355
4082,8263,13236,"Neotoma","Kettle's Lake [Second Lake]","SECOND4",44.843875,-79.97824,196,"not known","lake","core","-6","Burden, E.T., G. Norris, and J.H. McAndrews. 1986. Geochemical indicators in lake sediment of upland erosion caused by Indian and European farming, Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):55-65. Burden, E.T., J.H. McAndrews, and G. Norris. 1986. Palynology of Indian and European forest clearance and farming in lake sediment cores from Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):43-54. Burden, E.T. 1978. Pollen and algal assemblages in cored sediments from Gignac Lake and Second Lake (Simcoe Co., Ontario): relationships with lacustrine facies, geochemistry and vegetation. Master's thesis. University of Toronto, Toronto, Ontario, Canada.","10.1139/e86-006;
10.1139/e86-005",9,"cool mixed forest",1.09306750454315,2950.6702596546,5.91226935192653,-9.32357325828646,19.7118776564461,908.597820012355
4082,8263,13237,"Neotoma","Kettle's Lake [Second Lake]","SECOND4",44.843875,-79.97824,196,"not known","lake","core","16","Burden, E.T., G. Norris, and J.H. McAndrews. 1986. Geochemical indicators in lake sediment of upland erosion caused by Indian and European farming, Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):55-65. Burden, E.T., J.H. McAndrews, and G. Norris. 1986. Palynology of Indian and European forest clearance and farming in lake sediment cores from Awenda Provincial Park, Ontario. Canadian Journal of Earth Sciences 23(1):43-54. Burden, E.T. 1978. Pollen and algal assemblages in cored sediments from Gignac Lake and Second Lake (Simcoe Co., Ontario): relationships with lacustrine facies, geochemistry and vegetation. Master's thesis. University of Toronto, Toronto, Ontario, Canada.","10.1139/e86-006;
10.1139/e86-005",9,"cool mixed forest",1.09306750454315,2950.6702596546,5.91226935192653,-9.32357325828646,19.7118776564461,908.597820012355
4083,8264,19858,"SMPDSv1","Kevo","FIN/SPH/F5",69.6721555555556,27.0756666666667,110,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34260283188376,1332.50977580996,-1.37470610630637,-14.388166810067201,13.1182516481419,472.156434409575
4083,8265,19859,"SMPDSv1","Kevo","FIN/SPH/Ke8",69.7495694444444,27.0023,152,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.42527489301251,1290.25832470979,-1.70635293845981,-14.8153684961871,12.8838525178395,500.49522233982
4084,8266,15067,"Neotoma","Keyhold Pond","KEYHOLE",61.07859,-138.373465,826,"not known","lake","core","-7","Whittmire, C.M. 2001. Vegetative and fire history of the area surrounding Keyhole Pond, Yukon Territory. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",1.14865835034816,1240.51880859207,-3.53489540859162,-20.5827331367617,11.5809458916791,536.638392001629
4085,8267,12751,"Neotoma","Keystone Iron Fen","IRONBOG",38.865,-107.033333,2920,"not known","terrestrial, bog/fen/swamp","core","-5","Fall, P.L. 1988. Vegetation dynamics in the southern Rocky Mountains: late Pleistocene and Holocene timberline fluctuations. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Fall, P.L. 1985. Holocene dynamics of the subalpine forest in central colorado. American Association of Stratigraphic Palynologists Contribution Series No. 16:31-46.; Fall, P.L. 1997. Fire history and composition of the subalpine forest of western Colorado during the Holocene. Journal of Biogeography 24:309-325.",,17,"temperate evergreen needleleaf open woodland",0.511088743637999,1560.79578573161,0.843983932970704,-11.2140506545394,12.8857481544255,509.580677125109
4086,8268,761,"Australian pollen","KG951VC1","KG951VC1",-16.74,146.21,-60,"not applicable","marine","core top","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
4087,8269,762,"Australian pollen","KG951VC2","KG951VC2",-16.73,146.13,-60,"not applicable","marine","core top","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
4088,8270,19860,"SMPDSv1","Khachalgora","Connor_a13 (KHE)",41.3166666666666,43.9333333333333,2634,"0.002","ephemeral lake/pond","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.711787613940075,1606.35948481091,-0.244134787157467,-16.2032456686787,13.1647257882942,719.386495109508
4088,8271,19861,"SMPDSv1","Khachalgora","Connor_a14 (KHW)",41.3166666666666,43.9333333333333,2633,"0.002","ephemeral lake/pond","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.711740358186662,1607.3461965913,-0.238387201842078,-16.1959893593317,13.1696137321956,719.362963023874
4088,8272,19864,"SMPDSv1","Khachalgora","Connor_a4  (KH1)",41.3166666666666,43.9333333333333,2640,"0.001","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.712071379421677,1600.43921412856,-0.278620299049804,-16.2467835247604,13.135398124886,719.527687623313
4088,8273,19862,"SMPDSv1","Khachalgora","Connor_a5 (KH2)",41.3166666666666,43.9333333333333,2640,"0.001","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.712071379421677,1600.43921412856,-0.278620299049804,-16.2467835247604,13.135398124886,719.527687623313
4088,8274,19863,"SMPDSv1","Khachalgora","Connor_a6 (KH3)",41.3166666666666,43.9333333333333,2640,"0.001","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.712071379421677,1600.43921412856,-0.278620299049804,-16.2467835247604,13.135398124886,719.527687623313
4089,8275,9817,"Herzschuh et al., 2019","Khag Nuur. 29A","Khag Nuur. 29A",48.56171,90.59763,2423,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.273931557530952,1165.10862998673,-6.28598398658301,-26.6514854152997,10.9689439899216,231.610074492084
4090,8276,9818,"Herzschuh et al., 2019","Khag Nuur. 47A","Khag Nuur. 47A",50.17741,91.3607,1735,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.409773421086822,1601.28524432919,-4.60115136176756,-26.885690638251,13.8774601738514,326.019324876648
4091,8277,6827,"EMPDv2","Khakass","Blyakharchuk_a21",54.686536,89.439636,400,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.764144551889845,2245.19501938787,0.210668196454719,-18.8744455011339,18.4096289666885,470.038079816303
4091,8278,6828,"EMPDv2","Khakass","Blyakharchuk_a22",54.5340694444444,90.1497583333333,390,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.753273371591469,2283.37186705318,0.400502730369769,-18.794469012253,18.5561754000659,465.283798779934
4091,8279,6829,"EMPDv2","Khakass","Blyakharchuk_a23",53.2888166666667,91.5135416666667,292,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.73610776019532,2490.91084763829,1.23823143709838,-18.6410238268288,19.375740669255,483.194495965351
4091,8280,6830,"EMPDv2","Khakass","Blyakharchuk_a24",54.4927722222222,90.4243388888889,388,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.754602022208003,2300.40333066974,0.482006496205858,-18.7602577173173,18.6097923587416,467.500656872184
4091,8281,6831,"EMPDv2","Khakass","Blyakharchuk_a25",54.4927722222222,90.4243388888889,388,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.754602022208003,2300.40333066974,0.482006496205858,-18.7602577173173,18.6097923587416,467.500656872184
4091,8282,6832,"EMPDv2","Khakass","Blyakharchuk_a26",54.5340694444444,90.1497583333333,390,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.753273371591469,2283.37186705318,0.400502730369769,-18.794469012253,18.5561754000659,465.283798779934
4091,8283,6833,"EMPDv2","Khakass","Blyakharchuk_a27",54.6133638888889,89.777,408,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.760381057034406,2253.43739739667,0.251039760098729,-18.8957861278337,18.4164040790299,468.018005226424
4091,8284,6834,"EMPDv2","Khakass","Blyakharchuk_a28",54.6133638888889,89.777,408,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.760381057034406,2253.43739739667,0.251039760098729,-18.8957861278337,18.4164040790299,468.018005226424
4092,8285,8002,"EMPDv2","Khandasa_1 (Khandasa river terrace)","Mikishin-Gvozdeva_a62",50.2908333333333,142.643055555556,200,"not known","fluvial","not known","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29884538723534,1782.11151451086,-0.450372893002625,-17.9386342113604,14.8855769463336,721.396355493042
4093,8286,8003,"EMPDv2","Khandasa_2 (Khandasa river)","Mikishin-Gvozdeva_a63",50.2863888888889,142.654166666667,193,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29701705840608,1790.05311902854,-0.410343644717347,-17.9024191274984,14.9259685256623,720.988369457211
4094,8287,5890,"Dugerdil et al., 2021","Khangai","MMNT3M03",46.8239,102.2307,1669,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.305877286252574,1949.5522419076499,-0.116264510219191,-17.5509364738476,15.3685950080125,282.975903462511
4094,8288,5891,"Dugerdil et al., 2021","Khangai","MMNT3M04",46.7932,102.0868,1734,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.306144669402607,1891.45089695671,-0.391052025853322,-17.7068701164385,15.0597523180917,283.272893048439
4094,8289,5892,"Dugerdil et al., 2021","Khangai","MMNT3S01",47.2993,103.6092,1323,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.360876629245958,2028.77089359087,-0.478622561928338,-19.6533034378523,16.0408166833899,314.674967955609
4094,8290,5893,"Dugerdil et al., 2021","Khangai","MMNT3S02",47.2,102.8438,1457,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.323977234866401,2046.23483659384,-0.00165188612746394,-18.3566294922862,15.9785235474217,292.303621995853
4094,8291,5894,"Dugerdil et al., 2021","Khangai","MMNT3S05",46.78,101.951,1830,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.308718290804793,1799.37590790223,-0.853467923000719,-18.0299087561559,14.5637789814566,285.005796574292
4094,8292,5908,"Dugerdil et al., 2021","Khangai","MMNT5C01",48.4074,101.8797,1433,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.414180260473591,1828.3133604408,-1.24169411800607,-19.8800714481319,14.8719897745258,350.038250165259
4094,8293,5909,"Dugerdil et al., 2021","Khangai","MMNT5C03",48.6592,101.2015,1579,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.386514832085586,1674.54331885733,-2.00225569380945,-20.3057336790662,14.0264563746992,325.426473941833
4094,8294,5910,"Dugerdil et al., 2021","Khangai","MMNT5C11",48.929,101.9588,1316,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.473758454768616,1884.70396823555,-1.2483956123709,-20.6832772742179,15.3214599710095,389.93473307599
4094,8295,5911,"Dugerdil et al., 2021","Khangai","MMNT5C12",48.6907,101.4263,1436,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.406911175898906,1800.99095743296,-1.3432239227974,-19.8849603285086,14.7414360506645,342.400820829196
4094,8296,5912,"Dugerdil et al., 2021","Khangai","MMNT5M04",48.4136,102.2389,1566,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.403984705403806,1726.50231741992,-1.66007128066984,-19.8848592785506,14.2587986253179,342.036595056849
4094,8297,5913,"Dugerdil et al., 2021","Khangai","MMNT5M05",48.4203,102.2266,1538,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.40725445195445,1748.09435911931,-1.57877436465288,-19.9088024127677,14.3907716077558,344.533559451368
4094,8298,5914,"Dugerdil et al., 2021","Khangai","MMNT5M06",47.734,101.2459,1646,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.368930659237175,1655.39720644585,-1.71752672481765,-19.0799392223506,13.7578853296645,318.216824253377
4094,8299,5915,"Dugerdil et al., 2021","Khangai","MMNT5M07",47.7338,101.246,1647,"not applicable","terrestrial","surface sample","-70","Dugerdil, L., Joannin, S., Peyron, O., Jouffroy-Bapicot, I., Vannière, B., Boldgiv, B., Unkelbach, J., Behling, H. and Ménot, G., 2021. Climate reconstructions based on GDGT and pollen surface datasets from Mongolia and Baikal area: calibrations and applicability to extremely cold–dry environments over the Late Holocene. Climate of the Past, 17(3), pp.1199-1226. doi: 10.5194/cp-17-1199-2021","10.1594/PANGAEA.933659",22,"steppe",0.368897844733969,1654.71282269129,-1.7218027261397,-19.0845238432249,13.7541382959399,318.191646309466
4095,8300,8192,"EMPDv2","Khanka_Kanal_1","Mikishin-Gvozdeva_b23",44.8033333333333,132.671666666667,70,"not known","artificial water body","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.828540942555816,3088.91461768108,4.24063351136127,-16.5341511180797,21.3727785066362,628.996064230847
4096,8301,8193,"EMPDv2","Khanka_Kanal_2","Mikishin-Gvozdeva_b24",44.7902777777778,132.685277777778,70,"not known","artificial water body","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.828608501714547,3088.51573325933,4.24118661043626,-16.5287438125533,21.3681880341053,629.160289183645
4097,8302,8194,"EMPDv2","Khanka_Kanal_3","Mikishin-Gvozdeva_b25",44.775,132.685,70,"not known","artificial water body","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.828468319167299,3088.46668506022,4.24581276636516,-16.5136998227769,21.3637478339377,629.275848787979
4098,8303,8195,"EMPDv2","Khanka_Kanal_4","Mikishin-Gvozdeva_b26",44.6847222222222,132.641944444444,70,"not known","artificial water body","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.833371726472339,3089.63597892707,4.43505052656893,-15.9430998903333,21.1855054112157,636.014503800825
4099,8304,9819,"Herzschuh et al., 2019","Khar Nuur II. 22A","Khar Nuur II. 22A",48.19228,93.2396,1130,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.142050024585626,2730.58298713165,0.576589090512711,-24.0446626996476,19.985763959882,136.096696541508
4100,8305,9820,"Herzschuh et al., 2019","Khar Nuur. 10B","Khar Nuur. 10B",48.35423,96.19297,1983,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.293374327221925,1496.1698965009,-5.11388790923352,-26.7745399234262,13.1660893673214,249.126442060796
4101,8306,9821,"Herzschuh et al., 2019","Khar Us Nuur II. 43A","Khar Us Nuur II. 43A",49.12116,91.95274,1572,"1578","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.243674159440708,1996.09357820545,-2.68124390561582,-26.0060934218206,16.0780272155842,213.220886724133
4102,8307,9822,"Herzschuh et al., 2019","Khar Us Nuur. 24B","Khar Us Nuur. 24B",48.35972,92.24058,1130,"1578","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.143082504486416,2734.03107892628,0.654281594103423,-24.0717801552529,19.9994880580345,136.800614915371
4103,8308,6234,"EMPDv2","Kharabuluk","Binney2017_E2199",47.77,44.43,52,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.349469849112553,3837.6807916786,9.07131281894024,-6.92027323252813,24.0379685538435,333.006743758337
4104,8309,10992,"Bush et al., 2020","KharaKkotaNorth","KharaKkotaNorth",-16.1327,-68.3617,4859,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.222236046173906,1500.1660696228,4.11004402636382,1.03905027009457,6.27393051297044,314.669398175088
4105,8310,8223,"EMPDv2","Khasan_Sever","Mikishin-Gvozdeva_b54",42.4611111111111,130.601944444444,4,"2.81","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.840053227031794,3296.84770023452,6.41305015569589,-11.5825385825705,21.89790810927,695.887404767724
4106,8311,8221,"EMPDv2","Khasan_Vodokachka","Mikishin-Gvozdeva_b52",42.4397222222222,130.620833333333,4,"2.81","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.840506583946567,3298.17824594271,6.42038170596856,-11.5718151617439,21.902905859559,696.527998312887
4107,8312,8222,"EMPDv2","Khasan_Zaozernaya","Mikishin-Gvozdeva_b53",42.4511111111111,130.607222222222,4,"2.81","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.840057936731936,3297.47212196338,6.41613440789388,-11.5784500231862,21.9002294152,696.046603301726
4108,8313,6235,"EMPDv2","Khendyrkul","Binney2017_E2200",54.54,106.63,589,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.695240204276724,1872.70139544691,-3.73649986835617,-27.4166199358572,17.1375462865924,375.010688155443
4109,8314,19865,"SMPDSv1","Khimaditis III","EPDcoretop_E330",40.6125,21.586111,560,"5","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.563963619142505,4439.22935841972,12.1622722148486,2.02128816180776,22.0055047077201,662.612089944251
4110,8315,6514,"EMPDv2","Khitshnikov","Binney2017_E2942",71.17,-179.17,253,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.596663217960481,76.0643084158524,-13.5931006781447,-27.7727093808238,1.48213238860877,136.546506142967
4111,8316,8551,"EMPDv2","KhMAO","Panova_a1",67,70,58,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1499106516471,1147.08012077557,-6.26294770404099,-24.2201517582715,13.458592164769,410.358330069146
4112,8317,19866,"SMPDSv1","Khodzal","EPDcoretop_E326",42.954167,41.911111,2030,"0.0025","fluvial","core top","29","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10319549425243,1715.60625716043,1.10745724698301,-12.6862516673409,13.1406598363391,982.646851129768
4113,8318,7993,"EMPDv2","Khoe","Mikishin-Gvozdeva_a53",51.3341666666667,142.145555555556,13,"not known","fluvial","litter","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16124573992647,1937.5266752146,-0.476394487785921,-19.286126353282,15.7550064254291,642.572521978076
4114,8319,9823,"Herzschuh et al., 2019","Kholboo Nuur. 2A","Kholboo Nuur. 2A",49.01499,97.15675,2024,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.357459996323264,1363.34462522185,-6.40003747111233,-28.995380674046,12.4173025022378,288.914353485158
4115,8320,19867,"SMPDSv1","Khomin Mokh","EPDcoretop_E814",51.2,28,8,"3.58","terrestrial, blanket bog","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.854613499773794,2848.9766936479,6.380642674982,-6.98833346710391,17.5561361201598,652.228367054489
4116,8321,10993,"Bush et al., 2020","Khota_a","Khota_a",-16.581333,-68.3906,3879,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.367330570433605,3238.46916945194,8.87251827247108,5.77017391168902,10.9309844348752,542.035860147861
4117,8322,8133,"EMPDv2","Khoyambusibyn","Mikishin-Gvozdeva_a196",52.4822222222222,143.077222222222,60,"0.17","terrestrial","litter","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24700020201236,1799.79486587116,-0.938379167834634,-19.1466751028335,15.0664029577937,658.692523001446
4118,8323,9824,"Herzschuh et al., 2019","Khunt Nuur. 3A","Khunt Nuur. 3A",49.04854,97.1757,1952,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.357534660205651,1421.39885912789,-6.1698983309794,-29.0273399107636,12.7834744091374,289.12977014649
4119,8324,9825,"Herzschuh et al., 2019","Khunt Nuur.14A","Khunt Nuur.14A",48.45693,95.26691,1528,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.235399819212459,2038.91348424725,-2.69524664060325,-25.9202276984674,16.3154978807853,208.356411696762
4120,8325,8001,"EMPDv2","Khuzy","Mikishin-Gvozdeva_a61",50.0772222222222,143.95,30,"not applicable","terrestrial","litter","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42310894836175,1963.33628862531,1.01583500799988,-15.4321782859321,15.7046641213972,798.477160775191
4121,8326,9826,"Herzschuh et al., 2019","Khyargas Nuur��19A","Khyargas Nuur_19A",49.07813,93.32101,1030,"1407","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.256131217497092,2521.4267493624902,-0.752471040065766,-25.6421014656853,19.013429070969,226.474152790234
4122,8327,10994,"Bush et al., 2020","Kichayil","Kichayil",16.1,-91.66,1515,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.5176009808482,7047.3710673761,19.3078659380167,17.1007536799356,21.0314122526052,2400.03486587104
4123,8328,9140,"EMPDv2","Kichikol lake; Juniperus forest transect according to canopy cover","Tinner_a1",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4123,8329,9141,"EMPDv2","Kichikol lake; Juniperus forest transect according to canopy cover","Tinner_a2",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4123,8330,9142,"EMPDv2","Kichikol lake; Juniperus forest transect according to canopy cover","Tinner_a3",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4123,8331,9143,"EMPDv2","Kichikol lake; Juniperus forest transect according to canopy cover","Tinner_a4",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4123,8332,9144,"EMPDv2","Kichikol lake; Juniperus forest transect according to canopy cover","Tinner_a5",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4124,8333,9149,"EMPDv2","Kichikol lake; transect from Juniperus forests to meadows","Tinner_a10",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4124,8334,9145,"EMPDv2","Kichikol lake; transect from Juniperus forests to meadows","Tinner_a6",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4124,8335,9146,"EMPDv2","Kichikol lake; transect from Juniperus forests to meadows","Tinner_a7",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4124,8336,9147,"EMPDv2","Kichikol lake; transect from Juniperus forests to meadows","Tinner_a8",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4124,8337,9148,"EMPDv2","Kichikol lake; transect from Juniperus forests to meadows","Tinner_a9",39.9833333333333,73.55,2554,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.352923034740167,2264.19389024772,3.15001265176211,-12.118200982692,16.23216152583,399.779294203216
4125,8338,8314,"EMPDv2","Kieshofer Moor","Mrotzek_f1",54.1286777777778,13.3410777777778,5,"0.25","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.852684476739843,3076.74730926513,8.31253092176288,-0.866378013162938,17.3508069216002,592.767499500499
4126,8339,91,"APD","Kiizi Marsh","KIIZI2_1.2",-1.410833,31.009444,1150,"not known","terrestrial, bog/fen/swamp","core top","18","Laseski, R. A., 1983. Modern pollen data and Holocene climate change in Eastern Africa. Unpublished Thesis, Brown University, 269 p.",,22,"steppe",0.893093918201506,7961.70271197705,21.8128841424029,21.1774706815736,22.233609786117,1298.15194599175
4127,8340,14248,"Neotoma","Kilbride Swamp","KILBRIDE",43.4645833333333,-79.9154166666667,265,"not known","lake","core","-51","Turton, C.L., and J.H. McAndrews. 2002.",,9,"cool mixed forest",1.09006448272234,3166.50100731035,7.19744857512043,-6.87955011987966,20.308011291186,939.653560338695
4128,8341,11602,"Neotoma","Kilby","KIL-1C",43.803695,-89.35409,262,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.92268681613349,3389.81557471443,7.29249603797228,-9.46094847330641,21.8344793008219,793.545260101661
4128,8342,11601,"Neotoma","Kilby","KIL-1M",43.803695,-89.35409,262,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.92268681613349,3389.81557471443,7.29249603797228,-9.46094847330641,21.8344793008219,793.545260101661
4129,8343,7164,"EMPDv2","Kilcurley Wood","EPDcoretop_E2244",53.39,-7.67,64,"0.02","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.59264557550887,3431.35142311028,9.40096280304186,4.71842289959433,15.0084389929333,970.279536038476
4130,8344,763,"Australian pollen","Killalea Lagoon","Killalea Lagoon center core_0",-34.6,150.87,3,"small (0.01-1 km2)","lake","core","-43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.954452766225343,6219.34409207563,17.039298882399,11.5260778397998,21.7684892377199,1168.13992290983
4130,8345,764,"Australian pollen","Killalea Lagoon","Killalea Lagoon center core_1",-34.6,150.87,3,"small (0.01-1 km2)","lake","core","32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.954452766225343,6219.34409207563,17.039298882399,11.5260778397998,21.7684892377199,1168.13992290983
4131,8346,765,"Australian pollen","Killer Bog","Killer Bog_0",-32.0667,151.55,1320,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.467522889455918,4320.18389369243,11.8361202566916,3.59662174970501,19.4144949912003,697.777554524853
4131,8347,766,"Australian pollen","Killer Bog","Killer Bog_10",-32.0667,151.55,1320,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","13","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.467522889455918,4320.18389369243,11.8361202566916,3.59662174970501,19.4144949912003,697.777554524853
4131,8348,767,"Australian pollen","Killer Bog","Killer Bog_15",-32.0667,151.55,1320,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.467522889455918,4320.18389369243,11.8361202566916,3.59662174970501,19.4144949912003,697.777554524853
4131,8349,768,"Australian pollen","Killer Bog","Killer Bog_5",-32.0667,151.55,1320,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.467522889455918,4320.18389369243,11.8361202566916,3.59662174970501,19.4144949912003,697.777554524853
4132,8350,769,"Australian pollen","Killiecrankie","Killiecrankie",-39.7833,147.8833,15,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.816743357502502,4753.37786472944,13.0229530540533,8.41096351991365,17.7816536874712,804.732967203512
4133,8351,9497,"EMPDv2","Kilmez","Novenko_c156",56.9714,51.0703,122,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.926347392433104,2623.27438591064,3.47677350126805,-13.7591477199092,19.5596745869972,577.712569470303
4133,8352,9498,"EMPDv2","Kilmez","Novenko_c157",56.6636,50.8478,91,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.892411275173841,2718.3529337107,3.86255268412153,-13.4159094712264,19.8923340353327,568.599655277367
4133,8353,9499,"EMPDv2","Kilmez","Novenko_c158",56.7883,50.74389,105,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.906553650059254,2669.74694986914,3.66478318688615,-13.5901287699595,19.7202674400937,571.873708843778
4133,8354,9500,"EMPDv2","Kilmez","Novenko_c159",56.4897,51.0183,109,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.897568152549952,2682.65987906395,3.69659407544251,-13.5899606736521,19.7577889177503,570.064555903102
4134,8355,19868,"SMPDSv1","Kilpilampi","Seppa_b33",64.28,30.17,203,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16648777244654,1793.37022640211,0.899037124375508,-13.3547309261626,15.4204764867417,553.152082182482
4135,8356,19870,"SMPDSv1","Kilpisjorvk","Barboni_a370",69,20.8,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.84922332207498,998.875730005845,-3.00539132982013,-15.0747905023369,10.6158698767899,672.602831146629
4136,8357,19869,"SMPDSv1","KIlpisjorvk","Barboni_a369",69,20.8,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.84922332207498,998.875730005845,-3.00539132982013,-15.0747905023369,10.6158698767899,672.602831146629
4137,8358,13617,"Neotoma","Kimble Pond","KIMBLE",44.21895,-93.84015,311,"not known","lake","core","-48","Camill, P., C.E. Umbanhowar, Jr., R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup. 2003. Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south- central Minnesota. Journal of Ecology 91(5):822-836. 10.1046/j.1365-2745.2003.00812.x.; Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166.","10.1023/A:1025574100319",13,"temperate deciduous broadleaf forest",0.844497394881019,3497.09158413985,7.11794910589702,-11.2858322352953,22.6467995159756,740.471383390678
4137,8358,13618,"Neotoma","Kimble Pond","KIMBLE",44.21895,-93.84015,311,"not known","lake","core","-19","Camill, P., C.E. Umbanhowar, Jr., R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup. 2003. Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south- central Minnesota. Journal of Ecology 91(5):822-836. 10.1046/j.1365-2745.2003.00812.x.; Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166.","10.1023/A:1025574100319",13,"temperate deciduous broadleaf forest",0.844497394881019,3497.09158413985,7.11794910589702,-11.2858322352953,22.6467995159756,740.471383390678
4137,8358,13619,"Neotoma","Kimble Pond","KIMBLE",44.21895,-93.84015,311,"not known","lake","core","1","Camill, P., C.E. Umbanhowar, Jr., R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup. 2003. Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south- central Minnesota. Journal of Ecology 91(5):822-836. 10.1046/j.1365-2745.2003.00812.x.; Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166.","10.1023/A:1025574100319",13,"temperate deciduous broadleaf forest",0.844497394881019,3497.09158413985,7.11794910589702,-11.2858322352953,22.6467995159756,740.471383390678
4137,8358,13620,"Neotoma","Kimble Pond","KIMBLE",44.21895,-93.84015,311,"not known","lake","core","20","Camill, P., C.E. Umbanhowar, Jr., R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup. 2003. Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south- central Minnesota. Journal of Ecology 91(5):822-836. 10.1046/j.1365-2745.2003.00812.x.; Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166.","10.1023/A:1025574100319",13,"temperate deciduous broadleaf forest",0.844497394881019,3497.09158413985,7.11794910589702,-11.2858322352953,22.6467995159756,740.471383390678
4137,8358,13621,"Neotoma","Kimble Pond","KIMBLE",44.21895,-93.84015,311,"not known","lake","core","40","Camill, P., C.E. Umbanhowar, Jr., R. Teed, C.E. Geiss, J. Aldinger, L. Dvorak, J. Kenning, J. Limmer, and K. Walkup. 2003. Late-glacial and Holocene climatic effects on fire and vegetation dynamics at the prairie-forest ecotone in south- central Minnesota. Journal of Ecology 91(5):822-836. 10.1046/j.1365-2745.2003.00812.x.; Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166.","10.1023/A:1025574100319",13,"temperate deciduous broadleaf forest",0.844497394881019,3497.09158413985,7.11794910589702,-11.2858322352953,22.6467995159756,740.471383390678
4138,8359,12061,"Neotoma","King & Kapp 1963 Site 1","KK1963-01",43.19201,-79.58335,198,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.04033825176789,3329.19922841293,7.91423224961248,-5.94166280296929,20.9948667351793,904.492075130516
4139,8360,12070,"Neotoma","King & Kapp 1963 Site 10","KK1963-10",45.76361,-79.4294,242,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15563322732492,2789.08478330097,4.87520415364274,-11.3810512351886,19.2315259683781,929.24409194526
4140,8361,12071,"Neotoma","King & Kapp 1963 Site 11","KK1963-11",46.19916,-79.36687,242,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15376392612733,2757.95267613508,4.64707388451529,-11.855419187724,19.1680573299406,916.743750187038
4141,8362,12072,"Neotoma","King & Kapp 1963 Site 12","KK1963-12",46.39462,-79.47253,369,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.22294721122339,2532.89065745417,3.37615785576384,-13.8427106232155,18.2742889037371,941.174362018181
4142,8363,12073,"Neotoma","King & Kapp 1963 Site 13","KK1963-13",46.67165,-79.7582,227,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.12556688064136,2721.76579050454,4.34905430599443,-12.5014959742841,19.087563371862,880.957373277449
4143,8364,12074,"Neotoma","King & Kapp 1963 Site 14","KK1963-14",46.92518,-79.74301,183,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.11790391137464,2713.31292910361,4.17745116817672,-13.0599314684932,19.145375752401,865.931415466221
4144,8365,12075,"Neotoma","King & Kapp 1963 Site 15","KK1963-15",47.04657,-79.80137,183,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.12462387018616,2716.70812294392,4.24873961851451,-12.8722976600617,19.0633147554971,870.995149222219
4145,8366,12076,"Neotoma","King & Kapp 1963 Site 16","KK1963-16A",46.81846,-79.97914,318,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15552642796096,2540.89168007791,3.21054142275773,-14.3857212870356,18.5274892311022,878.069212200007
4145,8367,12077,"Neotoma","King & Kapp 1963 Site 16","KK1963-16B",46.81846,-79.97914,318,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15552642796096,2540.89168007791,3.21054142275773,-14.3857212870356,18.5274892311022,878.069212200007
4145,8368,12078,"Neotoma","King & Kapp 1963 Site 16","KK1963-16C",46.81846,-79.97914,318,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15552642796096,2540.89168007791,3.21054142275773,-14.3857212870356,18.5274892311022,878.069212200007
4146,8369,12079,"Neotoma","King & Kapp 1963 Site 17","KK1963-17A",47.04597,-80.25213,290,"not known","lake","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.1325093337703,2577.82386396151,3.43381778584479,-14.0268887626878,18.6830879234307,862.078593270622
4146,8370,12080,"Neotoma","King & Kapp 1963 Site 17","KK1963-17B",47.04597,-80.25213,290,"not known","lake","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.1325093337703,2577.82386396151,3.43381778584479,-14.0268887626878,18.6830879234307,862.078593270622
4147,8371,12081,"Neotoma","King & Kapp 1963 Site 18","KK1963-18A",47.22574,-79.82237,354,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.17361882020541,2456.57024123056,2.65252366982221,-15.2866966572497,18.2457670488161,874.015641561566
4147,8372,12082,"Neotoma","King & Kapp 1963 Site 18","KK1963-18B",47.22574,-79.82237,354,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.17361882020541,2456.57024123056,2.65252366982221,-15.2866966572497,18.2457670488161,874.015641561566
4147,8373,12084,"Neotoma","King & Kapp 1963 Site 18","KK1963-18C",47.22574,-79.82237,354,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.17361882020541,2456.57024123056,2.65252366982221,-15.2866966572497,18.2457670488161,874.015641561566
4147,8374,12083,"Neotoma","King & Kapp 1963 Site 18","KK1963-18D",47.22574,-79.82237,354,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.17361882020541,2456.57024123056,2.65252366982221,-15.2866966572497,18.2457670488161,874.015641561566
4148,8375,12086,"Neotoma","King & Kapp 1963 Site 19","KK1963-19A",47.49101,-80.43829,380,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.14601465771188,2407.63075989733,2.29360073113236,-15.7914596161173,18.199205222626,842.397313940824
4148,8376,12085,"Neotoma","King & Kapp 1963 Site 19","KK1963-19B",47.49101,-80.43829,380,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.14601465771188,2407.63075989733,2.29360073113236,-15.7914596161173,18.199205222626,842.397313940824
4148,8377,12087,"Neotoma","King & Kapp 1963 Site 19","KK1963-19C",47.49101,-80.43829,380,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.14601465771188,2407.63075989733,2.29360073113236,-15.7914596161173,18.199205222626,842.397313940824
4149,8378,12062,"Neotoma","King & Kapp 1963 Site 2","KK1963-02",43.39784,-79.8379,99,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",0.997995116766201,3424.27362073674,8.29744662906991,-5.51087713696052,21.4517950515948,875.381305831996
4150,8379,12063,"Neotoma","King & Kapp 1963 Site 3","KK1963-03",43.86164,-79.65609,81,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",0.997040635117929,3404.89469440112,8.16833645559268,-5.79852809967137,21.4899650827974,863.599682950983
4151,8380,12064,"Neotoma","King & Kapp 1963 Site 4","KK1963-04",43.98263,-79.65845,340,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.12340494944291,2934.70014971415,6.02100392578319,-8.76182735938792,19.4478093069545,948.390972065612
4152,8381,12065,"Neotoma","King & Kapp 1963 Site 5","KK1963-05",44.27628,-79.65909,244,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.08720091207668,3025.9789174392,6.38679051606251,-8.43096004610043,19.9631288461242,918.139727297775
4153,8382,12066,"Neotoma","King & Kapp 1963 Site 6","KK1963-06",44.50182,-79.5103,224,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.08571656918975,3043.76918581743,6.45199107168907,-8.39209329096554,20.0602278853287,914.278713490209
4154,8383,12067,"Neotoma","King & Kapp 1963 Site 7","KK1963-07",44.75323,-79.34111,224,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.10223044985471,2970.21823121732,6.01093263319968,-9.24329345329933,19.8163423985441,919.196449673467
4155,8384,12068,"Neotoma","King & Kapp 1963 Site 8","KK1963-08",45.10336,-79.32006,282,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.15435670911384,2849.75901256015,5.38670177402759,-10.2300670429637,19.3228308494907,947.819365635089
4156,8385,12069,"Neotoma","King & Kapp 1963 Site 9","KK1963-09",45.36266,-79.22738,290,"not known","terrestrial","surface sample","-11","King, J.E., and R.O. Kapp. 1963. Modern pollen rain studies in eastern Ontario. Canadian Journal of Botany 41(2):243-252.","10.1139/b63-022",9,"cool mixed forest",1.16706478490819,2781.43329360608,4.95049253489373,-11.0877118687382,19.1181403843608,945.306484039418
4157,8386,770,"Australian pollen","King River Railway Bridge","King River Railway Bridge",-42.15,146.65,200,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.13160913898182,4056.00102670017,11.1123315800005,6.81060172673615,15.6381142643596,1038.16885293102
4158,8387,771,"Australian pollen","Kings Tableland Swamp","Kings Tableland Swamp_JC91_0",-33.76,150.38,785,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.617747618881853,4588.4518816599,12.5711010456436,5.20917839369686,19.6450793136095,818.960176173702
4158,8388,772,"Australian pollen","Kings Tableland Swamp","Kings Tableland Swamp_JC91_10",-33.76,150.38,785,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.617747618881853,4588.4518816599,12.5711010456436,5.20917839369686,19.6450793136095,818.960176173702
4158,8389,773,"Australian pollen","Kings Tableland Swamp","Kings Tableland Swamp_JC91_15",-33.76,150.38,785,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.617747618881853,4588.4518816599,12.5711010456436,5.20917839369686,19.6450793136095,818.960176173702
4158,8390,774,"Australian pollen","Kings Tableland Swamp","Kings Tableland Swamp_JC91_5",-33.76,150.38,785,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.617747618881853,4588.4518816599,12.5711010456436,5.20917839369686,19.6450793136095,818.960176173702
4158,8391,775,"Australian pollen","Kings Tableland Swamp","KT 1",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8392,776,"Australian pollen","Kings Tableland Swamp","KT 2",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8393,777,"Australian pollen","Kings Tableland Swamp","KT 3",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8394,778,"Australian pollen","Kings Tableland Swamp","KT 4",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8395,779,"Australian pollen","Kings Tableland Swamp","KT 5",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8396,780,"Australian pollen","Kings Tableland Swamp","KT 6",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8397,781,"Australian pollen","Kings Tableland Swamp","KT 7",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4158,8398,782,"Australian pollen","Kings Tableland Swamp","KT 8",-33.8,150.4,795,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.615722677118283,4561.59251512379,12.4975137400652,5.11859927726654,19.5970892787014,815.856819955101
4159,8399,16541,"Neotoma","Kingsbury Pond","KG035",45.12,-69.67,283,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.51432882250676,2594.0780931582,4.53613028724979,-10.5365863116072,18.3876985053418,1136.19023820858
4160,8400,14605,"Neotoma","Kingston Meadow","KINGMEAD",39.25318,-117.1655,2400,"not known","terrestrial","core","-46","Mensing, S., J. Smith, K.B. Norman, and M. Allan. 2008. Extended drought in the Great Basin of western North America in the last two millennia reconstructed from pollen records. Quaternary International 188(1):79-89.","10.1016/j.quaint.2007.06.009",17,"temperate evergreen needleleaf open woodland",0.328638263474602,2858.09136656681,7.42396032489297,-2.37904359796594,19.9540485506497,396.935047376493
4161,8401,15767,"Neotoma","Kinnelon","EWBR004",40.98,-74.42,244,"not known","not known","surface sample","Modern","Russell, E.W.B., 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club, pp.432-446.","10.2307/2484166",13,"temperate deciduous broadleaf forest",1.2461424583559,3750.17482266283,9.64499174712811,-3.84478086640349,22.1024691782947,1135.18631082815
4162,8402,19871,"SMPDSv1","Kinnshaugen","Bjune_a288",61.11,10.3633333333333,591,"0.0177","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34855749786645,1667.72456335364,1.94645462207753,-9.3203948114617,12.8710789567066,707.715924346474
4163,8403,783,"Australian pollen","Kinrara Swamp","Kinrara Swamp",-18.483,145.033,700,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",3,"tropical deciduous broadleaf forest and woodland",0.447364639901082,8094.53675127261,22.1768130171852,16.6095647008885,26.1776620582443,829.95627473593
4164,8404,12790,"Neotoma","Kinsman Pond","KINSMAN",44.133333,-71.733333,1140,"not known","lake","core","0","Spear, R.W. 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.22276350671639,1455.50235170238,-1.71943132452472,-17.800691353269,12.3505636979894,1396.96367012476
4164,8404,12791,"Neotoma","Kinsman Pond","KINSMAN",44.133333,-71.733333,1140,"not known","lake","core","26","Spear, R.W. 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.22276350671639,1455.50235170238,-1.71943132452472,-17.800691353269,12.3505636979894,1396.96367012476
4164,8404,12792,"Neotoma","Kinsman Pond","KINSMAN",44.133333,-71.733333,1140,"not known","lake","core","47","Spear, R.W. 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.22276350671639,1455.50235170238,-1.71943132452472,-17.800691353269,12.3505636979894,1396.96367012476
4165,8405,12793,"Neotoma","Kirchner Marsh","KIRCHNR2",44.7708499999999,-93.1225499999999,286,"not known","terrestrial, marsh","core","11","Wright, H.E., Jr., T.C. Winter, and H.L. Patten. 1963. Two pollen diagrams from southeastern Minnesota: problems in the regional late-glacial and postglacial vegetational history. Geological Society of America Bulletin 74(11):1371-1396. Winter, T.C. 1961. A pollen analysis of Kirchner Marsh, Dakota County, Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.1130/0016-7606(1963)74[1371:TPDFSM]2.0.CO;2",13,"temperate deciduous broadleaf forest",0.85948621276178,3423.2566112388,6.85107852627609,-11.5328751277655,22.3451261719138,736.054065811615
4165,8405,12794,"Neotoma","Kirchner Marsh","KIRCHNR2",44.7708499999999,-93.1225499999999,286,"not known","terrestrial, marsh","core","46","Wright, H.E., Jr., T.C. Winter, and H.L. Patten. 1963. Two pollen diagrams from southeastern Minnesota: problems in the regional late-glacial and postglacial vegetational history. Geological Society of America Bulletin 74(11):1371-1396. Winter, T.C. 1961. A pollen analysis of Kirchner Marsh, Dakota County, Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.1130/0016-7606(1963)74[1371:TPDFSM]2.0.CO;2",13,"temperate deciduous broadleaf forest",0.85948621276178,3423.2566112388,6.85107852627609,-11.5328751277655,22.3451261719138,736.054065811615
4166,8406,12795,"Neotoma","Kirk Lake","KIRK",48.233333,-121.616667,190,"not known","lake","core","9","Cwynar, L.C. 1987. Fire and the forest history of the North Cascade Range. Ecology 68(4):791-802.","10.2307/1938350",8,"cool evergreen needleleaf forest",1.78561366442312,3747.23184344827,10.266388612187,3.25752339861028,17.7665869574023,1434.24667196046
4167,8407,19872,"SMPDSv1","Kirkesdalen","N/CJ/KHVII",68.916697,18.966714,200,"not applicable","terrestrial","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.42748110104699,1199.056813595,0.141132338171548,-8.72717129141945,11.4327390835412,890.624684279386
4168,8408,19873,"SMPDSv1","Kirkkosaari","EPDcoretop_E333",60.866667,24.5,84,"not known","terrestrial, bog/fen/swamp","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05842986597579,2238.53973199848,4.06160541976206,-8.01816871800028,16.2101882188335,586.157004478222
4169,8409,5960,"EMBSeCBIO","Kis-Mohos To","Kismohos_kmh-1",48.33724,20.42333,315,"0.01","terrestrial, bog/fen/swamp","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.792754990495858,3260.27308854879,8.42954754796639,-3.54378990309136,18.2819654979466,657.118430452841
4170,8410,12796,"Neotoma","Kitchner Lake","KITCHNER",45.666667,-87.455,237,"not known","lake","core","-21","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.00120525568801,2945.44726766144,5.72715979418459,-10.0026842224224,19.9033201474813,792.4829087472
4170,8410,12797,"Neotoma","Kitchner Lake","KITCHNER",45.666667,-87.455,237,"not known","lake","core","13","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.00120525568801,2945.44726766144,5.72715979418459,-10.0026842224224,19.9033201474813,792.4829087472
4170,8410,12798,"Neotoma","Kitchner Lake","KITCHNER",45.666667,-87.455,237,"not known","lake","core","35","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.00120525568801,2945.44726766144,5.72715979418459,-10.0026842224224,19.9033201474813,792.4829087472
4170,8410,12799,"Neotoma","Kitchner Lake","KITCHNER",45.666667,-87.455,237,"not known","lake","core","46","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.00120525568801,2945.44726766144,5.72715979418459,-10.0026842224224,19.9033201474813,792.4829087472
4171,8411,19874,"SMPDSv1","Kittila","EPDcoretop_E334",65.025,24.683333,8,"0.01","not known","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0389411531662,1853.61310196108,1.58050018044387,-11.7017675692699,15.4020750198481,502.880879547608
4172,8412,19875,"SMPDSv1","Kivijarvi","Bjune_a156",68.1833333333333,21.8,386,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.192117708858,1252.31990095525,-2.34939085461113,-16.2575452145719,12.3487132266993,480.831838167761
4173,8413,19876,"SMPDSv1","Kiviperanlampi","Seppa_b19",66.07,29.82,263,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.33133435338582,1502.52472678031,-0.644710933379602,-14.4396726216692,13.9747703432065,563.355738321782
4174,8414,8136,"EMPDv2","Kizy","Mikishin-Gvozdeva_a199",51.6252777777778,140.446944444444,-1,"282","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.11311498781063,2013.7153251475,-0.844755764698792,-20.9867917063638,16.1799859718117,620.652708724976
4175,8415,19877,"SMPDSv1","Kjerringtjern","Bjune_a112",60.5281489,6.07511495,590,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.7031058458473,1881.08929273045,4.54468978319639,-2.9032039609184,12.4631472018173,1928.24708356058
4176,8416,19878,"SMPDSv1","Kjostveittjonn","Bjune_a231",58.1883333333333,8.24166666666666,10,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.81109005409565,2647.34481669946,6.92998221220571,-1.89252264767824,15.8164078440891,1106.3849651144
4177,8417,5961,"EMBSeCBIO","KL-97","KL-97",40.88,28.67,0,"not applicable","marine","marine core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
4178,8418,17587,"Phelps et al., 2020","Klaarfontein Spring","KLAARF_10",-32.423889,18.494444,8,"not known","not known","not known","42","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.210490505422491,6557.38722732974,17.965444458437702,13.391851337458,22.2837797248664,321.862785647497
4179,8419,19879,"SMPDSv1","Klareso","Odgaard_a4",56.052332,12.555057,50,"0.03","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.985898596849697,2840.86390201067,7.58385880444851,-1.24274040134923,16.4888276063789,652.463195735723
4180,8420,19880,"SMPDSv1","Klautzkesee","Klautzkesee_ss",52.09969,14.5223,124,"0.064","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804813827615235,3265.25222336706,8.7973143061248,-1.29811090373883,18.06774552715,578.976494597195
4181,8421,6985,"EMPDv2","Kleinen Mochowsee","EPDcoretop_E1421",52,14.2,49,"0.25","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.756071934026838,3349.85084929473,9.08457138895509,-0.898132950478771,18.2932116448437,545.250502494344
4182,8422,19881,"SMPDSv1","Kleiner Gollinsee","Kleiner Gollinsee_ss",53.02887,13.5882,58,"0.032","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.796902033968942,3277.38522986064,8.90397534911559,-0.717727122583417,17.9506040274509,560.94418108769
4183,8423,19882,"SMPDSv1","Kleiner Lychensee","Kleiner Lychensee_ss",53.1964,13.2704,55,"0.085","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804998974140472,3260.01857911874,8.8639284104181,-0.644065564377769,17.8587714890019,564.179398703714
4184,8424,19883,"SMPDSv1","Kleiner Petznicksee","Kleiner Petznicksee_ss",53.31142,13.6018,59,"0.051","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81552413796504,3243.77532716667,8.81093285017663,-0.717090984246804,17.8062643778514,570.210935270843
4185,8425,19884,"SMPDSv1","Kleiner Plunzsee","Kleiner Plunzsee_ss",52.99271,13.9359,100,"0.028","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.778510735147408,3375.30064806684,9.15214702328607,-0.939027048135181,18.3499454128554,548.38951168202
4186,8426,19885,"SMPDSv1","Kleiner Rathsburgsee","Kleiner Rathsburgsee_ss",53.20058,13.9394,91,"0.032","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.785803488856327,3344.08424167298,9.06728747185583,-0.925425133689231,18.2281023750706,552.075290340183
4187,8427,19886,"SMPDSv1","Kleiner Tornowsee","Kleiner Tornowsee_ss",52.5795,14.093,48,"0.038","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.777774635949414,3272.90571146718,8.86861250260139,-0.913803204637951,17.9986338715839,555.97546006074
4188,8428,19887,"SMPDSv1","Kleiner Treppelsee","Kleiner Treppelsee_ss",52.13257,14.4585,70,"0.054","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.767333096130849,3313.41248263573,8.9585335423572,-1.10083261383783,18.2142908651215,553.573314943582
4189,8429,19888,"SMPDSv1","Kleiner Trinsee","Kleiner Triensee_ss",53.15804,13.8674,28,"0.011","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.807300121196629,3191.22960506572,8.64000927665479,-0.881018107031589,17.7166200839399,571.745905957925
4190,8430,19889,"SMPDSv1","Kleiner Zermittensee","Kleiner Zermittensee_ss",53.14401,12.8227,71,"0.058","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803837033066938,3291.21406405932,8.96846550038049,-0.49597056605137,17.8920699766123,559.059212458088
4191,8431,19890,"SMPDSv1","Kleinsee","Kleinsee_ss",51.94195,14.5134,72,"0.14","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.763884130583938,3320.16083824572,8.97701194533026,-1.10213284265944,18.2421872480096,552.866839453624
4192,8432,7446,"EMPDv2","Klemm_a1","Klemm_a1",71.9488,103.21322,5,"0.035","not known","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.917425951365903,912.789670188581,-13.4191663341504,-34.7152244689541,12.9016210715248,256.080343421656
4193,8433,7455,"EMPDv2","Klemm_a10","Klemm_a10",72.39775,102.28844,79,"0.01","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.94267449251641,889.177766010382,-13.5662159511509,-34.8518169586015,12.702438204988,260.850295140166
4194,8434,7456,"EMPDv2","Klemm_a11","Klemm_a11",72.30714,102.37464,39,"0.0104","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.938309282597523,898.834104336178,-13.4601879451776,-34.6563837565268,12.7833776243199,259.818955649377
4195,8435,7457,"EMPDv2","Klemm_a12","Klemm_a12",72.24454,102.23571,51,"0.039","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.939046305272202,909.191560891222,-13.3214985420785,-34.5300379379349,12.8854580268867,261.631014733737
4196,8436,7458,"EMPDv2","Klemm_a13","Klemm_a13",72.30713,102.37464,78,"0.072","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.94028996021736,892.221797121212,-13.5381011205351,-34.8318209196789,12.731093930011,260.850292818065
4197,8437,7459,"EMPDv2","Klemm_a14","Klemm_a14",72.255,102.21278,48,"0.1","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.942072882134799,901.007985284826,-13.4029299519816,-34.5907598353854,12.8065333212646,261.293206792444
4198,8438,7460,"EMPDv2","Klemm_a15","Klemm_a15",72.25769,102.21564,53,"0.125","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.94253285162649,899.667662792878,-13.4175479386574,-34.6164925039491,12.7954616545899,261.428859386426
4199,8439,7447,"EMPDv2","Klemm_a2","Klemm_a2",71.83622,102.88289,80,"0.032","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.924821265122778,907.469185481067,-13.4354850832173,-34.8482666670142,12.8720070398033,260.301492956963
4200,8440,7448,"EMPDv2","Klemm_a3","Klemm_a3",71.22469,101.02542,74,"0.008","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.953092919748721,945.134749193474,-12.8894104084925,-34.3967786933916,13.2537910908372,272.415509908362
4201,8441,7449,"EMPDv2","Klemm_a4","Klemm_a4",70.66744,97.71586,103,"0.045","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.09847786970329,970.9577103653,-12.3346519887536,-34.2296076131752,13.4036056342715,313.42499348168
4202,8442,7494,"EMPDv2","Klemm_a49","Klemm_a49",73.17769,124.5877,10,"0.96","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.77707412928781,962.201740740968,-16.4089673810967,-44.1961263989202,12.6859560919618,242.449828999604
4203,8443,7450,"EMPDv2","Klemm_a5","Klemm_a5",70.66725,97.72353,107,"0.015","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.09988301839292,969.01933639915,-12.3519490431217,-34.2490861223174,13.3871612430792,313.773235161423
4204,8444,7495,"EMPDv2","Klemm_a50","Klemm_a50",73.19671,124.62027,4,"0.715","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.774230942100413,961.585479754929,-16.4020142591713,-44.1671060201759,12.6767675025992,241.287196614826
4205,8445,7496,"EMPDv2","Klemm_a51","Klemm_a51",72.81233,124.91161,22,"0.57","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.795247314101257,989.028872194059,-16.5993217734148,-44.9139269362664,12.9978140959043,251.105482499786
4206,8446,7498,"EMPDv2","Klemm_a53","Klemm_a53",72.37648,126.48923,18,"1.74","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.801798352548317,1031.80217799027,-16.7764851054774,-45.8060936721171,13.3334715242746,257.889831483375
4207,8447,7500,"EMPDv2","Klemm_a55","Klemm_a55",70.20945,125.26539,78,"0.02","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.830459962099392,1185.2149605224,-14.7876751570761,-43.6214264819134,14.4623992664064,296.439380800904
4208,8448,7501,"EMPDv2","Klemm_a56","Klemm_a56",70.70295,125.07203,120,"0.51","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.843119174499282,1130.23309491326,-15.2866924165345,-44.0721051926825,14.0548588936465,294.401120439626
4209,8449,7502,"EMPDv2","Klemm_a57","Klemm_a57",69.8878,124.58562,61,"1.6","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.807899854324676,1216.60093199557,-14.3052638844011,-42.9315411604937,14.7102095994609,292.956046579317
4210,8450,7503,"EMPDv2","Klemm_a58","Klemm_a58",69.40485,123.82792,83,"0.72","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.786142865806038,1218.62024657018,-14.0527929367467,-42.418581549602,14.7419365195286,288.678300797861
4211,8451,7504,"EMPDv2","Klemm_a59","Klemm_a59",70.92526,125.55732,145,"0.8","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.858313149717909,1084.75782118196,-15.8739683192977,-44.7965190976556,13.6981668090682,294.081660329896
4212,8452,7451,"EMPDv2","Klemm_a6","Klemm_a6",70.67011,97.72728,95,"0.036","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.09493336218155,974.984524184765,-12.3008268197936,-34.1924511743822,13.4387534175731,312.555017833888
4213,8453,7452,"EMPDv2","Klemm_a7","Klemm_a7",70.67261,97.72633,6,"0.019","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.05893253555936,1019.62951414225,-11.9190836941558,-33.7697740676058,13.8209703666783,303.723651801385
4214,8454,7453,"EMPDv2","Klemm_a8","Klemm_a8",70.90111,97.64917,139,"0.102","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.11809396908149,939.465499914848,-12.6006446566125,-34.4405655695287,13.1141662994532,315.322950402832
4215,8455,7454,"EMPDv2","Klemm_a9","Klemm_a9",72.39886,102.28875,60,"0.03","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.941604146666734,892.949519489146,-13.5220962409692,-34.7606391588095,12.7333050411949,260.38148453701
4216,8456,7408,"EMPDv2","Klocie Ostrowickie Reserve, Drawienski National Park","Galka_a4",53.1034944444444,15.98305,68,"1.1526","terrestrial","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.802393217334941,3137.58988846767,8.40067162529271,-1.60172172798075,17.6667212003791,574.793510349754
4217,8457,19891,"SMPDSv1","Klotjarnen","EPDcoretop_E1035",61.816667,16.533333,235,"0.01","lake","lacustrine core top","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21564118036008,1786.23484194282,2.19849841922857,-9.43060407598509,13.8493566952717,627.996402688764
4218,8458,11354,"Neotoma","Klotz Lake (Cole 1969)","HC009",49.79568,-85.86885,280,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.12204550999767,2054.12881712084,0.176627575269249,-18.9643102299535,16.4928500350768,736.920769655902
4219,8459,19892,"SMPDSv1","Klukva","Klukva_SS",53.8343,36.2504,209,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.893272998986847,2747.81779360656,5.20657191220442,-9.51091712206488,18.2804348211816,635.570283164605
4220,8460,9315,"EMPDv2","Klukva area -1","Novenko_c16",53.8348,36.2525,208,"0.01","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.894628142623009,2746.23070081361,5.20373986675254,-9.50900213505166,18.2743199646419,636.176861285981
4221,8461,9316,"EMPDv2","Klukva area -2","Novenko_c17",53.8354,36.2529,215,"0.01","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.885169604831643,2757.29180418712,5.2229074130188,-9.52366178586443,18.3179384267911,631.883829604479
4222,8462,9317,"EMPDv2","Klukva area -3","Novenko_c18",53.8356,36.2518,210,"0.01","terrestrial, soil","litter","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.891943804686247,2749.37361212229,5.20918342821889,-9.51316713479935,18.2866815354143,634.959078554589
4223,8463,9318,"EMPDv2","Klukva area -4","Novenko_c19",53.8343,36.2504,209,"0.01","terrestrial, soil","litter","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.893272998986847,2747.81779360656,5.20657191220442,-9.51091712206488,18.2804348211816,635.570283164605
4224,8464,19893,"SMPDSv1","Kluvka Peatland","Kluvka_core top",53.8347222222222,36.2525,201,"0.01","terrestrial, bog/fen/swamp","peat core top","-31","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.904165147097076,2735.15739050123,5.18451574057226,-9.4944048667407,18.2306883320756,640.471489353639
4225,8465,9501,"EMPDv2","Klyazma","Klyazma-760, №14 (Novenko_c148)",55.8564,38.2169,132,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.940065244677028,2641.24484106334,4.69826149204769,-10.3003680629389,18.268871191589,627.940593558642
4225,8466,9502,"EMPDv2","Klyazma","Klyazma-762, №1а (Novenko_c149)",55.8556,38.2186,130,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.938545347793546,2641.52344817181,4.69649742740732,-10.3095998624037,18.2732262187372,626.832697380279
4226,8467,19894,"SMPDSv1","Knappmorasjon","Seppa_b158",59.8,15.92,96,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04579413520864,2197.54908897867,4.69187634288028,-5.29124105304543,15.1967405040228,605.277940497305
4227,8468,15551,"Neotoma","Knickerbocker Lake","DCG03",42.47,-73.68,87,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.23518273912085,3816.43793980854,9.75003270505936,-4.2574042081811,22.5664003422801,1090.27533905437
4228,8469,9106,"EMPDv2","Knizeci plane, Sumava","Svobodova_a21",48.954722,13.634722,1060,"0.05","terrestrial, bog/fen/swamp","peat","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.84608712584277,2153.2042861537,5.0502192202975,-3.95932386783613,13.5977119373864,1350.3843126059
4229,8470,14916,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-50.371","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14917,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-40.6","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14918,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-30.833","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14919,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-21.067","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14920,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-11.3","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14921,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","-1.533","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14922,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","8.234","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14923,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","18","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14924,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","27.767","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14925,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","37.534","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4229,8470,14926,"Neotoma","Knob Hill Pond","KNOBHIL",44.36035,-72.37295,378,"not known","lake","core","47.301","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.50335497254035,2669.57831157276,4.85391792634412,-10.2443762969034,18.4436276771123,1137.97278934452
4230,8471,9827,"Herzschuh et al., 2019","Knolboo Nuur. 11A","Knolboo Nuur. 11A",48.58128,95.42008,1563,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.24926941200153999,1976.59662625136,-3.05533916223605,-26.2762910314344,15.9753901639289,218.225281599295
4231,8472,784,"Australian pollen","Knowels Cave","Knowels Cave",-31.117,130.633,100,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.152303501425383,6600.5593552093,18.0837242608474,11.5472107812171,24.0358646865875,226.516746116212
4232,8473,16,"AMSS","Kogyae","Plot 1_FT71",7.26164,-1.15006,197,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",2,"tropical semi-evergreen broadleaf forest",0.868991320239919,9795.54568203187,26.8371114576216,25.1706332440015,28.9526035201579,1245.584100043
4232,8474,14,"AMSS","Kogyae","Plot 1_FT73",7.26164,-1.15006,197,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",2,"tropical semi-evergreen broadleaf forest",0.868991320239919,9795.54568203187,26.8371114576216,25.1706332440015,28.9526035201579,1245.584100043
4232,8475,12,"AMSS","Kogyae","Plot 1_FT76",7.26164,-1.15006,197,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",2,"tropical semi-evergreen broadleaf forest",0.868991320239919,9795.54568203187,26.8371114576216,25.1706332440015,28.9526035201579,1245.584100043
4232,8476,13,"AMSS","Kogyae","Plot 1_FT77",7.26164,-1.15006,197,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",2,"tropical semi-evergreen broadleaf forest",0.868991320239919,9795.54568203187,26.8371114576216,25.1706332440015,28.9526035201579,1245.584100043
4232,8477,15,"AMSS","Kogyae","Plot 1_FT79",7.26164,-1.15006,197,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",2,"tropical semi-evergreen broadleaf forest",0.868991320239919,9795.54568203187,26.8371114576216,25.1706332440015,28.9526035201579,1245.584100043
4232,8478,19,"AMSS","Kogyae","Plot 2_TT61",7.30214,-1.18061,190,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.86236899513060306,9816.83189326983,26.8954298445749,25.2246494002156,29.0099316066056,1242.51460961717
4232,8479,17,"AMSS","Kogyae","Plot 2_TT63",7.30214,-1.18061,190,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.86236899513060306,9816.83189326983,26.8954298445749,25.2246494002156,29.0099316066056,1242.51460961717
4232,8480,18,"AMSS","Kogyae","Plot 2_TT65",7.30214,-1.18061,190,"not applicable","terrestrial","pollen trap","-64","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.86236899513060306,9816.83189326983,26.8954298445749,25.2246494002156,29.0099316066056,1242.51460961717
4232,8481,20,"AMSS","Kogyae","Plot 2_TT67",7.30214,-1.18061,190,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.86236899513060306,9816.83189326983,26.8954298445749,25.2246494002156,29.0099316066056,1242.51460961717
4232,8482,21,"AMSS","Kogyae","Plot 2_TT69",7.30214,-1.18061,190,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.86236899513060306,9816.83189326983,26.8954298445749,25.2246494002156,29.0099316066056,1242.51460961717
4232,8483,22,"AMSS","Kogyae","Plot 3_ST51",7.30114,-1.16494,186,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.859445087884986,9826.84368679101,26.9228594158658,25.2526219290723,29.0303074496457,1241.36961560053
4232,8484,23,"AMSS","Kogyae","Plot 3_ST53",7.30114,-1.16494,186,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.859445087884986,9826.84368679101,26.9228594158658,25.2526219290723,29.0303074496457,1241.36961560053
4232,8485,24,"AMSS","Kogyae","Plot 3_ST55",7.30114,-1.16494,186,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.859445087884986,9826.84368679101,26.9228594158658,25.2526219290723,29.0303074496457,1241.36961560053
4232,8486,25,"AMSS","Kogyae","Plot 3_ST57",7.30114,-1.16494,186,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.859445087884986,9826.84368679101,26.9228594158658,25.2526219290723,29.0303074496457,1241.36961560053
4232,8487,26,"AMSS","Kogyae","Plot 3_ST59",7.30114,-1.16494,186,"not applicable","terrestrial","pollen trap","-65","Julier, A.C.M., Jardine, P.E., Adu-Bredu, S., Coe, A.L., Duah-Gyamfi, A., Fraser, W.T., Lomax, B.H., Malhi, Y., Moore, S., Owusu-Afriyie, K. and Gosling, W.D., 2018. The modern pollen–vegetation relationships of a tropical forest–savannah mosaic landscape, Ghana, West Africa. Palynology 42(3), pp.324-338.","10.1080/01916122.2017.1356392",18,"tropical savanna",0.859445087884986,9826.84368679101,26.9228594158658,25.2526219290723,29.0303074496457,1241.36961560053
4233,8488,10595,"BIOME6000 Japan","Kojonuma","D10004",36.233333,139.55,8,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.58560590294048,5303.84600584359,14.5310849475167,3.99892499298599,26.0727816474311,1530.85988813238
4234,8489,19895,"SMPDSv1","Kokkaer Vand","Odgaard_a8",57.067344,8.659108,50,"0.05","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46551751495748,2741.63557819159,7.37575645469958,-0.838893172498897,15.6528362029844,911.76028038758
4235,8490,8115,"EMPDv2","Kolendu","Mikishin-Gvozdeva_a178",53.7694444444444,142.928611111111,0,"15.4","coastal, lagoon","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26633034038336,1809.63031391639,-1.04863281787013,-19.4132127376452,15.147832719995,649.112033502369
4236,8491,19896,"SMPDSv1","Kollsjon","Seppa_b144",57.75,12.32,131,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13997754306751,2548.85753545405,6.39101321745473,-2.8882384659705,15.876794001272,714.85742204113
4237,8492,7425,"EMPDv2","Kolltveittorn","Hjelle_a14",60.2633361,6.1316694,73,"0.006","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",4.48972702133187,2607.16963072193,7.14293049512858,0.843565928832226,14.0462309220643,2353.25962870321
4238,8493,9421,"EMPDv2","Kologriv-1","Novenko_c265",58.9364,44.2069,194,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09177849830394,2192.56027388202,2.16748312814871,-14.1974126124123,17.3502148649204,626.996496657703
4239,8494,9422,"EMPDv2","Kologriv-2","Novenko_c266",58.9447,43.8507,186,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.08534868405544,2219.43121304634,2.30872097159402,-13.9989060069533,17.4209222062595,627.213149632543
4240,8495,17338,"Neotoma","Kolpack","TW041",45.179167,-88.989444,364,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.980819693878509,2906.55898605009,5.22272295509842,-11.408110546161,19.9750605693437,782.617461543985
4241,8496,23169,"SMPDSv1","Kolstoltjonn","Bjune_a222",58.2216666666666,8.025,18,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.88774358821282,2625.97599975465,6.8581247189523,-1.96563429080571,15.7285605717682,1150.94917400297
4242,8497,19897,"SMPDSv1","Koltjern","Bjune_a62",61.00793813,9.26261166,800,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.42971952269802,1489.74275147832,1.24039171327854,-9.70243826671134,11.8752376917021,742.156457738024
4243,8498,7545,"EMPDv2","Kolyma River","Klemm_a100",67.455,144.331,48,"0.15","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.623539659941476,1177.9975575597,-14.2002089466888,-40.7460108640304,13.4789655784996,215.095263466124
4243,8499,7546,"EMPDv2","Kolyma River","Klemm_a101",67.452,144.344,35,"1.8","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.621605256881394,1185.55258245751,-14.1321219760278,-40.6639883614909,13.5390007110531,214.636544723385
4243,8500,7547,"EMPDv2","Kolyma River","Klemm_a102",67.443,144.223,57,"4.8","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.61270973579613,1184.46197852887,-14.3541302818486,-41.2453825732835,13.5424733993571,211.764184030621
4243,8501,7548,"EMPDv2","Kolyma River","Klemm_a103",67.451,144.026,54,"0.6","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.608207752695075,1189.20547141571,-14.3741790557435,-41.3627128996812,13.5839962624016,210.366861282588
4243,8502,7549,"EMPDv2","Kolyma River","Klemm_a104",68.92719,161.77335,1,"0.48","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.566811447536881,842.143650668894,-12.3585816698666,-31.306382910341,10.116481996043,176.393886441672
4243,8503,7550,"EMPDv2","Kolyma River","Klemm_a105",68.92239,161.71888,3,"0.6","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.563601193736834,841.117912020387,-12.4401528296677,-31.4857855301284,10.1218017979581,175.530410315151
4243,8504,7551,"EMPDv2","Kolyma River","Klemm_a106",68.89006,161.3673,0,"0.36","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.56161178917569,848.979880786286,-12.468304574611,-31.6183489879753,10.2160650044547,175.381943847991
4243,8505,7552,"EMPDv2","Kolyma River","Klemm_a107",68.78121,161.48701,23,"0.0375","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.568609380731809,852.338467267471,-12.4947148676228,-31.6155256256827,10.2965376880782,178.114183089376
4243,8506,7553,"EMPDv2","Kolyma River","Klemm_a108",68.7476,161.47534,38,"0.06","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.574993094127595,858.870034894152,-12.488039555241,-31.5996917426515,10.3920236881912,180.591722211473
4243,8507,7554,"EMPDv2","Kolyma River","Klemm_a109",68.65795,160.1794,3,"0.0875","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.561754278301519,914.896446188583,-12.6745897624542,-32.5799869424334,11.040305119042,179.803046254718
4243,8508,7555,"EMPDv2","Kolyma River","Klemm_a110",68.62459,161.70158,35,"0.018","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.576297179418785,867.48362457653,-12.4035431102699,-31.4780219218006,10.4739854913977,181.688632857711
4243,8509,7556,"EMPDv2","Kolyma River","Klemm_a111",68.61342,159.97344,11,"0.06","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.565870377411545,919.704892191657,-12.689725036991,-32.6595030581187,11.102244798695,181.712059059306
4243,8510,7527,"EMPDv2","Kolyma River","Klemm_a82",69.32594,161.02836,1,"0.2","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.546600194233304,805.654280286655,-12.8204026682344,-32.1010287535258,9.77093760625087,167.906056323325
4243,8511,7528,"EMPDv2","Kolyma River","Klemm_a83",69.30808,161.649,4,"0.0024","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.550280169463632,769.133898867721,-12.7488166182417,-31.6340648262527,9.33866038548897,167.171483500233
4243,8512,7529,"EMPDv2","Kolyma River","Klemm_a84",69.26501,160.97171,5,"not known","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.548376100458389,812.646394271292,-12.8178681329448,-32.1267605769108,9.86108817548284,168.931434433018
4243,8513,7530,"EMPDv2","Kolyma River","Klemm_a85",69.26467,161.66758,0,"0.025","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.55011904035529,773.976753696068,-12.7185556462329,-31.6150067552755,9.38463161450631,167.422827013954
4243,8514,7531,"EMPDv2","Kolyma River","Klemm_a86",69.23863,160.90936,1,"0.03","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.550053353052697,833.786576390379,-12.7276630048956,-32.0705911847648,10.0922877200002,170.363322589131
4243,8515,7532,"EMPDv2","Kolyma River","Klemm_a87",69.20138,161.49328,2,"0.07","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.55787125684421,814.781146111444,-12.5791384904723,-31.6216689697264,9.83207145751147,171.879125005128
4243,8516,7533,"EMPDv2","Kolyma River","Klemm_a88",69.11126,160.87888,1,"16","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.551831635475844,844.786527405212,-12.6886881667968,-32.0561710464192,10.2173857232147,171.718668882707
4243,8517,7534,"EMPDv2","Kolyma River","Klemm_a89",69.08942,160.89695,3,"2","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.55300206381385,846.217041910402,-12.682142670009,-32.0464884198994,10.2356497910513,172.212776388418
4243,8518,7535,"EMPDv2","Kolyma River","Klemm_a90",69.07654,160.95008,1,"0.0012","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.552705876386397,846.540501740653,-12.666533179072,-32.0176767747524,10.2340455953031,172.136671084302
4243,8519,7536,"EMPDv2","Kolyma River","Klemm_a91",68.94287,161.36068,0,"0.117","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.56077061909043,843.763942072448,-12.4897251246667,-31.6303840051814,10.1578523795478,174.748608096431
4243,8520,7537,"EMPDv2","Kolyma River","Klemm_a92",69.104,145.225,47,"91","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.678752324964944,1052.44347912933,-14.4399873745314,-39.5020157488211,12.5236454478259,218.631393062626
4243,8521,7538,"EMPDv2","Kolyma River","Klemm_a93",68.582,145.403,35,"0.24","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.678425711739429,1081.60975931023,-14.0904868871503,-39.0470453244357,12.7220386225246,223.125579999515
4243,8522,7539,"EMPDv2","Kolyma River","Klemm_a94",68.455,145.47,24,"2.24","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.676811772433036,1089.07569961933,-13.9984063961205,-38.9129976758806,12.7764221488242,223.445225169025
4243,8523,7540,"EMPDv2","Kolyma River","Klemm_a95",68.393,145.521,38,"0.1","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.676351253905136,1086.45874738015,-14.0474772904877,-39.0161621479692,12.7526162010107,223.724950132997
4243,8524,7541,"EMPDv2","Kolyma River","Klemm_a96",68.354,146.094,27,"3.2","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.688353517390915,1060.14965100702,-13.9401672232318,-38.3637881600301,12.5311282695126,225.88670545364
4243,8525,7542,"EMPDv2","Kolyma River","Klemm_a97",68.334,146.101,31,"6","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.687574448687387,1061.12134707853,-13.9437846278749,-38.3909383105358,12.5373746853331,225.933143010922
4243,8526,7543,"EMPDv2","Kolyma River","Klemm_a98",68.333,146.142,35,"0.12","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.687411685480704,1060.32542312082,-13.9485624775848,-38.395077420653,12.5297534296861,225.971841471112
4243,8527,7544,"EMPDv2","Kolyma River","Klemm_a99",68.184,145.302,26,"0.06","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.661055675209019,1129.57187955051,-13.8775604787853,-39.1943453127883,13.0822311236818,222.396581641608
4244,8528,10625,"BIOME6000 Japan","Komagaminekita","KmgmnkC0",40.61,140.86,1250,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.10521041412337,2622.62247740666,5.59193576805597,-6.81435862869362,18.7162193466841,1539.24614463654
4245,8529,10626,"BIOME6000 Japan","Komaganenishi","KmgmnnC0",40.61,140.86,1300,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.12281231041126,2584.8156462709,5.43043846829925,-6.9931192365777,18.5496521495082,1545.44257358026
4246,8530,17126,"Neotoma","Komaktarvik Lake","SKS155",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8531,17133,"Neotoma","Komaktarvik Lake","SKS156",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8532,17125,"Neotoma","Komaktarvik Lake","SKS157",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8533,17132,"Neotoma","Komaktarvik Lake","SKS158",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8534,17135,"Neotoma","Komaktarvik Lake","SKS159",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8535,17130,"Neotoma","Komaktarvik Lake","SKS160",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8536,17127,"Neotoma","Komaktarvik Lake","SKS161",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8537,17134,"Neotoma","Komaktarvik Lake","SKS162",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8538,17128,"Neotoma","Komaktarvik Lake","SKS163",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8539,17131,"Neotoma","Komaktarvik Lake","SKS164",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4246,8540,17129,"Neotoma","Komaktarvik Lake","SKS165",59.18,-64.12,100,"not known","lake","surface sample","Modern","Unpublished data",,31,"tundra",1.68108926604964,739.915401871832,-5.90541963502807,-20.9374387093384,8.29137023415759,646.82676009252
4247,8541,785,"Australian pollen","Komanimambuno","Komanimambuno_a",-5.8,145.0667,2740,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.28280590409982,6641.15382642866,18.1949419902155,17.1391695032618,18.8198108065691,1799.54648232385
4247,8542,786,"Australian pollen","Komanimambuno","Komanimambuno_b",-5.8,145.0667,2740,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.28280590409982,6641.15382642866,18.1949419902155,17.1391695032618,18.8198108065691,1799.54648232385
4247,8543,787,"Australian pollen","Komanimambuno","Komanimambuno_c",-5.8,145.0667,2740,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.28280590409982,6641.15382642866,18.1949419902155,17.1391695032618,18.8198108065691,1799.54648232385
4248,8544,7024,"EMPDv2","Komoranske jezero","EPDcoretop_E1589",50.5,13.5,231,"20","terrestrial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.758532763065743,3245.24851628044,8.71964442600117,-1.40572823442088,18.0296913956102,552.948761643551
4249,8545,7075,"EMPDv2","Konergino","EPDcoretop_E1873",65.9,-178.9,10,"not known","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51027341246654,636.551892392007,-7.30094587010467,-20.5464148215067,7.40406678374123,469.08521727026
4250,8546,19898,"SMPDSv1","Koobassaare","Seppa_b122",57.67,26.4,83,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.994928971919576,2491.69374853475,5.14344996367401,-7.05728873694984,16.6679921630766,616.783232774129
4251,8547,19899,"SMPDSv1","Korpilampi","Seppa_b43",62.62,30.77,153,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17628319635768,1974.00112121483,2.03039189500241,-12.1102317089593,16.0492985922101,606.190647225455
4252,8548,9519,"EMPDv2","Kosa-glafirovskaya","Novenko_c123",46.7177,38.4087,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.598973252621967,4184.98950137934,11.1953963915051,-2.08593468395538,23.4582243920551,595.313706158312
4252,8549,9520,"EMPDv2","Kosa-glafirovskaya","Novenko_c124",46.7299,38.3983,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.598787839799222,4183.58388058516,11.1900870184926,-2.0948862022572,23.455109166128,594.969175276088
4252,8550,9521,"EMPDv2","Kosa-glafirovskaya","Novenko_c125",46.7299,38.3979,25,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.598407323562938,4179.22514637249,11.1740787919829,-2.11998704954047,23.4442794350526,594.390617848834
4253,8551,19900,"SMPDSv1","Kosa-kamyshevatskaya","kosa-kamyshevatskaya_SS (Novenko_c122)",46.3731,37.9739,133,"0.01","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.550481898690402,3733.91315302918,9.45710203354479,-4.6039045407319,22.1144702200724,528.77783905952106
4254,8552,10570,"BIOME6000 Japan","Koseinuma","KosiC0",35.35,134.52,1470,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",3.82141148969937,2345.6319041987,4.21941924632415,-8.34225210384454,17.3766584754791,2668.77670615233
4255,8553,17365,"Neotoma","Koshkonong","TW070",42.9,-89,237,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.95979445412683,3584.75280129859,8.2526134312573,-8.00721483059949,22.3167753509869,853.935016602476
4256,8554,788,"Australian pollen","Kosipe","Kosipe",-8.4667,147.2,1960,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",1.79023368191646,7333.8872039301,20.092841654603,18.8517314672015,20.9018977652155,2580.56994147251
4256,8554,789,"Australian pollen","Kosipe","Kosipe",-8.4667,147.2,1960,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",1.79023368191646,7333.8872039301,20.092841654603,18.8517314672015,20.9018977652155,2580.56994147251
4256,8554,790,"Australian pollen","Kosipe","Kosipe",-8.4667,147.2,1960,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",1.79023368191646,7333.8872039301,20.092841654603,18.8517314672015,20.9018977652155,2580.56994147251
4257,8555,8467,"EMPDv2","Kosmovka peatland","Novenko_c7",53.6706,38.5906,155,"0.02","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.754052007550521,2851.83424954942,5.23527688812066,-10.1875309755935,19.0894145620528,548.426144449591
4258,8556,19901,"SMPDSv1","Kostenki","Kostenki_SS",51.4041,39.0514,88,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.596338004819177,3272.66682643273,6.96655253905201,-8.64412726987406,20.8906349503202,488.368034147146
4258,8557,9412,"EMPDv2","Kostenki","Novenko_c21",51.4061,39.0467,167,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.678526361150773,3111.88511362382,6.44985872855138,-8.81752001237941,20.0243273896373,540.455222314262
4258,8558,9413,"EMPDv2","Kostenki","Novenko_c22",51.4078,39.0467,166,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.677504185777755,3113.80439530399,6.45587634241535,-8.81591938088567,20.0348603368691,539.807221196824
4258,8559,9414,"EMPDv2","Kostenki","Novenko_c23",51.4106,39.0481,168,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.679704309326123,3109.55518397578,6.44185026539979,-8.8214611936858809,20.0122222915344,541.134838623424
4258,8560,9415,"EMPDv2","Kostenki","Novenko_c24",51.4041,39.0514,165,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.676312112632917,3116.05208366415,6.46334116122545,-8.81287552397281,20.0467944882658,539.102677307915
4259,8561,19902,"SMPDSv1","Kosti","BUL/MF/09",42.076667,27.766667,240,"not applicable","terrestrial","pollen trap","-56","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.57137490777991,4484.02028273716,12.2849870759922,1.62702105726495,22.2461753190151,598.886581243028
4260,8562,8034,"EMPDv2","Kostroma_1","Mikishin-Gvozdeva_a96",47.3094444444444,142.0225,2,"not known","fluvial","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67286905453323,2202.47656443151,2.69561689006561,-12.4955223846473,16.9208728795234,1017.10643725281
4261,8563,8035,"EMPDv2","Kostroma_2","Mikishin-Gvozdeva_a97",47.305,142.01,4,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67062024653583,2201.79270831555,2.69138444376395,-12.5009096231915,16.9180872035271,1016.13503978201
4262,8564,791,"Australian pollen","Koumac","Koumac Northeast_a",-20.65,164.283,2,"not known","coastal, other","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.17024972716371,8517.45353727884,23.3354891432297,20.4235932557677,25.980653799635,1670.35017622933
4262,8565,792,"Australian pollen","Koumac","Koumac Northeast_b",-20.65,164.283,2,"not known","coastal, other","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.17024972716371,8517.45353727884,23.3354891432297,20.4235932557677,25.980653799635,1670.35017622933
4263,8566,19903,"SMPDSv1","Kovozero","Kovozero_SS",63.2881,42.25,31,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15976523951802,1900.04121487474,0.998673949499891,-15.0786048557233,16.3279607917739,565.273083250868
4263,8567,9409,"EMPDv2","Kovozero","Novenko_c92",63.3022,42.3233,32,"0.01","terrestrial","moss polster or moss","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16142983973857,1900.02722069466,0.993791488146808,-15.0944583876643,16.3302409979184,565.734129713164
4263,8568,9410,"EMPDv2","Kovozero","Novenko_c93",63.3486,42.3622,115,"0.01","terrestrial","moss polster or moss","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22168226903002,1856.11004269997,0.703032347978566,-15.4703364674125,16.1230838396898,592.543031930059
4263,8569,9411,"EMPDv2","Kovozero","Novenko_c94",63.2881,42.25,31,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15976523951802,1900.04121487474,0.998673949499891,-15.0786048557233,16.3279607917739,565.273083250868
4264,8570,6020,"EMBSeCBIO","Koycegiz Golu","Koycegiz Golu Bottema70 Core_10",36.875,28.641667,20,"52","lake","core","28","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.454206865349308,6800.14055792229,18.6305220764994,10.6061401932232,27.7724079130431,709.835210886582
4264,8571,6019,"EMBSeCBIO","Koycegiz Golu","Koycegiz Golu Bottema70 Core_5",36.875,28.641667,20,"52","lake","core","1","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.454206865349308,6800.14055792229,18.6305220764994,10.6061401932232,27.7724079130431,709.835210886582
4265,8572,19904,"SMPDSv1","Kozli","EPDcoretop_E1043",49.376389,14.025833,460,"0.001","terrestrial, bog/fen/swamp","peat core top","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.89544352344426,3033.06341954066,7.96380339274519,-2.41178731264776,17.340659014854,674.433929439944
4266,8573,6492,"EMPDv2","kp1","Binney2017_E2889",69.05,35.04,90,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.37989057985929,1265.22541197476,-0.823315286040432,-12.4169441623559,12.3196564562039,499.878055700569
4267,8574,6493,"EMPDv2","kp10","Binney2017_E2890",68.83,35.33,131,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.43057651650757,1249.63344767561,-1.04144924504856,-12.8964081675029,12.2694796390965,523.116138880991
4268,8575,6494,"EMPDv2","kp11","Binney2017_E2891",68.88,34.29,200,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.48835864654824,1288.56159523719,-0.937241001156223,-12.8837091476586,12.5357276699435,565.586415138788
4269,8576,6495,"EMPDv2","kp12","Binney2017_E2892",68.44,35.33,180,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42924327279867,1294.55350972935,-0.981784326770326,-13.2264386710692,12.6108944271069,547.6658353585
4270,8577,6496,"EMPDv2","kp14","Binney2017_E2894",68.43,35.35,180,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42924704200751,1294.52251495557,-0.98348810900684,-13.2324233626155,12.6111363724991,547.786295759693
4271,8578,6497,"EMPDv2","kp15","Binney2017_E2895",68.41,35.29,180,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42629055517745,1296.60245333989,-0.971848028818828,-13.2196199367597,12.6233532661027,547.335601959606
4272,8579,6498,"EMPDv2","kp16","Binney2017_E2896",68.39,35.31,200,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.44400728078386,1298.27095427798,-1.00901571038224,-13.334624112168,12.6529827054252,558.646765731007
4273,8580,6499,"EMPDv2","kp17","Binney2017_E2897",68.39,35.3,200,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.4437906064031,1298.41221723805,-1.00781024778695,-13.332233769653,12.6535985956176,558.583401605934
4274,8581,6500,"EMPDv2","kp19","Binney2017_E2899",68.4,35.35,260,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.49709322412778,1302.60672767122,-1.12026404664999,-13.6661060559576,12.7379241973108,592.424176747031
4275,8582,6501,"EMPDv2","kp2","Binney2017_E2900",69.08,35.05,54,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.34832152886683,1259.18009011977,-0.768635233648019,-12.211125506274,12.2475513945343,480.925113931521
4276,8583,6502,"EMPDv2","kp27","Binney2017_E2907",68.02,34.51,200,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42698085968851,1336.36375758074,-0.848253315670053,-13.2336264477663,12.8629129074518,564.322787635371
4277,8584,6503,"EMPDv2","kp31","Binney2017_E2911",68.87,35.64,120,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.43830553724657,1234.8748458583,-1.10250854061701,-12.9339375519162,12.158511840583,519.388228792261
4278,8585,6504,"EMPDv2","kp32","Binney2017_E2912",68.82,35.41,160,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.45160990626208,1258.41150413852,-1.07287095002476,-13.0733810341489,12.3577553336812,538.835414914697
4279,8586,6505,"EMPDv2","kp4","Binney2017_E2913",69.08,36.01,74,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.42481148113924,1206.25436842877,-1.1729788802891,-12.875436006275,11.9190182345561,495.785372477918
4280,8587,6506,"EMPDv2","kp5","Binney2017_E2914",69.07,35.95,85,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.43011899865856,1212.63778621003,-1.1670197868047,-12.9207412627396,11.9774033112978,501.717683803219
4281,8588,6507,"EMPDv2","kp6","Binney2017_E2915",69.07,35.95,74,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.42314322185233,1207.48522761582,-1.16427818021052,-12.8615791570882,11.9276176014601,495.664597310953
4282,8589,6508,"EMPDv2","kp7","Binney2017_E2916",69.07,35.94,74,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.42294335493192,1207.66155968629,-1.16294215676202,-12.8592856847978,11.9288204130448,495.64721031823
4283,8590,6509,"EMPDv2","kp8","Binney2017_E2917",69.02,35.86,82,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.42342339111437,1214.14306671247,-1.14876357966497,-12.8822639498662,11.9847045705716,499.710349859701
4284,8591,6510,"EMPDv2","kp9","Binney2017_E2918",68.82,35.32,130,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.42899672493027,1249.7953921265,-1.03792150743183,-12.8880032813713,12.2696932215606,522.499752518473
4285,8592,19905,"SMPDSv1","Krageholmssjon","EPDcoretop_E900",55.5,13.733333,43,"2.2","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.944686955906724,2888.64886526933,7.71097023945801,-1.30290739830457,16.7482119688086,635.357563963692
4286,8593,19906,"SMPDSv1","Krageholmssjön","EPDcoretop_E344",55.5,13.733333,43,"2.2","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.944686955906724,2888.64886526933,7.71097023945801,-1.30290739830457,16.7482119688086,635.357563963692
4287,8594,9634,"Gaillard et al., 1992","Krakenabben","Krakenabben",56.0008103,14.718912,5,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.900329022460806,2938.15489929025,7.88652719131349,-1.08771090225725,16.9409437623575,606.889471150564
4288,8595,7014,"EMPDv2","Kralovec","EPDcoretop_E1548",49.13,18.03,599,"2e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.25633848862641,2572.85099736357,6.17104112584511,-4.81859695154015,15.4899474991585,930.80763767219
4289,8596,6515,"EMPDv2","Krasivoe surface","Binney2017_E2944",68.3,161.74,47,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.583722884312506,890.103643287115,-12.3037661405631,-31.3959619987917,10.7333151664531,186.151718638063
4290,8597,8019,"EMPDv2","Krasnoarmeiskaya","Mikishin-Gvozdeva_a80",46.8275,143.176111111111,-1,"178","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.62469706489732,2247.46776634675,3.11342153412278,-11.5682986280539,17.0560427964542,1008.66502101666
4291,8598,7016,"EMPDv2","Kravi Hora","EPDcoretop_E1550",50.58,16.15,713,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.23749054924408,2551.50163898259,6.17332881434325,-4.38050476449682,15.4671298040595,872.725807412571
4292,8599,8117,"EMPDv2","Krestonojzka","Mikishin-Gvozdeva_a180",46.8238888888889,143.178611111111,-9,"0.14","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63033810811692,2258.37131378943,3.16249438298295,-11.5293594627966,17.1046431119587,1012.0280730675
4293,8600,19907,"SMPDSv1","Kreuzsee","CH/WVDK/S3",46.230739,8.023243,2130,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73779460681993,1098.49891414358,1.04682240785045,-6.05463645464597,8.83964320086592,2006.08326457459
4294,8601,11469,"Neotoma","Krieder Reservoir","MTGAKR",47.09593,-107.47632,968,"not known","artificial water body","surface sample","-47","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.391796710055453,3173.58581722312,6.86601796283037,-8.49867676301178,21.7371757959989,354.260079752728
4295,8602,19908,"SMPDSv1","Kringlevatn","Bjune_a72",59.83185413,5.95793464,290,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.86957319949622,2266.50398106545,6.0862685631891,-0.876473796955933,13.5215701707059,2066.96643341972
4296,8603,17342,"Neotoma","Kroening","TW045A",44.804722,-88.871111,295,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.950598638997153,3090.97861351215,6.06426689525788,-10.4928943277029,20.7138059058619,776.072053864707
4297,8604,19909,"SMPDSv1","Kroktjern","Bjune_a100",58.3972664,6.6696387,295,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.91904072134812,2273.42858570597,5.94201203921321,-1.74231739451974,13.821960842313,1660.11978623457
4297,8605,19910,"SMPDSv1","Kroktjern","Bjune_a141",60.3534364,5.26915354,72,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.11471533886945,2573.09246636082,7.04956840098856,0.772301478758507,13.9368231021195,2151.40952634159
4297,8606,19911,"SMPDSv1","Kroktjern","Bjune_a44",63.34016491,10.608123580000001,217,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.62649324835875,1811.89213159262,4.16524425454239,-3.53489403873954,12.6415128179319,1201.94000953711
4298,8607,9635,"Gaillard et al., 1992","Kronovall","Kronovall A",55.641102,14.047781,126,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02848527647577,2647.54266842374,6.88648704767607,-1.9952300075281,15.9631660517759,681.600132624216
4298,8608,9636,"Gaillard et al., 1992","Kronovall","Kronovall B",55.641102,14.047781,126,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02848527647577,2647.54266842374,6.88648704767607,-1.9952300075281,15.9631660517759,681.600132624216
4299,8609,6236,"EMPDv2","Krugloye Chukotka","Binney2017_E2206",64.5,177.17,55,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14032903218507,909.66022215806,-7.59393148152402,-22.3834104082338,10.5783104756367,379.376132275398
4300,8610,6237,"EMPDv2","Krugloye Primorye","Binney2017_E2207",44.61,136.21,1,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24272662119982,2653.75911565863,4.44735516132413,-11.3195928119519,19.2557266935334,889.463940945222
4301,8611,12800,"Neotoma","Kryzewinski Lake","KRYZ",46.353333,-92.870278,327,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.896854662956686,3096.70425786631,5.56152792356517,-12.6206901981056,20.9337768115767,724.015511914679
4301,8611,12801,"Neotoma","Kryzewinski Lake","KRYZ",46.353333,-92.870278,327,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.896854662956686,3096.70425786631,5.56152792356517,-12.6206901981056,20.9337768115767,724.015511914679
4301,8611,12802,"Neotoma","Kryzewinski Lake","KRYZ",46.353333,-92.870278,327,"not known","lake","core","43","Unpublished data",,9,"cool mixed forest",0.896854662956686,3096.70425786631,5.56152792356517,-12.6206901981056,20.9337768115767,724.015511914679
4302,8612,6651,"EMPDv2","KUBAGA","Binney2017_E3419",64.98,142.63,500,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.690061096974276,1019.64421200655,-16.6872036475404,-45.7416109340945,12.0484940358177,244.433553247637
4303,8613,19912,"SMPDSv1","Kubenskoe lake","Kubenskoe lake>SS",59.7,39.5,110,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02870324653185,2347.35159634967,3.28532139093732,-12.377101400579,17.4294895144665,605.359374533999
4304,8614,7025,"EMPDv2","Kubrikova","EPDcoretop_E1590",49.4842,18.6722,790,"5e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.4302656869728,2330.60188367854,5.2014848621635,-5.7921631706799,14.5141298426476,1052.98340712767
4305,8615,9828,"Herzschuh et al., 2019","Kucha Lake","Kucha Lake",34.01,97.24,4540,"not known","lake","lake surface sample","17.899999999999999","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.310730094388404,503.115272542357,-4.92906590455669,-16.3852539596341,5.63514288231336,298.414667397991
4306,8616,6238,"EMPDv2","Kuchelga Bog","Binney2017_E2208",53.02,106.73,467,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.636769664052338,2257.50987653755,-0.649687370777396,-22.8035565696134,18.6758273979241,383.420669859353
4307,8617,19913,"SMPDSv1","Kuchenek Lake","Swieta_b1",54.0166666666666,17.3,120,"0.05","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.876386183412668,2922.05334717745,7.71089446762984,-2.1319590325251,16.9031210938697,612.300301459163
4307,8618,19914,"SMPDSv1","Kuchenek Lake","Swieta_b2",54.0166666666666,17.3,120,"0.05","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.876386183412668,2922.05334717745,7.71089446762984,-2.1319590325251,16.9031210938697,612.300301459163
4307,8619,19915,"SMPDSv1","Kuchenek Lake","Swieta_b3",54.0166666666666,17.3,120,"0.05","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.876386183412668,2922.05334717745,7.71089446762984,-2.1319590325251,16.9031210938697,612.300301459163
4308,8620,23929,"SMPDSv1","Kuehl_a1","Kuehl_a1",50.116667,6.883333,455,"0.019","terrestrial, blanket bog","core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20113297187265,3116.4078050327,8.52949220973436,-0.0860751546944014,16.9742962503155,880.414755448981
4309,8621,7054,"EMPDv2","Kugelstattmoos","EPDcoretop_E1733",48.95,12.86,870,"0.2","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.57882474680343,2407.09992419467,5.95841056300719,-3.3348923043536,14.7034277945271,1155.25406234252
4310,8622,24452,"Southern Hemisphere pollen","Kugubaru","Kugubaru core",-5.85,142.8,1680,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","-48","Haberle, S.G., 1993. Late Quaternary environmental history of the Tari Basin, Papua New Guinea.",,3,"tropical deciduous broadleaf forest and woodland",2.43746738686927,7949.41708535589,21.779224891386,20.8320229723962,22.3106926489117,3392.13365492373
4311,8623,19916,"SMPDSv1","Kuivajarvi","EPDcoretop_E350",60.783333,23.833333,97,"not known","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04571946900321,2217.21096245488,4.00405921585825,-7.95747750846199,16.1009163048609,571.076259721426
4312,8624,10584,"BIOME6000 Japan","Kujukuri plain (YK-6)","D12013",35.716667,140.6,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.57275529389789,5374.80190795655,14.725484679333,4.44965991451473,25.9785642284154,1539.83217576533
4313,8625,19917,"SMPDSv1","Kulikovo battle Field (1)","Novenko_b1",53.6413888888888,38.6177777777777,208,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.817445801868402,2797.89774246215,5.1392718003051,-10.003159057774,18.6883021077873,591.448653896775
4314,8626,19918,"SMPDSv1","Kulikovo battle Field (2)","Novenko_b2",53.62828,38.61813,210,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819549481178876,2796.22166136788,5.13691118092409,-9.99531133314834,18.6744258589968,593.018099336536
4315,8627,19919,"SMPDSv1","Kulikovo battle Field (3)","Novenko_b3",53.6767777777777,38.6330277777777,158,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.757617019004734,2848.51234693074,5.22789852093261,-10.1806949900388,19.0658697813872,550.765830676624
4316,8628,19920,"SMPDSv1","Kulikovo battle Field (4)","Novenko_b4",53.67365,38.609610000000004,176,"not applicable","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.779456188535699,2829.91349134812,5.19507095933781,-10.1165223321413,18.9284714610911,565.538562117269
4317,8629,19921,"SMPDSv1","Kulikovo field","Kulikovo field_SS",53.6394444444444,38.7025,215,"not applicable","terrestrial","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.825215987718829,2790.79226350629,5.12408911322002,-9.98483045699415,18.6370044186688,596.62348286425
4318,8630,9261,"EMPDv2","Kulikovo pole (1)","Novenko_c1",54.4856,38.1411,209,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.868835308012627,2747.24135146319,5.03768178477748,-9.93148872471949,18.4663883163417,612.450242418211
4319,8631,9262,"EMPDv2","Kulikovo pole (2)","Novenko_c2",53.6283,38.6181,207,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.81584227324722,2799.45884361586,5.14305042968324,-10.0051995668303,18.6978584979145,590.548771580635
4320,8632,9263,"EMPDv2","Kulikovo pole (3)","Novenko_c3",53.6767,38.6331,149,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.74676373319826,2857.85157908337,5.24475176630195,-10.2118646356009,19.134608403465,543.422365008384
4321,8633,9264,"EMPDv2","Kulikovo pole (4)","Novenko_c4",53.6737,38.6096,154,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.752832489148599,2852.75115247657,5.23624353806142,-10.1926990536656,19.0966739937709,547.563518149037
4322,8634,9265,"EMPDv2","Kulikovo pole (5)","Novenko_c5",53.639444,38.7025,215,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.825215976489294,2790.79227675543,5.12408915937275,-9.98483042576386,18.6370044649779,596.623480867611
4323,8635,19922,"SMPDSv1","Kulivatn","Bjune_a9",69.77125353,19.27912007,69,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.53752514499826,1327.61052403614,1.42813735709498,-6.36315151229411,11.9057595122238,922.430145361222
4324,8636,19923,"SMPDSv1","Kuljejarvi","Seppa_b37",63.95,29.77,235,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14156883879834,1767.52572223977,0.707103238925131,-13.6194541035719,15.3606710628947,539.44890151449
4325,8637,7026,"EMPDv2","Kulzer Moos","EPDcoretop_E1591",49.39,12.44,481,"0.12","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.935390743617752,2986.00130876795,7.86758322695201,-2.18943153533833,17.1170084263542,694.593141519562
4326,8638,6021,"EMBSeCBIO","Kumata","Kumata Core_0",42.590278,23.251667,1770,"0.001","terrestrial, bog/fen/swamp","core","-40","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.827952811187413,2339.14551326394,5.47097292253521,-4.53467518441479,14.9190585587802,763.829789060978
4326,8639,6022,"EMBSeCBIO","Kumata","Kumata Core_5",42.590278,23.251667,1770,"0.001","terrestrial, bog/fen/swamp","core","18","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.827952811187413,2339.14551326394,5.47097292253521,-4.53467518441479,14.9190585587802,763.829789060978
4327,8640,19924,"SMPDSv1","Kumisi lake","Connor_a21 (Kumisi-2)",41.585,44.855,469,"3.6","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.513708268278195,4607.28072771925,12.6214919746704,0.193212612525664,24.5239070842715,550.648308985943
4327,8641,19925,"SMPDSv1","Kumisi lake","Connor_a22 (Kumisi-3)",41.585,44.85,469,"3.6","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.513649734417545,4607.30025504069,12.621513965137,0.192153171841462,24.5237880295096,550.591173312383
4327,8642,19926,"SMPDSv1","Kumisi lake","Connor_a23 (Kumisi-4)",41.584,44.842,469,"3.6","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.513546757540683,4607.297926838,12.6214535420459,0.190326778880772,24.5235608377119,550.49691432807
4328,8643,5962,"EMBSeCBIO","Kumisi Lake","Kumisi core_0",41.585,44.83,469,"3","lake","core","-54","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.513414875542465,4607.36558834478,12.6215645423534,0.187831769616809,24.5232859850091,550.361974838137
4328,8644,5963,"EMBSeCBIO","Kumisi Lake","Kumisi core_10",41.585,44.83,469,"3","lake","core","-6","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.513414875542465,4607.36558834478,12.6215645423534,0.187831769616809,24.5232859850091,550.361974838137
4328,8645,5964,"EMBSeCBIO","Kumisi Lake","Kumisi core_20",41.585,44.83,469,"3","lake","core","40","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.513414875542465,4607.36558834478,12.6215645423534,0.187831769616809,24.5232859850091,550.361974838137
4329,8646,9637,"Gaillard et al., 1992","Kumlatofta","Kumlatofta",55.609421,13.618806,36,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.939384165539287,2904.5211845755,7.76703713904744,-1.23706611699746,16.7914753281126,631.100460665472
4330,8647,10995,"Bush et al., 2020","Kumpak113","Kumpak113",-2.8287899,-77.9703979,509,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.06740571686998,8810.6341360681,24.1387236604605,23.1432868049886,24.5493896520913,2732.96984047569
4331,8648,10996,"Bush et al., 2020","Kumpak114","Kumpak114",-2.82952,-77.9700012,509,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.06727213626335,8810.65228566817,24.1387733853923,23.1433841888226,24.5494456271862,2732.82037613827
4332,8649,10997,"Bush et al., 2020","Kumpak116","Kumpak116",-2.8303199,-77.9677963,509,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.06727786038038,8810.74166123622,24.1390182499622,23.1436638655338,24.5497333417982,2732.84865615625
4333,8650,10998,"Bush et al., 2020","Kumpak117","Kumpak117",-2.83111,-77.9673004,509,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.06713895304567,8810.76388416852,24.1390791347083,23.1437756308014,24.5498022398575,2732.69400610031
4334,8651,10999,"Bush et al., 2020","Kumpak118","Kumpak118",-2.8317101,-77.9664001,443,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.10436610041241,8929.02063539137,24.463070233949,23.4563099618904,24.8873337005097,2782.85189711257
4335,8652,19927,"SMPDSv1","KUNASH","KUNASH1",44.18,146.03,6,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.88465644796526,2545.82120309068,5.77706428089036,-5.91343783099229,17.2663939584431,1243.63412693521
4335,8653,19928,"SMPDSv1","KUNASH","KUNASH2",44.17,145.98,6,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.88230720343714,2547.42141311666,5.78187897783441,-5.91104906001903,17.2754153944238,1242.68961235468
4335,8654,19929,"SMPDSv1","KUNASH","KUNASH3",44.04,145.81,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.86615750468446,2567.32870530418,5.85524715931969,-5.84290984045164,17.3663429461692,1238.25366214692
4335,8655,19930,"SMPDSv1","KUNASH","KUNASH4",44.06,145.83,4,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.86902217867967,2561.38985269638,5.8320368725899,-5.8670195353996,17.3412862924372,1238.85540255497
4335,8656,19931,"SMPDSv1","KUNASH","KUNASH5",44.03,145.85,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.86681277616054,2567.14106346671,5.85556703262737,-5.84064414491974,17.3636688645019,1238.78555319192
4335,8657,19932,"SMPDSv1","KUNASH","KUNASH6",43.74,145.5,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84631935766322,2611.43834832253,5.98044989109274,-5.8055655763819,17.6221240622203,1239.30506402564
4335,8658,19933,"SMPDSv1","KUNASH","KUNASH7",43.73,145.43,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84415812390927,2614.34588527476,5.98650540650183,-5.81028541196645,17.6431693756707,1238.70524152916
4335,8659,19934,"SMPDSv1","KUNASH","KUNASH8",43.73,145.55,5,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84715635298746,2603.81673523704,5.95224551697237,-5.83199595010686,17.5873297673125,1239.07443789441
4336,8660,9638,"Gaillard et al., 1992","Kungsmarken","Kungsmarken A",55.4304,13.1617,33,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.933303402196977,2923.73781144386,7.85123359148789,-1.05725035319098,16.7851805868084,628.588028529808
4336,8661,9639,"Gaillard et al., 1992","Kungsmarken","Kungsmarken B",55.4304,13.1617,33,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.933303402196977,2923.73781144386,7.85123359148789,-1.05725035319098,16.7851805868084,628.588028529808
4336,8662,9640,"Gaillard et al., 1992","Kungsmarken","Kungsmarken C",55.4304,13.1617,33,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.933303402196977,2923.73781144386,7.85123359148789,-1.05725035319098,16.7851805868084,628.588028529808
4337,8663,3564,"CMPD","Kunlun","Kunlun 1",35.68,94.05,4690,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172304352801861,516.008004073983,-5.34682412510044,-17.0262891304522,5.91140755683922,167.160976224847
4337,8664,3565,"CMPD","Kunlun","Kunlun 2",35.77,94.32,4090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146856517452072,1047.73467007371,-2.18833775278916,-14.8008632036413,9.58715367406455,152.814739846121
4338,8665,3566,"CMPD","Kunlun Mt","Kunlun Mt 01",39.6,75.8,1200,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0788124219549435,4593.64654472991,11.6050076919921,-6.0084071450587,25.2507052983642,96.7719687216431
4338,8666,3567,"CMPD","Kunlun Mt","Kunlun Mt 02",38.8,74.9,3400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.191830273030317,1741.66567981052,0.783567587055673,-14.4725514898751,13.6359474661644,211.913971524341
4338,8667,3568,"CMPD","Kunlun Mt","Kunlun Mt 03",38.3,74.9,4070,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210832475021272,1159.31028346598,-1.81885036915964,-16.0712652105512,10.668681513787,226.355083846665
4338,8668,3569,"CMPD","Kunlun Mt","Kunlun Mt 04",37.7,77.4,1500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0463020581978697,4308.60229280985,10.6858444858054,-6.47475099212615,24.1922829570093,56.5425798437961
4338,8669,3570,"CMPD","Kunlun Mt","Kunlun Mt 05",37.2,77.1,2500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0669707158288708,3071.84486307017,6.37450951206507,-9.54175354021845,19.528794046292,79.32216963176
4338,8670,3571,"CMPD","Kunlun Mt","Kunlun Mt 06",36.4,77.8,3850,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0950967035839968,1663.48229578032,0.6386291483682,-13.8334876941055,13.5831267178406,106.289266327709
4338,8671,3572,"CMPD","Kunlun Mt","Kunlun Mt 07",36.3,78.2,3750,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.088646077209049,1769.22986355488,1.08239578150669,-13.5442162666429,14.101847343398,99.4953711702465
4338,8672,3573,"CMPD","Kunlun Mt","Kunlun Mt 08",36.2,78.7,4050,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0889004875532934,1507.90101073506,-0.160371991940267,-14.486756090848,12.9269357177465,98.0574701893985
4338,8673,3574,"CMPD","Kunlun Mt","Kunlun Mt 09",35.8,79.3,5100,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106352222122079,688.808766456501,-5.22441698383818,-18.4756947453444,8.03074023853116,108.96370568202
4338,8674,3575,"CMPD","Kunlun Mt","Kunlun Mt 10",35.6,79.4,4890,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103774284227903,830.17307910151,-4.1632271423816,-17.5812580869482,9.10454056107661,108.274231966112
4339,8675,19935,"SMPDSv1","Kunyok","EPDcoretop_E351",67.833333,33.666667,220,"0.03","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51711842017617,1314.31846319303,-1.03345359683513,-13.4075643798989,12.7460567493726,598.350183376778
4339,8676,19936,"SMPDSv1","Kunyok","Kunyok_SS",67.8333,33.6667,220,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51711549678591,1314.31966864812,-1.0334516693874,-13.4075757176893,12.7460651615177,598.349732330954
4340,8677,19937,"SMPDSv1","Kuonnajärvi","Seppa_b1",68.43,24.08,316,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17697174246443,1319.93650696273,-2.20662290099761,-16.4401990057205,12.9539984618255,459.730622175057
4341,8678,19938,"SMPDSv1","Kuosakielinen","Bjune_a175",67.75,20.6333333333333,439,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22417900519139,1204.83829366414,-2.41618323046932,-16.1848993149207,11.8943757255253,491.766147635472
4342,8679,18348,"SMPDSv1","Kupena","Barboni_a14",41.983,24.3333,1300,"not applicable","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.755120887967828,2799.76712813489,6.9422562326283,-4.05349077063956,17.0442874211989,714.826037888551
4342,8680,18349,"SMPDSv1","Kupena","Barboni_a15",41.983,24.3333,1300,"not applicable","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.755120887967828,2799.76712813489,6.9422562326283,-4.05349077063956,17.0442874211989,714.826037888551
4342,8681,18350,"SMPDSv1","Kupena","Barboni_a16",41.983,24.3333,1300,"not applicable","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.755120887967828,2799.76712813489,6.9422562326283,-4.05349077063956,17.0442874211989,714.826037888551
4342,8682,18351,"SMPDSv1","Kupena","Barboni_a17",41.967,24.3167,1257.26,"not applicable","terrestrial, bog/fen/swamp","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.745565975499928,2856.47724217985,7.15205130978659,-3.85298207463336,17.2690326264738,709.237297305562
4342,8683,7148,"EMPDv2","Kupena","EPDcoretop_E2166",41.98,24.33,1356,"0.08","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.766952483123009,2727.25238373431,6.67061570230307,-4.31415881084066,16.752747729753,721.620968856549
4342,8684,19939,"SMPDSv1","Kupena","EPDcoretop_E352",41.983333,24.333333,1300,"0.08","terrestrial, bog/fen/swamp","peat core top","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.755128917693496,2799.76184554087,6.94224409305773,-4.05348259749792,17.0442374203735,714.829791522096
4342,8685,19940,"SMPDSv1","Kupena","EPDcoretop_E353",41.983333,24.333333,1300,"0.08","terrestrial, bog/fen/swamp","peat core top","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.755128917693496,2799.76184554087,6.94224409305773,-4.05348259749792,17.0442374203735,714.829791522096
4343,8686,793,"Australian pollen","Kuranda","Kuranda",-16.817,145.633,425,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.928397326184889,8399.21291102554,23.0115422219878,18.7332937508988,26.0301130623677,1626.10475459781
4344,8687,10618,"BIOME6000 Japan","Kurikigahara","KrikgC0",39.87,140.85,1130,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.06424667558084,2581.67005062344,5.30932514716231,-7.35408590483794,18.6447663555396,1509.76651033151
4345,8688,794,"Australian pollen","Kurnell Fen","Kurnell Fen Core 1_1",-34.0167,151.1667,15,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.919756124775576,6309.25467004421,17.2856292329978,11.5591572861932,22.1215907004,1151.0695943421
4345,8689,795,"Australian pollen","Kurnell Fen","Kurnell Fen Core 1_2",-34.0167,151.1667,15,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.919756124775576,6309.25467004421,17.2856292329978,11.5591572861932,22.1215907004,1151.0695943421
4345,8690,796,"Australian pollen","Kurnell Fen","Kurnell Fen Core 1_3",-34.0167,151.1667,15,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.919756124775576,6309.25467004421,17.2856292329978,11.5591572861932,22.1215907004,1151.0695943421
4346,8691,6804,"EMPDv2","KUROP7","Binney2017_E3623",70.67,156.75,7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.480459991296513,753.223130925756,-14.4083963345258,-35.2533902868315,9.48318024701711,143.810390664167
4347,8692,19941,"SMPDSv1","Kurovskoe","Kurovskoe_SS",55.533428,38.893667,108,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.853095273771782,2717.44494665584,4.77761559277287,-10.637716013294,18.6863721520263,583.647693928034
4348,8693,17588,"Phelps et al., 2020","Kuruyange 2","KU2_5",-3.58,29.683333,2028,"not known","terrestrial, bog/fen/swamp","core top","46","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.16366435800862,6330.89580763929,17.3449200209296,16.5802537377092,17.9407260081735,1505.10531503745
4349,8694,7587,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h1",53.8150333333333,16.5740833333333,144,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878460111827531,2921.27382967638,7.71168850702406,-2.14430677612235,16.8745325788656,615.476955881465
4349,8695,7596,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h10",53.8161166666667,16.58035,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878505483370303,2921.12885394157,7.71121032638864,-2.1445806778865,16.874121196188,615.496643511425
4349,8696,7597,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h11",53.8162166666667,16.5804166666667,143,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878387125790576,2922.3174144903,7.71534481903659,-2.13912470416341,16.8784788549189,615.423930400123
4349,8697,7598,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h12",53.81625,16.5804833333333,143,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878388496241797,2922.31529954204,7.71533827934949,-2.13912669312521,16.87847185249,615.424460236987
4349,8698,7599,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h13",53.8163,16.580466666666702,143,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878390528501642,2922.31430731318,7.71533605131957,-2.13912370784211,16.8784666486735,615.425184228733
4349,8699,7600,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h14",53.8163833333333,16.5804166666667,143,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.87839391116767,2922.31306883482,7.71533378193154,-2.13911759544465,16.8784589849133,615.426377413396
4349,8700,7601,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h15",53.8166666666667,16.58035,142,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878283091688618,2923.49910321516,7.71946402680231,-2.13364738890172,16.882800092458,615.356333168262
4349,8701,7602,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h16",53.8166666666667,16.580466666666702,142,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878283112378647,2923.49691904663,7.71945643948896,-2.13365336549805,16.8827947620729,615.356402669134
4349,8702,7603,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h17",53.8167166666667,16.5803666666667,144,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878529813886764,2921.11315562421,7.71117034559486,-2.14455549413721,16.8740497217816,615.505400407254
4349,8703,7604,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h18",53.81675,16.5804833333333,144,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878531192001307,2921.11012368482,7.71116060614607,-2.14456000985752,16.8740405212747,615.505958648713
4349,8704,7605,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h19",53.8168333333333,16.5804333333333,145,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878656890493109,2919.91681613161,7.7070140074710896,-2.15000842191465,16.8696613414224,615.581290144858
4349,8705,7588,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h2",53.8151,16.5754,147,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878830645522124,2917.66843816958,7.69915711966209,-2.16073996818599,16.8613392625595,615.701562225284
4349,8706,7606,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h20",53.81695,16.5804166666667,145,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878661597399821,2919.91418377273,7.70700768577946,-2.15000242308371,16.8696484933441,615.582968416682
4349,8707,7607,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h21",53.8171,16.5804,145,"3.19","lake","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878667650535113,2919.91071026692,7.70699924777888,-2.14999495357244,16.8696317591405,615.585129301043
4349,8708,7608,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h22",53.8170666666667,16.5809166666667,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878544131303571,2921.09391540592,7.71111192612145,-2.14456841231387,16.8739836111725,615.510844211633
4349,8709,7609,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h23",53.8171833333333,16.58125,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878548938004704,2921.08470490832,7.71108271634966,-2.14458037849742,16.8739548009001,615.512751800208
4349,8710,7610,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h24",53.8171666666667,16.5813,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878548273387101,2921.08420025542,7.71108055209138,-2.14458365513005,16.8739545087651,615.512539677061
4349,8711,7611,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h25",53.8172333333333,16.5819,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878551112074577,2921.07130399029,7.71103728913026,-2.14461140079325,16.873919562552,615.513882761412
4349,8712,7612,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h26",53.8173,16.58225,144,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878553894210327,2921.06307062737,7.71101025806148,-2.14462637518066,16.8738959066011,615.515071149141
4349,8713,7613,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h27",53.8174333333333,16.5822,144,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878559290924221,2921.06057960714,7.71100484724396,-2.14461804097656,16.8738824362249,615.516985068805
4349,8714,7614,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h28",53.8174,16.5822666666667,145,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878680234816652,2919.86839156538,7.7068591117458,-2.15007693684025,16.8695129839662,615.590649709852
4349,8715,7615,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h29",53.8174333333333,16.58265,145,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878681676210259,2919.86042109617,7.70683215114532,-2.15009500448979,16.8694919031802,615.591373410341
4349,8716,7589,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h3",53.81505,16.5757,146,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878706209820125,2918.85707599482,7.70328773520998,-2.15530138109526,16.8657068069366,615.62676929825
4349,8717,7616,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h30",53.8178333333333,16.5834333333333,145,"3.19","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878698027629948,2919.8357604309,7.7067559936731,-2.15011727456384,16.8694101362695,615.597658848808
4349,8718,7590,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h4",53.8150833333333,16.5758166666667,146,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878707582661549,2918.85407341193,7.70327807535105,-2.15530585027976,16.8656977428526,615.627323393031
4349,8719,7591,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h5",53.81535,16.5766166666667,146,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878718527070808,2918.83254608617,7.70320949344326,-2.15533477281601,16.8656312162109,615.631669623585
4349,8720,7592,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h6",53.8154833333333,16.5782166666667,145,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878601827245796,2919.9921713965,7.70724361264993,-2.14995479553168,16.8699182551667,615.560354885355
4349,8721,7593,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h7",53.8154833333333,16.5782166666667,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.87847932393689,2921.18492332023,7.71139002901136,-2.14449907364848,16.8742922665137,615.486091890179
4349,8722,7594,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h8",53.8156166666667,16.5789666666667,143,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878362408419498,2922.36016576679,7.71547881689764,-2.13907608063187,16.8786162743421,615.414242225691
4349,8723,7595,"EMPDv2","Kusowskie Bagno mire","Kolaczek_h9",53.81565,16.5792666666667,144,"3.19","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.878486319982302,2921.16103733907,7.71131095411343,-2.14454555311623,16.8742251427198,615.489171747575
4350,8724,19942,"SMPDSv1","Kutemainen","Seppa_b55",63.17,25.48,116,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01582814704638,2032.05778094588,2.69344145026568,-10.3786424942867,15.9690838540005,530.145566096136
4351,8725,23158,"SMPDSv1","Kutokeino Municipality","Bjune_a17",69.2107453,22.61082007,446,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.63131722981041,1091.31428881292,-3.25573428413648,-16.6683728948022,11.4342849968148,604.853132622561
4352,8726,19943,"SMPDSv1","Kuttura","FIN/SPH/KU46",68.4051805555556,26.5066305555556,255,"not applicable","terrestrial","pollen trap","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16203682877455,1385.36762284769,-1.66168518977209,-15.6751452737096,13.4820825069138,450.582021001718
4353,8727,10617,"BIOME6000 Japan","Kuzunori","D5003",39.35,140.05,12,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.75468062391234,4089.22712124555,11.0798425350641,-0.814902092288054,24.4149366825936,1486.86520307795
4354,8728,19944,"SMPDSv1","Kvamsvatn","Bjune_a109",60.7211002,5.57330965,222,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.20641308491414,2323.10413091075,6.33652895525926,-0.206222802652776,13.472155612263,2173.796152858
4355,8729,19945,"SMPDSv1","Kvarntrasket","Seppa_b70",60.03,23.13,48,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04157987832673,2316.77723120696,4.71033014511602,-6.54543575276213,16.2259481536006,588.532657819223
4356,8730,19946,"SMPDSv1","Kvarstevoe lake","Kvarstevoe lake_SS",43.6667,41.1667,2726,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.28132541147717,925.377359081453,-3.41952170624809,-17.5904899082771,8.86881433541723,1053.77673455133
4357,8731,19947,"SMPDSv1","Kvernnesvatn","Bjune_a66",60.38486013,5.71039933,45,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.29543184816403,2645.77069367967,7.24868683199911,1.02369340929181,14.0933723488701,2247.82867953826
4358,8732,19948,"SMPDSv1","Kvervtern","Bjune_a40",63.94202403,10.39357833,188,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.72965666914485,1831.40479913849,4.30603810802726,-3.22928860816525,12.6514531974121,1232.08433648273
4359,8733,10585,"BIOME6000 Japan","Kyoto Nonbara","KNonbC0",35.73,135.13,160,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.60793670193398,5100.11035551797,13.9729050836109,2.70047509373375,26.2665705397421,1579.2775473873
4360,8734,8246,"EMPDv2","Kyparisovka_Poselok (Razdolnaya river)","Mikishin-Gvozdeva_b77",43.4525,131.933333333333,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.929415584034738,3187.65433584003,5.89030549925403,-12.2882543157044,21.4943629954464,731.747336308737
4361,8735,8247,"EMPDv2","Kyparisovka_Pryustjevaya (Razdolnaya river)","Mikishin-Gvozdeva_b78",43.4491666666667,131.894166666667,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.929426082967174,3188.94077774522,5.89918382588774,-12.2727226416483,21.4994081349419,731.96331833491
4362,8736,19949,"SMPDSv1","Kyrkjestoltjonn","Bjune_a237",59.7616666666666,7.65166666666666,955,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.0485711245149,1525.37524330053,2.15909907302362,-7.08119250310866,11.5656557380417,1117.78828638216
4363,8737,11471,"Neotoma","L A K Reservoir","WYWELA",43.82780189,-104.1093535,1333,"not known","artificial water body","surface sample","-54","Unpublished data",,22,"steppe",0.404187200302055,3163.85797278378,7.45851405120125,-5.8546936219667,21.5854547774399,396.629659540389
4364,8738,13202,"Neotoma","L'Anse aux Meadows Road Cut Bog","ROADCUT",51.6,-55.53,0,"not known","terrestrial, bog/fen/swamp","profile or section","-3","Davis, A.M. 1980. Modern pollen spectra from the tundra-boreal forest transition in northern Newfoundland, Canada. Boreas 9:89-100.; Davis, A.M. 1984. Ombrotrophic peatlands in Newfoundland, Canada:their origins, development and trans-Atlantic affinities. Chemical Geology 44:287-309.",,9,"cool mixed forest",1.87817011212427,1511.15126770501,1.34643148752621,-9.98652747703425,12.3935770762028,1023.16432594375
4365,8739,12835,"Neotoma","L'Anse aux Meadows Site","LAN17",51.573333,-55.55,5,"not known","terrestrial, bog/fen/swamp","profile or section","18","Davis, A.M., J.H. McAndrews, and B.L. Wallace. 1988. Paleoenvironment and the archaeological record at the L'Anse aux Meadows site, Newfoundland. Geoarcheology 3:53-64.",,9,"cool mixed forest",1.88373828003795,1510.62450005089,1.33011032680312,-10.023124131383,12.395079023626,1026.90166145732
4366,8740,19950,"SMPDSv1","L'Esclauze","Barboni_a192",45.4,2.78,1060,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.19174922536303,2776.10622651015,7.59198786745637,-0.138627602909108,16.3211952223902,1069.73962116781
4366,8741,19951,"SMPDSv1","L'Esclauze","Barboni_a193",45.4,2.78,1060,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.19174922536303,2776.10622651015,7.59198786745637,-0.138627602909108,16.3211952223902,1069.73962116781
4367,8742,14765,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-46","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14766,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-39","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14767,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-32","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14768,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-25","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14769,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-18","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14770,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-11","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14771,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","-3","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14772,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","4","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14773,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","11","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14774,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","18","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14775,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","26","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14776,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","33","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14777,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","40","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4367,8742,14778,"Neotoma","L03","L03",54.60476,-105.963304999999,635,"not known","lake","core","47","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.647503236085259,2128.32032329046,0.190834879578798,-19.4794116480217,16.3213290222815,437.038051484751
4368,8743,19952,"SMPDSv1","La Alcarria","Lopez_a225",40.9208333333333,-2.87711111111111,975,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.454167483016966,4162.18284693401,11.4032406765315,3.55348000372452,21.1541494872346,533.938941622822
4369,8744,7120,"EMPDv2","La Baforiere","EPDcoretop_E2107",48.06,-0.31,112,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.886996475473627,3988.92662965346,10.9285661086396,4.31242001422703,18.0923517433807,720.728559429853
4370,8745,19953,"SMPDSv1","La Beuffarde","EPDcoretop_E903",46.823611,6.423056,1111,"0.014","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.7109679626975,2391.2095663502,6.2368127651707,-2.01189653661533,14.7969735646441,1365.55394163962
4371,8746,19954,"SMPDSv1","La Bobia-1","Barboni_a923",43.383333,-6.933333,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03960692392241,3569.97701369432,9.78075894162826,3.05857055980775,17.4917895234032,1017.93644164657
4372,8747,7102,"EMPDv2","La boire Torse","EPDcoretop_E2018",47.39,-1.07,8,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.873458315435564,4420.49117544638,12.1109347272504,5.69906918022221,19.0722118753064,760.755599508439
4373,8748,19955,"SMPDSv1","La Breole","Ortu_d10",44.422,6.302,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19983380625681,2899.10909629285,7.94276464737767,0.300888360241633,16.5604406099188,1181.11037301514
4373,8749,19956,"SMPDSv1","La Breole","Ortu_d11",44.422,6.302,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19983380625681,2899.10909629285,7.94276464737767,0.300888360241633,16.5604406099188,1181.11037301514
4373,8750,19957,"SMPDSv1","La Breole","Ortu_d12",44.422,6.302,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19983380625681,2899.10909629285,7.94276464737767,0.300888360241633,16.5604406099188,1181.11037301514
4373,8751,19958,"SMPDSv1","La Breole","Ortu_d13",44.422,6.302,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19983380625681,2899.10909629285,7.94276464737767,0.300888360241633,16.5604406099188,1181.11037301514
4373,8752,19959,"SMPDSv1","La Breole","Ortu_d14",44.422,6.302,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08805400742512,3294.42387333504,9.02581883105489,1.33946446792925,17.674236318271,1097.01731406465
4373,8753,19960,"SMPDSv1","La Breole","Ortu_d15",44.422,6.302,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08805400742512,3294.42387333504,9.02581883105489,1.33946446792925,17.674236318271,1097.01731406465
4373,8754,19961,"SMPDSv1","La Breole","Ortu_d16",44.452,6.293,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.983837860136612,3683.39206788592,10.0914851174957,2.34990016142904,18.777349330117,1013.75861188335
4373,8755,19962,"SMPDSv1","La Breole","Ortu_d8",44.399,6.298,1160,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17496834911845,2980.92020461842,8.16690467018746,0.521738749354534,16.7883341561454,1163.37983389553
4373,8756,19963,"SMPDSv1","La Breole","Ortu_d9",44.407,6.288,1322,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26931533544676,2669.38990063435,7.28337627300945,-0.328550647919873,15.8820317750031,1231.65618785448
4374,8757,19964,"SMPDSv1","La Caudelais","EPDcoretop_E158",47.261111,-1.780556,1,"not known","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.929007035005277,4449.22872810665,12.1896677482374,6.02184439346927,18.8997931436751,806.919655733062
4375,8758,19965,"SMPDSv1","La Cousteix","Barboni_a141",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8759,19966,"SMPDSv1","La Cousteix","Barboni_a142",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8760,19967,"SMPDSv1","La Cousteix","Barboni_a143",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8761,19968,"SMPDSv1","La Cousteix","Barboni_a144",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8762,19969,"SMPDSv1","La Cousteix","Barboni_a145",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8763,19970,"SMPDSv1","La Cousteix","Barboni_a146",45.38,2.66,850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09970695083803,3101.21291084539,8.49647372834353,0.784346947934401,17.0780244961154,981.037987782292
4375,8764,19971,"SMPDSv1","La Cousteix","Barboni_a147",45.38,2.66,855,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10177674637294,3092.88827387498,8.47366650376706,0.761160479441211,17.0583267490863,982.899194414337
4375,8765,19972,"SMPDSv1","La Cousteix","Barboni_a148",45.38,2.66,855,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10177674637294,3092.88827387498,8.47366650376706,0.761160479441211,17.0583267490863,982.899194414337
4375,8766,19973,"SMPDSv1","La Cousteix","Barboni_a149",45.38,2.66,855,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10177674637294,3092.88827387498,8.47366650376706,0.761160479441211,17.0583267490863,982.899194414337
4375,8767,19974,"SMPDSv1","La Cousteix","Barboni_a174",45.38,2.66,860,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10384670222653,3084.56363690457,8.45085927919059,0.73797401094802,17.0386290020572,984.760401046381
4375,8768,19975,"SMPDSv1","La Cousteix","Barboni_a175",45.38,2.66,860,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10384670222653,3084.56363690457,8.45085927919059,0.73797401094802,17.0386290020572,984.760401046381
4376,8769,10451,"IBERIA","La Cruz","LACRUZ",39.98777778,-1.873333333,1024,"0.014","terrestrial, bog/fen/swamp","core top","12","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.416536602026471,4224.08446901814,11.5728341616935,3.59339764536705,21.5111946941466,500.011625297756
4377,8770,24176,"Neotoma","La Esperanza","LAESP_25",-46.633333,-72.833333,330,"not known","not known","core","22","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,7,"cool-temperate rainforest",1.62052008196844,2555.57866931281,7.00158539537756,2.09071669014449,11.5782536728575,1328.18824284684
4377,8771,24177,"Neotoma","La Esperanza","LAESP_40",-46.633333,-72.833333,330,"not known","not known","core","36","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,7,"cool-temperate rainforest",1.62052008196844,2555.57866931281,7.00158539537756,2.09071669014449,11.5782536728575,1328.18824284684
4377,8772,24175,"Neotoma","La Esperanza","LAESP_8",-46.633333,-72.833333,330,"not known","not known","core","7","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,7,"cool-temperate rainforest",1.62052008196844,2555.57866931281,7.00158539537756,2.09071669014449,11.5782536728575,1328.18824284684
4378,8773,19976,"SMPDSv1","La Estanca","Barboni_a924",41.061043,-0.189987,343,"131.071","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413996257985822,5352.35576545624,14.6639883985102,6.742419667259,23.7693016712632,507.86542551257
4378,8774,19977,"SMPDSv1","La Estanca","Barboni_a925",41.061043,-0.189987,343,"131.071","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413996257985822,5352.35576545624,14.6639883985102,6.742419667259,23.7693016712632,507.86542551257
4379,8775,19978,"SMPDSv1","La Faucher","Barboni_a173",45.4,2.66,880,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11283036661308,3050.25368638844,8.35685941476285,0.642647610773796,16.9555205365824,992.262809144361
4380,8776,19979,"SMPDSv1","la Feuillade","Miras_b1",45.7533222222222,1.92194444444444,666,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05699495885569,3359.82060257133,9.20498795225022,1.57792848065574,17.559013758596,921.108928077745
4380,8777,19980,"SMPDSv1","la Feuillade","Miras_b2",45.7529944444444,1.92089444444444,678,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06204421343623,3340.0954983604,9.15094657085042,1.52143443179604,17.5116621335603,925.327521772121
4380,8778,19981,"SMPDSv1","la Feuillade","Miras_b3",45.7530388888888,1.92014722222222,688,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06626148755465,3323.64051542879,9.10586442583231,1.47430260220437,17.4721489357734,928.842118665033
4380,8779,19982,"SMPDSv1","la Feuillade","Miras_b4",45.7533694444444,1.91940833333333,700,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07133119590164,3303.87967503322,9.05172513707732,1.41769790741215,17.4246877898503,933.058824165098
4380,8780,19983,"SMPDSv1","la Feuillade","Miras_b5",45.7538583333333,1.91864722222222,707,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07430359222561,3292.34974306805,9.02013628237823,1.38467269802014,17.3969805895048,935.523946441655
4380,8781,19984,"SMPDSv1","la Feuillade","Miras_b6",45.7536722222222,1.91618888888888,720,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07980638328189,3271.00067059166,8.96164567285387,1.32352104906009,17.3457179679821,940.107502335306
4380,8782,19985,"SMPDSv1","la Feuillade","Miras_b7",45.7524444444444,1.91648055555555,739,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08777193316971,3239.7353032373,8.875987132157,1.23393307388773,17.2707154526582,946.755074822741
4381,8783,19986,"SMPDSv1","La Gourre","Gourre cop top",44.385,6.00333,992,"0.025","terrestrial, marsh","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08571348090717,3252.83943618489,8.91188886625997,1.23414672650148,17.6037020559783,1092.66081855675
4382,8784,19987,"SMPDSv1","La Grande Basse","EPDcoretop_E1063",48.05,6.95,945,"0.005","terrestrial, bog/fen/swamp","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.82188135414366,2572.26788520746,6.81307843716681,-1.69244385052198,15.396624696876,1380.27827739261
4383,8785,7113,"EMPDv2","La Grande Brousse (river Grande Choisille)","EPDcoretop_E2089",47.49,0.67,66,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.784130181225723,4143.97064674509,11.3533442376578,4.24400804185321,19.0007800115346,655.653945174249
4383,8786,7114,"EMPDv2","La Grande Brousse (river Grande Choisille)","EPDcoretop_E2091",47.49,0.67,66,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.784130181225723,4143.97064674509,11.3533442376578,4.24400804185321,19.0007800115346,655.653945174249
4384,8787,19988,"SMPDSv1","La Lagoa Laguna","Barboni_a1358",43.251,-7.5545,402,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.28700133512175,4399.74168698576,12.0540868136596,6.76302980319114,18.0799833321603,1208.97149949925
4385,8788,19989,"SMPDSv1","La Laguna (Metamorosa)","Barboni_a1383",42.980278,-4.151667,860,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.727407834900801,3832.40228134107,10.4997322776468,3.58745739572111,18.4526754475248,752.757354355435
4386,8789,19990,"SMPDSv1","La Laguna (Setiles)","Barboni_a1375",40.726724,-1.608444,1276,"7.228","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.470023814001847,3566.82373010648,9.77211980851091,1.90990200875367,19.6451813226319,545.80289447463
4387,8790,19991,"SMPDSv1","La Laguna 1","Barboni_a927",38.754583,-4.085139,661,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375597517934738,5341.57885003166,14.6344626028265,6.28677522426493,25.1280775817162,477.268851500244
4388,8791,19992,"SMPDSv1","La Laguna 2","Barboni_a926",37.09166667,-3.994444444,2260,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333534705243206,3125.57655887779,8.50386388309925,-0.491719663244376,21.4337142934969,414.667005566524
4389,8792,19993,"SMPDSv1","La Mancha","Lopez_a507",39.4479999999999,-3.60819444444444,759,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.372394916585515,5034.48604093415,13.7931124409155,5.46516640142808,24.272107203185,466.157564499023
4389,8793,19994,"SMPDSv1","La Mancha","Lopez_a508",39.4467777777777,-3.60372222222222,772,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373449442686565,5003.42006741964,13.7080001847113,5.39254317099431,24.1763113559741,467.066251953367
4389,8794,19995,"SMPDSv1","La Mancha","Lopez_a509",39.4640555555555,-3.62975,722,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.369465916666649,5121.82669294416,14.0324018984772,5.6698209984298,24.5401162022828,463.571908181683
4389,8795,19996,"SMPDSv1","La Mancha","Lopez_a510",39.4494722222222,-3.64725,717,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.369194969807964,5134.39047054846,14.0668232069821,5.69920000586692,24.5792655137085,463.43909308557
4389,8796,20015,"SMPDSv1","La Mancha","Lopez_a511",39.4537777777777,-3.63941666666666,711,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.368620490241143,5149.00016446874,14.1068497656678,5.73311289032226,24.6246564208639,462.900407750654
4389,8797,19997,"SMPDSv1","La Mancha","Lopez_a512",39.4582222222222,-3.50133333333333,678,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.364642785279147,5232.93823238079,14.3368170750159,5.92519475407016,24.8909386998914,459.11635409368
4389,8798,19998,"SMPDSv1","La Mancha","Lopez_a513",39.4535,-3.49966666666666,671,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.364063805274713,5249.94651160986,14.383415100301,5.96480966133097,24.9438451892522,458.628760558254
4389,8799,19999,"SMPDSv1","La Mancha","Lopez_a514",39.4273333333333,-3.41069444444444,670,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.363373695926673,5255.46752182174,14.398541155676,5.97558765979243,24.9658307041678,458.01268190836697
4389,8800,20000,"SMPDSv1","La Mancha","Lopez_a515",39.4679444444444,-3.63227777777777,716,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.368971313838939,5136.04996431068,14.0713697652347,5.70309072961,24.5838017861358,463.122404128492
4389,8801,20001,"SMPDSv1","La Mancha","Lopez_a516",39.47325,-3.60305555555555,709,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.368113653230119,5153.90830682744,14.1202967310341,5.74394447572015,24.6403649366853,462.287355704526
4389,8802,20016,"SMPDSv1","La Mancha","Lopez_a517",39.4633333333333,-3.50675,682,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.365004489279128,5222.94681042499,14.3094433162329,5.90206471161845,24.8595100719964,459.4166527017
4389,8803,20017,"SMPDSv1","La Mancha","Lopez_a518",39.4633055555555,-3.49963888888888,689,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.365541581882237,5206.37410807073,14.2640386522486,5.86325666068761,24.8085608781572,459.880627475391
4389,8804,20018,"SMPDSv1","La Mancha","Lopez_a519",39.4268333333333,-3.41425,676,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.363894264933296,5241.33703512774,14.3598274935007,5.94260281052109,24.922203195824,458.481100618193
4389,8805,20019,"SMPDSv1","La Mancha","Lopez_a520",39.4300277777777,-3.37272222222222,642,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360753492385284,5321.53797343586,14.5795560916051,6.12934217855203,25.1705066971363,455.601641429897
4389,8806,20020,"SMPDSv1","La Mancha","Lopez_a521",39.4343888888888,-3.35108333333333,638,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360201322652649,5331.01105279127,14.6055097336747,6.15098603436737,25.200244302246,455.036566442789
4389,8807,20002,"SMPDSv1","La Mancha","Lopez_a522",39.4351944444444,-3.34347222222222,639,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360210418242208,5328.73914918601,14.5992853402357,6.14549580604534,25.1934777320947,455.023889336173
4389,8808,20003,"SMPDSv1","La Mancha","Lopez_a523",39.4911388888888,-3.30311111111111,648,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360143985749225,5306.71913952327,14.5389565466391,6.09256370691774,25.1249929162868,454.508080306189
4389,8809,20004,"SMPDSv1","La Mancha","Lopez_a524",39.4430555555555,-3.28424999999999,661,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.361464259512516,5278.10178538102,14.4605528366603,6.02565850640432,25.0393588563826,455.974527695758
4389,8810,20005,"SMPDSv1","La Mancha","Lopez_a525",39.4913611111111,-3.27569444444444,651,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360178098096741,5300.02565287513,14.5206182270551,6.07636877807694,25.1052280377722,454.48892271432
4389,8811,20006,"SMPDSv1","La Mancha","Lopez_a526",39.5140555555555,-3.23744444444444,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.351246132165791,5320.63437187382,14.5770804708872,6.13015402924513,25.1719100951827,443.407687418688
4389,8812,20007,"SMPDSv1","La Mancha","Lopez_a527",39.4363333333333,-3.47211111111111,667,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.363598986725108,5260.85752677074,14.4133082925226,5.98962283154819,24.9795475155466,458.273826031409
4389,8813,20008,"SMPDSv1","La Mancha","Lopez_a528",38.4898888888888,-3.28855555555555,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.369628430387844,5428.16931315875,14.8716967483801,6.55014313594004,25.3861116344782,471.908052436019
4389,8814,20009,"SMPDSv1","La Mancha","Lopez_a529",39.46025,-3.33569444444444,648,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360674798680758,5307.14217883417,14.5401155584498,6.0945438906817,25.126339098333,455.252400085418
4389,8815,20010,"SMPDSv1","La Mancha","Lopez_a530",39.4661666666666,-3.3295,646,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.36040183880471,5311.75374921096,14.5527499978383,6.10511731890408,25.1405527405775,454.955447073755
4389,8816,20011,"SMPDSv1","La Mancha","Lopez_a531",39.474,-3.32980555555555,646,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360337797720018,5311.53976215693,14.5521637319368,6.10454448378899,25.1396000297877,454.845634259436
4389,8817,20012,"SMPDSv1","La Mancha","Lopez_a532",39.4379166666666,-3.33497222222222,637,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359947688415732,5333.42789023229,14.6121312061159,6.15624535095535,25.2080993682391,454.753397559782
4389,8818,20013,"SMPDSv1","La Mancha","Lopez_a533",39.4400555555555,-3.32991666666666,638,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359966556296786,5331.10073427985,14.6057554363832,6.15066185379107,25.2010339667766,454.745201909442
4389,8819,20014,"SMPDSv1","La Mancha","Lopez_a534",39.4362222222222,-3.30816666666666,645,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360392673159362,5315.13799935152,14.5620219160316,6.11289756475853,25.1527580796163,455.109618302092
4390,8820,24179,"Neotoma","La Mision","LAMISION",-53.848683,-67.833333,-13,"not known","terrestrial, bog/fen/swamp","core","0","Markgraf, V. 1983. Late and postglacial vegetational and paleoclimatic changes in subantarctic, temperate, and arid environments in Argentina. Palynology 7(1):43-70.;
Markgraf, V. 1993. Paleoenvironments and paleoclimates in Tierra del Fuego and southernmost Patagonia, South America. Palaeogeography, Palaeoclimatology, Palaeoecology 102(1-2):53-68.;
Markgraf, V. 1980. New data on the late- and postglacial history of La Mision, Tierra del Fuego, Argentina. Proceedings IV International Palynological Conference 3:68-74.;
Markgraf, V. 1980. Nuevos datos para la historia vegetacio- nal del Tardiglacial y Postglacial de ""La Mision"", Tierra del Fuego, Argentina. Memorias Inst. Nac. Antropologia, Mexico 86:75-81.","10.1080/01916122.1983.9989252;
10.1016/0031-0182(93)90005-4;;",,"not applicable",0.632456405355761,2374.79183644783,6.50627900396665,1.62075494433444,10.9390027376437,380.334138508411
4391,8821,10452,"IBERIA","La Molina mire","MOLINAES_0.025",43.38111111,-6.327222222,650,"0.328","terrestrial, bog/fen/swamp","core","-18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.995827212702385,3999.3734061341,10.957187414066,4.82884378554624,17.8740796533594,962.824793384975
4391,8822,10453,"IBERIA","La Molina mire","MOLINAES_0.06",43.38111111,-6.327222222,650,"0.328","terrestrial, bog/fen/swamp","core","21","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.995827212702385,3999.3734061341,10.957187414066,4.82884378554624,17.8740796533594,962.824793384975
4391,8823,10454,"IBERIA","La Molina mire","MOLINAES_0.07",43.38111111,-6.327222222,650,"0.328","terrestrial, bog/fen/swamp","core","32","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.995827212702385,3999.3734061341,10.957187414066,4.82884378554624,17.8740796533594,962.824793384975
4391,8824,10455,"IBERIA","La Molina mire","MOLINAES_0.08",43.38111111,-6.327222222,650,"0.328","terrestrial, bog/fen/swamp","core","41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.995827212702385,3999.3734061341,10.957187414066,4.82884378554624,17.8740796533594,962.824793384975
4392,8825,20021,"SMPDSv1","La Morana","Lopez_a55",41.0444444444444,-4.71088888888888,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389897309824117,4627.04857608624,12.6768454139349,4.71202861093378,22.2280629160264,476.259180330488
4392,8826,20022,"SMPDSv1","La Morana","Lopez_a56",41.0408888888888,-4.67277777777777,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400670322256166,4503.5457686949,12.3384815580682,4.42159198690042,21.8753767362325,486.445123748662
4392,8827,20023,"SMPDSv1","La Morana","Lopez_a57",41.5044166666666,-4.74208333333333,770,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407622526408582,4421.36182605438,12.1133200713819,4.26145278795752,21.3170989474308,490.232018114641
4393,8828,7788,"EMPDv2","La Nautique","Leroy_g3",43.135601,3.018228,1,"not known","terrestrial, bog/fen/swamp","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.634428035202244,5300.52949720074,14.5219986224678,6.89299815020824,23.1429122410567,682.954755369488
4393,8829,7789,"EMPDv2","La Nautique","Leroy_g4",43.135601,3.018228,1,"not known","artificial water body","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.634428035202244,5300.52949720074,14.5219986224678,6.89299815020824,23.1429122410567,682.954755369488
4394,8830,20024,"SMPDSv1","La Piedra","Barboni_a929",42.633333,-3.866667,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.638314072938568,3783.383874078,10.3654352714466,3.12519377508587,18.8602624120546,683.651958771415
4395,8831,15509,"Neotoma","La Push","CJH088",48.096871,-124.619112,-247,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",,"not applicable",3.30030510026721,3747.44700291905,10.2669780901892,4.76068728500554,16.4639867350281,2376.16620785213
4396,8832,20025,"SMPDSv1","La Roche-de-Rame","Ortu_d44",44.747,6.601,1600,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.47838199477714,2212.68586939232,5.75024582229677,-1.83757023335104,14.295219675518,1369.0553179298
4396,8833,20026,"SMPDSv1","La Roche-de-Rame","Ortu_d45",44.747,6.601,1480,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40232442132139,2397.30765351836,6.39420287693358,-1.23843289396821,14.9687882251422,1317.83073527478
4396,8834,20027,"SMPDSv1","La Roche-de-Rame","Ortu_d46",44.746,6.595,1250,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26253726545281,2787.11590731104,7.62732719376755,-0.0905535545369999,16.2587090738248,1219.50590815714
4396,8835,20028,"SMPDSv1","La Roche-de-Rame","Ortu_d47",44.745,6.59,1070,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15842291311338,3136.12036476144,8.59211058838752,0.807997873564553,17.2677415598116,1142.54741611803
4396,8836,20029,"SMPDSv1","La Roche-de-Rame","Ortu_d48",44.745,6.584,946,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08925602157989,3378.24835391608,9.25547494223583,1.4259688385068,17.9616632860123,1089.51696679055
4397,8837,20041,"SMPDSv1","La Serena","Lopez_a134",38.7300083333333,-5.64635833333333,450,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415131089847869,5738.00936794834,15.7205736108174,7.75044216745683,25.4201531070364,532.331869281931
4397,8838,20042,"SMPDSv1","La Serena","Lopez_a135",38.6551166666666,-5.59463888888888,450,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414760619543012,5742.78456457685,15.7336563413064,7.76239005591636,25.433471417444,532.652044989878
4397,8839,20043,"SMPDSv1","La Serena","Lopez_a136",38.6841638888888,-5.54953611111111,454,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413992735293548,5733.62565554555,15.7085634398508,7.72485888204062,25.4295505974924,531.278475642129
4397,8840,20030,"SMPDSv1","La Serena","Lopez_a137",38.7516722222222,-5.63490555555555,443,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.41903597355208,5721.15964377562,15.6744099829469,7.72047394084088,25.3500720813438,535.463342220585
4397,8841,20031,"SMPDSv1","La Serena","Lopez_a138",38.7683861111111,-5.64683333333333,430,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419544507529811,5752.60569200809,15.7605635397482,7.81819239539219,25.4121469700146,536.342668224283
4397,8842,20032,"SMPDSv1","La Serena","Lopez_a139",38.8067444444444,-5.64825277777777,440,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419371786292129,5724.79929255039,15.6843816234257,7.73498395765948,25.3530101716404,535.426772139894
4397,8843,20044,"SMPDSv1","La Serena","Lopez_a140",38.7954916666666,-5.68840555555555,408,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.420707375393043,5805.3009282925,15.9049340501164,7.98486345820323,25.5120284396891,538.173455837702
4397,8844,20033,"SMPDSv1","La Serena","Lopez_a141",38.765675,-5.73255833333333,423,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421025929150428,5767.26426649944,15.8007240178067,7.87650301944477,25.4218282200862,538.311917372298
4397,8845,20034,"SMPDSv1","La Serena","Lopez_a142",38.7669527777777,-5.74108611111111,447,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.420631598325644,5706.13595856643,15.6332492015519,7.69245625573282,25.2926179688033,537.021489577561
4397,8846,20035,"SMPDSv1","La Serena","Lopez_a143",38.7770777777777,-5.74996944444444,436,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421029299022832,5732.99276601679,15.7068294959364,7.77560728493627,25.3460828561749,537.757488343221
4397,8847,20036,"SMPDSv1","La Serena","Lopez_a144",38.7716527777777,-5.76107222222222,480,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432085371082197,5589.59106528883,15.313948124079,7.44602358455124,24.8783174597719,547.811534783353
4397,8848,20045,"SMPDSv1","La Serena","Lopez_a145",38.7310305555555,-5.76139444444444,498,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418808912309243,5633.37311865898,15.4338989552301,7.39113896428947,25.2681499002087,533.751083492107
4397,8849,20037,"SMPDSv1","La Serena","Lopez_a146",38.7587777777777,-5.77473055555555,617,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427408100584952,5251.70533293505,14.3882337888631,6.38778604843165,24.2220750193625,539.382705935177
4397,8850,20038,"SMPDSv1","La Serena","Lopez_a147",38.7523805555555,-5.76410555555555,517,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430667912071652,5499.82400055888,15.0680109604353,7.16331124348722,24.7063652443451,545.527305446171
4397,8851,20039,"SMPDSv1","La Serena","Lopez_a148",38.7397055555555,-5.80038055555555,431,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425583783749588,5757.59147043274,15.7742232066651,7.8999266495502,25.3194233186221,543.779247941996
4397,8852,20040,"SMPDSv1","La Serena","Lopez_a149",38.7618416666666,-5.83141666666666,394,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.436767090131679,5799.62022682365,15.8893704844483,8.12042637593471,25.262878238362,555.078953026821
4398,8853,16687,"Neotoma","La Terriere (sud)","PJHR045",48.266667,-71.666667,394,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.63494996687926,2106.68802067768,0.996116568166072,-16.925248374608,16.5739022777467,1096.86165851465
4399,8854,24305,"Neotoma","La Teta-2","TETA2_0",3.0833,-76.5333,1020,"not known","terrestrial, bog/fen/swamp","core","-47","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrío, J.C., H. Hooghiemstra, R. Marchant, and O. Rangel. 2002. Late-glacial and Holocene history of the dry forest area in the south Colombian Cauca Valley. Journal of Queternary Science 17(7):667-682.",";
10.1002/jqs.701",4,"warm-temperate evergreen and mixed forest",2.14833898284411,8081.58750981447,22.1413356433273,21.7459472782386,22.5055712219666,2921.5207647956
4399,8855,24306,"Neotoma","La Teta-2","TETA2_10",3.0833,-76.5333,1020,"not known","terrestrial, bog/fen/swamp","core","25","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrío, J.C., H. Hooghiemstra, R. Marchant, and O. Rangel. 2002. Late-glacial and Holocene history of the dry forest area in the south Colombian Cauca Valley. Journal of Queternary Science 17(7):667-682.",";
10.1002/jqs.701",4,"warm-temperate evergreen and mixed forest",2.14833898284411,8081.58750981447,22.1413356433273,21.7459472782386,22.5055712219666,2921.5207647956
4400,8856,6859,"EMPDv2","La Thuile Valley","Champvillair_a1",45.751033175,7.03580067777778,983,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.48237916781922,2832.37822296487,7.65642009989117,-0.941657242818306,16.55378932987,1281.28811236973
4400,8857,6868,"EMPDv2","La Thuile Valley","Champvillair_a10",45.6843470194444,6.96179759722222,1722,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.8742586156745,1830.97772859496,4.23707910210222,-3.44612467322623,12.658608342238,1574.21158446377
4400,8858,6869,"EMPDv2","La Thuile Valley","Champvillair_a11",45.6831553638889,6.96406263333333,1781,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.91460398990387,1755.58444021543,3.9403377764975702,-3.67328357210961,12.3205533840034,1600.39358830439
4400,8859,6870,"EMPDv2","La Thuile Valley","Champvillair_a12",45.6803436888889,6.966717725,1846,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.95922583289227,1674.64167370117,3.61415692268946,-3.92264367551247,11.9489122209107,1629.07459404164
4400,8860,6871,"EMPDv2","La Thuile Valley","Champvillair_a13",45.6774069305556,6.96670356944444,1922,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.011757851945,1582.61016147383,3.23314244838661,-4.21369104799633,11.5148675987802,1662.38810783011
4400,8861,6872,"EMPDv2","La Thuile Valley","Champvillair_a14",45.6766863277778,6.96717941666667,2014,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.07718108500338,1474.22455099668,2.76998237143406,-4.56809451208728,10.9872215263958,1703.05697865757
4400,8862,6873,"EMPDv2","La Thuile Valley","Champvillair_a15",45.6762654638889,6.96845494722222,2090,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.1323073042951,1387.30954676154,2.38691667733314,-4.8612856071289,10.5507573789086,1736.73483734512
4400,8863,6874,"EMPDv2","La Thuile Valley","Champvillair_a16",45.6776848333333,6.97507959166667,2143,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.17270451653616,1327.39413802488,2.11649379842408,-5.06891120306622,10.2422347123903,1760.87375059072
4400,8864,6875,"EMPDv2","La Thuile Valley","Champvillair_a17",45.6779622916667,6.9747038,2159,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.18455742984282,1309.71107759857,2.03579813440774,-5.13070828675206,10.1503203850108,1767.96460343123
4400,8865,6876,"EMPDv2","La Thuile Valley","Champvillair_a18",45.6800157611111,6.97739020277778,2219,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.23036960594562,1243.8010939082901,1.73091616006286,-5.36460090340274,9.80274918134586,1795.00739316903
4400,8866,6877,"EMPDv2","La Thuile Valley","Champvillair_a19",45.6802143166667,6.97891306111111,2266,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.26615164249907,1193.28716531191,1.49310115892816,-5.54668855211218,9.53164905647882,1815.96361804217
4400,8867,6860,"EMPDv2","La Thuile Valley","Champvillair_a2",45.7487745777778,7.039338375,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.4592681785625,2806.82403215512,7.59208295409007,-0.900793712768822,16.48458719367,1285.75096957574
4400,8868,6878,"EMPDv2","La Thuile Valley","Champvillair_a20",45.6793963583333,6.98015601666667,2298,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.29046513303412,1159.38463570672,1.33163004866503,-5.67010353133283,9.34754313191044,1830.11407328333
4400,8869,6879,"EMPDv2","La Thuile Valley","Champvillair_a21",45.6789986777778,6.98122653611111,2348,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.3288931746088,1107.10817254001,1.07913197472799,-5.86324776187393,9.05971850903132,1852.27831150925
4400,8870,6880,"EMPDv2","La Thuile Valley","Champvillair_a22",45.6774107666667,6.983489975,2467,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.42173362938589,985.875393758457,0.47850217737767903,-6.32247787142727,8.37502621133232,1904.90057465539
4400,8871,6881,"EMPDv2","La Thuile Valley","Champvillair_a23",45.6760364638889,6.9858725250000004,2483,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.43445933680146,969.804823412912,0.397274949159059,-6.38432837749725,8.2821842785756,1911.95553053322
4400,8872,6882,"EMPDv2","La Thuile Valley","Champvillair_a24",45.6729783722222,6.99064186666667,2518,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.46235261502415,934.879587579044,0.219735316884661,-6.51946188770787,8.07927467398396,1927.33685784832
4400,8873,6883,"EMPDv2","La Thuile Valley","Champvillair_a25",45.6723863805556,6.99602170555556,2599,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.52873772924398,855.415741685356,-0.192257954728179,-6.83444951622382,7.60902034321671,1963.49263101912
4400,8874,6884,"EMPDv2","La Thuile Valley","Champvillair_a26",45.6725061888889,6.99671099166667,2606,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.53464744094179,848.588303959439,-0.228124373931012,-6.86190833031457,7.5680508127593,1966.66215045575
4400,8875,6885,"EMPDv2","La Thuile Valley","Champvillair_a27",45.6701237777778,6.99810841944444,2668,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.58505015976762,789.77397878652,-0.540900454078101,-7.13717603423103,7.21130119736944,1993.80382291792
4400,8876,6861,"EMPDv2","La Thuile Valley","Champvillair_a3",45.7453316777778,7.03222374166667,1298,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61422880689196,2415.79380319271,6.33606243993896,-1.85961152136559,15.051514683276,1396.00049316597
4400,8877,6862,"EMPDv2","La Thuile Valley","Champvillair_a4",45.7494673333333,7.02208474722222,1446,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.71049390586273,2196.27011162152,5.58349539250497,-2.43459007129603,14.1929256534897,1461.81344376226
4400,8878,6863,"EMPDv2","La Thuile Valley","Champvillair_a5",45.7505640888889,7.017582075,1563,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.84866841203468,1983.69392797412,4.79182851834507,-3.12110955198506,13.3029266329933,1539.55383565272
4400,8879,6864,"EMPDv2","La Thuile Valley","Champvillair_a6",45.7001023722222,6.96173275,1510,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.73619034401311,2113.93469585634,5.29440560558791,-2.63951371932748,13.8628893923613,1481.66174290311
4400,8880,6865,"EMPDv2","La Thuile Valley","Champvillair_a7",45.7007973611111,6.96150109166667,1520,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.74288618631466,2099.85402596548,5.2436350086759,-2.67849472972078,13.8050579497258,1486.14748305773
4400,8881,6866,"EMPDv2","La Thuile Valley","Champvillair_a8",45.6899508083333,6.96302402222222,1618,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.80559340078977,1967.3055685793,4.75701018658679,-3.04925409589563,13.250813179781,1528.75598536359
4400,8882,6867,"EMPDv2","La Thuile Valley","Champvillair_a9",45.6852894,6.96169467222222,1663,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.83454879556914,1908.02291270663,4.53354975118193,-3.21930988707164,12.9962984059263,1548.1555961473
4401,8883,20401,"SMPDSv1","La Tour d'Auvergne","Barboni_a181",45.51,2.66,920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13330701868186,2979.05918038412,8.16180597365511,0.445735082603863,16.7765259746899,1007.54168662378
4401,8884,20402,"SMPDSv1","La Tour d'Auvergne","Barboni_a182",45.53,2.65,870,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11334144284027,3060.07421843265,8.38376498200726,0.671843323172662,16.965736852241,988.905468496719
4402,8885,7121,"EMPDv2","La Verderie","EPDcoretop_E2108",48.35,-0.43,265,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.991514210372386,3514.23227096782,9.62803361908993,2.93898725178186,16.8197299395284,759.795596710825
4402,8886,7122,"EMPDv2","La Verderie","EPDcoretop_E2110",48.35,-0.43,265,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.991514210372386,3514.23227096782,9.62803361908993,2.93898725178186,16.8197299395284,759.795596710825
4403,8887,20046,"SMPDSv1","Laanila","FIN/SPH/F3",68.4994694444444,27.5034361111111,220,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17358895786721,1389.12673243847,-1.40528948470561,-15.1119488165074,13.470303049338,445.887530384211
4404,8888,17589,"Phelps et al., 2020","Laboot Swamp I","LABOOTA_0.5",0.95,34.63,2858,"not known","terrestrial, bog/fen/swamp","core top","45","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.02592598920551,4400.52684097694,12.0562379204848,11.0166993243163,13.4432478256782,1398.76877687881
4405,8889,20047,"SMPDSv1","Labradillos mire","Labradillos-core top",40.344722,-4.5705556,1460,"0.0145","terrestrial, bog/fen/swamp","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.51104738143847,2760.48017155326,7.56295937411851,0.22859934848529,16.8161578498921,585.651103184283
4406,8890,20048,"SMPDSv1","Labytnangi region","Lapteva_a114",66.66666667,66.5,110,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1840742949598,1152.43862097589,-6.17814479273273,-24.3028706229043,13.6905205113711,439.901712300028
4406,8891,20049,"SMPDSv1","Labytnangi region","Lapteva_a127",66.6666666666666,66.5,110,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18407429496926,1152.43862105056,-6.17814479220447,-24.3028706226476,13.6905205119692,439.90171233913
4406,8892,20050,"SMPDSv1","Labytnangi region","Lapteva_a128",66.6666666666666,66.5,110,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18407429496926,1152.43862105056,-6.17814479220447,-24.3028706226476,13.6905205119692,439.90171233913
4406,8893,20051,"SMPDSv1","Labytnangi region","Lapteva_a129",66.6666666666666,66.5,110,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18407429496926,1152.43862105056,-6.17814479220447,-24.3028706226476,13.6905205119692,439.90171233913
4407,8894,12249,"Neotoma","Lac à l'Ange","ANGE",47.481667,-70.684722,648,"not known","lake","core","0","Labelle, C., and P.J.H. Richard. 1981. Végétation tardiglaciaire et postglaciaire au sud-est du Parc des Laurentides, Québec. Géographie physique et Quaternaire 35:345-359.",,9,"cool mixed forest",1.86133249180273,2048.68139663826,1.22778436837598,-15.4162100122249,16.1537990210261,1277.72364205176
4408,8895,12546,"Neotoma","Lac à la Fourche","ESPOIR",47.609722,-70.615833,305,"not known","lake","core","0","Labelle, C., and P.J.H. Richard. 1981. Végétation tardiglaciaire et postglaciaire au sud-est du Parc des Laurentides, Québec. Géographie physique et Quaternaire 35:345-359.",,9,"cool mixed forest",1.60502031696472,2259.15621020158,2.28263210196553,-14.4019242958476,17.2301699683207,1114.75337241283
4409,8896,16669,"Neotoma","Lac à la Loutre","PJHR022",48.9,-73.083333,333,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.41760744077294,2090.5743881103,0.573526879854566,-17.9948629552732,16.5608205204354,936.990858903608
4410,8897,13381,"Neotoma","Lac à la Tortue","TOR",45.545833,-73.316944,137,"not known","lake","core","0","Gauthier, R. 1981. Histoire de la colonisation végétale postglaciaire des Montérégiennes: deux sites du mont Saint-Bruno. Thesis. Université de Montréal, Montréal, Québec, Canada.",,9,"cool mixed forest",1.39039004027617,2798.61926941752,4.87126232162855,-11.5543133011651,19.3702422608445,1069.74482382997
4411,8898,13231,"Neotoma","Lac aux Quenouilles","SAV2",46.171944,-74.395833,403,"not known","lake","core","50","Savoie, L., and P.J.H. Richard. 1979. Paléophytogéographie de l'épisode de Saint-Narcisse dans la région de Sainte-Agathe, Québec. Géographie physique et Quaternaire 33:175-188.",,9,"cool mixed forest",1.34556147696765,2442.85273719151,3.01115136598705,-14.1041746271629,17.8093209864346,1013.76187614587
4412,8899,12274,"Neotoma","Lac Bastien","BASTIEN",46.4,-78.916667,305,"not known","lake","core","-35","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.",,9,"cool mixed forest",1.18718769468434,2591.0538012702,3.64784687266484,-13.5632182913249,18.5315120631531,917.224346852916
4413,8900,16651,"Neotoma","Lac Belle-Fontaine Site 1","PJHR004",47.4,-71.116667,1136,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",2.22297376832246,1725.25800179043,-0.400115330992568,-16.7814738169429,14.466272422298,1492.48351146276
4414,8901,16652,"Neotoma","Lac Belle-Fontaine Site 2","PJHR005",47.4,-71.116667,909,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",2.05877242551212,1871.34490157642,0.346425388408521,-16.163888375343,15.2391444832283,1397.80271256887
4415,8902,16658,"Neotoma","Lac Blouin","PJHR011",47.633333,-70.933333,818,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.997271214484,1932.99716816768,0.620160124569487,-16.0179067898156,15.5811720323664,1356.89007329748
4416,8903,11931,"Neotoma","Lac Bourgeois [Mud Lake]","TM1964K",45.50163,-75.872285,249,"not known","lake","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.20514425229709,2748.58203122107,4.51499130436419,-12.3043697865373,19.1300899836706,950.532335002793
4416,8904,11935,"Neotoma","Lac Bourgeois [Mud Lake]","TM1964L",45.50163,-75.872285,249,"not known","lake","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.20514425229709,2748.58203122107,4.51499130436419,-12.3043697865373,19.1300899836706,950.532335002793
4416,8905,11934,"Neotoma","Lac Bourgeois [Mud Lake]","TM1964M",45.50163,-75.872285,249,"not known","lake","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.20514425229709,2748.58203122107,4.51499130436419,-12.3043697865373,19.1300899836706,950.532335002793
4416,8906,11932,"Neotoma","Lac Bourgeois [Mud Lake]","TM1964N",45.50163,-75.872285,249,"not known","lake","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.20514425229709,2748.58203122107,4.51499130436419,-12.3043697865373,19.1300899836706,950.532335002793
4416,8907,11933,"Neotoma","Lac Bourgeois [Mud Lake]","TM1964O",45.50163,-75.872285,249,"not known","lake","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.20514425229709,2748.58203122107,4.51499130436419,-12.3043697865373,19.1300899836706,950.532335002793
4417,8908,14378,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-53","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14379,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-47","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14380,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-27","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14381,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-21","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14382,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-14","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14383,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-8","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14384,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","-1","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14385,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","5","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14386,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","12","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14387,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","18","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14388,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","25","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14389,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","31","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14390,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","38","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4417,8908,14391,"Neotoma","Lac Brule","BRULE",45.71903,-75.4417,270,"not known","lake","core","44","Lafontaine-Boyer, K., and K. Gajewski. 2014. Vegetation dynamics in relation to late Holocene climate variability and disturbance, Outaouais, Québec, Canada. The Holocene 24(11):1515-1526.",,9,"cool mixed forest",1.25778450614502,2710.61805459884,4.36615084174999,-12.394837511,18.9507867609875,982.699324897285
4418,8909,20052,"SMPDSv1","Lac Chauvet","Barboni_a194",45.45,2.83,1160,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.23608009372737,2637.35636126191,7.16252652726453,-0.562399767872602,15.9446450385445,1110.05538670233
4419,8910,16657,"Neotoma","Lac Chominich","PJHR010",47.55,-71.25,803,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.99598953477494,1929.2942121427,0.652027621292911,-15.8800451285874,15.5439034270704,1357.61508461932
4420,8911,12393,"Neotoma","Lac Ciel Blanc","CIELBLAN",59.516667,-122.166667,651,"not known","lake","core","-33","MacDonald, G.M., and L.C. Cwynar. 1985. A fossil pollen based reconstruction of the late Quaternary history of lodgepole pine (Pinus contorta ssp. latifolia) in the western interior of Canada. Canadian Journal of Forest Research 15:1039-1044.; MacDonald, G.M., and L.C. Cwynar. 1991. Post-glacial population growth rates of Pinus contorta ssp. latifolia in western Canada. Journal of Ecology 79:417-429.",,15,"cold evergreen needleleaf forest",0.786740789067719,1788.03549962215,-2.34412676959886,-21.7356029338573,14.9150655484783,429.830816705459
4421,8912,12423,"Neotoma","Lac Côté","COT",48.966944,-65.95,915,"not known","lake","core","0","Labelle, C., and P.J.H. Richard. 1981. Données pollenanalytiques de l'axe Mont-Saint-Pierre - Mont Jacques-Cartier, en Gaspésie. Pages 137-150 in J.T. Gray (editor). Les zones d'altération et le problème des limites glaciaires. AQQUA et CANQUA, Excursion et colloque en Gaspésie, Québec, 23-29 août 1981.",,9,"cool mixed forest",1.87824170341698,1748.53604506157,0.591316612924863,-13.5388489113596,15.0671901851678,1234.99896562721
4422,8913,20053,"SMPDSv1","Lac d'Ai","EPDcoretop_E1108",46.363744,7.004633,1891,"0.01","lake","lacustrine core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.25619113258867,1496.32134761545,2.81022246322423,-4.76167944473328,11.0444001777001,1768.34583873775
4423,8914,16668,"Neotoma","Lac d'Aigremont","PJHR021",49.283333,-73.833333,409,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,8,"cool evergreen needleleaf forest",1.41151814482604,1967.09205770783,-0.0873118995258379,-18.5587014743925,15.9858567966951,912.437921279984
4424,8915,15698,"Neotoma","Lac Daniel","DLEF041",58.33,-65.25,332,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.69042073829583,753.20811034216,-6.73646688235675,-22.8122863683926,8.79808326100475,660.114802068869
4424,8916,15697,"Neotoma","Lac Daniel","DLEF042",58.33,-65.25,332,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.69042073829583,753.20811034216,-6.73646688235675,-22.8122863683926,8.79808326100475,660.114802068869
4424,8917,15699,"Neotoma","Lac Daniel","DLEF043",58.33,-65.25,332,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.69042073829583,753.20811034216,-6.73646688235675,-22.8122863683926,8.79808326100475,660.114802068869
4425,8918,7132,"EMPDv2","Lac de Brennilis","EPDcoretop_E2134",48.35,-3.89,222,"4.5","artificial water body","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.2827226717306,3844.19251499649,10.5320342876616,5.40788614101438,16.2909696742782,1012.89995716427
4426,8919,20054,"SMPDSv1","Lac de Bretaye","EPDcoretop_E1072",46.326203,7.072456,1780,"0.04","lake","lacustrine core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.1754141598155,1618.56500316509,3.33165716275212,-4.35019981542348,11.6213755894364,1715.11840231204
4427,8920,20055,"SMPDSv1","Lac de Champlong","Barboni_a829",45.783,7.65,2300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.56486971133689,1033.5553502107,0.721684506265393,-6.22589120165639,8.56683311231692,1944.3001801145
4428,8921,7076,"EMPDv2","Lac de Clairvaux","EPDcoretop_E1890",46.56,5.75,525,"0.6","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.15553651176298,3435.09990935977,9.41123262838295,0.761917485489056,18.293775585958,992.068813772649
4429,8922,20056,"SMPDSv1","Lac de la Laudie","Barboni_a191",45.43,2.76,1040,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.18423157436431,2804.65071917564,7.67669746168696,-0.0541809039355449,16.3919181913239,1061.8261572947
4430,8923,20057,"SMPDSv1","Lac de Lod","Barboni_a835",45.85,7.617,1462,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.91824299998942,2080.22074096289,5.12068548135205,-2.98323078789203,13.673763460641,1582.02364328959
4431,8924,20059,"SMPDSv1","Lac de Villa","Barboni_a826",45.683,7.683,820,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41553576216088,3251.24799936922,8.8982272107838,-0.0667830613786791,18.044273153807602,1284.48014781773
4431,8925,20058,"SMPDSv1","Lac de Villa","EPDcoretop_E930",45.684722,7.761111,820,"0.017","lake","core top","-43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45442226423897,3243.79962571333,8.8729558388231,-0.140745493742215,18.0342842589138,1322.58950751911
4432,8926,12481,"Neotoma","Lac Demain","DEMAIN",62.05,-118.7,745,"not known","lake","core","-32","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. 1987. Postglacial vegetation history of the Mackenzie River Basin. Quaternary Research 28:245-262.",,15,"cold evergreen needleleaf forest",0.633110726723931,1293.18094747335,-6.91689095577923,-28.0398477076018,13.2400735073633,296.95089236673
4433,8927,12251,"Neotoma","Lac des Atocas","ATO",45.543056,-73.311111,114,"not known","lake","core","0","Gauthier, R. 1981. Histoire de la colonisation végétale postglaciaire des Montérégiennes: deux sites du mont Saint-Bruno. Thesis. Université de Montréal, Montréal, Québec, Canada.",,9,"cool mixed forest",1.38821078029172,2819.89724205866,4.95140991263636,-11.5008369169726,19.477351218988,1069.93146431797
4434,8928,6991,"EMPDv2","Lac des Boites","EPDcoretop_E1458",45.06,5.89,1560,"0.001","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.50899464653981,2171.91260581536,5.58059619816657,-2.07540418974018,14.1648611152668,1366.64149843959
4435,8929,7310,"EMPDv2","Lac des Grenouilles","Finsinger_a24",44.0983438409357,7.48348125480382,1994,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.53126144808345,1820.49301200121,4.30839058040885,-2.93763430778267,12.719242095948,1425.95161992283
4436,8930,16665,"Neotoma","Lac Dorval","PJHR018",47.083333,-71.366667,440,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.73817182236871,2239.46127997159,2.19026922803711,-14.4402199920832,17.0004136584753,1222.48484122808
4437,8931,20060,"SMPDSv1","Lac du Bouchet","EPDcoretop_E1292",44.916667,3.783333,1200,"1.27","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.28037590991095,2450.69090138865,6.55819009597271,-1.10272260694521,15.2029846466438,1111.50254091935
4438,8932,12501,"Neotoma","Lac du Diable","DIAB",48.910833,-66.125,494,"not known","lake","core","0","Richard, P.J.H., and C. Labelle. 1989. Histoire postglaciaire de la végétation au lac du Diable, mont Albert, Gaspésie, Québec. Géographie physique et Quaternaire 43:337-354.",,9,"cool mixed forest",1.71881186161501,1944.72088898646,1.48704037709577,-13.3611790356706,15.9839190909814,1140.52395500142
4439,8933,20062,"SMPDSv1","Lac du Mont d'Orge, Sion","EPDcoretop_E1227",46.23347222,7.338055556,640,"not known","lake","lacustrine core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40707148770767,3341.14410208323,9.15018860947268,0.0460951427789381,18.2692467218988,1205.792369321
4440,8934,20061,"SMPDSv1","Lac du Mont de Belier","EPDcoretop_E764",45.337778,2.643056,860,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10250975040907,3086.71561228897,8.45675510216157,0.744100693577473,17.0467481877751,984.631300772191
4441,8935,12517,"Neotoma","Lac Dufresne","DUFRESNE",45.85,-70.35,650,"not known","lake","core","0","Mott, R.J. 1977. Late-Pleistocene and Holocene palynology in southeastern Québec. Géographie physique et Quaternaire 31(1-2):139-149.","10.7202/1000060ar",9,"cool mixed forest",1.63804278265832,2281.45020260367,2.87091666551033,-12.7214972652479,16.9062761111519,1183.56075072127
4442,8936,16664,"Neotoma","Lac Durand","PJHR016",47,-71.433333,168,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.5760838698899,2490.93339792199,3.34300371991727,-13.440584994353,18.1595194520389,1133.15833844435
4442,8937,16663,"Neotoma","Lac Durand","PJHR017",47,-71.433333,168,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.5760838698899,2490.93339792199,3.34300371991727,-13.440584994353,18.1595194520389,1133.15833844435
4443,8938,16662,"Neotoma","Lac Equerre","PJHR015",47.15,-71.233333,719,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.90934438370485,2019.6583300244,1.1635433828185,-15.2583624519258,15.9312715342398,1318.30077953345
4444,8939,12551,"Neotoma","Lac Faribault","FAR",58.866944,-71.716944,250,"not known","lake","core","0","Richard, P.J.H. 1981. Paléophytogéographie postglaciaire en Ungava par l'analyse pollinique. Collection Paléo-Québec, no. 13, 154 pages.",,15,"cold evergreen needleleaf forest",1.3425768054103,773.115097833351,-7.18650816263718,-24.4212352106786,8.75799131547577,513.858465217652
4445,8940,12606,"Neotoma","Lac Geai","GEAI",45.995833,-73.992778,365,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.36096391689558,2496.70127792714,3.32495383004656,-13.6293751303033,18.053466830793,1028.28080217548
4446,8941,16653,"Neotoma","Lac Gosselin","PJHR006",46.7,-70.3,606,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.72507127696092,2201.82384397121,2.24545955845899,-13.8321007948227,16.7451645746479,1223.12014508571
4447,8942,12639,"Neotoma","Lac Gras","GRAS",52.25,-67.066667,530,"not known","lake","core","-31","King, G.A. 1986. Deglaciation and vegetation history of western Labrador and adjacent Québec. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,15,"cold evergreen needleleaf forest",1.66312770589159,1466.83280140551,-2.80076602915062,-21.0619167740985,13.9062535953586,915.895217517026
4448,8943,12812,"Neotoma","Lac Hamard","LACHAMAR",54.8,-67.5,564,"not known","lake","core","0","Stravers, L.K.S. 1981. Palynology and deglaciation history of the central Labrador-Ungava Peninsula. Master's thesis. University of Colorado, Boulder, Colorado, USA.",,15,"cold evergreen needleleaf forest",1.66879575267969,1180.11174854751,-5.05661548162726,-23.5897071636518,12.3082452375746,794.65331302694506
4449,8944,12686,"Neotoma","Lac Harriman","HARR",48.2375,-65.838889,65,"not known","lake","core","0","Jetté, H., and P.J.H. Richard. 1992. Contribution à l'histoire postglaciaire de la végétation en Gaspésie méridionale, Québec. Géographie physique et Quaternaire 46:273-284.",,9,"cool mixed forest",1.55122640892819,2399.23725854786,3.64913083425389,-11.4259028256901,17.9791328942148,1088.0504999551
4450,8945,16680,"Neotoma","Lac Jacques-Cartier","PJHR033",47.633333,-71.233333,788,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.98136068393997,1950.97309589286,0.731224800224974,-15.8680323143399,15.6607067275869,1348.82614743285
4451,8946,16675,"Neotoma","Lac Kamatose","PJHR028",47.083333,-76.816667,379,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.2816261042134,2331.8292437447,2.09046614145357,-15.9823796181526,17.3959701355378,935.875070707034
4452,8947,16503,"Neotoma","Lac Kénogami","PJHR046",48.365833,-71.566944,166,"not known","terrestrial, bog/lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.41078793370261,2188.43228387565,1.06224787887407,-17.7043516750164,17.0284382215215,939.854650282719
4453,8948,16582,"Neotoma","Lac Knob","KNO1",54.790295,-66.810555,579,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68643827988833,1179.05435378845,-5.02780321387919,-23.4766878688707,12.3260675169382,805.081167614376
4453,8949,16583,"Neotoma","Lac Knob","KNO2",54.790295,-66.810555,579,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68643827988833,1179.05435378845,-5.02780321387919,-23.4766878688707,12.3260675169382,805.081167614376
4453,8950,16581,"Neotoma","Lac Knob","KNO3",54.790295,-66.810555,579,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.68643827988833,1179.05435378845,-5.02780321387919,-23.4766878688707,12.3260675169382,805.081167614376
4454,8951,16656,"Neotoma","Lac Lachance","PJHR009",47.466667,-71.133333,818,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.9965411664257,1931.41800218525,0.64194466899064,-15.9277219747138,15.5532136229147,1360.2949441551
4455,8952,12813,"Neotoma","Lac Louis","LACLOUIS",47.2875,-79.116667,300,"not known","lake","core","0","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.; Vincent, J.-S. 1973. A palynological study for the Little Clay Belt, northwestern Québec. Naturaliste Canadien 100:59-70.",,9,"cool mixed forest",1.19720991309219,2439.04840221509,2.57715441088743,-15.4630981231635,18.022827362755,883.467104090752
4456,8953,16671,"Neotoma","Lac Madeline","PJHR024",49.366667,-76.7,340,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.37779817012227,2026.39551089284,0.0981152108078877,-18.6704906008344,16.1382598725939,901.949165262519
4457,8954,12898,"Neotoma","Lac Marcotte","MARC",47.077778,-71.422778,503,"not known","lake","core","0","Labelle, C., and P.J.H. Richard. 1981. Végétation tardiglaciaire et postglaciaire au sud-est du Parc des Laurentides, Québec. Géographie physique et Quaternaire 35:345-359.",,9,"cool mixed forest",1.77727761163844,2184.61302734431,1.9285822833265,-14.6750761555942,16.7390280902843,1244.39187235715
4458,8955,12904,"Neotoma","Lac Martyne","MARTYNE",56.783333,-64.833333,365,"not known","lake","core","6","Unpublished data",,15,"cold evergreen needleleaf forest",1.65783092518478,936.468196876465,-5.96835541662195,-22.9771314289693,10.412143504,701.304820647786
4459,8956,11939,"Neotoma","Lac Meech [Meech Lake]","TM1964P",45.542305,-75.89492,167,"not known","lake","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.16639728053749,2902.58903079138,5.26662655206348,-11.2839924338788,19.7905928084414,932.199825022009
4459,8957,11937,"Neotoma","Lac Meech [Meech Lake]","TM1964Q",45.542305,-75.89492,167,"not known","lake","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.16639728053749,2902.58903079138,5.26662655206348,-11.2839924338788,19.7905928084414,932.199825022009
4459,8958,11936,"Neotoma","Lac Meech [Meech Lake]","TM1964R",45.542305,-75.89492,167,"not known","lake","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.16639728053749,2902.58903079138,5.26662655206348,-11.2839924338788,19.7905928084414,932.199825022009
4459,8959,11938,"Neotoma","Lac Meech [Meech Lake]","TM1964S",45.542305,-75.89492,167,"not known","lake","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.16639728053749,2902.58903079138,5.26662655206348,-11.2839924338788,19.7905928084414,932.199825022009
4460,8960,16654,"Neotoma","Lac Megantic","PJHR007",45.45,-70.883333,394,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.60842383330367,2472.57626381171,3.78398481417935,-11.7675320398989,17.8018798363963,1182.46636459225
4461,8961,12938,"Neotoma","Lac Mélèze","MELEZE",65.216667,-126.116667,650,"not known","lake","core","-32","MacDonald, G.M. 1987. Postglacial vegetation history of the Mackenzie River Basin. Quaternary Research 28:245-262.",,15,"cold evergreen needleleaf forest",0.77897604127331,1311.91773926851,-7.48663008456542,-27.8606821591447,13.5167720043396,334.900121263787
4462,8962,16611,"Neotoma","Lac Montagnais","PJHR035",47.907778,-71.175,800,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.99494968255655,1929.8125856856,0.548188293141943,-16.2310849825451,15.6168211767036,1346.71160940924
4463,8963,14392,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-50","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14393,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-43","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14394,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-38","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14395,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-31","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14396,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-26","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14397,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-19","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14398,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-14","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14399,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-7","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14400,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","-2","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14401,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","4","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14402,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","11","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14403,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","16","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14404,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","23","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14405,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","29","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14406,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","36","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14407,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","42","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4463,8963,14408,"Neotoma","Lac Noir","NOIRQU",45.777015,-75.135905,176,"not known","lake","core","49","Paquette, N., and K. Gajewski. 2013. Climatic change causes abrupt changes in forest composition, inferred from a high-resolution pollen record, southwestern Quebec, Canada. Quaternary Science Reviews 75:169-180.; Paquette, N. 2010. Climatic change causes abrupt shifts in forests, inferred from a high-resolution lacustrine record, Southwestern Quebec, Canada.. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.24595330130107,2816.7811207049,4.83504654398564,-11.8735595432578,19.453312139703,980.339021542382
4464,8964,16678,"Neotoma","Lac Noulette","PJHR031",47.716667,-76.316667,363,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.32960513488408,2290.81070285357,1.84731034697957,-16.2672214325922,17.2290592555295,952.326665428429
4465,8965,6149,"EMPDv2","Lac Ouuiouane, Khenifra","AlbaSanchez_a77",33.136528,-5.346624,1677,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.34110036567267,4979.49189925549,13.6424435596041,5.00917424754221,24.3934658390008,486.157168488367
4466,8966,13086,"Neotoma","Lac Patricia","PATRICIA",56.67,-64.68,538,"not known","lake","core","-3","Samson, G. 1983. Prehistorie du Mushuau Nipi, Nouveau-Quebec: etude du mode d'adaptation a l'interier des terres hemi-arctiques. Dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.80519700285472,823.995420996041,-6.37450001975505,-22.6777475321214,9.6520088157113,754.252477281604
4467,8967,20063,"SMPDSv1","Lac Pavin","Barboni_a195",45,2.8667,1190.26,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.26481636122427,2494.96608454423,6.69436182340314,-1.02451555302551,15.4315681460675,1114.86147535181
4468,8968,16681,"Neotoma","Lac Payette","PJHR036",47.766667,-71.4,791,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.99357510077227,1935.05816412114,0.646897938618029,-15.9688629900183,15.6044511718811,1351.32784662386
4469,8969,13113,"Neotoma","Lac Petel","PETEL",50.55,-66.266667,270,"not known","lake","core","17","King, G.A. 1986. Deglaciation and vegetation history of western Labrador and adjacent Québec. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",1.69574111559913,1797.81660721351,0.235278445915503,-16.062617939838,15.3064817313725,1043.97773370195
4470,8970,13205,"Neotoma","Lac Romer","ROM",45.963889,-73.330833,18,"not known","lake","core","0","Comtois, P.G. 1979. Histoire holocène du climat et de la végétation à Lanoraie. Mémoire de M.Sc., département de Géographie, Université de Montréal, 322 pages.; Comtois, P.G. 1982. Histoire holocène du climat et de la végétation à Lanoraie (Québec). Canadian Journal of Earth Science 19:1938-1952.",,9,"cool mixed forest",1.41916635739277,2892.88140589756,5.2527600242467,-11.2287531680924,19.8340577128912,1090.84090732492
4471,8971,15673,"Neotoma","Lac Tasiguluk","DLEF015",58.37,-64.03,580,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.97038430942369,583.999759272098,-7.54718479456277,-22.661084926541,7.54280558081623,743.749395839743
4471,8972,15674,"Neotoma","Lac Tasiguluk","DLEF016",58.37,-64.03,580,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.97038430942369,583.999759272098,-7.54718479456277,-22.661084926541,7.54280558081623,743.749395839743
4471,8973,15675,"Neotoma","Lac Tasiguluk","DLEF017",58.37,-64.03,580,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.97038430942369,583.999759272098,-7.54718479456277,-22.661084926541,7.54280558081623,743.749395839743
4471,8974,15672,"Neotoma","Lac Tasiguluk","DLEF018",58.37,-64.03,580,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.97038430942369,583.999759272098,-7.54718479456277,-22.661084926541,7.54280558081623,743.749395839743
4471,8975,15671,"Neotoma","Lac Tasiguluk","DLEF019",58.37,-64.03,580,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.97038430942369,583.999759272098,-7.54718479456277,-22.661084926541,7.54280558081623,743.749395839743
4472,8976,6157,"EMPDv2","Lac Tiguelmamine, Khenifra","AlbaSanchez_a85",32.937865,-5.36791,1640,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.338682393106513,5031.11377836927,13.7838733653953,5.18194459218561,24.4505662017124,483.843463252678
4473,8977,14600,"Neotoma","Lac Triangle","TRIANGLE",48.710435,-65.41279,465,"not known","lake","core","-44","Asnong, H., and P.J.H. Richard. 2003. La vegetation et le climat postglaciaires du centre et de l'est de la Gaspesie, au Quebec. Geographie physique et Quaternaire 57(1):37-63.",,9,"cool mixed forest",1.66235381843773,1979.56392838915,1.63168456276105,-13.3954955255664,16.1235548410809,1112.93757710459
4474,8978,13498,"Neotoma","Lac Yelle","YELLE",48.503889,-79.637778,356,"not known","lake","core","0","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.; Richard, P.J.H. 1980. Histoire postglaciaire de la végétation au sud du lac Abitibi, Ontario et Québec. Géographie physique et Quaternaire 34:77-94.",,9,"cool mixed forest",1.22856228230617,2313.77273049934,1.71981731873341,-16.7664299612687,17.6247927280106,871.360975981327
4475,8979,16655,"Neotoma","Lac-a-Jack","PJHR008",47.55,-71.25,803,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.99598953477494,1929.2942121427,0.652027621292911,-15.8800451285874,15.5439034270704,1357.61508461932
4476,8980,11000,"Bush et al., 2020","laCompuerta","laCompuerta",-6.922,-78.587,3859,"not known","lake","lake surface sample","-51","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.609037484882885,3882.86291837377,10.6379805982843,9.34622584047959,11.6315701273402,811.167374034616
4477,8981,9136,"EMPDv2","Lacu Sarat","Tantau_a7",45.2180555555556,27.9111111111111,2,"0.71","lake","sediment sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.488657327597128,4187.1311064107,11.3456764649184,-1.31287555467182,22.2659833602365,470.849348092634
4478,8982,12814,"Neotoma","Ladd Lake","LADDLAKE",41.416667,-84.75,249,"not known","lake","core","-32","Shane, L.C.K. 1991. Vegetation history of western Ohio. Final Report on 1990 Grant from the Ohio Department of Natural Resources, Limnological Research Center, University of Minnesota, Minneapolis, Minnesota.; Shane, L.C.K., and K.H. Anderson. 1993. Intensity, gradients and reversals in late glacial environmental change in East-Central North America. Quaternary Science Reviews 12:307-320.",,13,"temperate deciduous broadleaf forest",0.98079991424465,3812.00282722341,9.51807130079584,-5.23212989459584,22.5867204839654,893.365533942781
4479,8983,23195,"SMPDSv1","Laerdal Municipality","Bjune_a61",61.13342954,8.07719575,1283,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.76428519407865,1157.69555792893,0.0382375659007227,-9.63856459180463,9.83705568336186,887.963356206684
4480,8984,20069,"SMPDSv1","Lag12 Molinia","Barboni_a1273",37.11666667,-6.533333333,33.8165,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.439789834053916,6499.42065038235,17.8066319188558,11.4571051530795,25.2671234392649,582.852527813141
4481,8985,20073,"SMPDSv1","Laghi dell'Orgials","EPDcoretop_E1041",44.233333,7.133333,2240,"not known","terrestrial, bog/fen/swamp","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71607774422651,1470.87723713746,2.7479988315055,-4.46226714358249,11.1758282738129,1529.80953081087
4481,8986,9578,"EMPDv2","Laghi dell'Orgials","Finsinger_a40",44.233333,7.133333,2240,"not known","terrestrial, bog/fen/swamp","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.71607774422651,1470.87723713746,2.7479988315055,-4.46226714358249,11.1758282738129,1529.80953081087
4481,8987,20070,"SMPDSv1","Laghi dell'Orgials","Ortu_a1",44.233333,7.133333,2240,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71607774422651,1470.87723713746,2.7479988315055,-4.46226714358249,11.1758282738129,1529.80953081087
4481,8988,20071,"SMPDSv1","Laghi dell'Orgials","Ortu_a2",44.233333,7.133333,2240,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71607774422651,1470.87723713746,2.7479988315055,-4.46226714358249,11.1758282738129,1529.80953081087
4481,8989,20072,"SMPDSv1","Laghi dell'Orgials","Ortu_a3",44.233333,7.133333,2240,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71607774422651,1470.87723713746,2.7479988315055,-4.46226714358249,11.1758282738129,1529.80953081087
4482,8990,20074,"SMPDSv1","Laghi della Sella","Ortu_a11",44.2461111,7.2479444,1960,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.55511154561608,1819.89006111256,4.27944884882254,-3.04627341125298,12.7415328263022,1433.89994840947
4482,8991,20075,"SMPDSv1","Laghi della Sella","Ortu_a12",44.2461111,7.2479444,1960,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.55511154561608,1819.89006111256,4.27944884882254,-3.04627341125298,12.7415328263022,1433.89994840947
4483,8992,20076,"SMPDSv1","Lagi di Bevera","EPDcoretop_E1066",45.8514,8.893319,325,"0.015","lake","lacustrine core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17803866305805,4136.45528995638,11.3327542190586,1.2627897044749,21.1296588499682,1121.1232225293
4484,8993,20077,"SMPDSv1","Lago Adacquato","Barboni_a1262",42.48666667,11.455,95,"10.2","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.666887497415631,5542.77482537009,15.1856844530687,7.63990861204956,23.7279058807681,749.318007575459
4485,8994,9218,"EMPDv2","Lago Albano","Finsinger_a2",41.748423,12.669668,293,"6","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.646939552979688,5328.18040907676,14.5977545454158,6.95343007181394,23.1524594181627,732.695087274524
4486,8995,6954,"EMPDv2","Lago Alimini Piccolo","Di_Rita_a15",40.176,18.45,2,"1.05","lake","sediment sample","0","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.621558718155786,5981.07262576936,16.3865003445736,8.50480801145916,25.0265523119766,767.133340596634
4486,8996,6955,"EMPDv2","Lago Alimini Piccolo","Di_Rita_a16",40.176,18.45,2,"1.05","lake","sediment sample","179","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.621558718155786,5981.07262576936,16.3865003445736,8.50480801145916,25.0265523119766,767.133340596634
4487,8997,7301,"EMPDv2","Lago Calamone","Finsinger_a13",44.382168373328,10.2819703504233,1385,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.47386630945265,1867.59455614877,4.48269987942911,-2.8995536645779,12.8184428012412,1207.29720874012
4488,8998,7302,"EMPDv2","Lago Campagna","Finsinger_a14",45.4844411934367,7.89945060655614,236,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.09505376231628,4445.86994022447,12.1804655896561,2.34885230069506,21.8810556298548,1070.79203430239
4489,8999,24255,"Neotoma","Lago Cardiel","CAR982L",-48.918535,-71.2254399999999,276,"not known","lake","core","13","Markgraf, V., J.P. Bradbury, A. Schwalb, S.J. Burns, C. Stern, D. Ariztegui, A. Gilli, F.A. Anselmetti, S. Stine, and N. Maidana. 2003. Holocene palaeoclimates of southern Patagonia: limnological and environmental history of Lago Cardiel, Argentina. The Holocene 13(4):581-591.","10.1191/0959683603hl648rp",7,"cool-temperate rainforest",0.197008244396921,2960.41478289184,8.11072543258039,1.26230277817778,14.2120983249281,152.056837296136
4490,9000,12384,"Neotoma","Lago Catemaco","CATEMACO",18.666667,-95,340,"not known","lake","core","-32","Byrne, A.R., and S.P. Horn. 1989. Prehistoric agriculture and forest clearance in the Sierra de los Tuxtlas, Veracruz, Mexico. Palynology 13:181-193.",,4,"warm-temperate evergreen and mixed forest",1.30551956068772,8827.26934992189,24.1842995888271,20.6680517871141,26.9394869073444,1913.08396521937
4490,9000,12385,"Neotoma","Lago Catemaco","CATEMACO",18.666667,-95,340,"not known","lake","core","-8","Byrne, A.R., and S.P. Horn. 1989. Prehistoric agriculture and forest clearance in the Sierra de los Tuxtlas, Veracruz, Mexico. Palynology 13:181-193.",,4,"warm-temperate evergreen and mixed forest",1.30551956068772,8827.26934992189,24.1842995888271,20.6680517871141,26.9394869073444,1913.08396521937
4490,9000,12386,"Neotoma","Lago Catemaco","CATEMACO",18.666667,-95,340,"not known","lake","core","16","Byrne, A.R., and S.P. Horn. 1989. Prehistoric agriculture and forest clearance in the Sierra de los Tuxtlas, Veracruz, Mexico. Palynology 13:181-193.",,4,"warm-temperate evergreen and mixed forest",1.30551956068772,8827.26934992189,24.1842995888271,20.6680517871141,26.9394869073444,1913.08396521937
4491,9001,7355,"EMPDv2","Lago Colbricon inferiore","Finsinger_a80",46.2837716116513,11.7656114485156,1909,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.37757873140881,1031.13588185545,0.413562296389711,-7.23832859772729,8.26729194331465,1628.71992013369
4492,9002,7354,"EMPDv2","Lago Colbricon superiore","Finsinger_a79",46.2816374160179,11.7653598868013,1926,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.39579778783969,1009.28379420248,0.306396425442006,-7.3196855285488,8.14206574344534,1634.99236797856
4493,9003,7362,"EMPDv2","Lago Cornisello inferiore","Finsinger_a87",46.2208352188486,10.733834939372,2083,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.91448404120469,782.85847160129,-0.649318663099089,-7.672786694441,6.78089804691077,1926.19291836247
4494,9004,7361,"EMPDv2","Lago Cornisello superiore","Finsinger_a86",46.2214900714558,10.7262480644848,2112,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.96123071275207,746.346315471166,-0.83609351441548,-7.80075555921126,6.55202424058249,1943.04602018254
4495,9005,20078,"SMPDSv1","Lago de Ajo","EPDcoretop_E33",43.05,-6.15,1570,"not known","lake","lacustrine core top","-31","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.739507478023751,2770.79636091484,7.45745444447305,-0.984298315952472,17.5210285843971,821.575218590272
4496,9006,7790,"EMPDv2","Lago de Banyoles","Leroy_i1",42.123098,2.752405,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623282381684148,5232.10395967795,14.334531396378,7.05585658021327,22.7241164456666,681.512867691916
4496,9007,7799,"EMPDv2","Lago de Banyoles","Leroy_i10",42.119248,2.755004,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623204370281815,5232.49715606404,14.3356086467508,7.057376411133,22.7248671541123,681.492913526631
4496,9008,7800,"EMPDv2","Lago de Banyoles","Leroy_i11",42.119248,2.755004,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623204370281815,5232.49715606404,14.3356086467508,7.057376411133,22.7248671541123,681.492913526631
4496,9009,7801,"EMPDv2","Lago de Banyoles","Leroy_i12",42.119099,2.75575,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.62321089944392,5232.48191216172,14.3355668826349,7.0572963979899,22.7248611456477,681.500890537528
4496,9010,7802,"EMPDv2","Lago de Banyoles","Leroy_i13",42.118967,2.756291,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623214910521631,5232.47405701999,14.3355453616986,7.05725127582686,22.7248623085728,681.506332134165
4496,9011,7803,"EMPDv2","Lago de Banyoles","Leroy_i14",42.135272,2.756914,174,"not known","lake","soil sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.624158455956322,5226.59017476468,14.3194251363416,7.03850881052635,22.7113499128428,682.12819530807
4496,9012,7804,"EMPDv2","Lago de Banyoles","Leroy_i15",42.135122,2.755798,174,"not known","lake","soil sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.624137598911904,5226.66225223834,14.3196226088722,7.03882680991619,22.7114443466377,682.111069164576
4496,9013,7805,"EMPDv2","Lago de Banyoles","Leroy_i16",42.134993,2.754537,174,"not known","lake","soil sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.624115245581194,5226.73828522169,14.3198309184156,7.03916436333298,22.7115416383838,682.09228803263
4496,9014,7806,"EMPDv2","Lago de Banyoles","Leroy_i17",42.120076,2.7513,172,"not known","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623174618422382,5232.56089336308,14.3357832694879,7.05772572272305,22.7248760768151,681.454562380497
4496,9015,7807,"EMPDv2","Lago de Banyoles","Leroy_i18",42.120339,2.750263,172,"not known","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623167233003937,5232.57451494985,14.3358205889037,7.05780655840319,22.7248712008324,681.444270665259
4496,9016,7808,"EMPDv2","Lago de Banyoles","Leroy_i19",42.121724,2.757363,172,"not known","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623314061824359,5232.05448662127,14.3343958537569,7.05553375918536,22.7241661538978,681.560315230893
4496,9017,7791,"EMPDv2","Lago de Banyoles","Leroy_i2",42.123132,2.752665,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623287249892239,5232.08717069466,14.3344853991634,7.05578243021706,22.724094530369,681.516875680953
4496,9018,7809,"EMPDv2","Lago de Banyoles","Leroy_i20",42.124717,2.756883,172,"not known","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623397390871645,5231.67649631898,14.3333602638876,7.05402238441814,22.7234995050221,681.596631221012
4496,9019,7810,"EMPDv2","Lago de Banyoles","Leroy_i21",42.127993,2.757076,172,"not known","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.62349916592243,5231.22895283295,14.3321341173505,7.05221398967408,22.7227307384173,681.64606193611
4496,9020,7811,"EMPDv2","Lago de Banyoles","Leroy_i22",42.118669,2.748641,172,"not known","lake","sediment sample","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.614066814870691,5247.33671585259,14.3762649749386,7.10492387678701,22.7534860619723,673.803098233686
4496,9021,7812,"EMPDv2","Lago de Banyoles","Leroy_i23",42.123233,2.750833,175,"not known","lake","sediment sample","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623926726188442,5226.64620358998,14.3195786399725,7.04137959023716,22.7096047162403,682.064714446789
4496,9022,7813,"EMPDv2","Lago de Banyoles","Leroy_i24",42.134182,2.75285,172,"not known","lake","sediment sample","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623623971637094,5230.59826775426,14.3304062130254,7.04977723049705,22.7215244781726,681.67748621317
4496,9023,7814,"EMPDv2","Lago de Banyoles","Leroy_i25",42.127154,2.758197,173,"not known","lake","sediment sample","-43","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623711338403114,5229.45163269712,14.3272647471154,7.04751669754683,22.7180106514728,681.83946631027
4496,9024,7792,"EMPDv2","Lago de Banyoles","Leroy_i3",42.123251,2.75332,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623300520687212,5232.04040933289,14.3343572858435,7.05557763887189,22.7240315887457,681.527448957723
4496,9025,7793,"EMPDv2","Lago de Banyoles","Leroy_i4",42.122421,2.7525,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623263308595735,5232.19018432626,14.3347676282911,7.05620171193885,22.7242681106484,681.504452422786
4496,9026,7794,"EMPDv2","Lago de Banyoles","Leroy_i5",42.117032,2.753209,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623110773382372,5232.87864576979,14.3366538240268,7.05895862623465,22.7254774863173,681.436793993829
4496,9027,7795,"EMPDv2","Lago de Banyoles","Leroy_i6",42.117694,2.753851,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623140309638534,5232.75966750877,14.336327856188401,7.058463103424,22.7252894077997,681.455001546331
4496,9028,7796,"EMPDv2","Lago de Banyoles","Leroy_i7",42.11829,2.753754,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623156901813781,5232.6844233628,14.3361217078433,7.05816228120076,22.725156712157,681.46223192902
4496,9029,7797,"EMPDv2","Lago de Banyoles","Leroy_i8",42.11829,2.753754,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623156901813781,5232.6844233628,14.3361217078433,7.05816228120076,22.725156712157,681.46223192902
4496,9030,7798,"EMPDv2","Lago de Banyoles","Leroy_i9",42.117143,2.753908,172,"not known","lake","sediment sample","-39","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.623124486121244,5232.83077063258,14.3365226592674,7.05874823436862,22.7254138491031,681.447873120521
4497,9031,20079,"SMPDSv1","Lago de Enol","Barboni_a1357",43.272313,-4.991067,1080,"12.564","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.770100776540796,3481.37521325759,9.53801428289751,2.46175846251586,17.7630096224278,807.575466572914
4498,9032,7332,"EMPDv2","Lago del Segrino","Finsinger_a54",45.8299667955775,9.2670867504215,374,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.19618866344821,3980.09192779215,10.9043614460059,0.799288790566207,20.6947781459658,1137.46460515349
4499,9033,7291,"EMPDv2","Lago dell Accesa","Finsinger_a1",42.9882170028838,10.895635820092,143,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.73212064967562,5269.6388131944,14.4373666114915,6.68397393316114,23.1271541257826,801.522637798386
4500,9034,7294,"EMPDv2","Lago dell Aquilente","Finsinger_a5",42.2932151070587,13.1292840973372,1164,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.865041376377232,3443.25607393975,9.43357828476643,1.36690001121518,18.5615910800312,875.342442974643
4501,9035,20080,"SMPDSv1","Lago delle Fate","Ortu_a4",44.266667,7.1,2130,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75634262417568,1550.01299098298,3.09438387220386,-4.22772245014693,11.5073862683634,1553.40362498848
4501,9036,20081,"SMPDSv1","Lago delle Fate","Ortu_a5",44.266667,7.1,2130,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75634262417568,1550.01299098298,3.09438387220386,-4.22772245014693,11.5073862683634,1553.40362498848
4501,9037,20082,"SMPDSv1","Lago delle Fate","Ortu_a6",44.266667,7.1,2130,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75634262417568,1550.01299098298,3.09438387220386,-4.22772245014693,11.5073862683634,1553.40362498848
4502,9038,7312,"EMPDv2","Lago delle Lame","Finsinger_a26",44.5030015770452,9.40917716081863,1043,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.38450066464475,2624.98539435615,7.03057125317139,-1.30340768639418,15.7865958501449,1224.45631833912
4503,9039,7292,"EMPDv2","Lago di Alice Superiore","Finsinger_a3",45.462496431533,7.79597435174097,573,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.27629170223698,3775.00362719332,10.3424756909406,0.996909296554929,19.7300728093601,1206.03682167523
4504,9040,7293,"EMPDv2","Lago di Alserio","Finsinger_a4",45.7866257143131,9.21469351246119,260,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.11153662274942,4282.74192127908,11.7335395103536,1.49188460154704,21.6501154960689,1076.13208328978
4505,9041,7295,"EMPDv2","Lago di Ballone","Finsinger_a7",44.464280767136,10.1093277734358,760,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.16653971898694,3175.88046949535,8.6994648445354,0.0702751164026044,17.6989719149229,1082.6231636975
4506,9042,7297,"EMPDv2","Lago di Bertignano","Finsinger_a9",45.4323373303783,8.06234030595079,375,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.17327155216369,4169.46954702699,11.4232042384301,1.78892655446753,20.9960757998368,1133.99552630777
4507,9043,7298,"EMPDv2","Lago di Bolsena","Finsinger_a10",42.6002616247117,11.9342283081117,305,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.705807284914745,4946.13839676087,13.5510641007147,5.67658163483497,22.3316571050301,762.625251052824
4508,9044,7299,"EMPDv2","Lago di Bracciano","Finsinger_a11",42.1220814712807,12.2303133616996,164,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.6346535944872,5468.29272099086,14.9816238931256,7.35896855244897,23.5264968814488,716.036221460202
4509,9045,7300,"EMPDv2","Lago di Burano","Finsinger_a12",42.4004385987253,11.3799933852218,7,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.648007072157826,5811.0191501984,15.9206004115025,8.51448748832346,24.3410872120843,741.949011593378
4510,9046,7365,"EMPDv2","Lago di Caldaro","Finsinger_a90",46.3789330047186,11.263856077708,214,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.952380546640451,4015.6256328997,11.0017140627389,0.538380901910029,20.8178758183239,905.833062928518
4511,9047,7324,"EMPDv2","Lago di Campo","Finsinger_a45",46.1296153700311,8.12961866961645,2293,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.92124177725745,907.483454900692,0.118610889640152,-6.72925915898019,7.73563289261675,2090.08042211064
4512,9048,7303,"EMPDv2","Lago di Candia","Finsinger_a15",45.3245480476282,7.91041149497752,226.5,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.07727509706378,4485.39324055898,12.2887486042712,2.46789120308971,21.9850032254877,1061.55230422147
4513,9049,20083,"SMPDSv1","Lago di Carpinone","Barboni_a1261",41.60957222,14.37406389,1225,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.821662165033127,3585.53544615355,9.82338478398232,1.79396809745862,18.8824224304419,859.483595538802
4514,9050,7304,"EMPDv2","Lago di Caselette","Finsinger_a16",45.1172383908716,7.49086594010446,370,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.02007110733041,4391.03839094963,12.0302421669853,2.88500620120648,21.3395341075373,1024.5374691531
4515,9051,7357,"EMPDv2","Lago di Cei","Finsinger_a82",45.9508096891787,11.0196839869394,918,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.44789797055611,2623.13840397935,6.76502952907442,-2.58526299718869,15.8383879307348,1245.53858238057
4516,9052,20084,"SMPDSv1","Lago di Chiusi","Barboni_a847",43.05611111,11.96555556,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.721091545414487,4905.8937174695,13.4408047053959,5.25727615913363,22.3500134366051,769.264137501873
4517,9053,7305,"EMPDv2","Lago di Comabbio","Finsinger_a17",45.7643534118201,8.69268401368483,243,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.13224189030372,4325.22974850016,11.8499445164388,1.75358214201567,21.6843322994734,1085.80126898877
4518,9054,7306,"EMPDv2","Lago di Fibreno","Finsinger_a18",41.7010842586896,13.6862665799491,288,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.658200842995359,5305.6864281533,14.53612720042,6.81361925025462,23.0958483595139,743.641136180345
4519,9055,20085,"SMPDSv1","Lago di Fimon","Barboni_a837",45.468498,11.541824,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.780517371376822,4668.99372260806,12.7917636235837,2.06920164820154,22.8424660859512,798.211268602221
4520,9056,7307,"EMPDv2","Lago di Fraturno","Finsinger_a19",42.0791689995319,12.9423268082854,720,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.773697884894122,4329.96458604742,11.8629166741025,3.84861104248333,20.7453881830419,823.968281756705
4521,9057,20086,"SMPDSv1","Lago di Ganna","EPDcoretop_E1090",45.896333,8.826222,452,"0.06","lake","lacustrine core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.2854204463955201,3845.39841878419,10.5353381336553,0.69961916615672,20.1586346302183,1195.74404949808
4522,9058,20087,"SMPDSv1","Lago di Giulianello","Barboni_a1270",41.690562,12.849986,208,"0.12","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.631282392451983,5494.92401581176,15.0545863446898,7.44764967529672,23.5474345300923,721.094752433252
4522,9059,9219,"EMPDv2","Lago di Giulianello","Finsinger_a23",41.6905622184478,12.8499861351256,208,"0.12","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.631282401028011,5494.92399567618,15.0545862895238,7.44764958219016,23.5474344891094,721.094758702615
4523,9060,7353,"EMPDv2","Lago di Lases","Finsinger_a78",46.139707476308,11.2214509708585,632,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.20425998018941,3186.43225127946,8.56355226307134,-1.30916182907975,17.9934354806257,1089.26113197535
4524,9061,20088,"SMPDSv1","Lago di Martignano","EPDcoretop_E434",42.116667,12.333333,204,"0.015","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.646289082940002,5359.57185193566,14.6837584984539,6.97988066311333,23.2589364547996,724.665290329371
4524,9062,9221,"EMPDv2","Lago di Martignano","Finsinger_a32",42.116667,12.333333,204,"0.015","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.646289082940002,5359.57185193566,14.6837584984539,6.97988066311333,23.2589364547996,724.665290329371
4525,9063,7317,"EMPDv2","Lago di Meugliano","Finsinger_a33",45.4765905061514,7.78983992619272,717,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.3617307081062,3484.65049542228,9.54698765869116,0.403572885008408,18.8039080139712,1266.36408693038
4526,9064,20091,"SMPDSv1","Lago di Mezzano","Barboni_a1263",42.611652,11.769169,452,"47.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.745432050187751,4565.0207206932,12.5069060840909,4.53550512251537,21.4147350627161,786.688036880704
4526,9065,9220,"EMPDv2","Lago di Mezzano","Finsinger_a34",42.611652,11.769169,452,"47.5","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.745432050187751,4565.0207206932,12.5069060840909,4.53550512251537,21.4147350627161,786.688036880704
4526,9066,20089,"SMPDSv1","Lago di Mezzano","Sadori_b1",42.611652,11.769169,452,"47.5","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.745432050187751,4565.0207206932,12.5069060840909,4.53550512251537,21.4147350627161,786.688036880704
4526,9067,20090,"SMPDSv1","Lago di Mezzano","Sadori_b2",42.611652,11.769169,452,"47.5","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.745432050187751,4565.0207206932,12.5069060840909,4.53550512251537,21.4147350627161,786.688036880704
4527,9068,7320,"EMPDv2","Lago di Monate","Finsinger_a37",45.7961859302308,8.66291418164824,266,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.15137441154482,4271.59557938739,11.7030015873627,1.6495822070694801,21.5055554110803,1098.48059238135
4528,9069,7318,"EMPDv2","Lago di Moncrivello","Finsinger_a35",45.3398659541722,7.99249395299537,259,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.09836747911214,4417.05601206889,12.1015233207367,2.31979864528937,21.7725417257637,1078.50942540943
4529,9070,20099,"SMPDSv1","Lago di Montepulciano","Barboni_a1256",43.092361,11.925694,250,"190","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.722185016544326,4898.63762733617,13.4209250064005,5.2307886959821,22.3356566018786,769.5144962008
4530,9071,20092,"SMPDSv1","Lago di Monterosi","Barboni_a1269",42.20638889,12.30138889,237,"0.6","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.657249059505524,5274.85811728599,14.4516660747561,6.7135797193705,23.0576432975511,732.282630079804
4531,9072,7319,"EMPDv2","Lago di Montorfano","Finsinger_a36",45.7828112535765,9.13760904832572,396.6,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.22379195472407,3967.60584145564,10.8701529902894,0.888303166819429,20.5947344732934,1157.69164287137
4532,9073,9408,"EMPDv2","Lago di Nemi","Finsinger_a39",41.712136,12.702255,318,"1.67","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.652230319616346,5282.69744234005,14.473143677644,6.8149888849942,23.0398455475253,737.543547127208
4532,9074,20093,"SMPDSv1","Lago di Nemi","Mercuri_b1",41.712136,12.702255,318,"1.67","lake","lacustrine core top","9","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.652230319616346,5282.69744234005,14.473143677644,6.8149888849942,23.0398455475253,737.543547127208
4533,9075,7321,"EMPDv2","Lago di Paterno","Finsinger_a42",42.3823669350174,13.0138969474105,430,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.738043720297749,4753.83980257926,13.0242186372034,4.96229387866401,21.8122411971223,795.902309508586
4534,9076,20094,"SMPDSv1","Lago di Pergusa","Sadori_c1",37.512004,14.305911,667,"not known","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.441612500171901,5477.34509861675,15.0064249277171,8.41200004009984,23.2580789512044,597.987054871192
4535,9077,7325,"EMPDv2","Lago di Pojala","Finsinger_a46",46.3281605620075,8.33391101024051,2305,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.2097541103308,802.949395266534,-0.389409235068473,-7.13260699183648,7.03628522271621,2213.87654141683
4536,9078,20095,"SMPDSv1","Lago di Pratignano","Barboni_a846",44.171147,10.818025,1320,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1395224873878,2096.77884324374,5.54735001953216,-1.12567211101515,13.8291759636497,956.920211945423
4537,9079,7327,"EMPDv2","Lago di Rascino","Finsinger_a48",42.3464787843355,13.1471573941654,1146,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.862288323281255,3467.04319302782,9.49874847404883,1.44474659619032,18.6161752806166,872.647002528417
4538,9080,20096,"SMPDSv1","Lago di Rotunda","Barboni_a1258",40.05583333,15.87791667,920,"12","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.701294298471523,4155.82600762083,11.3858246784132,3.86428635788337,20.155638574873,806.426018929295
4539,9081,7333,"EMPDv2","Lago di San Floriano","Finsinger_a55",42.4260138452594,11.3617072852727,11,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.650741007703005,5796.33629055063,15.8803733987689,8.46546722506012,24.3102217798305,744.033582844719
4540,9082,7315,"EMPDv2","Lago di San Michele","Finsinger_a30",45.4772768196188,7.88835644223549,240,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.09629535209394,4438.82388477639,12.1611613281545,2.33697010155501,21.857003140075,1071.81649433981
4541,9083,7328,"EMPDv2","Lago di Sant Anna di Vinadio","Finsinger_a49",44.2284137931493,7.10058827882416,2167,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67557495416708,1554.9550936764,3.13017711210925,-4.12055501021927,11.574194304504,1505.88742188886
4542,9084,7367,"EMPDv2","Lago di Santa Colomba","Finsinger_a92",46.124438445551,11.180893231332,922,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.44820349469843,2610.07617217541,6.720507869209,-2.61235190814592,15.7740145149591,1239.35485697124
4543,9085,7335,"EMPDv2","Lago di Sibolla","Finsinger_a57",43.8248859049436,10.7005586740067,13,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.775122015090373,5223.68883185236,14.3114762516503,5.15204572765129,23.6832184065947,837.63080912368
4544,9086,20097,"SMPDSv1","Lago di Stefano","Barboni_a1267",42.34638889,13.64527778,1225,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.85350822865176,3445.54700399192,9.43985480545732,1.47648146848412,18.5470923136332,867.228423270933
4545,9087,7338,"EMPDv2","Lago di Tovel","Finsinger_a60",46.2610858162433,10.9500088850979,1178,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.71188643015798,2129.26400823929,5.05739353641609,-3.77031397574401,13.7482217625417,1376.24202441186
4546,9088,7363,"EMPDv2","Lago di Valdurna","Finsinger_a88",46.7427261873703,11.4454433557741,1542,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.04950730989077,1554.83482993858,2.82087901539656,-5.36508335693608,11.0392070347445,1512.098215722
4547,9089,7341,"EMPDv2","Lago di Varese","Finsinger_a63",45.8159037342094,8.73309247320539,238,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.13141838240953,4331.25824748806,11.8664609520221,1.75990240036441,21.7066652359142,1083.5399931361
4548,9090,7340,"EMPDv2","Lago di Varsi","Finsinger_a62",44.664125646107,9.85219394908922,430,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.04673985582053,3978.7176280047,10.9005962411088,1.59937625520933,20.2898974453055,1028.25516667373
4549,9091,7342,"EMPDv2","Lago di Ventina","Finsinger_a64",42.5087587834978,12.7530855005883,370,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.729552945240964,4831.74209000406,13.237649561655,5.1696938012148,22.0271375555723,787.145393946388
4550,9092,20098,"SMPDSv1","Lago di Vico","Barboni_a1268",42.318783,12.1745680918439,507,"12.93","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.750160515489965,4522.12712188005,12.389389375013801,4.41840225542588,21.2777613149909,795.887705104224
4550,9093,9222,"EMPDv2","Lago di Vico","Finsinger_a66",42.318783,12.174568,507,"12.93","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.750160515690856,4522.12711478795,12.3893893555834,4.41840223443567,21.2777613025681,795.887704673658
4550,9094,9380,"EMPDv2","Lago di Vico","Leroy_h1",42.3229,12.15642,510,"12.93","lake","sediment sample","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.751140751312441,4512.6170158245905,12.3633342899304,4.38963405325387,21.2559973208163,796.348503841332
4550,9095,9381,"EMPDv2","Lago di Vico","Leroy_h2",42.3229,12.15642,510,"12.93","lake","moss polster or moss","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.751140751312441,4512.6170158245905,12.3633342899304,4.38963405325387,21.2559973208163,796.348503841332
4550,9096,9382,"EMPDv2","Lago di Vico","Leroy_h3",42.33447,12.1932,514,"12.93","lake","sediment sample","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.752493903357949,4503.40432867841,12.3380940511737,4.36116961157832,21.2326161685721,797.279523804034
4550,9097,9383,"EMPDv2","Lago di Vico","Leroy_h4",42.33447,12.1932,514,"12.93","lake","moss polster or moss","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.752493903357949,4503.40432867841,12.3380940511737,4.36116961157832,21.2326161685721,797.279523804034
4550,9098,20064,"SMPDSv1","Lago di Vico","Sadori_h1",42.345864,12.18109,820,"12.93","lake","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.839836685414897,3763.68639341094,10.3114695709889,2.14348607656091,19.446213856247,850.50487179718
4550,9099,20065,"SMPDSv1","Lago di Vico","Sadori_h2",42.346733,12.181357,810,"12.93","lake","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.836890443857979,3787.58030105331,10.3769323316529,2.2151359207546,19.5039611024273,848.765252276335
4550,9100,20066,"SMPDSv1","Lago di Vico","Sadori_h3",42.348723,12.182188,730,"12.93","lake","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.813509955316288,3979.73214503994,10.9033757398355,2.79103918320911,19.9683818093915,834.85675008824
4550,9101,20067,"SMPDSv1","Lago di Vico","Sadori_h4",42.351259,12.182491,610,"12.93","lake","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.779466603445178,4267.96455032989,11.6930535625476,3.65465220663971,20.6651648971849,814.003254288107
4550,9102,20068,"SMPDSv1","Lago di Vico","Sadori_h5",42.351883,12.18277,590,"12.93","lake","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.77391473503091,4315.98393242937,11.8246135135051,3.79850699286749,20.781255402522,810.530837746026
4551,9103,24180,"Neotoma","Lago do Pires","LDOPIRES_0",-17.95,-42.216667,390,"not known","lake","core","-43","Behling, H. 1995. A high resolution Holocene pollen record from Lago do Pires, SE Brazil: Vegetation, climate and fire history. Journal of Paleolimnology 14:253-268.","10.1007/BF00682427",18,"tropical savanna",0.762254408274147,8565.44065236342,23.4669606914066,20.5081721428629,25.9041374893842,1039.47898387114
4551,9104,24181,"Neotoma","Lago do Pires","LDOPIRES_10",-17.95,-42.216667,390,"not known","lake","core","16","Behling, H. 1995. A high resolution Holocene pollen record from Lago do Pires, SE Brazil: Vegetation, climate and fire history. Journal of Paleolimnology 14:253-268.","10.1007/BF00682427",18,"tropical savanna",0.762254408274147,8565.44065236342,23.4669606914066,20.5081721428629,25.9041374893842,1039.47898387114
4552,9105,7356,"EMPDv2","Lago Fedaia","Finsinger_a81",46.454808232715,11.8843633207301,2028,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.49622990488016,896.751209452129,-0.263843375614103,-7.76320427713264,7.47847066376365,1662.97659502618
4553,9106,7308,"EMPDv2","Lago Gemini inferiore","Finsinger_a21",44.3858083829471,10.0499384277162,1339,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.46801620714816,1957.6095100691,4.77188305218483,-2.89558747395668,13.1859122426042,1216.16657173158
4554,9107,7309,"EMPDv2","Lago Ghirla","Finsinger_a22",45.9169108370751,8.82307761993759,442,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.27865663566063,3866.90184608466,10.5942516331087,0.742597072399198,20.2290411588987,1190.2027414556
4555,9108,20100,"SMPDSv1","Lago Grande di Avigliana","EPDcoretop_E1283",45.065,7.386667,353,"0.83","lake","lacustrine core top","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.997387484158863,4440.64388523431,12.1661476307789,3.05653225086583,21.4566016021299,1007.20548019424
4556,9109,20102,"SMPDSv1","Lago Grande di Monticchio","Barboni_a1260",40.930278,15.605557,656,"38","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.669501328818581,4510.02942105558,12.3562449891934,4.70342852444572,21.0988944609801,751.911560170073
4556,9110,20103,"SMPDSv1","Lago Grande di Monticchio","EPDcoretop_E453",40.944444,15.6,1326,"38","lake","lacustrine core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.808652509027859,3027.19419852841,8.29368273569428,0.614371302349711,17.2537085674946,846.881858966775
4556,9111,20101,"SMPDSv1","Lago Grande di Monticchio","EPDcoretop_E932",40.944444,15.6,1326,"38","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.808652509027859,3027.19419852841,8.29368273569428,0.614371302349711,17.2537085674946,846.881858966775
4556,9112,9223,"EMPDv2","Lago Grande di Monticchio","Finsinger_a38",40.931363,15.604818,650,"38","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.668364821722283,4523.24807493534,12.3924604792749,4.73970616151271,21.1332971390022,751.049231480882
4557,9113,24352,"Neotoma","Lago Huiñaimarca - Lake Titicaca [Lago Menor][Lago Pequeno][Lago Winaymarca]","LT01-3B",-16.266455,-68.70028,3810,"not known","lake","core","0","Gosling, W.D., J.A. Hanselman, C. Knox, B.G. Valencia, and M.B. Bush. 2009. Long-term drivers of change in Polylepis woodland distribution in the central Andes. Journal of Vegetation Science 20(6):1041-1052.;
Gosling, W.D., M.B. Bush, J.A. Hanselman, and A. Chepstow-Lusty. 2008. Glacial-interglacial changes in moisture balance and the impact on vegetation in the southern hemisphere tropical Andes (Bolivia/Peru). Palaeogeography, Palaeoclimatology, Palaeoecology 259(1):35-50.;
Hanselman, J.A., M.B. Bush, W.D. Gosling, A. Collins, C. Knox, P. Baker, and S.C. Fritz. 2011. A 370,000-year record of vegetation and fire history around Lake Titicaca (Bolivia/Peru). Palaeogeography, Palaeoclimatology, Palaeoecology 305(1-4):201-214.;
Hanselman, J.A., W.D. Gosling, G.M. Paduano, and M.B. Bush. 2005. Contrasting pollen histories of MIS 5e and the Holocene from Lake Titicaca (Bolivia/Peru). Journal of Quaternary Science 20(7-8):663-670.;
Tomos, M. 2008. Volcanism & Climate in the central Andes: the tephra record from Lake Titicaca. Master's thesis. University of Oxford, Oxford, United Kingdom. Notes: Supervisors: D.M. Pyle & W.D. Gosling","10.1111/j.1654-1103.2009.01102.x;
10.1016/j.palaeo.2007.02.050;
10.1016/j.palaeo.2011.03.002;
10.1002/jqs.979];",22,"steppe",0.403534674196218,3344.19369406442,9.16217450428608,6.18783924594113,11.1484546555918,597.857094480116
4558,9114,7311,"EMPDv2","Lago Idro","Finsinger_a25",45.7814962735163,10.5117902943771,370,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.03222295709705,3840.62241588004,10.5123071473322,0.0575433052439508,20.4196084453043,994.593337978701
4559,9115,7359,"EMPDv2","Lago Lamar","Finsinger_a84",46.1305956294986,11.0635784817612,714,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27494479349905,3025.49691944128,8.06177293046519,-1.67148860989711,17.3996953963534,1136.76911339173
4560,9116,20104,"SMPDSv1","Lago Laudemio","Barboni_a1259",40.143162,15.836893,1481,"2","lake","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.816784047385435,2865.08753404182,7.84663667896319,0.0699052718593451,16.9234975246278,882.621904775198
4560,9117,20105,"SMPDSv1","Lago Laudemio","Barboni_a838",40.143162,15.836893,1481,"2","lake","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.816784047385435,2865.08753404182,7.84663667896319,0.0699052718593451,16.9234975246278,882.621904775198
4560,9118,9217,"EMPDv2","Lago Laudemio","Finsinger_a29",40.143162466366,15.8368926136657,1481,"2","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.816784085394283,2865.08726978187,7.84663590260224,0.0699043572819912,16.9234967678443,882.621905675578
4561,9119,7313,"EMPDv2","Lago Lauson","Finsinger_a27",45.0463343992846,6.93645208022537,2400,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.18582219480117,1117.28538759124,1.08772152455096,-5.90604873899792,9.19570840598127,1779.84702350413
4562,9120,20106,"SMPDSv1","Lago Lungo","Lago Lungo core top",42.475556,12.847222,369,"not known","lacustrine, drained lake","core top","-34","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.729377409368141,4842.34022095967,13.2666855368758,5.19718924381721,22.0486161305885,788.078652549145
4563,9121,7366,"EMPDv2","Lago Madrano","Finsinger_a91",46.0856804189885,11.2189155087252,548,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.13751396686772,3363.46694451301,9.1043989772311,-0.927628007586119,18.6463065792871,1046.44549089844
4564,9122,7364,"EMPDv2","Lago Monticolo Grande","Finsinger_a89",46.4246378948167,11.2907369275901,489,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.14193211404395,3419.47804148363,9.28595958370319,-0.692817666161253,18.7628107099616,1034.65097791852
4565,9123,20107,"SMPDSv1","Lago Padule","EPDcoretop_E504",44.298581,10.216786,1187,"0.03","lake","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.35453656558843,2242.6248197241,5.7843709881316,-2.10980727472355,14.3626297013118,1158.69819315439
4565,9124,9407,"EMPDv2","Lago Padule","Finsinger_a41",44.298581,10.216786,1187,"0.03","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.35453656558843,2242.6248197241,5.7843709881316,-2.10980727472355,14.3626297013118,1158.69819315439
4566,9125,6949,"EMPDv2","Lago Patria","Di_Rita_a10",40.933,14.041,0,"2","coastal, lagoon","sediment sample","150","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.570613982921291,5911.69079508331,16.1964131372145,8.88361034025244,24.5043240061997,672.22781352511
4566,9126,6950,"EMPDv2","Lago Patria","Di_Rita_a11",40.933,14.041,0,"2","coastal, lagoon","sediment sample","175","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.570613982921291,5911.69079508331,16.1964131372145,8.88361034025244,24.5043240061997,672.22781352511
4566,9127,6948,"EMPDv2","Lago Patria","Di_Rita_a9",40.933,14.041,0,"2","coastal, lagoon","sediment sample","140","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.570613982921291,5911.69079508331,16.1964131372145,8.88361034025244,24.5043240061997,672.22781352511
4567,9128,20108,"SMPDSv1","Lago Piccolo di Monticchio","Barboni_a1266",40.9325,15.613056,660,"16","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.670183001847042,4501.30308361199,12.3323372153753,4.67980131693623,21.0759196353611,752.415004445603
4568,9129,20109,"SMPDSv1","Lago Prando","Barboni_a842",44.304722,10.24125,1281,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.40610530113278,2058.52485406372,5.13661382502419,-2.60222249063898,13.6224336734684,1179.25398711145
4569,9130,7190,"EMPDv2","Lago Preola","EPDcoretop_E2367",37.62,12.63,6,"0.33","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.364162689111355,6557.41668598794,17.9655251670902,11.033153713995,26.1349873926475,480.973082455144
4570,9131,7326,"EMPDv2","Lago Pusiano","Finsinger_a47",45.8039339653764,9.27367485992344,259,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.10124708110246,4255.4371749702,11.6587319862197,1.33345285604855,21.615165177214,1069.50199947522
4571,9132,24410,"Neotoma","Lago Rogaguado","ROGAGUADO_2",-12.9973888888889,-65.9861388888889,125,"not known","lake","core","-11","Brugger, S.O., E. Gobet, J.F.N.v. Leeuwen, M.-P. Ledru, D. Colombaroli, W.O.v.d. Knaap, U. Lombardo, K. Escobar-Torrez, W. Finsinger, L. Rodrigues, A. Giesche, M. Zarate, H. Veit, and W. Tinner. 2016. Long-term man-environment interactions in the Bolivian Amazon: 8000 years of vegetation dynamics. Quaternary Science Reviews 132:114-128.","10.1016/j.quascirev.2015.11.001",18,"tropical savanna",1.04578325569981,9768.9432807259709,26.7642281663725,24.6436979047789,28.1298882362325,1549.92766913302
4571,9133,24411,"Neotoma","Lago Rogaguado","ROGAGUADO_4",-12.9973888888889,-65.9861388888889,125,"not known","lake","core","34","Brugger, S.O., E. Gobet, J.F.N.v. Leeuwen, M.-P. Ledru, D. Colombaroli, W.O.v.d. Knaap, U. Lombardo, K. Escobar-Torrez, W. Finsinger, L. Rodrigues, A. Giesche, M. Zarate, H. Veit, and W. Tinner. 2016. Long-term man-environment interactions in the Bolivian Amazon: 8000 years of vegetation dynamics. Quaternary Science Reviews 132:114-128.","10.1016/j.quascirev.2015.11.001",18,"tropical savanna",1.04578325569981,9768.9432807259709,26.7642281663725,24.6436979047789,28.1298882362325,1549.92766913302
4572,9134,20110,"SMPDSv1","Lago Sabina","CH/WVDK/S2",46.232192,8.020537,2055,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66084097440437,1187.25014089774,1.46320596632875,-5.7485600945769,9.32945798758541,1969.19885380276
4573,9135,6951,"EMPDv2","Lago Salso - Coppa Nevigata","Di_Rita_a12",41.55,15.84,2,"not known","coastal, other","sediment sample","40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.581638612938222,5847.54568611402,16.0206731126412,8.00029889820343,24.809310116416,682.999867623523
4573,9136,6952,"EMPDv2","Lago Salso - Coppa Nevigata","Di_Rita_a13",41.55,15.84,2,"not known","coastal, other","sediment sample","150","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.581638612938222,5847.54568611402,16.0206731126412,8.00029889820343,24.809310116416,682.999867623523
4573,9137,6953,"EMPDv2","Lago Salso - Coppa Nevigata","Di_Rita_a14",41.55,15.84,2,"not known","coastal, other","sediment sample","200","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.581638612938222,5847.54568611402,16.0206731126412,8.00029889820343,24.809310116416,682.999867623523
4574,9138,20112,"SMPDSv1","Lago San Puoto","Barboni_a1257",41.285417,13.407639,5,"30","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.581720518078806,5898.63184277841,16.1606351856943,8.73303527650292,24.4962928250171,681.35773338545
4574,9139,9406,"EMPDv2","Lago San Puoto","Finsinger_a50",41.285417,13.407639,5,"30","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.581720518078806,5898.63184277841,16.1606351856943,8.73303527650292,24.4962928250171,681.35773338545
4575,9140,20111,"SMPDSv1","Lago Santo (Abetone)","Barboni_a844",44.136667,10.585833,1510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.3000757744593,1715.18668387378,4.08843885138194,-2.53875219773507,12.1812056919796,1049.61653500051
4576,9141,9405,"EMPDv2","Lago Santo (Cembra)","Finsinger_a77",46.1960023650838,11.2085683310118,1194,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.70245957088344,2110.87892110293,4.98961140320789,-3.8329064994915,13.6837733770425,1376.86663461385
4577,9142,7337,"EMPDv2","Lago Santo Parmense","Finsinger_a59",44.4024219682956,10.0074893757354,1507,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.5772076189718,1658.88661920412,3.63641779815294,-3.76175128572428,11.8783943193081,1260.69233977403
4578,9143,7360,"EMPDv2","Lago Santo Terlago","Finsinger_a85",46.1247611036377,11.0588159079051,713,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.27413426022704,3027.83743057339,8.06912015781463,-1.66657470535222,17.4089948793209,1136.44335862726
4579,9144,7331,"EMPDv2","Lago Scuro - Polverosa","Finsinger_a53",42.5011973821241,11.3105511243015,10,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.656192031661819,5791.35964191713,15.8667387449784,8.44458112316675,24.3064221405855,748.97338303907
4580,9145,7329,"EMPDv2","Lago Scuro Cerretano","Finsinger_a51",44.3029932640058,10.2441049031806,1288,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.4095324049562,2045.08865217767,5.08810458096191,-2.63926989464735,13.5675027513306,1180.41121630414
4581,9146,7330,"EMPDv2","Lago Scuro delle Agoraie (Lame)","Finsinger_a52",44.49268400201,9.40425013698781,1200,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.47148223520962,2309.32872620842,5.98636166349374,-2.13818838649728,14.6052942448418,1262.86464318049
4582,9147,7323,"EMPDv2","Lago Sfondato","Finsinger_a44",46.0073560559538,8.0869900912189,2422,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.01102746396081,783.569665108219,-0.517289550843251,-7.18467886917966,6.99918948569405,2131.54726167877
4583,9148,7334,"EMPDv2","Lago Sirino","Finsinger_a56",40.0926212916501,15.8088595180255,775,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.676615950579191,4460.11139500777,12.2194832739939,4.74729525831508,20.9137170010792,786.172248138794
4584,9149,7336,"EMPDv2","Lago Sirio","Finsinger_a58",45.4859944994092,7.88420523525695,271,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.1137909596903,4375.28382395018,11.9870789697265,2.20597664426729,21.6547584007327,1085.03509416865
4585,9150,20113,"SMPDSv1","Lago Suinido","Barboni_a1366",42.454,-6.7545,700,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.955421821109977,4057.19479971784,11.1156021910078,4.48337012252226,18.6692502573888,969.438672307794
4586,9151,24209,"Neotoma","Lago Theobald","THEOBALD",-43.43602,-71.561275,640,"not known","lake","core","-46","Iglesias, V. 2013. Holocene climate-vegetation-fire linkages along the Patagonian forest/steppe ecotone (41-43°S). Doctoral dissertation. Montana State University, Bozeman, Montana, USA.;
Iglesias, V., and C. Whitlock. 2014. Fire responses to postglacial climate change and human impact in northern Patagonia (41–43°S). Proceedings of the National Academy of Sciences of the United States of America Early Edition:1-10.;
Iglesias, V., C. Whitlock, V. Markgraf, and M.M. Bianchi. 2014. Postglacial history of the Patagonian forest/steppe ecotone (41—43°S). Quaternary Science Reviews 94:120-135.","10.1073/pnas.1410443111;
10.1016/j.quascirev.2014.04.014",22,"steppe",1.33188844218971,2820.00422831878,7.72603898169528,2.31088828573947,13.0576752153384,1248.49400118511
4587,9152,7316,"EMPDv2","Lago Trearie","Finsinger_a31",37.952065975626,14.8389588117868,1422,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.542248599946191,4184.045557583,11.463138513926,4.49331429966768,20.2994719223837,728.756924756998
4588,9153,9204,"EMPDv2","Lago Trifoglietti","EPDcoretop_E2601",39.55,16.02,1056,"0.009","lake","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.716333507687234,4034.18796141339,11.052569757297,3.52053839674913,19.9383582512262,840.68014586659
4588,9154,9205,"EMPDv2","Lago Trifoglietti","Joannin_a1",39.549224,16.022782,1056,"0.001","lake","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.716224937343102,4035.15297082667,11.0552136187032,3.52381312119464,19.9407997097829,840.650614312498
4588,9155,9206,"EMPDv2","Lago Trifoglietti","Joannin_a2",39.548988,16.022867,1057,"0.001","lake","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.716405454089053,4033.03945434495,11.0494231625889,3.51740918873368,19.9357723585844,840.803251975646
4588,9156,9207,"EMPDv2","Lago Trifoglietti","Joannin_a3",39.548256,16.022585,1065,"0.001","lake","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.717908023932089,4015.48027292705,11.0013158162385,3.46400164455371,19.8938421061257,842.014593796518
4588,9157,9208,"EMPDv2","Lago Trifoglietti","Joannin_a4",39.548279,16.023359,1075,"0.001","lake","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.719772164194939,3993.47857468212,10.9410371909099,3.39711381190334,19.841201499764,843.487562920776
4588,9158,9209,"EMPDv2","Lago Trifoglietti","Joannin_a5",39.547558,16.021316,1070,"0.001","lake","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.718880067127353,4004.31789521842,10.9707339595025,3.42995988147342,19.8672040630673,842.796729780512
4589,9159,7343,"EMPDv2","Lago Verde del Passo del Brattello","Finsinger_a65",44.4091349043191,9.7968056030377,1055,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.32939734272952,2532.11768603719,6.74917345429641,-1.40600054932413,15.441877009096,1168.85369972234
4590,9160,7344,"EMPDv2","Lago Viverone","Finsinger_a67",45.4132598406388,8.03689647494154,230,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.08993475544387,4465.8858009016,12.235303564114,2.39794603667209,21.9415214002264,1070.51234593995
4591,9161,24196,"Neotoma","Lagoa Campestre de Salitre","SALILC91",-19,-46.766667,980,"not known","terrestrial, bog/fen/swamp","core","50","Ledru, M.-P. 1992. Modifications de la végétation du Brésil entre la dernière époque glaciaire et l'interglaciaire actuel. C. R. Acad. Sci. Paris, t. 314, série II:17-123.;
Ledru, M.-P. 1993 Late Quaternary environmental and climatic changes in Central Brazil. Quaternary Research 39:90-98.;
Ledru, M.-P., H. Behling, M. Fournier, L. Martin, and M. Servant. 1994. Localisation de la forêt d'Araucaria du Brésil au cours de l'Holocène. Implications paléoclimatiques. C.R. Acad. Sci. Paris 317:517-521.",";
10.1006/qres.1993.1011;",4,"warm-temperate evergreen and mixed forest",1.05306736508403,7844.92058650944,21.4929331137245,18.4000268856796,23.3308959344848,1499.47656933901
4592,9162,20114,"SMPDSv1","Lagoa Comprida 2","EPDcoretop_E820",40.362778,-7.636111,1650,"not known","lake","lacustrine core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.479407321522006,2859.24887521743,7.52142435469474,-1.77634738850737,19.3182080437572,596.164263453237
4593,9163,24168,"Neotoma","Lagoa da Curuça","CURUCAB",-0.766667,-47.85,35,"not known","lake","core","-44","Behling, H. 1996. First report on new evidence for the occurrence of Podocarpus and possible human presence at the mouth of the Amazon during the Late-glacial. Vegetation History and Archaeobotany 5:241-246.","10.1007/BF00217501",1,"tropical evergreen broadleaf forest",1.88198713365225,9728.62433364204,26.6537652976494,25.8686428009956,27.2619886447271,2624.3450705711102
4594,9164,20115,"SMPDSv1","Lagoa da Sancha 1","Connor_b9",38.02583,-8.8305,25,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.671937342941794,6198.40470302068,16.9819306932074,11.6724555971829,23.0428234493995,767.87363611992
4595,9165,20116,"SMPDSv1","Lagoa da Sancha 2","Connor_b10",38.02945,-8.832389,25,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.672221227639082,6198.11814092742,16.981145591582,11.6720938460108,23.0414021798801,768.068813919048
4596,9166,24169,"Neotoma","Lagoa das Patas","DASPATAS",0.266667,-66.683333,300,"not known","lake","core","-3","Colinvaux, P.A., P.E. De Oliveira, J.E. Moreno, M.C. Miller, and M.B. Bush. 1996. A long pollen record from lowland Amazonia: forest and cooling in glacial times. Science 274:85-88.","10.1126/science.274.5284.85",1,"tropical evergreen broadleaf forest",2.05313990663491,8964.51958720119,24.5603276361676,23.6480797578153,25.0879079333715,2889.09354857763
4597,9167,20117,"SMPDSv1","Lagoa de Cospeito","Barboni_a930",43.241102,-7.554778,400,"11.641","coastal, lagoon","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27500203964474,4430.15018521482,12.1373977677118,6.7814318776792,18.2236280877523,1204.65776539061
4598,9168,20118,"SMPDSv1","Lagoa de Lucenza","Barboni_a931",42.592222,-7.113194,1395,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.7634039992361,2975.97080780389,8.10443986591318,-0.354510395274502,18.0785760102993,830.737273396191
4599,9169,20119,"SMPDSv1","Lagoa de Marinho","Barboni_a932",41.75,-8.1,1150,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.811396370658425,3288.11907174409,9.00854540203859,1.06990475301276,18.3862111309571,847.638889203386
4600,9170,20120,"SMPDSv1","Lagoa de Pataias","Barboni_a1360",39.677278,-9.002989,124,"4.019","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.852690895779049,5873.72092556952,16.0923860974507,10.4596472659458,22.4155638826907,894.361776369227
4601,9171,20121,"SMPDSv1","Lagoa dos Coelhos","Barboni_a1400",39.693194,-8.991389,123,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.854034444306397,5874.18247940239,16.0936506284997,10.4627326720074,22.4127620823681,895.210827779784
4602,9172,20122,"SMPDSv1","Lagodekhi","EPDcoretop_E359",41.930833,46.416111,2750,"0.0015","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0748054172139,1218.71772101783,-2.45708996370869,-17.4357696822299,11.3715691379472,962.614756991403
4603,9173,20123,"SMPDSv1","Lagodekhi 1","GEOR/EK/T1",41.847778,46.278889,578,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.544544195847283,4048.47411116577,10.8569274890314,-1.83269524580522,23.2791477089304,563.477776511627
4604,9174,20124,"SMPDSv1","Lagodekhi 10","GEOR/EK/T10",41.983333,46.3875,2900,"not applicable","terrestrial","pollen trap","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.12591356291014,1078.3587052002,-3.38247864914581,-18.511539443178,10.5332550423603,994.921642226879
4605,9175,20125,"SMPDSv1","Lagodekhi 2","GEOR/EK/T2",41.853056,46.291389,683,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.566428111491404,3861.98195117727,10.2028526096451,-2.60169312471354,22.6966773366948,582.789889397957
4606,9176,20126,"SMPDSv1","Lagodekhi 3","GEOR/EK/T3",41.855556,46.315833,893,"not applicable","terrestrial","pollen trap","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.610674593523505,3513.55611806542,8.90557990410863,-4.12422715996475,21.5394072338152,621.177751084793
4607,9177,20127,"SMPDSv1","Lagodekhi 4","GEOR/EK/T4",41.849444,46.323056,1241,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.687312769637737,2989.32149888777,6.77274149580274,-6.62724306496881,19.6325896461743,685.42846525258
4608,9178,20128,"SMPDSv1","Lagodekhi 5","GEOR/EK/T5",41.854444,46.340833,1661,"not applicable","terrestrial","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.785369821965049,2419.86400201423,4.19271866913126,-9.6554193556384,17.3273995505627,762.662385865694
4609,9179,20129,"SMPDSv1","Lagodekhi 6","GEOR/EK/T6",41.865,46.348889,1966,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.861423053664088,2044.62765917622,2.31949350992902,-11.8533585541131,15.6526873981966,819.082822559702
4610,9180,20130,"SMPDSv1","Lagodekhi 7","GEOR/EK/T7",41.870278,46.353889,1997,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.869351832997748,2008.12084373498,2.12854795056426,-12.0766582437227,15.4819585410338,824.727358914227
4611,9181,20131,"SMPDSv1","Lagodekhi 8","GEOR/EK/T8",41.875,46.374167,2284,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.943724508471979,1687.12448882731,0.376339837380574,-14.1294538046454,13.9146063961874,876.856608864871
4612,9182,20132,"SMPDSv1","Lagodekhi 9","GEOR/EK/T9",41.877778,46.383333,2600,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03085779706087,1362.22425727516,-1.55219323929056,-16.3898476316886,12.1886831873774,934.808604942367
4613,9183,7358,"EMPDv2","Lagolo","Finsinger_a83",46.0405934786338,11.00590068558,929,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.46063256417969,2602.47096763679,6.69625896013248,-2.6329272881965,15.753856120907,1251.62035198607
4614,9184,14853,"Neotoma","Lagoon Pond","LAGOONP",41.4282649999999,-70.60189,1,"not known","lake","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36367840528857,3938.78824556957,10.5463749187196,-1.81588162370492,22.4353264129133,1238.7194087286
4614,9184,14854,"Neotoma","Lagoon Pond","LAGOONP",41.4282649999999,-70.60189,1,"not known","lake","core","-21","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36367840528857,3938.78824556957,10.5463749187196,-1.81588162370492,22.4353264129133,1238.7194087286
4614,9184,14855,"Neotoma","Lagoon Pond","LAGOONP",41.4282649999999,-70.60189,1,"not known","lake","core","26","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36367840528857,3938.78824556957,10.5463749187196,-1.81588162370492,22.4353264129133,1238.7194087286
4615,9185,11001,"Bush et al., 2020","LagoVerde","LagoVerde",18.61,-95.35,87,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.3095869543485401,9261.30652633773,25.3734425379116,21.55626764048,28.2632774985681,1923.92549116469
4616,9186,20133,"SMPDSv1","Lagstjoen","Bjune_a292",60.2683333333333,11.365,230,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32191134272126,2168.15533444299,4.33849267148659,-6.39663667042642,15.1117528234017,763.152835975575
4617,9187,20134,"SMPDSv1","Laguna Albardiosa","Barboni_a851",39.661806,-3.292361,665,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360504941305038,5260.47031407381,14.4122474358186,5.98480387715655,24.9746987730156,453.785174731847
4618,9188,20135,"SMPDSv1","Laguna Alcahozo","Barboni_a852",39.390972,-2.876389,664,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349560011977381,5294.4385455726,14.5053110837605,6.07747427943008,25.0713592363462,440.997489584269
4619,9189,20136,"SMPDSv1","Laguna Alcaparrosa","Barboni_a853",37.049861,-5.816111,30,"6.6","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.43007007524547,6524.17423394702,17.8744499560192,11.3505818863254,25.5281917766886,577.454204254439
4620,9190,20137,"SMPDSv1","Laguna Almodovar","Barboni_a854",38.706389,-4.165556,670,"18.8","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380904255241611,5384.07020221353,14.7508772663384,6.43862427988931,25.2060774146216,484.541708859915
4621,9191,20138,"SMPDSv1","Laguna Altillo","Barboni_a855",39.69233,-3.301266,681,"24.468","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.362177693226796,5219.48375859729,14.2999555030063,5.89102454903483,24.8446411078395,455.210289727863
4622,9192,20141,"SMPDSv1","Laguna Amarga","Barboni_a856",37.313889,-4.615,368,"6.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411640823719796,6033.84020166007,16.531069045644,9.08988290672448,25.4911237065229,545.353014880232
4622,9193,20139,"SMPDSv1","Laguna Amarga","Barboni_a857",37.313889,-4.615,368,"6.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411640823719796,6033.84020166007,16.531069045644,9.08988290672448,25.4911237065229,545.353014880232
4622,9194,20140,"SMPDSv1","Laguna Amarga","Barboni_a858",37.313889,-4.615,368,"6.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411640823719796,6033.84020166007,16.531069045644,9.08988290672448,25.4911237065229,545.353014880232
4623,9195,24277,"Neotoma","Laguna Angel","ANGEL",4.44937,-70.5389199999999,200,"not known","lake","core","-46","Behling, H., and H. Hooghiemstra. 1998. Late Quaternary palaeoecology and palaeoclimatology from pollen records of the savannas of the Llanos Orientales in Colombia. Palaeogeography, Palaeoclimatology, Palaeoecology 139(3-4):251-267.","10.1016/S0031-0182(97)00139-9",3,"tropical deciduous broadleaf forest and woodland",1.89194827789037,9643.66018660784,26.4209868126242,25.000209794399,27.8221192419707,2736.77369207845
4624,9196,20142,"SMPDSv1","Laguna Arjona","Barboni_a859",37.036389,-5.824722,28,"9","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430069594450957,6526.91252349789,17.8819521191723,11.3660870985851,25.5255793681746,577.497941899222
4625,9197,20143,"SMPDSv1","Laguna Barrillos","Barboni_a860",41.857083,-5.563889,677,"118","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.492456648953589,4498.59855659856,12.3249275523248,4.75509513529074,21.012800615321,571.682915210734
4626,9198,15221,"Neotoma","Laguna Biajaca","BIAJACA",19.59086,-71.08654,78,"not known","fluvial","core","-39","Castilla-Beltrán, A., H. Hooghiemstra, M.L.P. Hoogland, J. Pagán-Jiménez, B. van Geel, M.H. Field, M. Prins, T. Donders, E. Herrera Malatesta, J. Ulloa Hung, C.H. McMichael, W.D. Gosling, and C.L. Hofman. 2018. Columbus’ footprint in Hispaniola: A paleoenvironmental record of indigenous and colonial impacts on the landscape of the central Cibao Valley, northern Dominican Republic. Anthropocene 22:66-80.","10.1016/j.ancene.2018.05.003",22,"steppe",0.873618356774375,9463.66951989058,25.9278616983304,23.6164313706684,27.6405112011679,1404.52580383373
4626,9198,15222,"Neotoma","Laguna Biajaca","BIAJACA",19.59086,-71.08654,78,"not known","fluvial","core","-11","Castilla-Beltrán, A., H. Hooghiemstra, M.L.P. Hoogland, J. Pagán-Jiménez, B. van Geel, M.H. Field, M. Prins, T. Donders, E. Herrera Malatesta, J. Ulloa Hung, C.H. McMichael, W.D. Gosling, and C.L. Hofman. 2018. Columbus’ footprint in Hispaniola: A paleoenvironmental record of indigenous and colonial impacts on the landscape of the central Cibao Valley, northern Dominican Republic. Anthropocene 22:66-80.","10.1016/j.ancene.2018.05.003",22,"steppe",0.873618356774375,9463.66951989058,25.9278616983304,23.6164313706684,27.6405112011679,1404.52580383373
4626,9198,15223,"Neotoma","Laguna Biajaca","BIAJACA",19.59086,-71.08654,78,"not known","fluvial","core","17","Castilla-Beltrán, A., H. Hooghiemstra, M.L.P. Hoogland, J. Pagán-Jiménez, B. van Geel, M.H. Field, M. Prins, T. Donders, E. Herrera Malatesta, J. Ulloa Hung, C.H. McMichael, W.D. Gosling, and C.L. Hofman. 2018. Columbus’ footprint in Hispaniola: A paleoenvironmental record of indigenous and colonial impacts on the landscape of the central Cibao Valley, northern Dominican Republic. Anthropocene 22:66-80.","10.1016/j.ancene.2018.05.003",22,"steppe",0.873618356774375,9463.66951989058,25.9278616983304,23.6164313706684,27.6405112011679,1404.52580383373
4626,9198,15224,"Neotoma","Laguna Biajaca","BIAJACA",19.59086,-71.08654,78,"not known","fluvial","core","44","Castilla-Beltrán, A., H. Hooghiemstra, M.L.P. Hoogland, J. Pagán-Jiménez, B. van Geel, M.H. Field, M. Prins, T. Donders, E. Herrera Malatesta, J. Ulloa Hung, C.H. McMichael, W.D. Gosling, and C.L. Hofman. 2018. Columbus’ footprint in Hispaniola: A paleoenvironmental record of indigenous and colonial impacts on the landscape of the central Cibao Valley, northern Dominican Republic. Anthropocene 22:66-80.","10.1016/j.ancene.2018.05.003",22,"steppe",0.873618356774375,9463.66951989058,25.9278616983304,23.6164313706684,27.6405112011679,1404.52580383373
4627,9199,20144,"SMPDSv1","Laguna Camino de Villafranca","Barboni_a861",39.412639,-3.255417,630,"240","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.358949888587741,5350.70338169681,14.6594613197173,6.19548867143621,25.2643751684911,453.884588488012
4628,9200,20145,"SMPDSv1","Laguna Campano","Barboni_a862",36.346528,-6.139861,30,"6","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.428763649092695,6499.09483402006,17.8057392712878,11.4098448370143,25.301152154017,574.748654377204
4629,9201,20146,"SMPDSv1","Laguna Caracuel","Barboni_a863",38.826944,-4.068056,664,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37517639332288,5328.87594084878,14.5996601119145,6.24946184769487,25.0931597341278,476.206794105553
4630,9202,20147,"SMPDSv1","Laguna Carboneras","Barboni_a864",38.754722,-3.945278,770,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.367823309091889,5142.2401627017,14.0883292128814,5.70018410044623,24.7245382273117,465.499754733823
4631,9203,24266,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_0",4.5865,-71.327135,180,"not known","lake","core","-46","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9204,24270,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_10",4.5865,-71.327135,180,"not known","lake","core","16","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9205,24271,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_12.5",4.5865,-71.327135,180,"not known","lake","core","27","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9206,24272,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_15",4.5865,-71.327135,180,"not known","lake","core","38","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9207,24273,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_17.5",4.5865,-71.327135,180,"not known","lake","core","50","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9208,24267,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_2.5",4.5865,-71.327135,180,"not known","lake","core","-21","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9209,24268,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_5",4.5865,-71.327135,180,"not known","lake","core","-8","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4631,9210,24269,"Neotoma","Laguna Carimagua-Bosque","CABOSQUE_7.5",4.5865,-71.327135,180,"not known","lake","core","4","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, and K. van der Borg. 2000. Late Holocene history of savanna gallery forest from Carimagua area, Colombia. Review of Palaeobotany and Palynology 111(3-4):295-308.",";
10.1016/S0034-6667(00)00030-0",3,"tropical deciduous broadleaf forest and woodland",1.78953358913693,9651.87135377917,26.4434831610388,25.0212021892405,27.9689485746237,2649.56673562742
4632,9211,20148,"SMPDSv1","Laguna Carralogrono","Barboni_a865",42.542639,-2.566389,556,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.869656234923349,4220.86338445248,11.5640092724725,4.64138360978688,19.3302602547048,858.231072157501
4633,9212,20149,"SMPDSv1","Laguna Carravalseca","Barboni_a866",42.534306,-2.565278,548,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.874021492925684,4231.30400512624,11.5926137126746,4.68006660530661,19.3378681998252,861.52527272139
4634,9213,20150,"SMPDSv1","Laguna Carrizosa","Barboni_a867",38.84,-4.243056,691,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3749445294288,5262.75535504514,14.4185078220415,6.06142021342665,24.9313738564334,475.007767052512
4635,9214,20151,"SMPDSv1","Laguna Cerro Mesado","Barboni_a868",39.327222,-3.274028,626,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359703147723919,5360.92035730359,14.6874530337085,6.22174500160117,25.2972960677721,455.229227352738
4636,9215,24282,"Neotoma","Laguna Chenevo","CHENEVO",4.59408,-71.44083,150,"not known","lake","core","-50","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, P. Botero, and K. van der Borg. 2002. Late-Quaternary savanna history of the Colombian Llanos Orientales from Lagunas Chenevo and Mozambique: a transect synthesis. The Holocene 12(1):35-48.",";
10.1191/0959683602h1518rp",3,"tropical deciduous broadleaf forest and woodland",1.79932984801834,9709.83448970695,26.6022862731697,25.1732973388895,28.1367136818327,2668.67901535155
4637,9216,20152,"SMPDSv1","Laguna Chica","Barboni_a870",37.097778,-4.30875,792,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386907786031628,5454.15073932523,14.9428787378773,7.18932515167105,24.7669550614366,506.933510806175
4638,9217,20153,"SMPDSv1","Laguna Chica de Villafranca","Barboni_a869",39.464019,-3.33248,643,"37.761","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360189210946627,5318.81511262731,14.5720961989789,6.12168979354189,25.1623055102471,454.78398946795
4639,9218,20154,"SMPDSv1","Laguna Chica, Villafranca de los Caballe","Barboni_a1394",39.464019,-3.33248,643,"37.761","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360189210946627,5318.81511262731,14.5720961989789,6.12168979354189,25.1623055102471,454.78398946795
4640,9219,24253,"Neotoma","Laguna Chorreras","CHORRERAS",-2.77028,-79.1600249999999,3771,"not known","lake","core","46","Hansen, B.C.S., D.T. Rodbell, G.O. Seltzer, B. León, K.R. Young, and M. Abbott. 2003. Late-glacial and Holocene vegetational history from two sites in the western Cordillera of southwestern Ecuador. Palaeogeography, Palaeoclimatology, Palaeoecology 194(1-3):79-108.","10.1016/S0031-0182(03)00272-4",22,"steppe",0.774660651077504,3146.47566058473,8.62048126187598,8.28151639231266,8.89214434785102,972.442638824403
4641,9220,24404,"Neotoma","Laguna Cocha Caranga","COCHACAR",-4.04586111111111,-79.1595833333333,2710,"not known","terrestrial","core","-19","Brunschön, C., and H. Behling. 2010. Reconstruction and visualization of upper forest line and vegetation changes inthe Andean depression region of southeastern Ecuador since the last glacialmaximum—A multi-site synthesis. Review of Palaeobotany and Palynology 163:139-152.;
Niemann, H., and H. Behling. 2009. Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276(1-4):1-14.","10.1016/j.revpalbo.2010.10.005;
10.1016/j.palaeo.2009.02.018",4,"warm-temperate evergreen and mixed forest",0.638867469508366,4943.59028741194,13.5440829792108,13.0183780281941,13.8218766073014,840.209645932331
4642,9221,20155,"SMPDSv1","Laguna Comisario","Barboni_a871",36.522778,-6.02625,78,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430994526267997,6435.57170656674,17.6317033056623,11.1593409718806,25.2551757334285,577.207201657313
4643,9222,20156,"SMPDSv1","Laguna Cucharas","Barboni_a872",38.752222,-4.145417,646,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376975371152147,5368.32593779092,14.7077422953176,6.36710179782923,25.177358944625,479.269850299111
4644,9223,20157,"SMPDSv1","Laguna de Aguas Negras","Barboni_a1385",37.05,-3.3671,3050,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.463453996243895,2126.1990737179,4.09545133146433,-5.76300215673932,18.7006915770791,551.270173778226
4645,9224,20158,"SMPDSv1","Laguna De Alcabozo (Manjavacas)","Barboni_a1371",39.4166,-2.8666,700,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.35387255865055,5209.08335455131,14.271461245346,5.8719103091036,24.8092865229243,445.217955582922
4646,9225,20159,"SMPDSv1","Laguna de Altillo","Barboni_a1389",39.69233,-3.301266,681,"24.468","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.362177693226796,5219.48375859729,14.2999555030063,5.89102454903483,24.8446411078395,455.210289727863
4647,9226,20160,"SMPDSv1","Laguna de Bardancos","Barboni_a1367",43.159028,-7.478333,425,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25806265585591,4390.29488302564,12.0282051589744,6.57695022451211,18.2099807176116,1192.98781851999
4648,9227,20161,"SMPDSv1","Laguna de Benache","Barboni_a1365",38.3833,-2.5,1300,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391351276379306,4416.89623440686,12.1010855737174,3.68285796585262,23.1814621764583,492.095718394529
4649,9228,20162,"SMPDSv1","Laguna de Brana Rubia a de Alcaya","Barboni_a1390",43.125,-8.744167,389,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.41356125820248,4515.42239425348,12.3710202582287,7.05925073697363,18.4098000722296,1349.19522557528
4650,9229,20163,"SMPDSv1","Laguna de Cospeito","Barboni_a1379",43.241102,-7.554778,400,"11.641","coastal, lagoon","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27500203964474,4430.15018521482,12.1373977677118,6.7814318776792,18.2236280877523,1204.65776539061
4651,9230,20164,"SMPDSv1","Laguna de Guano","Barboni_a1393",43.3335,-6.8868,1040,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.999140659125785,3351.72115472918,9.18279768418954,2.08392995366629,17.3917786282805,993.967662784361
4652,9231,20165,"SMPDSv1","Laguna de la Caldera","Barboni_a1401",37.054583,-3.329306,3022,"0.322","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.467142987186907,2146.4910203809,4.20415264687244,-5.64969513284176,18.7754324943549,556.194699392003
4653,9232,24307,"Neotoma","Laguna De La Cocha","LACOCHA3_1",1.0792261111111,-77.151575,2780,"not known","lake","core","-51","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9233,24312,"Neotoma","Laguna De La Cocha","LACOCHA3_11",1.0792261111111,-77.151575,2780,"not known","lake","core","1","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9234,24313,"Neotoma","Laguna De La Cocha","LACOCHA3_13",1.0792261111111,-77.151575,2780,"not known","lake","core","11","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9235,24314,"Neotoma","Laguna De La Cocha","LACOCHA3_15",1.0792261111111,-77.151575,2780,"not known","lake","core","21","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9236,24315,"Neotoma","Laguna De La Cocha","LACOCHA3_17",1.0792261111111,-77.151575,2780,"not known","lake","core","31","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9237,24316,"Neotoma","Laguna De La Cocha","LACOCHA3_19",1.0792261111111,-77.151575,2780,"not known","lake","core","42","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9238,24308,"Neotoma","Laguna De La Cocha","LACOCHA3_3",1.0792261111111,-77.151575,2780,"not known","lake","core","-41","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9239,24309,"Neotoma","Laguna De La Cocha","LACOCHA3_5",1.0792261111111,-77.151575,2780,"not known","lake","core","-31","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9240,24310,"Neotoma","Laguna De La Cocha","LACOCHA3_7",1.0792261111111,-77.151575,2780,"not known","lake","core","-20","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4653,9241,24311,"Neotoma","Laguna De La Cocha","LACOCHA3_9",1.0792261111111,-77.151575,2780,"not known","lake","core","-10","Epping, I. 2009. Environmental change in the Colombian upper forest belt. Master's thesis. University of Amsterdam, Amsterdam, The Netherlands.",,4,"warm-temperate evergreen and mixed forest",0.991095511795142,4958.43281220947,13.5847474307109,13.3466876997808,13.9152500766247,1223.32124277938
4654,9242,20166,"SMPDSv1","Laguna de la Dehesillo","Barboni_a1369",39.421603,-2.840637,670,"19.416","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349862868922018,5279.58380015896,14.4646131511204,6.0424360614027,25.0228378470206,441.0530952133
4655,9243,20170,"SMPDSv1","Laguna de la Estanca","Barboni_a936",41.236204,-0.141378,125,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384849236293704,5810.29070571928,15.9186046732035,7.95061604184445,24.9114796045372,481.244123187492
4656,9244,10374,"IBERIA","Laguna de la Mosca","LdlMo composite_0",37.0597,-3.3147,2889,"not known","lake","core","-63","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9245,10375,"IBERIA","Laguna de la Mosca","LdlMo composite_0.01",37.0597,-3.3147,2889,"not known","lake","core","-50","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9246,10376,"IBERIA","Laguna de la Mosca","LdlMo composite_0.02",37.0597,-3.3147,2889,"not known","lake","core","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9247,10377,"IBERIA","Laguna de la Mosca","LdlMo composite_0.03",37.0597,-3.3147,2889,"not known","lake","core","-24","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9248,10378,"IBERIA","Laguna de la Mosca","LdlMo composite_0.04",37.0597,-3.3147,2889,"not known","lake","core","-11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9249,10379,"IBERIA","Laguna de la Mosca","LdlMo composite_0.05",37.0597,-3.3147,2889,"not known","lake","core","1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9250,10380,"IBERIA","Laguna de la Mosca","LdlMo composite_0.06",37.0597,-3.3147,2889,"not known","lake","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4656,9251,10381,"IBERIA","Laguna de la Mosca","LdlMo composite_0.07",37.0597,-3.3147,2889,"not known","lake","core","27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.461640840096794,2256.95636198412,4.82993011558302,-4.89837066886304,19.1190254461233,552.878205955742
4657,9252,10382,"IBERIA","Laguna de la Mula","LdlM 10-02",37.0597,-3.4168,2497,"not known","lake","core top","-60","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.43053304051144,2654.65811780985,6.75374594006909,-2.53477017554431,20.1305115823557,524.910386341782
4658,9253,20167,"SMPDSv1","Laguna de la Playa","Barboni_a935",41.42,-0.186667,321,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3988554482978,5347.75149067741,14.6513739470614,6.56742209655268,23.9273071763612,491.175525293566
4659,9254,20168,"SMPDSv1","Laguna de la Roya","EPDcoretop_E366",42.216667,-6.766667,1608,"0.025","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.595762712817439,2624.05553153513,6.93639085849347,-1.61679213098801,17.1705833280954,671.125769483672
4659,9255,10523,"IBERIA","Laguna de la Roya","LAROYA_0",42.21666667,-6.766666667,1608,"0.195","lake","core","-41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.595762737755885,2624.05550397462,6.93639081031682,-1.61679200962773,17.1705830768198,671.125800951121
4659,9256,10524,"IBERIA","Laguna de la Roya","LAROYA_8",42.21666667,-6.766666667,1608,"0.195","lake","core","49","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.595762737755885,2624.05550397462,6.93639081031682,-1.61679200962773,17.1705830768198,671.125800951121
4660,9257,20169,"SMPDSv1","Laguna de la Salinas","Barboni_a873",38.504028,-0.888056,469,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.322591252989243,5607.88108877583,15.364057777468,8.08557570250226,24.1704415452342,398.508947075029
4661,9258,20171,"SMPDSv1","Laguna de las Madres","Barboni_a971",37.155,-6.85625,3,"81","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.457890648315804,6514.40382585843,17.8476817146806,11.81238452829,24.9225242304016,596.585258274975
4662,9259,20172,"SMPDSv1","Laguna de las Madres II","Barboni_a349",37.155,-6.85625,3,"81","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.457890648315804,6514.40382585843,17.8476817146806,11.81238452829,24.9225242304016,596.585258274975
4663,9260,20173,"SMPDSv1","Laguna de las Sanguijuelas","Barboni_a933",42.13125,-6.689444,1080,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.76958699024486,3507.40603633694,9.60933160640258,2.13143273722579,18.3416966890193,833.084047935359
4664,9261,20174,"SMPDSv1","Laguna de las Yeguas","Barboni_a1370",39.4166,-3.2833,632,"66.474","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359308250361856,5345.85920866738,14.6461896127873,6.18463126652834,25.2485683101726,454.232080066058
4665,9262,24287,"Neotoma","Laguna de los Bobos","LOSBOBOS",6.222105,-72.7666,3815,"not known","lake","core","49","van der Hammen, T. 1962. Palinologia de la region de “Laguna de los Bobos”: Historia de su clima, vegetacion y agricultura durante los ultimos 5.000 años. Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales 11(44):359-361.",,22,"steppe",0.354142703167775,2521.97513925986,6.90952092947907,6.21764562214897,7.45352158336756,444.547301638471
4666,9263,20175,"SMPDSv1","Laguna de Ontalafia","Barboni_a1359",38.720734,-1.770126,834,"20.134","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.345995167576745,5019.84680037212,13.7530049325264,5.71617995131652,23.849437765971,431.059911137971
4667,9264,24210,"Neotoma","Laguna de Pacucha","PACUCHA",-13.612275,-73.318315,3110,"not known","lake","core","-53","Hillyer, R., B.G. Valencia, M.B. Bush, M.R. Silman, and M. Steinitz-Kannan. 2009. A 24,700-yr paleolimnological history from the Peruvian Andes. Quaternary Research 71(1):71-82.;
Valencia, B.G., D.H. Urrego, M.R. Silman, and M.B. Bush. 2010. From ice age to modern: a record of landscape change in an Andean cloud forest. Journal of Biogeography 37(9):1637-1647.","10.1016/j.yqres.2008.06.006;
10.1111/j.1365-2699.2010.02318.x",22,"steppe",0.457783171662082,4394.5979268378,12.0399943201036,10.269658833488,13.2619277131488,656.579607289858
4668,9265,20176,"SMPDSv1","Laguna de Pito","Barboni_a937",41.412083,-0.151806,319,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398549978723674,5355.58728015874,14.6728418634486,6.59606660174422,23.9403478705109,491.0205429634
4669,9266,10383,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0025",37.045278,-3.349167,3020,"0.19","lake","core","-54","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4669,9267,10384,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0225",37.045278,-3.349167,3020,"0.19","lake","core","-40","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4669,9268,10385,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0375",37.045278,-3.349167,3020,"0.19","lake","core","-27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4669,9269,10386,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0525",37.045278,-3.349167,3020,"0.19","lake","core","-12","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4669,9270,10387,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0725",37.045278,-3.349167,3020,"0.19","lake","core","18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4669,9271,10388,"IBERIA","Laguna de Rio Seco","Laguna de Rio Seco core 1_0.0875",37.045278,-3.349167,3020,"0.19","lake","core","48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.464662341343324,2149.83362720219,4.22593439714718,-5.61879657635097,18.7863932814466,553.450992450818
4670,9272,20177,"SMPDSv1","Laguna de Valdeazores","Barboni_a1386",37.953667,-2.819264,1286,"1.685","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389439119845277,4456.84704538175,12.210539850361,3.79206363506118,23.336206633773,490.948689845668
4671,9273,20178,"SMPDSv1","Laguna del Cristo","Barboni_a1364",40.681601,-6.238624,841,"12.422","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.475296776756602,4364.63098197307,11.9578931012961,4.1813988521648,21.2101443605661,568.336984992485
4672,9274,7314,"EMPDv2","Laguna del Faro (Pantano Grande)","Finsinger_a28",38.2686840004918,15.6373603223747,2,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.482332674855648,6512.19682334401,17.8416351324494,11.2626195082309,25.7048836174748,630.119430879303
4673,9275,24256,"Neotoma","Laguna del Maule","MAULE_0",-36.053635,-70.5014099999999,2160,"not known","lake","core","-63","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4673,9276,24257,"Neotoma","Laguna del Maule","MAULE_1",-36.053635,-70.5014099999999,2160,"not known","lake","core","-59","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4673,9277,24260,"Neotoma","Laguna del Maule","MAULE_12",-36.053635,-70.5014099999999,2160,"not known","lake","core","16","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4673,9278,24261,"Neotoma","Laguna del Maule","MAULE_16",-36.053635,-70.5014099999999,2160,"not known","lake","core","36","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4673,9279,24258,"Neotoma","Laguna del Maule","MAULE_3",-36.053635,-70.5014099999999,2160,"not known","lake","core","-48","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4673,9280,24259,"Neotoma","Laguna del Maule","MAULE_4",-36.053635,-70.5014099999999,2160,"not known","lake","core","-41","Carrevedo, M.L., M. Frugone, C. Latorre, A. Maldonado, P. Bernárdez, R. Prego, D. Cárdenas, and B. Valero-Garcés. 2015. A 700-year record of climate and environmental change from a high Andean lake: Laguna del Maule, central Chile (36°S). The Holocene 25(6):956-972.","10.1177/0959683615574584",22,"steppe",0.34498731448436,2847.91320931523,7.8025019433294,1.25984343413343,14.5378431770966,468.291948463824
4674,9281,20179,"SMPDSv1","Laguna del Pez","Barboni_a938",41.378611,-0.261528,331,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402537943141326,5303.62903536184,14.5304905078407,6.4059452194054,23.8438627671638,493.797344481528
4675,9282,20180,"SMPDSv1","Laguna Dulce","Barboni_a874",37.051528,-4.835139,449,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413251461903568,5943.5081572069,16.2835839923477,8.94181515398059,25.1570664374259,548.158678680006
4676,9283,24323,"Neotoma","Laguna El Caimito","CAIMITO_10",2.44645,-77.6875,50,"not known","lake","core","5","Urrego, L.E., and J.C. Berrio. 2011. Los estudios paleoecológicos en el Chocó biogeográfico durante el Holoceno medio y reciente. Pages 23-38 in J.O. Rangel, editor. Colombia Diversidad Biótica IV,  El Chocó biogeográfico/Costa Pacífica. Universidad Nacional de Colombia, Conservación Internacional, Bogotá D.C., Colombia.;
Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Velez, M.I., M. Wille, H. Hooghiemstra, S. Metcalfe, J. Vandenberghe, and K. van der Borg. 2001. Late Holocene environmental history of southern Chocó region, Pacific Colombia; sediment, diatom and pollenn analysis of core El Caimito. Palaeogeography, Palaoclimatology, Palaeoecology 173:197-214.",";
;
S0031-0182(01)00322-4",4,"warm-temperate evergreen and mixed forest",2.96058972455731,9588.1867351718,26.2690047538953,25.8646726168251,26.7236647560643,3962.38281934064
4676,9284,24324,"Neotoma","Laguna El Caimito","CAIMITO_16",2.44645,-77.6875,50,"not known","lake","core","28","Urrego, L.E., and J.C. Berrio. 2011. Los estudios paleoecológicos en el Chocó biogeográfico durante el Holoceno medio y reciente. Pages 23-38 in J.O. Rangel, editor. Colombia Diversidad Biótica IV,  El Chocó biogeográfico/Costa Pacífica. Universidad Nacional de Colombia, Conservación Internacional, Bogotá D.C., Colombia.;
Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Velez, M.I., M. Wille, H. Hooghiemstra, S. Metcalfe, J. Vandenberghe, and K. van der Borg. 2001. Late Holocene environmental history of southern Chocó region, Pacific Colombia; sediment, diatom and pollenn analysis of core El Caimito. Palaeogeography, Palaoclimatology, Palaeoecology 173:197-214.",";
;
S0031-0182(01)00322-4",4,"warm-temperate evergreen and mixed forest",2.96058972455731,9588.1867351718,26.2690047538953,25.8646726168251,26.7236647560643,3962.38281934064
4676,9285,24325,"Neotoma","Laguna El Caimito","CAIMITO_20",2.44645,-77.6875,50,"not known","lake","core","44","Urrego, L.E., and J.C. Berrio. 2011. Los estudios paleoecológicos en el Chocó biogeográfico durante el Holoceno medio y reciente. Pages 23-38 in J.O. Rangel, editor. Colombia Diversidad Biótica IV,  El Chocó biogeográfico/Costa Pacífica. Universidad Nacional de Colombia, Conservación Internacional, Bogotá D.C., Colombia.;
Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Velez, M.I., M. Wille, H. Hooghiemstra, S. Metcalfe, J. Vandenberghe, and K. van der Borg. 2001. Late Holocene environmental history of southern Chocó region, Pacific Colombia; sediment, diatom and pollenn analysis of core El Caimito. Palaeogeography, Palaoclimatology, Palaeoecology 173:197-214.",";
;
S0031-0182(01)00322-4",4,"warm-temperate evergreen and mixed forest",2.96058972455731,9588.1867351718,26.2690047538953,25.8646726168251,26.7236647560643,3962.38281934064
4676,9286,24322,"Neotoma","Laguna El Caimito","CAIMITO_8.5",2.44645,-77.6875,50,"not known","lake","core","-3","Urrego, L.E., and J.C. Berrio. 2011. Los estudios paleoecológicos en el Chocó biogeográfico durante el Holoceno medio y reciente. Pages 23-38 in J.O. Rangel, editor. Colombia Diversidad Biótica IV,  El Chocó biogeográfico/Costa Pacífica. Universidad Nacional de Colombia, Conservación Internacional, Bogotá D.C., Colombia.;
Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Velez, M.I., M. Wille, H. Hooghiemstra, S. Metcalfe, J. Vandenberghe, and K. van der Borg. 2001. Late Holocene environmental history of southern Chocó region, Pacific Colombia; sediment, diatom and pollenn analysis of core El Caimito. Palaeogeography, Palaoclimatology, Palaeoecology 173:197-214.",";
;
S0031-0182(01)00322-4",4,"warm-temperate evergreen and mixed forest",2.96058972455731,9588.1867351718,26.2690047538953,25.8646726168251,26.7236647560643,3962.38281934064
4677,9287,24211,"Neotoma","Laguna El Junco","ELJUNCO_0.5",-0.895295,-89.48004,679,"not known","lake","core","-42","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9288,24212,"Neotoma","Laguna El Junco","ELJUNCO_0.9",-0.895295,-89.48004,679,"not known","lake","core","-40","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9289,24213,"Neotoma","Laguna El Junco","ELJUNCO_1.3",-0.895295,-89.48004,679,"not known","lake","core","-38","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9290,24214,"Neotoma","Laguna El Junco","ELJUNCO_1.7",-0.895295,-89.48004,679,"not known","lake","core","-36","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9291,24235,"Neotoma","Laguna El Junco","ELJUNCO_10.1",-0.895295,-89.48004,679,"not known","lake","core","17","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9292,24236,"Neotoma","Laguna El Junco","ELJUNCO_10.5",-0.895295,-89.48004,679,"not known","lake","core","19","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9293,24237,"Neotoma","Laguna El Junco","ELJUNCO_10.9",-0.895295,-89.48004,679,"not known","lake","core","22","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9294,24238,"Neotoma","Laguna El Junco","ELJUNCO_11.3",-0.895295,-89.48004,679,"not known","lake","core","24","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9295,24239,"Neotoma","Laguna El Junco","ELJUNCO_11.7",-0.895295,-89.48004,679,"not known","lake","core","26","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9296,24240,"Neotoma","Laguna El Junco","ELJUNCO_12.1",-0.895295,-89.48004,679,"not known","lake","core","29","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9297,24241,"Neotoma","Laguna El Junco","ELJUNCO_12.5",-0.895295,-89.48004,679,"not known","lake","core","31","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9298,24242,"Neotoma","Laguna El Junco","ELJUNCO_12.9",-0.895295,-89.48004,679,"not known","lake","core","34","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9299,24243,"Neotoma","Laguna El Junco","ELJUNCO_13.3",-0.895295,-89.48004,679,"not known","lake","core","36","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9300,24244,"Neotoma","Laguna El Junco","ELJUNCO_13.7",-0.895295,-89.48004,679,"not known","lake","core","39","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9301,24245,"Neotoma","Laguna El Junco","ELJUNCO_14.2",-0.895295,-89.48004,679,"not known","lake","core","42","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9302,24246,"Neotoma","Laguna El Junco","ELJUNCO_14.6",-0.895295,-89.48004,679,"not known","lake","core","44","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9303,24247,"Neotoma","Laguna El Junco","ELJUNCO_15",-0.895295,-89.48004,679,"not known","lake","core","47","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9304,24248,"Neotoma","Laguna El Junco","ELJUNCO_15.4",-0.895295,-89.48004,679,"not known","lake","core","49","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9305,24215,"Neotoma","Laguna El Junco","ELJUNCO_2.1",-0.895295,-89.48004,679,"not known","lake","core","-34","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9306,24216,"Neotoma","Laguna El Junco","ELJUNCO_2.5",-0.895295,-89.48004,679,"not known","lake","core","-32","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9307,24217,"Neotoma","Laguna El Junco","ELJUNCO_2.9",-0.895295,-89.48004,679,"not known","lake","core","-30","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9308,24218,"Neotoma","Laguna El Junco","ELJUNCO_3.3",-0.895295,-89.48004,679,"not known","lake","core","-28","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9309,24219,"Neotoma","Laguna El Junco","ELJUNCO_3.7",-0.895295,-89.48004,679,"not known","lake","core","-26","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9310,24220,"Neotoma","Laguna El Junco","ELJUNCO_4.1",-0.895295,-89.48004,679,"not known","lake","core","-24","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9311,24221,"Neotoma","Laguna El Junco","ELJUNCO_4.5",-0.895295,-89.48004,679,"not known","lake","core","-21","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9312,24222,"Neotoma","Laguna El Junco","ELJUNCO_4.9",-0.895295,-89.48004,679,"not known","lake","core","-18","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9313,24223,"Neotoma","Laguna El Junco","ELJUNCO_5.3",-0.895295,-89.48004,679,"not known","lake","core","-15","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9314,24224,"Neotoma","Laguna El Junco","ELJUNCO_5.7",-0.895295,-89.48004,679,"not known","lake","core","-12","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9315,24225,"Neotoma","Laguna El Junco","ELJUNCO_6.1",-0.895295,-89.48004,679,"not known","lake","core","-9","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9316,24226,"Neotoma","Laguna El Junco","ELJUNCO_6.5",-0.895295,-89.48004,679,"not known","lake","core","-7","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9317,24227,"Neotoma","Laguna El Junco","ELJUNCO_6.9",-0.895295,-89.48004,679,"not known","lake","core","-5","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9318,24228,"Neotoma","Laguna El Junco","ELJUNCO_7.3",-0.895295,-89.48004,679,"not known","lake","core","-2","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9319,24229,"Neotoma","Laguna El Junco","ELJUNCO_7.7",-0.895295,-89.48004,679,"not known","lake","core","0","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9320,24230,"Neotoma","Laguna El Junco","ELJUNCO_8.1",-0.895295,-89.48004,679,"not known","lake","core","2","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9321,24231,"Neotoma","Laguna El Junco","ELJUNCO_8.5",-0.895295,-89.48004,679,"not known","lake","core","5","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9322,24232,"Neotoma","Laguna El Junco","ELJUNCO_8.9",-0.895295,-89.48004,679,"not known","lake","core","8","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9323,24233,"Neotoma","Laguna El Junco","ELJUNCO_9.3",-0.895295,-89.48004,679,"not known","lake","core","11","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4677,9324,24234,"Neotoma","Laguna El Junco","ELJUNCO_9.7",-0.895295,-89.48004,679,"not known","lake","core","14","Restrepo, A., P. Colinvaux, M. Bush, A. Correa-Metrio, J. Conroy, M.R. Gardener, P. Jaramillo, M. Steinitz-Kannan, and J. Overpeck. 2012. Impacts of climate variability and human colonization on the vegetation of the Galapagos Islands. Ecology 93(8):1853-1866.","10.1890/11-1545.1",22,"steppe",0.581636827373551,7872.24812320888,21.5678030772846,19.1371857513825,24.0710314500458,894.154555353095
4678,9325,20181,"SMPDSv1","Laguna Eras","Barboni_a875",41.201111,-4.582222,799,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.402654241682343,4488.14325330422,12.296282885765,4.39173636167708,21.789743878918,487.285216575102
4679,9326,20182,"SMPDSv1","Laguna Fuente de Piedra","Barboni_a876",37.108611,-4.770556,405,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415361891820447,6000.89419925682,16.4408060253611,9.14868703322094,25.2317601026346,551.129474803103
4680,9327,20183,"SMPDSv1","Laguna Fuentilejo","Barboni_a877",38.938056,-4.053611,636,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376350759943052,5373.86754100685,14.7229247698818,6.38035861128726,25.1773889767321,477.574671828551
4681,9328,20184,"SMPDSv1","Laguna Gallocanta","Barboni_a941",40.967917,-1.499444,990,"1449.21","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.458889027631627,4029.86841437029,11.0407353818364,3.15047227715539,20.6890320477569,535.202658948586
4682,9329,24321,"Neotoma","Laguna Gobernador","GOBER",3.95324999999999,-74.299745,3815,"not known","lake","core","50","Melief, A.B.M., and A.M. Cleef. 2008. Results of the pollen analysis of peat and lake deposits in the Sumapaz area. Pages 395-452 in T. van der Hammen, J.O. Rangel, and A.M. Cleef, editors. La Cordillera Oriental Colombiana Transecto Sumapaz. Studies on Tropical Andean Ecosystems 7. J. Cramer, Berlin, Germany.;
Cleef, A.M. 1981. The vegetation of the Páramos of the Colombian Cordillera Oriental. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands. Notes: Published by J. Cramer, Vaduz, Lichtenstein;
Melief, A.B.M. 1985. Late Quaternary paleoecology of the Parque Nacional Natural los Nevados (Cordillera Central) and Sumapaz (Cordillera Oriental) areas, Colombia. Doctoral dissertation. Universiteit van Amsterdam, Amsterdam, The Netherlands.",,22,"steppe",0.678657463181298,2475.98226220407,6.78351304713443,6.1549227803298,7.53476029322925,771.078843972547
4683,9330,20185,"SMPDSv1","Laguna Gosque (Laguna Cosque)","Barboni_a878",37.128056,-4.947778,417,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416256133949003,5982.43574371874,16.3902349142979,9.07509092420084,25.2098714250057,552.307336943731
4684,9331,20186,"SMPDSv1","Laguna Grande","Barboni_a1374",37.10874,-4.302474,794,"5.674","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386797548295901,5450.77371511907,14.9336266167646,7.17537603195971,24.7674419264477,506.676740468518
4684,9332,20187,"SMPDSv1","Laguna Grande","Barboni_a882",37.10874,-4.302474,794,"5.674","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386797548295901,5450.77371511907,14.9336266167646,7.17537603195971,24.7674419264477,506.676740468518
4685,9333,20188,"SMPDSv1","Laguna Grande (San Martin)","Barboni_a1362",42.56101,-4.4833,980,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.611839684468966,3784.10531276482,10.367411815794,3.04418441230289,18.9256981607444,671.235871049896
4686,9334,20189,"SMPDSv1","Laguna Grande 2","Barboni_a880",39.424028,-2.722639,682,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346178990086125,5242.53362377547,14.3631058185629,6.01481887055724,24.8098961445889,434.839686692125
4687,9335,20190,"SMPDSv1","Laguna Grande 3","Barboni_a881",40.884167,-3.256667,945,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.444547464329668,4235.44058636874,11.6039468119691,3.76367966303939,21.3509664814921,526.229562795123
4688,9336,20191,"SMPDSv1","Laguna Grande-Mid","Barboni_a883",37.10874,-4.302474,794,"5.674","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386797548295901,5450.77371511907,14.9336266167646,7.17537603195971,24.7674419264477,506.676740468518
4689,9337,20192,"SMPDSv1","Laguna Grande-Shore","Barboni_a879",37.10874,-4.302474,794,"5.674","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386797548295901,5450.77371511907,14.9336266167646,7.17537603195971,24.7674419264477,506.676740468518
4690,9338,20193,"SMPDSv1","Laguna Grande, Villafranca de los Caball","Barboni_a1392",39.45088,-3.336973,645,"57.7","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360511592835271,5314.41106159263,14.5600303057332,6.11165020062703,25.1490404328458,455.171722283125
4691,9339,24205,"Neotoma","Laguna Granja","GRANJA",-13.26292,-63.709895,138,"not known","lake","core","0","Carson, J.F., B.S. Whitney, F.E. Mayle, J. Iriarte, H. Prümers, J.D. Soto, and J. Watling. 2014. Environmental impact of geometric earthwork construction in pre-Columbian Amazonia. Proceedings of the National Academy of Sciences of the United States of America 111(29):10497-10502.","10.1073/pnas.1321770111",18,"tropical savanna",0.969994538267462,9713.31774083799,26.6118294269534,24.4717015173002,28.0624248349795,1447.92339147868
4692,9340,20194,"SMPDSv1","Laguna Guallar","Barboni_a939",41.407222,-0.227361,334,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402326646228466,5316.19321359147,14.5649129139492,6.47905106188122,23.8485325606373,494.656063103629
4692,9341,20195,"SMPDSv1","Laguna Guallar","Barboni_a942",41.407222,-0.227361,334,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402326646228466,5316.19321359147,14.5649129139492,6.47905106188122,23.8485325606373,494.656063103629
4692,9342,10522,"IBERIA","Laguna Guallar","N-GUA",41.4083,-0.2278,336,"not known","lake","core top","-35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.402930752339467,5311.54567792794,14.5521799395286,6.46633627612106,23.8364720646721,495.269691356097
4693,9343,20196,"SMPDSv1","Laguna Helada","Barboni_a1387",41.994588,-2.860114,1996,"2.388","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.0724087970729085,2934.63127189352,7.77855874070755,-1.38741272510559,20.2366777741451,99.3239070264041
4694,9344,20197,"SMPDSv1","Laguna Honda","Barboni_a884",37.598056,-4.143056,449,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39562833142558,5911.75380739914,16.1965857736963,8.50503141936951,25.6342674209599,518.121368742591
4695,9345,24182,"Neotoma","Laguna Huatacocha","LHUATACO",-10.766667,-76.616667,4500,"not known","lake","core","0","Hansen, B.C.S., H.E. Wright, Jr., and J.P. Bradbury. 1984. Pollen studies in the Junín area, central Peruvian Andes. Geological Society of America Bulletin 95:1454-1465.","10.1130/0016-7606(1984)95<1454:PSITJA>2.0.CO;2",22,"steppe",0.561017075346789,1809.60598699219,4.9578246218964,4.10602540350045,5.84737330417018,701.287433604217
4696,9346,20198,"SMPDSv1","Laguna Iglesia","Barboni_a885",41.203333,-4.568889,785,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.399304153797549,4523.43225701146,12.3929650877026,4.47434525134809,21.8925569896172,484.087216436608
4697,9347,24183,"Neotoma","Laguna Jeronimo","LJERONIM",-11.783333,-75.216667,4450,"not known","lake","core","-8","Hansen, B.C.S., G.O. Seltzer, and H.E. Wright, Jr. 1994. Late Quaternary vegetational change in the central Peruvian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 109:263-285.","10.1016/0031-0182(94)90179-1",22,"steppe",0.389194454718434,2191.74539046909,6.00478189169614,4.50471332611886,6.8910809108441,509.789731280792
4698,9348,24184,"Neotoma","Laguna Junín","LJUNIN3",-11,-76.166667,4100,"not known","lake","core","0","Hansen, B.C.S., G.O. Seltzer, and H.E. Wright, Jr. 1994. Late Quaternary vegetational change in the central Peruvian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 109:263-285.","10.1016/0031-0182(94)90179-1",22,"steppe",0.484140764155839,2398.42007852766,6.57101391377441,5.43779621367274,7.29094977007889,610.124525790201
4699,9349,24425,"Neotoma","Laguna La Pava","PAVA",-44.2797,-71.5233,731,"not known","lake","core","50","Iglesias, V., V. Markgraf, and C. Whitlock. 2016. 17,000 years of vegetation, fire and climate change in the eastern foothills of the Andes (lat. 44°S). Palaeogeography, Palaeoclimatology, Palaeoecology 457:195-208.","10.1016/j.palaeo.2016.06.008",7,"cool-temperate rainforest",1.08185674315233,2554.17297355382,6.99773417412005,1.12519768854901,12.5692638722192,979.572445019857
4700,9350,24334,"Neotoma","Laguna La Primavera","PRIMAV1",3.981795,-74.157925,3547,"not known","lake","core","19","Melief, A.B.M., and A.M. Cleef. 2008. Results of the pollen analysis of peat and lake deposits in the Sumapaz area. Pages 395-452 in T. van der Hammen, J.O. Rangel, and A.M. Cleef, editors. La Cordillera Oriental Colombiana Transecto Sumapaz. Studies on Tropical Andean Ecosystems 7. J. Cramer, Berlin, Germany.;
Cleef, A.M. 1981. The vegetation of the Páramos of the Colombian Cordillera Oriental. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands. Notes: Published by J. Cramer, Vaduz, Lichtenstein;
Melief, A.B.M. 1985. Late Quaternary paleoecology of the Parque Nacional Natural los Nevados (Cordillera Central) and Sumapaz (Cordillera Oriental) areas, Colombia. Doctoral dissertation. Universiteit van Amsterdam, Amsterdam, The Netherlands.;
van der Hammen, T., and H. Hooghiemstra. 1995. The El Abra stadial, a Younger Dryas equivalent in Colombia. Quaternary Science Reviews 14(9):841-851.",";
;
;
10.1016/0277-3791(95)00066-6",22,"steppe",0.731891677012426,3039.22865325354,8.32665384453025,7.7400233459828804,8.98156733078854,863.161164656542
4701,9351,20199,"SMPDSv1","Laguna Larga","Barboni_a946",37.16666667,-6.6,52.9386,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.441103017811489,6467.73373610945,17.7198184550944,11.3368863788427,25.2321680849097,583.441089551013
4702,9352,20200,"SMPDSv1","Laguna Lomillos","Barboni_a886",38.743056,-3.935278,755,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375840651870612,5247.88309938044,14.3777619161108,6.03399234606811,24.9577989435984,476.470382052502
4703,9353,20201,"SMPDSv1","Laguna Malgarejo","Barboni_a888",39.395,-2.828472,671,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349852475125055,5278.30973472316,14.4611225608854,6.03997905579079,25.0183046759694,441.092361110417
4704,9354,24409,"Neotoma","Laguna Mandioré","MANDIORE",-18.0918333333333,-57.5626666666667,92,"152","lake","core","0","Plumpton, H.J., F.E. Mayle, and B.S. Whitney. 2019. Long-term impacts of mid-Holocene drier climatic conditions on Bolivian tropical dry forests. Quaternary Research.","10.1017/qua.2019.55",18,"tropical savanna",0.832953867051904,9569.5056325387,26.217823650791,22.6726924292188,28.2120225773386,1219.25555970803
4705,9355,20202,"SMPDSv1","Laguna Manjavacas","Barboni_a889",39.4166,-2.8666,666,"181.806","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349667986235012,5288.95146461283,14.4902779852406,6.06427267213035,25.0535444076541,440.973196960394
4706,9356,20203,"SMPDSv1","Laguna Marchalicho 1 (Upper)","Barboni_a887",37.13333333,-1.876388889,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.316930563997533,5445.66388779751,14.9196270898562,7.48897648656893,24.21036656209,405.371908753975
4707,9357,20204,"SMPDSv1","Laguna Marchalicho 2 (Lower)","Barboni_a1271",37.08333333,-2,326.055,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.280804509897617,6057.05499204571,16.5946712110841,9.62692603896282,25.1213128130565,360.389200790049
4708,9358,20205,"SMPDSv1","Laguna Mediana","Barboni_a890",41.50277778,0.730555556,340,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432485283242628,5341.52010963038,14.6343016702202,6.82517485888104,23.6120340993097,527.825598233132
4709,9359,20206,"SMPDSv1","Laguna Medina","Barboni_a891",36.617222,-6.050694,15,"120","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427574768194713,6525.32426171515,17.8776007170278,11.4114345392747,25.4410916776892,573.693090719232
4710,9360,10535,"IBERIA","Laguna Mesagosa","LAGMESAG_0",41.96527778,-2.812222222,1600,"0.005","lake","core","-48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.244243097634008,3222.78219463831,8.82954025928305,0.316662232506208,19.9607541468397,307.897373391186
4710,9361,10536,"IBERIA","Laguna Mesagosa","LAGMESAG_8",41.96527778,-2.812222222,1600,"0.005","lake","core","15","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.244243097634008,3222.78219463831,8.82954025928305,0.316662232506208,19.9607541468397,307.897373391186
4711,9362,20207,"SMPDSv1","Laguna Michos","Barboni_a892",38.958333,-4.36,669,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380823287224571,5250.46690152321,14.384840826091,6.04918577855955,24.8254021539448,481.342019875088
4712,9363,24278,"Neotoma","Laguna Mozambique","MOZAMBIQ_20",3.956185,-73.052545,175,"not known","lake","core","4","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, P. Botero, and K. van der Borg. 2002. Late-Quaternary savanna history of the Colombian Llanos Orientales from Lagunas Chenevo and Mozambique: a transect synthesis. The Holocene 12(1):35-48.",";
10.1191/0959683602h1518rp",3,"tropical deciduous broadleaf forest and woodland",2.05077795840358,9713.55862379816,26.6124893802689,25.2278695815763,28.1007184869153,3019.83421720779
4712,9364,24279,"Neotoma","Laguna Mozambique","MOZAMBIQ_25",3.956185,-73.052545,175,"not known","lake","core","17","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, P. Botero, and K. van der Borg. 2002. Late-Quaternary savanna history of the Colombian Llanos Orientales from Lagunas Chenevo and Mozambique: a transect synthesis. The Holocene 12(1):35-48.",";
10.1191/0959683602h1518rp",3,"tropical deciduous broadleaf forest and woodland",2.05077795840358,9713.55862379816,26.6124893802689,25.2278695815763,28.1007184869153,3019.83421720779
4712,9365,24280,"Neotoma","Laguna Mozambique","MOZAMBIQ_30",3.956185,-73.052545,175,"not known","lake","core","31","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, P. Botero, and K. van der Borg. 2002. Late-Quaternary savanna history of the Colombian Llanos Orientales from Lagunas Chenevo and Mozambique: a transect synthesis. The Holocene 12(1):35-48.",";
10.1191/0959683602h1518rp",3,"tropical deciduous broadleaf forest and woodland",2.05077795840358,9713.55862379816,26.6124893802689,25.2278695815763,28.1007184869153,3019.83421720779
4712,9366,24281,"Neotoma","Laguna Mozambique","MOZAMBIQ_35",3.956185,-73.052545,175,"not known","lake","core","44","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrio, J.C., H. Hooghiemstra, H. Behling, P. Botero, and K. van der Borg. 2002. Late-Quaternary savanna history of the Colombian Llanos Orientales from Lagunas Chenevo and Mozambique: a transect synthesis. The Holocene 12(1):35-48.",";
10.1191/0959683602h1518rp",3,"tropical deciduous broadleaf forest and woodland",2.05077795840358,9713.55862379816,26.6124893802689,25.2278695815763,28.1007184869153,3019.83421720779
4713,9367,20208,"SMPDSv1","Laguna Nava Grande","Barboni_a893",39.18,-3.941667,620,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375001414861102,5388.58864954759,14.763256574103,6.41669941917528,25.2013310742743,474.891559641679
4714,9368,20209,"SMPDSv1","Laguna Navazuela","Barboni_a894",39.43625,-2.746528,680,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346172273414706,5247.34609039097,14.3762906586054,6.0233590785074,24.8299510206333,434.937022130242
4715,9369,10534,"IBERIA","Laguna Negra","LAGNEGRA",42.0002777777778,-2.84833333333333,1760,"0.036","lake","core top","-48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.169834305060197,3087.40943740712,8.39996768874627,-0.386950650359643,20.073811523104,221.685526358459
4716,9370,20210,"SMPDSv1","Laguna Negra de Urbion (April)","Barboni_a1380",41.99892,-2.847182,1752,"3.507","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.173435496292808,3093.31454051737,8.42142689485899,-0.351828410914268,20.0681475528328,225.995793225381
4717,9371,20211,"SMPDSv1","Laguna Negra de Urbion (Sept)","Barboni_a1381",41.99892,-2.847182,1752,"3.507","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.173435496292808,3093.31454051737,8.42142689485899,-0.351828410914268,20.0681475528328,225.995793225381
4718,9372,20212,"SMPDSv1","Laguna Ontalafia","Barboni_a895",38.720734,-1.770126,834,"20.134","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.345995167576745,5019.84680037212,13.7530049325264,5.71617995131652,23.849437765971,431.059911137971
4719,9373,24206,"Neotoma","Laguna Orícore","ORICORE",-13.34476,-63.5241599999999,139,"not known","lake","core","0","Carson, J.F., B.S. Whitney, F.E. Mayle, J. Iriarte, H. Prümers, J.D. Soto, and J. Watling. 2014. Environmental impact of geometric earthwork construction in pre-Columbian Amazonia. Proceedings of the National Academy of Sciences of the United States of America 111(29):10497-10502.","10.1073/pnas.1321770111",18,"tropical savanna",0.967707471762436,9704.43049230746,26.5874808008424,24.4406591941627,28.0447716566563,1444.18486025995
4720,9374,24185,"Neotoma","Laguna Paca","LPACA",-11.716667,-75.5,3600,"not known","lake","core","0","Hansen, B.C.S., G.O. Seltzer, and H.E. Wright, Jr. 1994. Late Quaternary vegetational change in the central Peruvian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 109:263-285.","10.1016/0031-0182(94)90179-1",22,"steppe",0.571500809639474,3429.19609066159,9.3950577826345,7.96478193816811,10.2094228628109,747.177013576283
4721,9375,24207,"Neotoma","Laguna Padre Laguna","PADRE_0",-41.3595849999999,-71.5088,880,"not known","lake","core","-58","Iglesias, V. 2013. Holocene climate-vegetation-fire linkages along the Patagonian forest/steppe ecotone (41-43°S). Doctoral dissertation. Montana State University, Bozeman, Montana, USA.;
Iglesias, V., and C. Whitlock. 2014. Fire responses to postglacial climate change and human impact in northern Patagonia (41–43°S). Proceedings of the National Academy of Sciences of the United States of America Early Edition:1-10.;
Iglesias, V., C. Whitlock, M.M. Bianchi, G. Villarosa, and V. Outes. 2012. Climate and local controls of long-term vegetation dynamics in northern Patagonia (lat 41°S). Quaternary Research 78(3):502-512.;
Iglesias, V., C. Whitlock, V. Markgraf, and M.M. Bianchi. 2014. Postglacial history of the Patagonian forest/steppe ecotone (41—43°S). Quaternary Science Reviews 94:120-135.","10.1073/pnas.1410443111;
10.1016/j.yqres.2012.07.004;
10.1016/j.quascirev.2014.04.014",7,"cool-temperate rainforest",1.03613000205872,2846.257248472,7.79796506430684,2.38422485694621,13.6141167488277,1061.3641098442
4721,9376,24208,"Neotoma","Laguna Padre Laguna","PADRE_9",-41.3595849999999,-71.5088,880,"not known","lake","core","45","Iglesias, V. 2013. Holocene climate-vegetation-fire linkages along the Patagonian forest/steppe ecotone (41-43°S). Doctoral dissertation. Montana State University, Bozeman, Montana, USA.;
Iglesias, V., and C. Whitlock. 2014. Fire responses to postglacial climate change and human impact in northern Patagonia (41–43°S). Proceedings of the National Academy of Sciences of the United States of America Early Edition:1-10.;
Iglesias, V., C. Whitlock, M.M. Bianchi, G. Villarosa, and V. Outes. 2012. Climate and local controls of long-term vegetation dynamics in northern Patagonia (lat 41°S). Quaternary Research 78(3):502-512.;
Iglesias, V., C. Whitlock, V. Markgraf, and M.M. Bianchi. 2014. Postglacial history of the Patagonian forest/steppe ecotone (41—43°S). Quaternary Science Reviews 94:120-135.","10.1073/pnas.1410443111;
10.1016/j.yqres.2012.07.004;
10.1016/j.quascirev.2014.04.014",7,"cool-temperate rainforest",1.03613000205872,2846.257248472,7.79796506430684,2.38422485694621,13.6141167488277,1061.3641098442
4722,9377,20213,"SMPDSv1","Laguna Pena Hueca","Barboni_a896",39.513333,-3.341667,646,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360103735769179,5310.323571691,14.548831703263,6.10159609714905,25.1340226491091,454.392913483241
4723,9378,20214,"SMPDSv1","Laguna Pilon","Barboni_a897",36.903056,-5.898889,75,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.431281105630177,6454.92627050218,17.6847295082252,11.1207103698596,25.4157271654895,578.563346207072
4724,9379,24186,"Neotoma","Laguna Pomacocha","LPOMACOC",-11.75,-75.25,4450,"not known","lake","core","-2","Hansen, B.C.S., G.O. Seltzer, and H.E. Wright, Jr. 1994. Late Quaternary vegetational change in the central Peruvian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 109:263-285.","10.1016/0031-0182(94)90179-1",22,"steppe",0.398366959036517,2219.35717409965,6.08043061397164,4.58643008797501,6.95367600405846,520.590278529214
4725,9380,13880,"Neotoma","Laguna Pompal","POMPAL",18.376145,-94.95557,730,"not known","lake","core","-39","Goman, M., and R. Byrne. 1998. A 5000-year record of agriculture and tropical forest clearance in the Tuxtlas, Veracruz, Mexico. The Holocene 8:83-89.; Goman, M. 1992. Paleoecological evidence for prehistoric agriculture and tropical forest clearance in the Sierra de los Tuxtlas, Veracruz, Mexico. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,4,"warm-temperate evergreen and mixed forest",1.27989573129533,8138.08635514777,22.2961270004049,19.1659257962792,24.9003232764721,1860.97882808738
4726,9381,20215,"SMPDSv1","Laguna Prado (Laguna Pozuelo)","Barboni_a898",38.91875,-3.83375,620,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375634707972416,5412.83387136146,14.8296818393465,6.48541595161501,25.2881384711832,477.322594398833
4727,9382,24403,"Neotoma","Laguna Rabadilla de Vaca","RABAVACA",-4.25547222222222,-79.1121388888889,3312,"not known","terrestrial","core","-50","Brunschön, C., and H. Behling. 2010. Reconstruction and visualization of upper forest line and vegetation changes inthe Andean depression region of southeastern Ecuador since the last glacialmaximum—A multi-site synthesis. Review of Palaeobotany and Palynology 163:139-152.;
Niemann, H., T. Haberzettl, and H. Behling. 2009. Holocene climate and vegetation dynamics inferred from the (11 700 cal. yr BP) Laguna Rabadilla de Vaca sediment record, southeastern Ecuadorian Andes. The Holocene 19(2):307-316.","10.1016/j.revpalbo.2010.10.005;
10.1177/0959683608100575",4,"warm-temperate evergreen and mixed forest",0.436894614685265,3993.76517329424,10.941822392587,10.4768877401744,11.3474464983451,569.567919523377
4728,9383,20216,"SMPDSv1","Laguna Ratosa","Barboni_a899",37.200278,-4.700833,445,"17","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.410456865851339,5941.11735557011,16.277033850877,8.90631074076562,25.2137778906744,543.007343521646
4729,9384,20217,"SMPDSv1","Laguna Rincon","Barboni_a901",37.459444,-4.628056,330,"9.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413505583756026,6083.1606693634,16.6661936146943,9.20418588215631,25.6212320987123,547.633140118531
4730,9385,20218,"SMPDSv1","Laguna Rincon-Mid","Barboni_a902",37.459444,-4.628056,330,"10.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413505583756026,6083.1606693634,16.6661936146943,9.20418588215631,25.6212320987123,547.633140118531
4731,9386,20219,"SMPDSv1","Laguna Rincon-Shore","Barboni_a900",37.459444,-4.628056,330,"11.5","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413505583756026,6083.1606693634,16.6661936146943,9.20418588215631,25.6212320987123,547.633140118531
4732,9387,20220,"SMPDSv1","Laguna Rodrigo","Barboni_a903",40.976944,-4.458194,920,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428681722995407,4212.86384967876,11.5420927388459,3.73980910763481,21.0660948185924,512.577209426584
4733,9388,20221,"SMPDSv1","Laguna Rollico","Barboni_a904",41.389861,-0.296528,318,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.399382116581855,5327.53745592672,14.5959930299362,6.46324975318634,23.9111673785428,490.352730240576
4734,9389,20222,"SMPDSv1","Laguna Salada","Barboni_a1373",37.348,-4.81101,460,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.410864160054561,5892.38469824573,16.1435197212212,8.57918931195964,25.3279575620701,542.290932507917
4735,9390,10456,"IBERIA","Laguna Salada Chiprana","N-SAL_0.04",41.23333333,-0.166666667,150,"0.23","lake","core","-40","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.388596740932847,5753.69929352785,15.7635597082955,7.79111446409101,24.777941863612,484.756959459453
4735,9391,10457,"IBERIA","Laguna Salada Chiprana","N-SAL_0.08",41.23333333,-0.166666667,150,"0.23","lake","core","-1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.388596740932847,5753.69929352785,15.7635597082955,7.79111446409101,24.777941863612,484.756959459453
4735,9392,10458,"IBERIA","Laguna Salada Chiprana","N-SAL_0.12",41.23333333,-0.166666667,150,"0.23","lake","core","36","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.388596740932847,5753.69929352785,15.7635597082955,7.79111446409101,24.777941863612,484.756959459453
4736,9393,20223,"SMPDSv1","Laguna Salada de Chiprana","Barboni_a940",41.239561,-0.182279,137,"33.185","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386824351679028,5779.73776000799,15.8348979726246,7.85682472465669,24.8456411871809,483.06417628614
4737,9394,20224,"SMPDSv1","Laguna Salada, Caspe","Barboni_a1396",41.239561,-0.182279,137,"33.185","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386824351679028,5779.73776000799,15.8348979726246,7.85682472465669,24.8456411871809,483.06417628614
4738,9395,20225,"SMPDSv1","Laguna Salada, Pequena","Barboni_a1398",41.043063,-0.219401,356,"17.457","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415200101924117,5324.54168818333,14.5877854470776,6.66713541815262,23.7028970278081,508.766218136775
4739,9396,20226,"SMPDSv1","Laguna Salicor","Barboni_a907",39.466528,-3.174306,675,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.353911704732977,5263.08103796867,14.4194001040238,5.994615248503,24.9922232079059,446.074659711259
4740,9397,20227,"SMPDSv1","Laguna Salina Grande (Laguna Villafafila)","Barboni_a905",41.830833,-5.606389,676,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.491024421124954,4507.49240688298,12.3492942654328,4.76847331092963,21.0511092930608,570.710658047603
4741,9398,24178,"Neotoma","Laguna Salinas","LAGSAL",-16.4,-71.15,4300,"not known","terrestrial, bog/fen/swamp","core","0","Unpublished data",,22,"steppe",0.322392845990248,2077.45219833047,5.69164985843965,3.06902279125659,7.28169558482901,460.082168542758
4742,9399,20228,"SMPDSv1","Laguna Salinas (Laguna de Villarin)","Barboni_a906",41.797222,-5.629167,678,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.489509009287668,4509.81155237361,12.3556480886948,4.76267351856206,21.0741815787041,569.762849835453
4743,9400,20229,"SMPDSv1","Laguna Salobral (Laguna Conde)","Barboni_a908",37.57875,-4.204167,408,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398288264150723,5976.16732496554,16.3730611642891,8.72322276080575,25.7086458154678,522.463124234577
4744,9401,20230,"SMPDSv1","Laguna Sanchez Gomez","Barboni_a909",39.432778,-2.838611,670,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349836822063707,5279.18920705701,14.4635320741288,6.04145437063226,25.0213346934947,440.978391332438
4745,9402,20231,"SMPDSv1","Laguna Sarinena","Barboni_a910",41.8,-3.173611111,380,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.96071145977968,4422.43003335518,12.1162466667265,5.54859392393692,19.2152331652789,915.572864664047
4746,9403,20232,"SMPDSv1","Laguna Tarage","Barboni_a912",36.535278,-6.057361,70,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430498201548814,6447.45272121962,17.6642540307387,11.1935423180199,25.2789764932518,576.703942530928
4747,9404,20233,"SMPDSv1","Laguna Taraje","Barboni_a913",36.917917,-5.887917,68,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.431113109560857,6465.45833406897,17.7135844769013,11.1580127338324,25.4301872183228,578.416425994235
4748,9405,20234,"SMPDSv1","Laguna Taray las Pedroneras","Barboni_a911",39.408472,-2.715556,678,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.345493742267085,5252.37168853046,14.3900594206314,6.04090821272074,24.8367473528947,434.117480833681
4749,9406,20235,"SMPDSv1","Laguna Tirez","Barboni_a914",39.537361,-3.356944,647,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.36012226708009,5307.0515863589,14.5398673598874,6.09413183388276,25.1224817450461,454.278732880589
4750,9407,20236,"SMPDSv1","Laguna Tiscar","Barboni_a915",37.429167,-4.821389,170,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427082272730559,6315.07047130131,17.3015629350721,10.1739242831377,25.7387286033169,570.551362146977
4751,9408,20237,"SMPDSv1","Laguna Tollos","Barboni_a916",36.845,-6.016667,55,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.431005162669322,6484.44995906777,17.7656163262131,11.262480536713,25.4158027350543,578.562466698115
4752,9409,20238,"SMPDSv1","Laguna Traba","Barboni_a1363",43.186313,-9.046396,7,"3.552","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.64743328267979,5294.06393401929,14.5042847507378,10.6625396471105,19.0335447187442,1567.96296203187
4753,9410,24187,"Neotoma","Laguna Tuctua","LTUCTUA",-11.666667,-75,4250,"not known","lake","core","0","Hansen, B.C.S., G.O. Seltzer, and H.E. Wright, Jr. 1994. Late Quaternary vegetational change in the central Peruvian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 109:263-285.","10.1016/0031-0182(94)90179-1",22,"steppe",0.405142378283461,2689.19317423925,7.36765253216233,5.87160724261488,8.29266741727585,537.604818257517
4754,9411,20239,"SMPDSv1","Laguna Villarin de Camp (NoName)","Barboni_a917",41.803056,-5.640139,684,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.492937737200295,4496.039395767,12.3179161527863,4.72982233707103,21.0343001190973,573.157727497765
4755,9412,20240,"SMPDSv1","Laguna Yeguas","Barboni_a918",39.4166,-3.2833,632,"66.474","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359308250361856,5345.85920866738,14.6461896127873,6.18463126652834,25.2485683101726,454.232080066058
4756,9413,20241,"SMPDSv1","Laguna Zarracatin","Barboni_a919",37.034722,-5.801944,23,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429991626458611,6534.03327877175,17.9014610377308,11.3930622333818,25.5333269856731,577.466100792094
4757,9414,20242,"SMPDSv1","Laguna Zonar","Barboni_a921",37.4825,-4.690833,290,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416271892204284,6141.21636816571,16.8252503237417,9.40341847018199,25.7031567726635,552.212221731705
4757,9415,10525,"IBERIA","Laguna Zonar","ZONARcombined_43",37.48273,-4.69008,300,"0.37","lake","core","-45","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.415731589179236,6126.2671605999,16.7842935906847,9.35117454175512,25.6821952988233,551.262067996035
4757,9416,10526,"IBERIA","Laguna Zonar","ZONARcombined_53",37.48273,-4.69008,300,"0.37","lake","core","-18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.415731589179236,6126.2671605999,16.7842935906847,9.35117454175512,25.6821952988233,551.262067996035
4757,9417,10527,"IBERIA","Laguna Zonar","ZONARcombined_63",37.48273,-4.69008,300,"0.37","lake","core","8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.415731589179236,6126.2671605999,16.7842935906847,9.35117454175512,25.6821952988233,551.262067996035
4758,9418,20243,"SMPDSv1","Laguna Zonar-Mid","Barboni_a922",37.4825,-4.690833,290,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416271892204284,6141.21636816571,16.8252503237417,9.40341847018199,25.7031567726635,552.212221731705
4759,9419,20244,"SMPDSv1","Laguna Zonar-Shore","Barboni_a920",37.4825,-4.690833,290,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416271892204284,6141.21636816571,16.8252503237417,9.40341847018199,25.7031567726635,552.212221731705
4760,9420,24407,"Neotoma","Laguna Zurita","ZURITA_0",-3.97466666666667,-79.1176111111111,2590,"not known","terrestrial","core","-50","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2010. Late Holocene environmental change and human impact inferred from three soil monoliths and the Laguna Zurita multi-proxi record in the southeastern Ecuadorian Andes. Vegetation History Archaeobotany 19:1-15.",";
10.1007/s00334-009-0226-6",4,"warm-temperate evergreen and mixed forest",0.659952106479231,5140.15915694086,14.0826278272352,13.5123011585285,14.3955367680622,870.251326020401
4760,9421,24408,"Neotoma","Laguna Zurita","ZURITA_4",-3.97466666666667,-79.1176111111111,2590,"not known","terrestrial","core","5","Niemann, H. 2008. Late Quaternary vegetation, climate and fire dynamics in the Podocarpus National Park region, southeastern Ecuadorian Andes. Doctoral dissertation. Georg-August-Universität Göttingen, Göttingen, Germany.;
Niemann, H., and H. Behling. 2010. Late Holocene environmental change and human impact inferred from three soil monoliths and the Laguna Zurita multi-proxi record in the southeastern Ecuadorian Andes. Vegetation History Archaeobotany 19:1-15.",";
10.1007/s00334-009-0226-6",4,"warm-temperate evergreen and mixed forest",0.659952106479231,5140.15915694086,14.0826278272352,13.5123011585285,14.3955367680622,870.251326020401
4761,9422,11002,"Bush et al., 2020","LagunaPerdida","LagunaPerdida",17.07,-90.21,80,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.23545693006112,9522.77998228813,26.0898081706524,22.9803756700006,28.3619261020058,1998.32832601656
4762,9423,20245,"SMPDSv1","Lagunetta del Saladar","Barboni_a1377",38.789149,-1.419874,870,"19.193","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.360368414064848,4829.11315000148,13.2304469863054,5.27788323418622,23.1699053003115,444.685092352121
4763,9424,11003,"Bush et al., 2020","Lagunillas","Lagunillas",-15.74625,-70.6765,4180,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.403413500784459,2426.0343526785,6.64666945939316,4.07877292910139,8.13969073110593,582.116718710447
4764,9425,7942,"EMPDv2","Lagury","Mikishin-Gvozdeva_a2",53.5894444444444,142.684166666667,22,"13","terrestrial, bog/fen/swamp","moss polster or moss","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.25438369954538,1811.12112159871,-1.1187699527003,-19.5982311802232,15.1610116228662,647.037378502547
4765,9426,24453,"Southern Hemisphere pollen","Lahakai Swamp","Lahakai Swamp_40",-2.19,147.2,7.5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-1","Prebble, M., Kennedy, J. and Southern, W., 2010. Holocene lowland vegetation change and human ecology in Manus Province, Papua New Guinea. Terra Australis, 32, pp.299-321.","https://www.jstor.org/stable/j.ctt24h8rj.14",1,"tropical evergreen broadleaf forest",2.53784216084553,9612.82286090029,26.3365009887679,25.5063044867983,26.6257371201912,3488.88935526183
4765,9427,24454,"Southern Hemisphere pollen","Lahakai Swamp","Lahakai Swamp_50",-2.19,147.2,7.5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","13","Prebble, M., Kennedy, J. and Southern, W., 2010. Holocene lowland vegetation change and human ecology in Manus Province, Papua New Guinea. Terra Australis, 32, pp.299-321.","https://www.jstor.org/stable/j.ctt24h8rj.14",1,"tropical evergreen broadleaf forest",2.53784216084553,9612.82286090029,26.3365009887679,25.5063044867983,26.6257371201912,3488.88935526183
4765,9428,24455,"Southern Hemisphere pollen","Lahakai Swamp","Lahakai Swamp_60",-2.19,147.2,7.5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","28","Prebble, M., Kennedy, J. and Southern, W., 2010. Holocene lowland vegetation change and human ecology in Manus Province, Papua New Guinea. Terra Australis, 32, pp.299-321.","https://www.jstor.org/stable/j.ctt24h8rj.14",1,"tropical evergreen broadleaf forest",2.53784216084553,9612.82286090029,26.3365009887679,25.5063044867983,26.6257371201912,3488.88935526183
4765,9429,24456,"Southern Hemisphere pollen","Lahakai Swamp","Lahakai Swamp_70",-2.19,147.2,7.5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","42","Prebble, M., Kennedy, J. and Southern, W., 2010. Holocene lowland vegetation change and human ecology in Manus Province, Papua New Guinea. Terra Australis, 32, pp.299-321.","https://www.jstor.org/stable/j.ctt24h8rj.14",1,"tropical evergreen broadleaf forest",2.53784216084553,9612.82286090029,26.3365009887679,25.5063044867983,26.6257371201912,3488.88935526183
4766,9430,20246,"SMPDSv1","Lahnajarvi","Seppa_b86",61.68,24.8,129,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03216746525163,2149.41017230079,3.47409793184868,-9.07757090250931,16.0914925163334,559.669544905713
4767,9431,20247,"SMPDSv1","Lahnanen","Seppa_b57",62.7,24.63,211,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.983332485289682,2069.70978195766,3.03004158681596,-9.78011592562915,15.8854964191022,525.658081752642
4768,9432,20248,"SMPDSv1","Lai Nair, Schuls-Tarasp","EPDcoretop_E1109",46.783611,10.310556,1546,"not known","lake","peat core top","-8","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.24079039057921,1542.81385216321,2.86450158983563,-5.14756364417726,10.9802940308359,1638.43244757204
4769,9433,7218,"EMPDv2","Laihalampi","EPDcoretop_E2586",61.49,26.08,137,"0.255","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03105414179,2133.87819963738,3.24641603368328,-9.69154363354309,16.2690021273743,564.346050624438
4770,9434,6023,"EMBSeCBIO","Lailias","Lailias core_0",41.267778,23.599444,1420,"0.03","terrestrial, bog/fen/swamp","core","-79","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.775734745280014,2578.04542634154,6.00482016743608,-5.33620810433472,16.0902255603107,715.387993853078
4770,9435,6024,"EMBSeCBIO","Lailias","Lailias core_10",41.267778,23.599444,1420,"0.03","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.775734745280014,2578.04542634154,6.00482016743608,-5.33620810433472,16.0902255603107,715.387993853078
4771,9436,11004,"Bush et al., 2020","Laja","Laja",-16.528767,-68.390317,3855,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.374562313560954,3279.8134476105,8.98579026742602,5.90735185812984,11.0334428027422,553.299711434748
4772,9437,20249,"SMPDSv1","Lake 1","Seppa_v1",58.05,33.1,180,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17026148639456,2368.6746593201,3.95669572641344,-10.2613762562614,16.7110671699327,708.306509664062
4773,9438,20250,"SMPDSv1","Lake 10","Seppa_v10",56.45,29.08,148,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.98260935551913,2557.21461040731,5.06658985692849,-8.21314391688152,16.9246060630087,642.74131875081
4774,9439,20251,"SMPDSv1","Lake 11","Seppa_v11",56.32,29.45,169,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.99577793648377,2556.78915013683,5.02442651431677,-8.40910805513924,16.9024065768317,654.328034377047
4775,9440,20252,"SMPDSv1","Lake 12","Seppa_v12",56.33,29.77,199,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00924254145372,2555.02662325374,4.98218340808515,-8.56956589478623,16.8581645505594,665.586625772606
4776,9441,20253,"SMPDSv1","Lake 13","Seppa_v13",56.28,30.25,190,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00256171967684,2553.02359199853,4.94925674807772,-8.6717496024608,16.8919185447552,660.775442643338
4777,9442,20254,"SMPDSv1","Lake 14","Seppa_v14",56.23,30.63,143,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.980992666339178,2546.08693873621,4.89592793933521,-8.79769852177768,16.9781247951167,640.258335894158
4778,9443,20255,"SMPDSv1","Lake 15","Seppa_v15",56.18,30.65,171,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987860728305744,2555.60603203978,4.92095026019627,-8.81447958398625,16.9881917764641,648.51071298149
4779,9444,20256,"SMPDSv1","Lake 16","Seppa_v16",56.08,29.78,194,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987619113280442,2586.09167374223,5.11361610021911,-8.45030414369567,16.9946014748953,656.542270400568
4780,9445,20257,"SMPDSv1","Lake 17","Seppa_v17",55.78,30.52,149,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.970288078998709,2561.66180533983,4.9648836140188,-8.72576919606965,17.0140007144135,640.56715367199
4781,9446,20258,"SMPDSv1","Lake 18","Seppa_v18",55.5,31.67,167,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.960238897854751,2580.74179189318,4.96725414122496,-8.94116886765767,17.1336706851576,638.572433001363
4782,9447,20259,"SMPDSv1","Lake 19","Seppa_v19",55.5,31.78,196,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987611917375411,2568.38364110659,4.85265595710376,-9.19136191972225,17.1623558727504,655.27572846778
4783,9448,20260,"SMPDSv1","Lake 2","Seppa_v2",58.13,32.98,144,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13730394108215,2389.23415473096,4.08272503474927,-10.0635803669875,16.8108878594945,685.988749873328
4784,9449,20261,"SMPDSv1","Lake 20","Seppa_v20",55.167,31.83,159,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.905545568969595,2646.97037708162,5.26026319014238,-8.64859310444493,17.3239545364529,613.324581299011
4785,9450,20262,"SMPDSv1","Lake 21","Seppa_v21",57.63,34.63,167,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1596463073497,2394.67064665905,3.9551226733914,-10.5565389944989,16.984629683412,712.019876910864
4786,9451,20263,"SMPDSv1","Lake 22","Seppa_v22",57.67,34.35,160,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15893386412552,2389.3287588937,3.93968798432615,-10.5682305911629,16.9728330087604,709.241741408666
4787,9452,20264,"SMPDSv1","Lake 23","Seppa_v23",58.83,31.92,47,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05155681587743,2433.42594036626,4.40387893429053,-9.38574692222087,17.1103209842523,622.144121181948
4788,9453,14814,"Neotoma","Lake 239","LAKE239",49.66332,-93.7202049999999,387,"not known","lake","core","-10","Moos, M.T. 2010. Tracking long-term Holocene climate trends in Lake 239 (experimental lakes area, NW Ontario) using diatoms, pollen, and charcoal. Doctoral dissertation. Queen's University, Kingston, Ontario, Canada.",,9,"cool mixed forest",0.91139533136364,2513.6067906662,2.06389803243178,-17.9951793444713,18.971935493054,670.477013989356
4789,9454,20265,"SMPDSv1","Lake 24","Seppa_v24",58.97,32,55,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06713885788745,2423.33316011276,4.34855340146721,-9.48165044834604,17.0731224104829,629.263538721878
4790,9455,16584,"Neotoma","Lake 27","TW078",45.066667,-84.783333,411,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.926181539073516,2960.96049044657,6.34780038822776,-7.48467868237077,19.6635052837137,747.606195165978
4791,9456,20266,"SMPDSv1","Lake 3","Seppa_v3",57.68,29.53,91,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.992730012940436,2511.54763916598,4.86064509311157,-8.4349255278975,17.012165051498,626.138499223614
4792,9457,20267,"SMPDSv1","Lake 4","Seppa_v4",57.48,29.67,198,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04203657606859,2497.63308772186,4.75549151574866,-8.67917474458556,16.6266681643193,670.367889195644
4793,9458,20268,"SMPDSv1","Lake 5","Seppa_v5",57.22,29.08,90,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.970890540481754,2531.21636117683,4.97287078103391,-8.20663782220344,17.0120909552501,621.692116172753
4794,9459,20269,"SMPDSv1","Lake 6","Seppa_v6",57.06,29.22,75,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.960094558918624,2534.05294767397,4.98596899406949,-8.18437729991719,17.0567368739971,615.744674500257
4795,9460,20270,"SMPDSv1","Lake 7","Seppa_v7",56.88,28.67,97,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.960425669012196,2535.94194271366,5.03073455262459,-8.02428078834116,16.9655093667069,619.695069975483
4796,9461,20271,"SMPDSv1","Lake 8","Seppa_v8",56.7,28.77,106,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.961497200648061,2552.7848931076,5.07157649134224,-8.08863304827594,16.9938539605232,624.529450242835
4797,9462,20272,"SMPDSv1","Lake 9","Seppa_v9",56.58,29,179,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00181260564348,2555.99566119043,5.05363469831248,-8.27535219100949,16.8568216990942,654.790754675134
4798,9463,12815,"Neotoma","Lake A","LAKEA",53.2375,-105.725,440,"not known","lake","core","0","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.590562249970564,2320.87559306982,0.678765718461673,-19.4116462987598,17.4004182428649,414.801297889288
4798,9463,12816,"Neotoma","Lake A","LAKEA",53.2375,-105.725,440,"not known","lake","core","50","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.590562249970564,2320.87559306982,0.678765718461673,-19.4116462987598,17.4004182428649,414.801297889288
4798,9464,14355,"Neotoma","Lake A","LAKEASK",55.33119,-105.055315,378,"not known","lake","core","-29","Wilson, M.A. 1981. The climatic and vegetational history of the postglacial in central Saskatchewan. Doctoral dissertation. University of Saskatchewan, Saskatoon, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.809453327167532,1996.10634653668,-1.26794311265116,-22.1433608909607,16.4514119949166,498.460932746541
4798,9464,14356,"Neotoma","Lake A","LAKEASK",55.33119,-105.055315,378,"not known","lake","core","50","Wilson, M.A. 1981. The climatic and vegetational history of the postglacial in central Saskatchewan. Doctoral dissertation. University of Saskatchewan, Saskatoon, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.809453327167532,1996.10634653668,-1.26794311265116,-22.1433608909607,16.4514119949166,498.460932746541
4799,9465,17590,"Phelps et al., 2020","Lake Abijata","ABIJATA_1",7.6,38.55,1600,"not known","lake","not known","9","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.605639615358497,7203.58606489838,19.7358522325983,18.2467735514216,21.1260695095087,1140.98233872844
4800,9466,17591,"Phelps et al., 2020","Lake Abiyata I","ABIYATA_1",7.7,38.6,1590,"not known","lake","not known","34","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.596939146414341,7240.80202734551,19.8378137735493,18.298318236087,21.231331775673,1128.068879222
4801,9467,60,"APD","Lake Abiyata II","AB5CV_1",7.61666666666666,38,1578,"205","lake","core","-48","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9468,61,"APD","Lake Abiyata II","AB5CV_10",7.61666666666666,38,1578,"205","lake","core","-35","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9469,62,"APD","Lake Abiyata II","AB5CV_15",7.61666666666666,38,1578,"205","lake","core","-28","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9470,63,"APD","Lake Abiyata II","AB5CV_20",7.61666666666666,38,1578,"205","lake","core","-21","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9471,64,"APD","Lake Abiyata II","AB5CV_25",7.61666666666666,38,1578,"205","lake","core","-13","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9472,65,"APD","Lake Abiyata II","AB5CV_30",7.61666666666666,38,1578,"205","lake","core","-5","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9473,66,"APD","Lake Abiyata II","AB5CV_35",7.61666666666666,38,1578,"205","lake","core","2","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9474,67,"APD","Lake Abiyata II","AB5CV_40",7.61666666666666,38,1578,"205","lake","core","9","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9475,68,"APD","Lake Abiyata II","AB5CV_45",7.61666666666666,38,1578,"205","lake","core","17","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9476,69,"APD","Lake Abiyata II","AB5CV_5",7.61666666666666,38,1578,"205","lake","core","-41","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9477,70,"APD","Lake Abiyata II","AB5CV_50",7.61666666666666,38,1578,"205","lake","core","26","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9478,71,"APD","Lake Abiyata II","AB5CV_53",7.61666666666666,38,1578,"205","lake","core","32","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9479,72,"APD","Lake Abiyata II","AB5CV_55",7.61666666666666,38,1578,"205","lake","core","36","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9480,73,"APD","Lake Abiyata II","AB5CV_57",7.61666666666666,38,1578,"205","lake","core","40","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4801,9481,74,"APD","Lake Abiyata II","AB5CV_60",7.61666666666666,38,1578,"205","lake","core","46","Legesse, D., Gasse, F., Radakovitch, O., Vallet-Coulomb, C., Bonnefille, R., Verschuren, D., Gibert, E. and Barker, P., 2002. Environmental changes in a tropical lake (Lake Abiyata, Ethiopia) during recent centuries. Palaeogeography, Palaeoclimatology, Palaeoecology, 187(3-4), pp.233-258.","10.1016/S0031-0182(02)00479-0",4,"warm-temperate evergreen and mixed forest",0.668616741382596,7095.18752816002,19.4388699401644,18.1658850647806,20.8675340564389,1230.42210211397
4802,9482,20273,"SMPDSv1","Lake Albano","Mercuri_c1",41.748423,12.669668,293,"6","lake","lacustrine core top","14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.646939552979688,5328.18040907676,14.5977545454158,6.95343007181394,23.1524594181627,732.695087274524
4803,9483,11466,"Neotoma","Lake Albert","SDKIAL",44.53035,-97.15475,502,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.622841271048285,3409.84546850887,6.78096602762392,-11.3928631604963,22.7880584470829,561.760452918761
4804,9484,75,"APD","Lake Albert II","ALB2PC_0",1.48333333333333,30,619,"5300","lake","not known","modern","Nakimera-Ssemmanda, I., 1991. Histoire des vegetations et du climat dans le Rift Occidental Ougandais depuis 13 000 ans BP. Mémoire de l'Ecole Pratique des Hautes Etudes, France, 125p.",,2,"tropical semi-evergreen broadleaf forest",0.841004025181696,9055.4853312936,24.8095488528592,23.8143210916099,25.7666756635393,1324.97262519659
4805,9485,17592,"Phelps et al., 2020","Lake Albert III","ALB3PC_0",1.516667,30.566667,615,"not known","lake","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.739139818496275,9173.83090837304,25.1337833106111,24.1521291659992,26.121421546978,1210.56925063267
4806,9486,12221,"Neotoma","Lake Allie","ALLIE",44.8036,-94.5578999999999,328,"not known","lake","core","-13","Unpublished data",,22,"steppe",0.817420885444202,3412.72624868704,6.68594866972234,-11.8898066779039,22.4032750814879,707.502424493614
4806,9486,12222,"Neotoma","Lake Allie","ALLIE",44.8036,-94.5578999999999,328,"not known","lake","core","11","Unpublished data",,22,"steppe",0.817420885444202,3412.72624868704,6.68594866972234,-11.8898066779039,22.4032750814879,707.502424493614
4806,9486,12223,"Neotoma","Lake Allie","ALLIE",44.8036,-94.5578999999999,328,"not known","lake","core","36","Unpublished data",,22,"steppe",0.817420885444202,3412.72624868704,6.68594866972234,-11.8898066779039,22.4032750814879,707.502424493614
4807,9487,797,"Australian pollen","Lake Allom","Lake Allom core_2",-25.23,153.167,100,"small (0.01-1 km2)","lake","core","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.730315756485331,7737.43874640774,21.1984623189253,15.702099666868,25.4524526596859,1139.07382408455
4807,9488,798,"Australian pollen","Lake Allom","Lake Allom core_4",-25.23,153.167,100,"small (0.01-1 km2)","lake","core","-13","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.730315756485331,7737.43874640774,21.1984623189253,15.702099666868,25.4524526596859,1139.07382408455
4807,9489,799,"Australian pollen","Lake Allom","Lake Allom core_6",-25.23,153.167,100,"small (0.01-1 km2)","lake","core","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.730315756485331,7737.43874640774,21.1984623189253,15.702099666868,25.4524526596859,1139.07382408455
4807,9490,800,"Australian pollen","Lake Allom","Lake Allom core_8",-25.23,153.167,100,"small (0.01-1 km2)","lake","core","32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.730315756485331,7737.43874640774,21.1984623189253,15.702099666868,25.4524526596859,1139.07382408455
4808,9491,6993,"EMPDv2","Lake Almalou","EPDcoretop_E1463",37.67,46.63,2410,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.402405426742502,3029.91909912621,6.63467294799888,-8.25710131780299,20.254680058922,495.862316743103
4809,9492,17593,"Phelps et al., 2020","Lake Andolonomby","ANDOLO_0",-23.05,43.6,21,"not known","lake","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.412868043093846,8898.76526698809,24.380178813666,20.7810964315301,27.5428228382071,710.620353584589
4810,9493,11873,"Neotoma","Lake Ann","BU407",46.8728749999999,-87.926525,256,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.04466353360792,2622.37325746009,4.08226239315088,-12.3308968728336,18.5785160540846,783.246891772423
4810,9494,12817,"Neotoma","Lake Ann","LAKEANN",45.42363,-93.690695,291,"not known","lake","core","-13","Unpublished data",,13,"temperate deciduous broadleaf forest",0.86248704310148006,3423.00378945422,6.83946447081618,-11.5525987399342,22.3619644606524,733.322610818462
4810,9494,12818,"Neotoma","Lake Ann","LAKEANN",45.42363,-93.690695,291,"not known","lake","core","8","Unpublished data",,13,"temperate deciduous broadleaf forest",0.86248704310148006,3423.00378945422,6.83946447081618,-11.5525987399342,22.3619644606524,733.322610818462
4811,9495,12856,"Neotoma","Lake Annie","LKANNIE",27.20731,-81.350875,34,"not known","lake","core","0","Watts, W.A. 1975. A late Quaternary record of vegetation from Lake Annie, south-central Florida. Geology 3(6):344-346.","10.1130/0091-7613(1975)3<344:ALQROV>2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.872048605713451,8087.81029340101,22.1583843654822,15.3653250202133,27.6457801135713,1224.91947666334
4811,9496,16586,"Neotoma","Lake Annie","WAW001",27.20731,-81.350875,34,"not known","lake","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.872048605713451,8087.81029340101,22.1583843654822,15.3653250202133,27.6457801135713,1224.91947666334
4812,9497,9065,"EMPDv2","Lake Araisu","Stivrins_a3",57.25,25.28333,120.2,"0.326","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.01350154292617,2519.84068883147,5.31343921269278,-6.76572400857657,16.5674619547134,635.176662099241
4813,9498,13840,"Neotoma","Lake Arthur","ARTHURB",30.05034,-92.7095,1,"not known","coastal, estuarine","core","-9","Fearn, M.L. 1995. Holocene history of a southern grassland. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.12393255181642,7339.50984492546,20.1082461504807,10.4873888619792,27.9337536143879,1487.84887840923
4813,9499,13838,"Neotoma","Lake Arthur","ARTHURE",30.05034,-92.7095,1,"not known","coastal, estuarine","core","-35","Fearn, M.L. 1995. Holocene history of a southern grassland. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.12393255181642,7339.50984492546,20.1082461504807,10.4873888619792,27.9337536143879,1487.84887840923
4813,9499,13839,"Neotoma","Lake Arthur","ARTHURE",30.05034,-92.7095,1,"not known","coastal, estuarine","core","17","Fearn, M.L. 1995. Holocene history of a southern grassland. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.12393255181642,7339.50984492546,20.1082461504807,10.4873888619792,27.9337536143879,1487.84887840923
4814,9500,14720,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-61","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14721,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-41","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14722,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-26","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14723,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-23","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14724,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-20","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14725,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","-3","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14726,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","13","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4814,9500,14727,"Neotoma","Lake AT01","AT01",53.27892,-84.2054,115,"not known","lake","core","27","Friel, C.E., S.A. Finkelstein, and A.M. Davis. 2014. Relative importance of hydrological and climatic controls on Holocene paleoenvironments inferred using diatom and pollen records from a lake in the cnetral Hudson Bay Lowlands, Canada. The Holocene 24(3):295-306.","10.1177/0959683613518587",15,"cold evergreen needleleaf forest",1.05838378542375,1726.22385120078,-2.4727459452632,-23.2519392963814,15.4602232302937,594.941434163632
4815,9501,12819,"Neotoma","Lake B","LAKEB",53.8,-106.079167,553,"not known","lake","core","0","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.640282750633959,2164.1132034451,0.169648569867275,-19.7441646298776,16.6476724823318,435.300370824118
4815,9501,12820,"Neotoma","Lake B","LAKEB",53.8,-106.079167,553,"not known","lake","core","25","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.640282750633959,2164.1132034451,0.169648569867275,-19.7441646298776,16.6476724823318,435.300370824118
4815,9501,12821,"Neotoma","Lake B","LAKEB",53.8,-106.079167,553,"not known","lake","core","50","Mott, R.J. 1973. Palynological studies in central Saskatchewan: pollen stratigraphy from lake sediment sequences. Paper 72-49. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.640282750633959,2164.1132034451,0.169648569867275,-19.7441646298776,16.6476724823318,435.300370824118
4816,9502,7177,"EMPDv2","Lake Babinskoye","EPDcoretop_E2330",59.62,28.61,7,"7","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.998361059920787,2380.6860432281,4.42915813564722,-8.49907728154995,17.0437534722343,577.912622319636
4817,9503,6239,"EMPDv2","Lake Baikal St. GC 3-96","Binney2017_E2214",53.68,108.35,449,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.578493112582927,2083.80809457711,-1.77672027209536,-24.1501989640703,17.9812715306257,343.388920515047
4818,9504,20279,"SMPDSv1","Lake Balaton (Centre)","EPDcoretop_E655",46.744444,17.400833,104,"0.0057","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.740515188532859,3942.63188442319,10.6905645125852,-1.1704885245394,20.5955283030343,655.711611088329
4819,9505,20280,"SMPDSv1","Lake Balaton (Northeast)","EPDcoretop_E656",47.001667,18.104167,104,"0.0057","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.678302243663437,3900.36312832686,10.5488439834408,-1.39872862716524,20.5012365563082,593.908109529606
4820,9506,20281,"SMPDSv1","Lake Balaton (Southwest)","EPDcoretop_E654",46.818333,17.735,104,"0.0057","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.709806756495109,3905.58752105441,10.5716602377074,-1.31999618004205,20.4967785894394,623.152058270536
4821,9507,801,"Australian pollen","Lake Banganup","Lake Banganup (BGP4)",-32.008,115.817,35,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.480667193320334,6630.71893315473,18.1663532415198,13.1609472013247,24.3365714422502,699.548570598818
4822,9508,802,"Australian pollen","Lake Baraba Thirlmere Lakes","Lake Baraba Thirlmere Lakes",-34.23,150.54,305,"small (0.01-1 km2)","lake","core top","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.812701665152242,5608.27628700001,15.3651405123288,9.08402285824938,20.9542066707631,1029.99511839294
4823,9509,17594,"Phelps et al., 2020","Lake Barombi-Mbo","BM6_0",4.6575,9.4025,314,"7","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",2,"tropical semi-evergreen broadleaf forest",1.94253826328058,9287.95004535554,25.4464384804261,24.1117951222084,26.723897372923,2462.50423191845
4824,9510,20282,"SMPDSv1","Lake Bezbog, Pirin Mts.","Connor_e1",41.7332808,23.5218941,2250,"0.02","lake","lacustrine core top","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10082964872033,1475.50489286354,0.942611027447541,-11.0123544595371,11.0778076404089,848.596193818314
4825,9511,15405,"Neotoma","Lake BI2","BI02",57.116667,-76.378333,210,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",31,"tundra",1.34591357674873,890.392365101551,-6.37154965928378,-24.5546321038074,9.25038975676269,555.409950855351
4825,9512,12299,"Neotoma","Lake BI2","LAKEBI2",57.116667,-76.378333,210,"not known","lake","core","0","Gajewski, K., and S. Garralla. 1992. Holocene vegetation histories from three sites in the tundra of northwestern Quebec, Canada. Arctic and Alpine Research 24:329-336.",,31,"tundra",1.34591357674873,890.392365101551,-6.37154965928378,-24.5546321038074,9.25038975676269,555.409950855351
4826,9513,6025,"EMBSeCBIO","Lake Blatisto","BLA_1",41.621389,24.678056,1540,"0.017","lake","core","-59","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.815050543129686,2433.95479586569,5.42416346008197,-5.83697166122242,15.6818686115937,740.39941481093
4826,9514,6027,"EMBSeCBIO","Lake Blatisto","BLA_14",41.621389,24.678056,1540,"0.017","lake","core","-18","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.815050543129686,2433.95479586569,5.42416346008197,-5.83697166122242,15.6818686115937,740.39941481093
4826,9515,6028,"EMBSeCBIO","Lake Blatisto","BLA_24",41.621389,24.678056,1540,"0.017","lake","core","13","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.815050543129686,2433.95479586569,5.42416346008197,-5.83697166122242,15.6818686115937,740.39941481093
4826,9516,6029,"EMBSeCBIO","Lake Blatisto","BLA_34",41.621389,24.678056,1540,"0.017","lake","core","45","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.815050543129686,2433.95479586569,5.42416346008197,-5.83697166122242,15.6818686115937,740.39941481093
4826,9517,6026,"EMBSeCBIO","Lake Blatisto","BLA_8",41.621389,24.678056,1540,"0.017","lake","core","-37","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.815050543129686,2433.95479586569,5.42416346008197,-5.83697166122242,15.6818686115937,740.39941481093
4827,9518,15831,"Neotoma","Lake Bloomington","GMP02",40.65,-88.93,219,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.972859968903208,4104.93702192874,10.2768245889483,-5.77685233481383,23.7313288758181,940.432495590943
4828,9519,15410,"Neotoma","Lake BN1","BN01",55,-73.516667,395,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.4614885184575,1158.43358122156,-5.1433600560152,-23.8698251602102,11.6483793215194,685.327562500202
4829,9520,15413,"Neotoma","Lake BN2B","BN2B",55,-73.55,395,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.46169591522305,1158.80563213487,-5.14104473238218,-23.8684708711851,11.6503722343171,685.515301497736
4830,9521,15411,"Neotoma","Lake BN3","BN03",55,-73.561667,395,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.4617695613627,1158.93833442591,-5.14022094885508,-23.8679911024651,11.6510868782018,685.582077790027
4831,9522,15414,"Neotoma","Lake BN4B","BN4B",55.001667,-73.558333,395,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.46174693522988,1158.83174596534,-5.14079544985095,-23.8682291455418,11.6503429109247,685.529200025681
4832,9523,15415,"Neotoma","Lake BN5B","BN5B",55.003333,-73.545,395,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.46166116744123,1158.6116656577601,-5.14207464145459,-23.8688778765614,11.6489879022206,685.41916340242
4833,9524,15412,"Neotoma","Lake BN6","BN06",55.001667,-73.541667,400,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.46479029163026,1159.90803664309,-5.14349418878237,-23.8797527549021,11.6739019042707,687.254455863431
4834,9525,12822,"Neotoma","Lake BN7","LAKEBN7",55.009167,-73.516667,395,"not known","lake","core","-40","Gajewski, K. 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences 28(4):643-648. Gajewski, K., S. Garralla, and V. Milot-Roy. 1996. Postglacial vegetation at the northern limit of lichen woodland in northwestern Québec. Géographie physique et Quaternaire 50:341-350.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.4614774976763,1158.05274868254,-5.14524183564725,-23.8703880944908,11.6453869463043,685.140028544535
4835,9526,9075,"EMPDv2","Lake Bricu","Stivrins_b3",57.115536,25.871095,208.4,"0.16","lake","sediment sample","-68","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.01754082806065,2503.23300458998,5.04972188224026,-7.5971454752524,16.4643640604191,641.676021313412
4836,9527,803,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-61","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,804,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,805,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,806,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,807,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,808,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,809,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,810,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,811,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-27","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,812,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,813,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,814,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,815,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,816,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","-4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,817,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,818,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,819,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,820,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,821,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,822,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,823,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,824,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,825,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4836,9527,826,"Australian pollen","Lake Burn","Lake Burn",-38.29,143.73,109,"0.54","lake","core","48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.75335386827217,4915.35058035427,13.4667139187788,8.6655252124778,18.5505910277799,773.819492687451
4837,9528,24377,"Neotoma","Lake Caranã","CARANA_0",-2.834645,-55.041785,5,"not known","lake","core","-66","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9529,24382,"Neotoma","Lake Caranã","CARANA_10",-2.834645,-55.041785,5,"not known","lake","core","-12","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9530,24383,"Neotoma","Lake Caranã","CARANA_12",-2.834645,-55.041785,5,"not known","lake","core","4","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9531,24384,"Neotoma","Lake Caranã","CARANA_14",-2.834645,-55.041785,5,"not known","lake","core","27","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9532,24378,"Neotoma","Lake Caranã","CARANA_2",-2.834645,-55.041785,5,"not known","lake","core","-59","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9533,24379,"Neotoma","Lake Caranã","CARANA_4",-2.834645,-55.041785,5,"not known","lake","core","-50","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9534,24380,"Neotoma","Lake Caranã","CARANA_6",-2.834645,-55.041785,5,"not known","lake","core","-39","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4837,9535,24381,"Neotoma","Lake Caranã","CARANA_8",-2.834645,-55.041785,5,"not known","lake","core","-26","Maezumi, S.Y., D. Alves, M. Robinson, J.G. de Souza, C. Levis, R.L. Barnett, E.A. de Oliveira, D. Urrego, D. Schaan, and J. Iriarte. 2018. The legacy of 4,500 years of polyculture agroforestry in the eastern Amazon. Nature Plants 4(8):540-547.;
Maezumi, S.Y., M. Robinson, J. de Souza, D.H. Urrego, D. Schaan, D. Alves, and J. Iriarte. 2018. New insights from pre-Columbian land use and fire management in Amazonian dark earth forests. Frontiers in Ecology and Evolution 6:111.","10.1038/s41477-018-0205-y;
10.3389/fevo.2018.00111",1,"tropical evergreen broadleaf forest",1.40494468924098,9820.3038318358,26.9049420050296,26.2118653065134,27.9887172951436,2029.71906855072
4838,9536,12823,"Neotoma","Lake Carlson","LAKECARL",44.79985,-93.15975,254,"not known","lake","core","11","Wright, H.E., Jr., T.C. Winter, and H.L. Patten. 1963. Two pollen diagrams from southeastern Minnesota: problems in the regional late-glacial and postglacial vegetational history. Geological Society of America Bulletin 74(11):1371-1396. Patten, H.L. 1959. A postglacial pollen diagram from Lake Carlson, Dakota County, southern Minnesota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.1130/0016-7606(1963)74[1371:TPDFSM]2.0.CO;2",13,"temperate deciduous broadleaf forest",0.847826365297375,3480.94010728088,7.07259408021651,-11.3935277621499,22.6164870312109,728.66058319186
4839,9537,827,"Australian pollen","Lake Cartcarong","Lake Cartcarong",-38.25,142.45,75,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.731042045259647,5041.73877232717,13.8129829378826,9.4091737373901,18.4980252770265,745.708372425349
4840,9538,12824,"Neotoma","Lake CH2","LAKECH2",49.683333,-74.583333,830,"not known","lake","core","4","Garralla, S. 1991. L'analyse pollinique des sédiments d'un lac de la région de Chibougamau, Québec. M.Sc. Thesis. Université Laval, Sainte-Foy, Québec, Canada.; Garralla, S., and K. Gajewski. 1992. Holocene vegetation history of the boreal forest near Chibougamau, central Quebec. Canadian Journal of Botany 70:1364-1368.",,8,"cool evergreen needleleaf forest",1.72642816433208,1783.67214789358,-0.176891886918191,-17.1626326943019,14.8567012302155,1120.18171324975
4841,9539,24274,"Neotoma","Lake Chalalán","CHALALAN_0",-14.42793,-67.92057,330,"0.4","lake","core","-53","Urrego, D.H., M.B. Bush, M.R. Silman, B.A. Niccum, P. De la Rosa, C.H. McMichael, S. Hagen, and M. Palace. 2013. Holocene fires, forest stability and human occupation in south-western Amazonia. Journal of Biogeography 40(3):521-533.","10.1111/jbi.12016",4,"warm-temperate evergreen and mixed forest",1.24507906522749,9377.93716476266,25.6929785335963,23.2627903810315,27.0204072940318,1949.7255090699
4841,9540,24275,"Neotoma","Lake Chalalán","CHALALAN_2",-14.42793,-67.92057,330,"0.4","lake","core","22","Urrego, D.H., M.B. Bush, M.R. Silman, B.A. Niccum, P. De la Rosa, C.H. McMichael, S. Hagen, and M. Palace. 2013. Holocene fires, forest stability and human occupation in south-western Amazonia. Journal of Biogeography 40(3):521-533.","10.1111/jbi.12016",4,"warm-temperate evergreen and mixed forest",1.24507906522749,9377.93716476266,25.6929785335963,23.2627903810315,27.0204072940318,1949.7255090699
4842,9541,16729,"Neotoma","Lake Charles","REB002",44.73,-81.02,219,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.08890493663831,2968.4490962871,6.13228098928863,-8.62816524965165,19.5810150422235,908.229124558286
4843,9542,828,"Australian pollen","Lake Chisholm","LCQV1",-41.13,145.06,120,"0.04486","lake","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.3497401179888,4303.86688356065,11.7914161193442,7.87700067104745,16.1976391085571,1262.29438673037
4843,9543,829,"Australian pollen","Lake Chisholm","LCQV2",-41.13,145.06,120,"0.04486","lake","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.3497401179888,4303.86688356065,11.7914161193442,7.87700067104745,16.1976391085571,1262.29438673037
4844,9544,17255,"Neotoma","Lake Clementi","LFR68101",49.71045,-99.94635,437,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.620563281013512,2646.04994258772,2.55515034780994,-17.3374798710663,19.2866462509191,482.853391672175
4845,9545,14257,"Neotoma","Lake Cleveland","CLEVELND",42.32129,-113.64955,2519,"not known","lake","core","-29","Davis, O.K. 1981. Vegetation migration in southern Idaho during the late Quaternary and Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Davis, O.K., J.C. Sheppard, and S. Robertson. 1986. Contrasting climatic histories for the Snake River Plain, Idaho, resulting from multiple thermal maxima. Quaternary Research 26:321-339.",,17,"temperate evergreen needleleaf open woodland",0.488947989644095,1798.29477478044,2.79345759810861,-7.32366820232723,14.6130829270712,461.758776575217
4846,9546,830,"Australian pollen","Lake Colac","Lake Colac",-38.3,143.59,152,"27.78","lake","core","-58","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.724493246975467,4876.59343023231,13.360529945842,8.42212968962963,18.5717358017508,750.281902307202
4846,9546,831,"Australian pollen","Lake Colac","Lake Colac",-38.3,143.59,152,"27.78","lake","core","-28","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.724493246975467,4876.59343023231,13.360529945842,8.42212968962963,18.5717358017508,750.281902307202
4846,9546,832,"Australian pollen","Lake Colac","Lake Colac",-38.3,143.59,152,"27.78","lake","core","-5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.724493246975467,4876.59343023231,13.360529945842,8.42212968962963,18.5717358017508,750.281902307202
4846,9546,833,"Australian pollen","Lake Colac","Lake Colac",-38.3,143.59,152,"27.78","lake","core","21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.724493246975467,4876.59343023231,13.360529945842,8.42212968962963,18.5717358017508,750.281902307202
4846,9546,834,"Australian pollen","Lake Colac","Lake Colac",-38.3,143.59,152,"27.78","lake","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.724493246975467,4876.59343023231,13.360529945842,8.42212968962963,18.5717358017508,750.281902307202
4847,9547,15731,"Neotoma","Lake Colden","DRW030",44.12339,-73.97906,843,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.49640387067516,2366.89274348133,3.91608314810539,-10.1965041018434,16.6954706747804,1106.14187030843
4847,9548,15732,"Neotoma","Lake Colden","DRW035",44.12339,-73.97906,843,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.49640387067516,2366.89274348133,3.91608314810539,-10.1965041018434,16.6954706747804,1106.14187030843
4848,9549,835,"Australian pollen","Lake Coleman","Lake Coleman",-38.1667,147.3,20,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.748229137243914,5093.65812482976,13.9552277392596,8.97284219818744,19.0510756170552,776.174665561795
4849,9550,836,"Australian pollen","Lake Condah","Lake Condah (Core 1b)",-38.0667,141.8333,60,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.679939018212802,5121.79495907646,14.0323149563739,9.52103592708192,18.905834517242,701.852571547524
4850,9551,11984,"Neotoma","Lake Constantine","SM-CNS",39.45039,-106.455625,3472,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.573198624664696,901.118913111468,-2.64432278262809,-13.8629299269474,8.87232385255303,518.444284139673
4851,9552,837,"Australian pollen","Lake Crosby","Lake Crosby",-35.05,141.733,40,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.196505204532179,6332.31467806621,17.3488073371677,10.1509166184425,24.6127799710732,272.973325060026
4852,9553,838,"Australian pollen","Lake Curlip","Lake Curlip",-37.833,148.5,5,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.749579368835108,5263.45906226637,14.4204357870312,9.50976571534435,19.4076377562444,791.596772890153
4853,9554,839,"Australian pollen","Lake Dove","DOVE_0",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","core","-58","Mariani, M., S.E. Connor, M.-S. Fletcher, M. Theuerkauf, K. Saunders, P. Kunes, G. Jacobsen, and A. Zawadzki. 2017. How old is the Tasmanian cultural landscape? A test of landscape openness using quantitative land-cover reconstructions. Journal of Biogeography 44(10):2410-2420. [DOI: 10.1111/jbi.13040]","10.21233/kb77-8r67",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9555,840,"Australian pollen","Lake Dove","DOVE_1",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","core","-31","Mariani, M., S.E. Connor, M.-S. Fletcher, M. Theuerkauf, K. Saunders, P. Kunes, G. Jacobsen, and A. Zawadzki. 2017. How old is the Tasmanian cultural landscape? A test of landscape openness using quantitative land-cover reconstructions. Journal of Biogeography 44(10):2410-2420. [DOI: 10.1111/jbi.13040]","10.21233/kb77-8r67",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9556,841,"Australian pollen","Lake Dove","DOVE_2",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","core","-3","Mariani, M., S.E. Connor, M.-S. Fletcher, M. Theuerkauf, K. Saunders, P. Kunes, G. Jacobsen, and A. Zawadzki. 2017. How old is the Tasmanian cultural landscape? A test of landscape openness using quantitative land-cover reconstructions. Journal of Biogeography 44(10):2410-2420. [DOI: 10.1111/jbi.13040]","10.21233/kb77-8r67",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9557,842,"Australian pollen","Lake Dove","DOVE_3",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","core","24","Mariani, M., S.E. Connor, M.-S. Fletcher, M. Theuerkauf, K. Saunders, P. Kunes, G. Jacobsen, and A. Zawadzki. 2017. How old is the Tasmanian cultural landscape? A test of landscape openness using quantitative land-cover reconstructions. Journal of Biogeography 44(10):2410-2420. [DOI: 10.1111/jbi.13040]","10.21233/kb77-8r67",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9558,843,"Australian pollen","Lake Dove","LDBG1",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9559,844,"Australian pollen","Lake Dove","LDBG2",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4853,9560,845,"Australian pollen","Lake Dove","LDP",-41.660615,145.961125,934,"small (0.01-1 km2)","lake","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.55903122757927,2472.5443667203,6.77409415539807,2.03667993713927,12.1676441228279,1445.6878529864
4854,9561,15750,"Neotoma","Lake Drummond","DRW052",36.583333,-76.458333,5,"not known","lake","surface sample","Modern","Whitehead, D.R., 1972. Developmental and environmental history of the Dismal Swamp. Ecological Monographs, 42(3), pp.301-315.","10.2307/1942212",4,"warm-temperate evergreen and mixed forest",1.10194794219763,5592.25472315878,15.3212458168734,4.22655580372639,25.6031248294832,1220.33619491536
4855,9562,20283,"SMPDSv1","Lake Durankulak","Durank3",43.666666666666,28.55,4,"0.034","lake","lacustrine core top","-5","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535292398665039,4278.55491947584,11.6981724823567,-0.234932562516744,22.1966777007556,514.585920071627
4855,9563,20284,"SMPDSv1","Lake Durankulak","Durankulak lake",43.6672222222222,28.5338888888889,10,"0.034","lake","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535964814906574,4277.76760713474,11.6973613194281,-0.215158143858153,22.1852028735361,515.159073221297
4856,9564,12825,"Neotoma","Lake EC1","LAKEEC1",56.283333,-75.1,250,"not known","lake","core","0","Gajewski, K., S. Payette, and J.C. Ritchie. 1993. Holocene vegetation history at the boreal-forest -- shrub-tundra transition in north-western Québec. Journal of Ecology 81: 433-443.",,15,"cold evergreen needleleaf forest",1.36908953814977,958.309750763358,-6.00430657601687,-24.0865870934519,9.81518474519924,587.314962718383
4857,9565,12826,"Neotoma","Lake EC2","LAKEEC2",56.023333,-74.945,300,"not known","lake","core","47","Gajewski, K. 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences 28(4):643-648. Gajewski, K., S. Garralla, and V. Milot-Roy. 1996. Postglacial vegetation at the northern limit of lichen woodland in northwestern Québec. Géographie physique et Quaternaire 50:341-350.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.41051971542055,1039.86417692636,-5.59139865510126,-23.8628502631239,10.4705621250743,625.815491817019
4858,9566,846,"Australian pollen","Lake Elusive","Lake Elusive",-37.75,149.45,8,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.847578015648929,5370.66591211071,14.714153183865,10.1078805601385,19.3330661626099,901.021787225015
4859,9567,13571,"Neotoma","Lake Emily","EMILY",44.30865,-93.9199999999999,302,"not known","lake","core","-13","Unpublished data",,13,"temperate deciduous broadleaf forest",0.840344504615148,3465.88436323973,6.96257059101089,-11.5409929250177,22.5558907466556,731.535185509447
4859,9567,13572,"Neotoma","Lake Emily","EMILY",44.30865,-93.9199999999999,302,"not known","lake","core","45","Unpublished data",,13,"temperate deciduous broadleaf forest",0.840344504615148,3465.88436323973,6.96257059101089,-11.5409929250177,22.5558907466556,731.535185509447
4860,9568,13791,"Neotoma","Lake Emily, Northeast Basin","EMILY_NE",44.313795,-93.914375,296,"not known","lake","core","22","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.840395044615099,3468.10638132164,6.96705743694576,-11.5646846413396,22.5686052163619,730.883229599296
4861,9569,12545,"Neotoma","Lake Erie","ERIE",41.92,-82.76,168,"not known","lake","core","-11","Lewis, C.F.M., and T.W. Anderson. 1989. Oscillations of levels and cool phases of the Laurentian Great Lakes caused by inflows from glacial Lakes Agassiz and Barlow-Ojibway. Journal of Paleolimnology 2:99-146.",,13,"temperate deciduous broadleaf forest",0.940835163560691,3650.99867586611,9.04672686713214,-5.20255620118309,22.0804635527124,857.81788931021
4862,9570,847,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1600",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9571,848,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1601",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9572,849,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1602",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9573,850,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1603",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9574,851,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1604",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9575,852,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1606",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9576,853,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1608",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","3","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4862,9577,854,"Australian pollen","Lake Euramoo","Lake Euramoo_Haberle 1999_1612",-17.1591,145.629,-41,"small (0.01-1 km2)","lake","core","29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",1.26727802696283,9131.30620230819,25.0172772665978,21.2736997479457,27.6165712191974,2116.85295303376
4863,9578,855,"Australian pollen","Lake Fidler","FQ 1",-42.509,145.6776,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57722145455049,4268.42225396186,11.694307545101,8.19488688439029,15.451170022428,1387.77188594241
4863,9579,856,"Australian pollen","Lake Fidler","FQ 2",-42.5091,145.6778,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57722531353687,4268.39654922151,11.6942371211548,8.19480815630425,15.4510897464863,1387.769159253
4863,9580,857,"Australian pollen","Lake Fidler","FQ 3",-42.5093,145.678,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57723957973097,4268.35797965002,11.694131451096,8.19470230067969,15.4509569511567,1387.77064209848
4863,9581,858,"Australian pollen","Lake Fidler","FQ 4",-42.5095,145.6783,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57725056674591,4268.31298329821,11.6940081734198,8.19457062753528,15.4508102545878,1387.76865048942
4863,9582,859,"Australian pollen","Lake Fidler","FQ 5",-42.5097,145.6786,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57726154979412,4268.26798182709,11.6938848817181,8.19443894124242,15.4506635409268,1387.76665399097
4863,9583,860,"Australian pollen","Lake Fidler","FQ 6",-42.5099,145.6789,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57727252887607,4268.22297523906,11.6937615759974,8.19430724181091,15.4505168101788,1387.76465260383
4863,9584,861,"Australian pollen","Lake Fidler","Lake Fidler core",-42.5087,145.6771,1,"small (0.01-1 km2)","coastal, lacustrine","core top","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57751322953653,4275.93813760867,11.714899007147,8.22163880558237,15.4638748547848,1387.67703560995
4863,9585,862,"Australian pollen","Lake Fidler","LQ 1",-42.5083,145.6765,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57718458513876,4268.58288453523,11.6947476288636,8.19536046883234,15.4516901774342,1387.78052677879
4863,9586,863,"Australian pollen","Lake Fidler","LQ 2",-42.5082,145.6764,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57717744546185,4268.6021591546,11.69480043604,8.19541337246303,15.4517565400865,1387.77977663346
4863,9587,864,"Australian pollen","Lake Fidler","LQ 3",-42.5082,145.6763,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57718071482412,4268.6085767991,11.6948180186277,8.19543916242308,15.4517704131429,1387.78324027072
4863,9588,865,"Australian pollen","Lake Fidler","LQ 4",-42.5082,145.6762,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57718398355136,4268.61499449973,11.6948356013691,8.19546495186404,15.4517842868951,1387.78670336751
4863,9589,866,"Australian pollen","Lake Fidler","LQ 5",-42.5081,145.676,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.5771801105379,4268.64068462303,11.6949059852686,8.19554363861513,15.4518645163035,1387.78941397281
4863,9590,867,"Australian pollen","Lake Fidler","LQ 6",-42.5081,145.6759,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57718337769752,4268.6471019583,11.694923567009,8.19556942570336,15.4518783898291,1387.79287562996
4863,9591,868,"Australian pollen","Lake Fidler","LQ 7",-42.508,145.6757,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57717950198485,4268.67278994039,11.6949939450422,8.1956481056114,15.4519586129367,1387.79558334824
4863,9592,869,"Australian pollen","Lake Fidler","LQ 8",-42.5079,145.6756,5,"small (0.01-1 km2)","coastal, lacustrine","surface sample","-49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57717235921126,4268.69205971025,11.6950467389322,8.19570099708859,15.4520249589843,1387.79482921994
4864,9593,7066,"EMPDv2","Lake Flafattjonna","EPDcoretop_E1805",62.33,10.4,1115,"0.06","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22504269290196,1063.65480285322,-1.37232802289018,-12.7037388918948,9.65194149959638,561.218583705785
4865,9594,870,"Australian pollen","Lake Flannigan","Lake Flannigan",-39.6022,143.9569,40,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.973428162569809,4779.68149864627,13.0950178045103,8.69832961455013,17.8826022454665,956.40856368758
4866,9595,20285,"SMPDSv1","Lake Flarken","EPDcoretop_E226",58.583333,13.666667,109,"not known","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05111766873574,2416.98092142151,5.66294863721394,-4.16859565116403,15.7683559015174,640.749354351399
4867,9596,12827,"Neotoma","Lake GB1","LAKEGB1",55.110833,-75.248889,325,"not known","lake","core","-4","Gajewski, K. 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences 28(4):643-648. Gajewski, K., S. Garralla, and V. Milot-Roy. 1996. Postglacial vegetation at the northern limit of lichen woodland in northwestern Québec. Géographie physique et Quaternaire 50:341-350.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.42453824489251,1172.0640083142,-4.9068998378393,-23.5714602094679,11.4283160805563,669.572958645744
4868,9597,12828,"Neotoma","Lake GB2","LAKEGB2",56.1,-75.283333,300,"not known","lake","core","0","Gajewski, K., S. Payette, and J.C. Ritchie. 1993. Holocene vegetation history at the boreal-forest -- shrub-tundra transition in north-western Québec. Journal of Ecology 81: 433-443.",,15,"cold evergreen needleleaf forest",1.41562708643253,1027.9534892362,-5.62812988087295,-23.8417738162773,10.3296191751076,625.628999363034
4869,9598,871,"Australian pollen","Lake George","Lake George 1_ct",-35.0833,149.4167,673,"not known","lake","core","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.740869801149967,4523.8997129559,12.3942457889203,5.31695453546424,19.2361877088425,919.99421449554
4869,9599,872,"Australian pollen","Lake George","Lake George 1_ss",-35.0833,149.4167,673,"not applicable","lake","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.740869801149967,4523.8997129559,12.3942457889203,5.31695453546424,19.2361877088425,919.99421449554
4869,9600,11503,"Neotoma","Lake George","NDKIGE",46.74527,-99.49867,560,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.525452158134695,3032.74795872888,4.95558678420057,-13.5686783168022,21.3033333279108,445.39277345036
4870,9601,15841,"Neotoma","Lake Girardeau","GMP12",37.28,-89.83,152,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.0153803698472,5105.95081129837,13.9813753523447,0.0140183714765117,26.1612004198889,1139.34843361804
4871,9602,873,"Australian pollen","Lake Gnotuk","Lake Gnotuk core_0",-38.2193,143.1007,200,"medium (1.1-50 km2)","lake","core","-17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.644864418752162,4888.67080175174,13.3936186349363,8.21964513059071,18.8439523045507,680.127059749972
4871,9603,874,"Australian pollen","Lake Gnotuk","Lake Gnotuk core_10",-38.2193,143.1007,200,"medium (1.1-50 km2)","lake","core","4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.644864418752162,4888.67080175174,13.3936186349363,8.21964513059071,18.8439523045507,680.127059749972
4871,9604,875,"Australian pollen","Lake Gnotuk","Lake Gnotuk core_20",-38.2193,143.1007,200,"medium (1.1-50 km2)","lake","core","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.644864418752162,4888.67080175174,13.3936186349363,8.21964513059071,18.8439523045507,680.127059749972
4871,9605,876,"Australian pollen","Lake Gnotuk","Lake Gnotuk core_30",-38.2193,143.1007,200,"medium (1.1-50 km2)","lake","core","47","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.644864418752162,4888.67080175174,13.3936186349363,8.21964513059071,18.8439523045507,680.127059749972
4872,9606,20286,"SMPDSv1","Lake Gosciaz","EPDcoretop_E1232",52.583333,19.35,64,"0.704","lake","peat core top","-36","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.726233537217747,3097.83343846189,8.15291225896365,-2.43705231732348,17.6388404411472,531.526794187033
4873,9607,14461,"Neotoma","Lake Grinnell","GRINNELL",41.098185,-74.63963,170,"not known","lake","core","-55","Zhao, C., Z. Yu, E. Ito, and Y. Zhao. 2010. Holocene climate trend, variability, and shift documented by lacustrine stable-isotope record in the northeastern United States. Quaternary Science Reviews 29:1831-1843.; Zhao, Y., Z. Yu, and C. Zhao. 2010. Hemlock (Tsuga cnadensis) declines at 9800 and 5300 cal. yr BP caused by Holocene climatic shifts in northeastern North America. The Holocene 20(6):877-886.",,9,"cool mixed forest",1.22836501325267,3928.94085897744,10.309608418548,-3.04153588152827,22.6803681519192,1140.46705532988
4874,9608,42,"APD","Lake Guiers 1","02GUIERS_5",16.116667,-15.850335,0,"170","lake","core top","0","Lézine, A.M., 1987. Paléoenvironnements végétaux d'Afrique occidentale nord-tropicale depuis 12000 BP: analyse pollinique de séries sédimentaires continentales (Sénégal-Mauritanie). Thèse de doctorat, Université Aix-Marseille II, 180 p.;
Lézine, A.M., 1988. Les variations de la couverture forestière mésophile d'Afrique occidentale au cours de l'Holocène. Comptes rendus de l'Académie des sciences. Série 2, Mécanique, Physique, Chimie, Sciences de l'univers, Sciences de la Terre, 307(4), pp.439-445.",,22,"steppe",0.0856233258400379,9606.65616089054,26.319605920248,21.9348007759062,29.4161189429582,175.630601164888
4875,9609,24433,"Southern Hemisphere pollen","Lake Hanlon","Lake Hanlon_mod",-41.43,172.1075,127,"small (0.01-1 km2)","terrestrial","surface sample","-33","Macphail, M.K. and McQueen, D.R., 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara (Wellington)., 26(2), pp.37-59.",,7,"cool-temperate rainforest",2.98830429806732,4253.99325066647,11.6547760292232,6.99034298664974,16.1285492964078,2656.42052961585
4876,9610,86,"APD","Lake Hayk","HYK99-1_0",11.35,39.716667,1920,"23","lake","core","-45","Darbyshire, I., Lamb, H. and Umer, M., 2003. Forest clearance and regrowth in northern Ethiopia during the last 3000 years. The Holocene, 13(4), pp.537-546.","10.1191/0959683603hl644rp",20,"xerophytic woods/scrub",0.487457977328614,7050.1123741944,19.3153763676559,16.7307565023162,21.7496353156326,932.202379983149
4876,9611,87,"APD","Lake Hayk","HYK99-1_4",11.35,39,1920,"23","lake","core","14","Darbyshire, I., Lamb, H. and Umer, M., 2003. Forest clearance and regrowth in northern Ethiopia during the last 3000 years. The Holocene, 13(4), pp.537-546.","10.1191/0959683603hl644rp",20,"xerophytic woods/scrub",0.514473256693433,7022.34299600228,19.2392958794583,16.8447067128625,21.3265796161457,981.644718069543
4877,9612,11507,"Neotoma","Lake Herman","SDLAHE",43.989655,-97.17285,509,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.62558458527129,3463.45958415559,7.06984821842963,-10.9490103611178,22.9833443940766,573.004420463686
4878,9613,14430,"Neotoma","Lake Hill","LAHI",57.17824,-170.24827,29,"not known","lake","core","-56","Graham, R.W., S. Belmecheri, K. Choy, B. Culleton, L.J. Davies, D. Froese, P.D. Heintzman, C. Hritz, J.D. Kapp, L.A. Newsom, R. Rawcliffe, É. Saulnier-Talbot, B. Shapiro, Y. Wang, J.W. Williams, and M.J. Wooller. 2016. Timing and causes of mid-Holocene mammoth extinction on St. Paul Island, Alaska. Proceedings of the National Academy of Sciences of the United States of America 113(33):9310-9314.","10.1073/pnas.1604903113",9,"cool mixed forest",,,,,,
4878,9613,14431,"Neotoma","Lake Hill","LAHI",57.17824,-170.24827,29,"not known","lake","core","2","Graham, R.W., S. Belmecheri, K. Choy, B. Culleton, L.J. Davies, D. Froese, P.D. Heintzman, C. Hritz, J.D. Kapp, L.A. Newsom, R. Rawcliffe, É. Saulnier-Talbot, B. Shapiro, Y. Wang, J.W. Williams, and M.J. Wooller. 2016. Timing and causes of mid-Holocene mammoth extinction on St. Paul Island, Alaska. Proceedings of the National Academy of Sciences of the United States of America 113(33):9310-9314.","10.1073/pnas.1604903113",9,"cool mixed forest",,,,,,
4878,9614,877,"Australian pollen","Lake Hill","Lake Hill",-37.15,147.9333,1300,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.995965013977928,2839.95924687688,7.78071026541612,0.204954918376141,15.2855143124933,1177.97530683465
4879,9615,20287,"SMPDSv1","Lake Hopseidet","EPDcoretop_E727",70.833333,27.716667,225,"0.09","lake","peat core top","-43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.79024740079414,1129.26364118571,-2.25969296244709,-14.5183007991279,11.7478281364837,593.087115669002
4880,9616,878,"Australian pollen","Lake Hordern","LH Core A",-38.784,143.467,3,"small (0.01-1 km2)","lake","core top","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9617,879,"Australian pollen","Lake Hordern","LH Core B_0",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9618,880,"Australian pollen","Lake Hordern","LH Core B_1",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","-26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9619,881,"Australian pollen","Lake Hordern","LH Core B_105",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","-2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9620,882,"Australian pollen","Lake Hordern","LH Core B_125",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","4","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9621,883,"Australian pollen","Lake Hordern","LH Core B_150",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9622,884,"Australian pollen","Lake Hordern","LH Core B_180",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9623,885,"Australian pollen","Lake Hordern","LH Core B_200",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","23","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9624,886,"Australian pollen","Lake Hordern","LH Core B_225",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9625,887,"Australian pollen","Lake Hordern","LH Core B_240",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","33","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9626,888,"Australian pollen","Lake Hordern","LH Core B_270",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9627,889,"Australian pollen","Lake Hordern","LH Core B_300",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9628,890,"Australian pollen","Lake Hordern","LH Core B_5",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","-16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9629,891,"Australian pollen","Lake Hordern","LH Core B_75",-38.784,143.467,3,"small (0.01-1 km2)","lake","core","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9630,892,"Australian pollen","Lake Hordern","LH Moss",-38.76,143.48,40,"not applicable","terrestrial","moss polster or moss","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.865595912219805,4889.31825942415,13.395392491573,8.88570502802432,18.2499125458311,867.887827679303
4880,9631,893,"Australian pollen","Lake Hordern","LH S1",-38.784,143.467,3,"not applicable","terrestrial","surface sample","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9632,894,"Australian pollen","Lake Hordern","LH S2",-38.784,143.467,3,"not applicable","terrestrial","surface sample","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9633,895,"Australian pollen","Lake Hordern","LH S3",-38.784,143.467,3,"not applicable","terrestrial","surface sample","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9634,896,"Australian pollen","Lake Hordern","LH S4",-38.784,143.467,3,"not applicable","terrestrial","surface sample","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4880,9635,897,"Australian pollen","Lake Hordern","LH S5",-38.784,143.467,3,"not applicable","terrestrial","surface sample","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.908682311586565,4896.4670468914,13.4149782106614,9.00510577614134,18.2071552523313,904.560816126823
4881,9636,24414,"Neotoma","Lake Huila","HUILA_1",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-61","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9637,24419,"Neotoma","Lake Huila","HUILA_11",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-35","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9638,24420,"Neotoma","Lake Huila","HUILA_13",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-13","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9639,24415,"Neotoma","Lake Huila","HUILA_3",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-56","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9640,24416,"Neotoma","Lake Huila","HUILA_5",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-51","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9641,24417,"Neotoma","Lake Huila","HUILA_7",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-46","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4881,9642,24418,"Neotoma","Lake Huila","HUILA_9",-0.423416666666667,-78.0179166666667,2608,"0.002","lake","core","-42","Loughlin, N.J.D. 2018. Changing human impact on the montane forests of the eastern Andean flank, Ecuador. Doctoral dissertation. The Open University, Milton Keynes, United Kingdom.;
Loughlin, N.J.D., W.D. Gosling, P. Mothes, and E. Montoya. 2018. Ecological consequences of post-Columbian indigenous depopulation in the Andean– Amazonian corridor. Nature Ecology & Evolution 2(8):1233-1236.",";
10.1038/s41559-018-0602-7",4,"warm-temperate evergreen and mixed forest",1.17007824373283,5330.13495518329,14.6031094662556,14.0846298372524,14.8729206582237,1491.51130823808
4882,9643,20288,"SMPDSv1","Lake Ifjord","EPDcoretop_E728",70.433333,27.633333,317,"0.1","not known","peat core top","-43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.84823272062857,1100.75825794937,-2.92722741846678,-15.9414957451471,11.7401627887938,622.078775459304
4883,9644,17595,"Phelps et al., 2020","Lake Ikimba","IKIMBA2_1.2",-1.435833,31.592778,1183,"not known","lake","core top","9","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.919411289335332,7913.61461098037,21.6811359204942,20.9527889723873,22.1329395307637,1367.55709113263
4884,9645,11508,"Neotoma","Lake Isabel","NDKIIS",46.81848,-99.749755,527,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.538935532358113,2978.78115443706,4.60968425135122,-14.1824519711258,21.0104207318325,452.349766585156
4885,9646,14073,"Neotoma","Lake Jake","LAKEJAKE",63.66675,-65.1513,264,"not known","lake","core","-41","Miller, G.H., A.P. Wolfe, J.P. Briner, P.E. Sauer, and A. Nestje. 2005. Holocene glaciation and climate evolution of Baffin Island, Arctic Canada. Quaternary Science Reviews 24:1703-1721.",,30,"tundra",1.65720365323367,361.755881415763,-9.16654009790488,-23.0904560734121,5.13413214167177,518.645578233881
4886,9647,20289,"SMPDSv1","Lake Jarveotsa","EPDcoretop_E898",59.033333,24.283333,42,"0.169","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06245760384383,2437.79338778116,5.19679793796854,-6.11847773781849,16.5453753263105,633.423162774149
4887,9648,898,"Australian pollen","Lake Johnston","Lake Johnston, Core JA",-41.8667,145.55,875,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.60833202288852,2591.73759479461,7.10065094464276,2.40949715174947,12.4603676034932,1490.51738907691
4888,9649,14451,"Neotoma","Lake JR01","JR01NUN",69.9,-95.07,125,"not known","lake","core","-41","Zabenskie, S., and K. Gajewski. 2007. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Quaternary Research 68(2):261-270. Zabenskie, S. 2006. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.yqres.2007.04.003",31,"tundra",0.517348854775182,390.300297795513,-15.932079434812,-34.9779385493892,6.30033608118088,132.945652578787
4888,9649,14452,"Neotoma","Lake JR01","JR01NUN",69.9,-95.07,125,"not known","lake","core","-12","Zabenskie, S., and K. Gajewski. 2007. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Quaternary Research 68(2):261-270. Zabenskie, S. 2006. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.yqres.2007.04.003",31,"tundra",0.517348854775182,390.300297795513,-15.932079434812,-34.9779385493892,6.30033608118088,132.945652578787
4888,9649,14453,"Neotoma","Lake JR01","JR01NUN",69.9,-95.07,125,"not known","lake","core","3","Zabenskie, S., and K. Gajewski. 2007. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Quaternary Research 68(2):261-270. Zabenskie, S. 2006. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.yqres.2007.04.003",31,"tundra",0.517348854775182,390.300297795513,-15.932079434812,-34.9779385493892,6.30033608118088,132.945652578787
4888,9649,14454,"Neotoma","Lake JR01","JR01NUN",69.9,-95.07,125,"not known","lake","core","18","Zabenskie, S., and K. Gajewski. 2007. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Quaternary Research 68(2):261-270. Zabenskie, S. 2006. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.yqres.2007.04.003",31,"tundra",0.517348854775182,390.300297795513,-15.932079434812,-34.9779385493892,6.30033608118088,132.945652578787
4888,9649,14455,"Neotoma","Lake JR01","JR01NUN",69.9,-95.07,125,"not known","lake","core","33","Zabenskie, S., and K. Gajewski. 2007. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Quaternary Research 68(2):261-270. Zabenskie, S. 2006. Post-glacial climatic change on Boothia Peninsula, Nunavut, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.yqres.2007.04.003",31,"tundra",0.517348854775182,390.300297795513,-15.932079434812,-34.9779385493892,6.30033608118088,132.945652578787
4889,9650,7204,"EMPDv2","Lake Kahala","EPDcoretop_E2557",59.49,25.54,33,"3.5","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.05806859549445,2398.26039860467,4.84259818976744,-7.00447368640546,16.644196433365,620.93170141777
4890,9651,17596,"Phelps et al., 2020","Lake Kavitaha","KAVITAHA_0",-19.041667,46.783333,1269,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.954393317289518,6873.76167760223,18.8322237742527,15.411439705812,21.2204658129708,1430.66107082376
4890,9652,17597,"Phelps et al., 2020","Lake Kavitaha","KAVITAHA_10",-19.041667,46.783333,1269,"not known","lake","core","39","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.954393317289518,6873.76167760223,18.8322237742527,15.411439705812,21.2204658129708,1430.66107082376
4891,9653,899,"Australian pollen","Lake Keilambete","Lake Keilambete core 1_0",-38.2125,142.8779,132,"small (0.01-1 km2)","lake","core","-20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.67628599221116,4977.11588317742,13.6359339265135,8.7652111412599,18.7840468519766,704.281181538649
4891,9654,900,"Australian pollen","Lake Keilambete","Lake Keilambete core 1_10",-38.2125,142.8779,132,"small (0.01-1 km2)","lake","core","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.67628599221116,4977.11588317742,13.6359339265135,8.7652111412599,18.7840468519766,704.281181538649
4891,9655,901,"Australian pollen","Lake Keilambete","Lake Keilambete core 1_20",-38.2125,142.8779,132,"small (0.01-1 km2)","lake","core","39","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.67628599221116,4977.11588317742,13.6359339265135,8.7652111412599,18.7840468519766,704.281181538649
4892,9656,20290,"SMPDSv1","Lake Kharinei","Kharinei_core top",67.366667,62.75,110,"0.5","lake","lacustrine core top","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.20903690618244,1087.79757075693,-6.15875303750429,-23.5029798605685,13.2779249325597,425.624082762317
4893,9657,9066,"EMPDv2","Lake Kikuru","Stivrins_a4",56.813888,21.625833,38.7,"0.216","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.04153684156954,2623.53939693654,6.4168580736727,-3.68859556440335,16.440719480757,676.65254794806
4894,9658,17598,"Phelps et al., 2020","Lake Kimili I","KIMILIA_1",1.1,34.566667,4153,"not known","lake","core top","36","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",1.44194542703296,1271.71092000526,3.48413950686372,2.30013023406677,5.15479383746024,1547.68407312707
4895,9659,902,"Australian pollen","Lake Kirkpatrick","KIRKPATRICK_10",-45.02719,168.57373,570,"not known","lake","core","7","McWethy, D.B., J.M. Wilmshurst, C. Whitlock, J.R. Wood, and M.S. McGlone. 2014. A high-resolution chronology of rapid forest transitions following Polynesian arrival in New Zealand. PLoS ONE 9(11):e111328. [DOI: 10.1371/journal.pone.0111328]","10.21233/fs4c-mv83",22,"steppe",2.65497545844198,2743.81450127955,7.51730000350561,1.84940724292972,12.7562974829317,2061.7142616441
4895,9660,903,"Australian pollen","Lake Kirkpatrick","KIRKPATRICK_15",-45.02719,168.57373,570,"not known","lake","core","38","McWethy, D.B., J.M. Wilmshurst, C. Whitlock, J.R. Wood, and M.S. McGlone. 2014. A high-resolution chronology of rapid forest transitions following Polynesian arrival in New Zealand. PLoS ONE 9(11):e111328. [DOI: 10.1371/journal.pone.0111328]","10.21233/fs4c-mv83",22,"steppe",2.65497545844198,2743.81450127955,7.51730000350561,1.84940724292972,12.7562974829317,2061.7142616441
4895,9661,904,"Australian pollen","Lake Kirkpatrick","KIRKPATRICK_5",-45.02719,168.57373,570,"not known","lake","core","-23","McWethy, D.B., J.M. Wilmshurst, C. Whitlock, J.R. Wood, and M.S. McGlone. 2014. A high-resolution chronology of rapid forest transitions following Polynesian arrival in New Zealand. PLoS ONE 9(11):e111328. [DOI: 10.1371/journal.pone.0111328]","10.21233/fs4c-mv83",22,"steppe",2.65497545844198,2743.81450127955,7.51730000350561,1.84940724292972,12.7562974829317,2061.7142616441
4896,9662,17599,"Phelps et al., 2020","Lake Kitina","KT3_2",-4.27,12,6,"not known","lake","core top","20","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",1,"tropical evergreen broadleaf forest",1.03232572071947,9252.80222603428,25.3501430850254,22.233056171832,27.373209756515,1196.03349824616
4897,9663,10597,"BIOME6000 Japan","Lake Kizaki","D20012",36.55,137.833333,764,"not known","lake","sediment sample","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.85952115649643,3689.00730328729,9.7141231654169,-2.46604232550983,22.5355235740987,1639.24855441559
4898,9664,20291,"SMPDSv1","Lake Kolmilatrask","EPDcoretop_E338",60.283333,20.15,12,"0.04","lake","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.959657525077343,2258.00495167856,4.94990385097473,-5.28393950936634,15.7734044177145,543.365172900901
4899,9665,7205,"EMPDv2","Lake Konsu","EPDcoretop_E2558",59.22,27.58,42,"1.392","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0261429084777,2421.78031264273,4.72083464464219,-7.83849560668574,16.8001181350507,608.652591317789
4900,9666,7052,"EMPDv2","Lake Kotokel","EPDcoretop_E1731",52.78,108.13,458,"67","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.569994698111865,2164.0936882017,-1.32954385070509,-23.7969091977474,18.349930736426,346.406868983044
4901,9667,9829,"Herzschuh et al., 2019","Lake Kotokel_2009","Lake Kotokel_2009 1",52.78,108.12,458,"not known","lake","lake surface sample","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.570080850022076,2164.50365855941,-1.32678360471416,-23.7933207491167,18.351628787818,346.451868843385
4901,9668,9830,"Herzschuh et al., 2019","Lake Kotokel_2009","Lake Kotokel_2009 2",52.78,108.12,458,"not known","lake","lake surface sample","35.299999999999997","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.570080850022076,2164.50365855941,-1.32678360471416,-23.7933207491167,18.351628787818,346.451868843385
4902,9669,14515,"Neotoma","Lake KR02 (unofficial name)","KRO2",71.344,-113.78145,299,"not known","lake","core","-49","Peros, M.C., and K. Gajewski. 2008. Holocene climate and vegetation change on Victoria Island, western Canadian Arctic. Quaternary Science Reviews 27(3-4):235-249.",,31,"tundra",0.423279917267324,294.289250284425,-15.4301808601331,-32.7558626112181,4.692568974826,107.404076640909
4902,9669,14516,"Neotoma","Lake KR02 (unofficial name)","KRO2",71.344,-113.78145,299,"not known","lake","core","-28","Peros, M.C., and K. Gajewski. 2008. Holocene climate and vegetation change on Victoria Island, western Canadian Arctic. Quaternary Science Reviews 27(3-4):235-249.",,31,"tundra",0.423279917267324,294.289250284425,-15.4301808601331,-32.7558626112181,4.692568974826,107.404076640909
4902,9669,14517,"Neotoma","Lake KR02 (unofficial name)","KRO2",71.344,-113.78145,299,"not known","lake","core","-21","Peros, M.C., and K. Gajewski. 2008. Holocene climate and vegetation change on Victoria Island, western Canadian Arctic. Quaternary Science Reviews 27(3-4):235-249.",,31,"tundra",0.423279917267324,294.289250284425,-15.4301808601331,-32.7558626112181,4.692568974826,107.404076640909
4902,9669,14518,"Neotoma","Lake KR02 (unofficial name)","KRO2",71.344,-113.78145,299,"not known","lake","core","22","Peros, M.C., and K. Gajewski. 2008. Holocene climate and vegetation change on Victoria Island, western Canadian Arctic. Quaternary Science Reviews 27(3-4):235-249.",,31,"tundra",0.423279917267324,294.289250284425,-15.4301808601331,-32.7558626112181,4.692568974826,107.404076640909
4903,9670,7222,"EMPDv2","Lake Kuzi","EPDcoretop_E2593",57.03,25.33,192,"0.065","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.03516480960245,2489.04638247562,5.01654205180054,-7.54132414454537,16.4430545764415,648.926303969372
4904,9671,12803,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","-34","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12804,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","-29","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12805,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","-24","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12806,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","-9","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12807,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","9","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12808,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","21","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12809,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","26","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12810,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","36","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4904,9671,12811,"Neotoma","Lake Lacawac","LACAWAC",41.382145,-75.29131,443,"not known","lake","core","42","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.22880650696366,3306.69726638341,7.90433524691312,-5.90087545725231,20.549108110668,1047.78532152391
4905,9672,9135,"EMPDv2","Lake Lala","Tantau_a6",47.5333333333333,24.8666666666667,1790,"0.005","terrestrial, bog/lake","peat","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65107649186289,1221.68637332615,-0.0940699277203259,-11.9011450184547,9.37674203493223,1088.80541233993
4906,9673,17600,"Phelps et al., 2020","Lake Langeno","LC_2",7.516667,38.716667,1585,"230","lake","not known","18","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.599534868084895,7236.29292425785,19.8254600664599,18.3254783888291,21.2056775208667,1132.25816784262
4907,9674,905,"Australian pollen","Lake Lascelles","Lake Lascelles",-35.717,142.367,80,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.26956008090062,5952.22937415438,16.3074777374093,9.43503749671887,23.462475922164,345.470590270905
4908,9675,12829,"Neotoma","Lake LB1","LAKELB1",57.916667,-75.616667,200,"not known","lake","core","0","Gajewski, K., S. Payette, and J.C. Ritchie. 1993. Holocene vegetation history at the boreal-forest -- shrub-tundra transition in north-western Québec. Journal of Ecology 81: 433-443.",,15,"cold evergreen needleleaf forest",1.31288644887395,814.051068698708,-6.88623417772569,-24.8342479921367,8.84480189015034,519.671920418096
4909,9676,906,"Australian pollen","Lake Leake","Lake Leake LE",-37.6094,140.581,76,"small (0.01-1 km2)","lake","core top","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.583688742110327,5213.82697739829,14.2844574723241,9.55627644060772,19.4546675037047,623.005556076516
4910,9677,20292,"SMPDSv1","Lake Lednica","EPDcoretop_E375",52.556944,17.390278,109,"3.391","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.74652193983404,3129.58618616603,8.31093245618741,-2.06420110066209,17.7336452648481,546.569632733414
4911,9678,20293,"SMPDSv1","Lake Lerna","Barboni_a948",37.583821,22.734054,0,"medium (1.1-50 km2)","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389707220660735,6607.68975619051,18.1032596060014,10.7360270093241,26.2332023253526,564.89624155397
4911,9679,5965,"EMBSeCBIO","Lake Lerna","Lake Lerna",37.58083,22.73,0,"not known","coastal, lacustrine","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.389830475991267,6608.1527735772,18.1045281467868,10.7397291065917,26.2318980702802,565.10421814062
4912,9680,9202,"EMPDv2","Lake Lielais Svetinu","Stivrins_a1",56.75,27.13333,96.2,"0.188","lake","sediment sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.950213711615526,2537.3003153058,5.19950748139704,-7.3871154430056,16.8111655972075,607.963143058058
4913,9681,9076,"EMPDv2","Lake Lielais Vipedis","Stivrins_b4",56.591324,23.000251,96.2,"0.201","lake","sediment sample","-68","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02642194230851,2667.4677807998,6.31770928547389,-4.68957091591435,16.6310567807766,677.787551144397
4914,9682,9068,"EMPDv2","Lake Lilaste","Stivrins_a6",57.178888,24.351388,0.5,"1.836","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.974256083653322,2631.31009442982,6.10037827187361,-5.02990777768752,16.8156101660972,619.283445925886
4915,9683,12873,"Neotoma","Lake Louise","LOUISE-D",30.725,-83.258333,49,"not known","lake","core","0","Watts, W.A. 1971. Postglacial and interglacial vegetation history of southern Georgia and central Florida. Ecology 52(4):676-690.","10.2307/1934159",4,"warm-temperate evergreen and mixed forest",1.02044320066264,7119.6544671905,19.505902649837,10.199867944674,27.2981100445593,1338.69138718523
4915,9684,13841,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","-44","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13842,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","-34","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13843,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","-23","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13844,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","-13","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13845,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","-3","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13846,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","8","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13847,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","19","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13848,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","30","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4915,9684,13849,"Neotoma","Lake Louise","LOUISEMB",49.03265,-97.22993,240,"not known","lake","core","41","Brooks, G.R., and A. Grenier. 2001. Late Holocene pollen stratigraphy of Lake Louise, Manitoba. Current Research 2001-B1, Geological Survey of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.649661873850981,2786.91456592577,2.94897068503459,-17.702618416698,19.8913319796838,508.301055990089
4916,9685,12830,"Neotoma","Lake LR3","LAKELR3",58.578333,-75.245,160,"not known","lake","core","0","Gajewski, K., and S. Garralla. 1992. Holocene vegetation histories from three sites in the tundra of northwestern Quebec, Canada. Arctic and Alpine Research 24:329-336.",,15,"cold evergreen needleleaf forest",1.25047241897466,754.826568691119,-7.28793307497357,-25.0859203860261,8.46746013898101,477.800100186399
4917,9686,12831,"Neotoma","Lake LT1","LAKELT1",58.141667,-75.15,150,"not known","lake","core","0","Gajewski, K., and S. Garralla. 1992. Holocene vegetation histories from three sites in the tundra of northwestern Quebec, Canada. Arctic and Alpine Research 24:329-336.",,15,"cold evergreen needleleaf forest",1.24503179561198,767.934607850342,-7.1855947348356,-25.0748907811369,8.5183883589922,481.339745573692
4918,9687,7203,"EMPDv2","Lake Maardu","EPDcoretop_E2555",59.44,25,32,"1.588","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06359973655368,2414.85650129594,5.04208489913734,-6.43353325135747,16.579230165867,627.155020232181
4919,9688,12881,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","-14","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12882,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","-6","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12883,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","2","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12884,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","10","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12885,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","19","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12886,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","28","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4919,9688,12887,"Neotoma","Lake Mabel","MABEL",44.36044,-93.61535,315,"not known","lake","core","36","Unpublished data",,13,"temperate deciduous broadleaf forest",0.852342360236339,3443.74969946961,6.91249754045888,-11.4671495041947,22.4231098550098,740.008081186407
4920,9689,15729,"Neotoma","Lake Madeleine [Jenkins Pond]","JENK_C90",44.12511,-74.463825,528,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34705208527533,2711.50071377707,5.13501703632279,-9.65109345054901,18.4494629310467,1040.1003822761
4921,9690,11558,"Neotoma","Lake Madison","SDLAMA",43.95683,-97.02606,488,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.631399097123334,3493.58957354411,7.20322365689475,-10.7996568307429,23.0686549758673,579.725242130285
4922,9691,907,"Australian pollen","Lake Majo","Lake Majo (Obi)",-1.2845,127.2947,140,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.43796537041149,9337.25048125619,25.5815081678252,25.2029719093741,25.9505989911186,2333.89047396959
4923,9692,17601,"Phelps et al., 2020","Lake Malawi","M86_22P_1.5",-13.0167,34.5223,476,"not known","lake","not known","18","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",,"not applicable",0.89777881936922,8668.72825518767,23.7499404251717,20.1624206016863,26.4664776921159,1441.84065901961
4924,9693,7176,"EMPDv2","Lake Manyas","EPDcoretop_E2318",40.17,28,14,"150","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.570841966876026,5279.09389187705,14.4632709366494,5.07581205419335,23.6658283791534,689.812458073293
4925,9694,7206,"EMPDv2","Lake Martiska","EPDcoretop_E2559",59.16,27.7,44,"0.06","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02600650911105,2423.69512815132,4.72295475354522,-7.85566955110961,16.8023755053759,610.237913892962
4926,9695,15395,"Neotoma","Lake Mary","AMS127",46.25,-89.9,488,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02857708020352,2647.96637447951,3.97887565334482,-12.8912317136183,18.9256395512934,790.03085115402
4927,9696,14528,"Neotoma","Lake MB01","MB01",69.807,-112.077,297,"not known","lake","core","-47","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.432605903138588,318.071384890142,-15.3561149162854,-32.8318163574507,5.12153753891817,113.220257334348
4927,9696,14529,"Neotoma","Lake MB01","MB01",69.807,-112.077,297,"not known","lake","core","-34","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.432605903138588,318.071384890142,-15.3561149162854,-32.8318163574507,5.12153753891817,113.220257334348
4927,9696,14530,"Neotoma","Lake MB01","MB01",69.807,-112.077,297,"not known","lake","core","-20","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.432605903138588,318.071384890142,-15.3561149162854,-32.8318163574507,5.12153753891817,113.220257334348
4927,9696,14531,"Neotoma","Lake MB01","MB01",69.807,-112.077,297,"not known","lake","core","-6","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.432605903138588,318.071384890142,-15.3561149162854,-32.8318163574507,5.12153753891817,113.220257334348
4927,9696,14532,"Neotoma","Lake MB01","MB01",69.807,-112.077,297,"not known","lake","core","15","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.432605903138588,318.071384890142,-15.3561149162854,-32.8318163574507,5.12153753891817,113.220257334348
4928,9697,16077,"Neotoma","Lake Medad","JHM029",43.37,-79.88,102,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.0001210917601,3423.47701128364,8.29653341990339,-5.50581732059755,21.4374590935483,877.566501536308
4929,9698,8919,"EMPDv2","Lake Mergen","Ryabogina_a227",56.072242,69.326539,76,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.791131088646966,2334.00554551164,0.735390599838704,-18.4679998744288,19.1493198357181,440.09816292092
4930,9699,20294,"SMPDSv1","Lake Mikolajki","EPDcoretop_E957",53.768056,21.418056,116,"6","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.910333756569757,2880.06112257798,7.17182720982946,-4.1014322022075,17.1798796863669,641.447212185505
4931,9700,13808,"Neotoma","Lake Mina","LAKEMINA",45.89346,-95.4756099999999,415,"not known","lake","core","50","St. Jacques, J.-M., B.F. Cumming, and J.P. Smol. 2008. A 900-year pollen-inferred temperature and effective moisture record from varved Lake Mina, west-central Minnesota, USA. Quaternary Science Reviews 27(7-8):781-796. St. Jacques, J.-M., B.F. Cumming, and J.P. Smol. 2008. A pre-European settlement pollen–climate calibration set for Minnesota, USA: developing tools for palaeoclimatic rconstructions. Journal of Biogeography 35(2):306-324.","10.1016/j.quascirev.2008.01.005;
10.1111/j.1365-2699.2007.01785.x",9,"cool mixed forest",0.767981516344254,3113.35391012583,5.2182342508402,-13.8194384290546,21.2015423303568,640.235118844863
4932,9701,12941,"Neotoma","Lake Minnie","MINNIEN",47.244755,-95.0077149999999,430,"not known","lake","core","-2","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4932,9701,12942,"Neotoma","Lake Minnie","MINNIEN",47.244755,-95.0077149999999,430,"not known","lake","core","20","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4932,9701,12943,"Neotoma","Lake Minnie","MINNIEN",47.244755,-95.0077149999999,430,"not known","lake","core","46","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4932,9702,12944,"Neotoma","Lake Minnie","MINNIEO",47.244755,-95.0077149999999,430,"not known","lake","core","1","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4932,9702,12945,"Neotoma","Lake Minnie","MINNIEO",47.244755,-95.0077149999999,430,"not known","lake","core","25","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4932,9702,12946,"Neotoma","Lake Minnie","MINNIEO",47.244755,-95.0077149999999,430,"not known","lake","core","38","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.","10.1177/095968369200200105",9,"cool mixed forest",0.808868194915932,2963.61126203696,4.4944226417882,-14.8009522203431,20.4967751408427,650.296075814888
4933,9703,17602,"Phelps et al., 2020","Lake Mitsinjo","MITSINLA_0",-16.033333,45.85,9,"not known","lake","core","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.872667878244871,9596.3181674124,26.2912826504449,23.9707394696729,27.7291128537077,1501.32064105095
4933,9704,17603,"Phelps et al., 2020","Lake Mitsinjo","MITSINLA_10",-16.033333,45.85,9,"not known","lake","core","29","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.872667878244871,9596.3181674124,26.2912826504449,23.9707394696729,27.7291128537077,1501.32064105095
4934,9705,908,"Australian pollen","Lake Modewarre","Lake Modewarre",-38.24,144.11,111,"5.4","lake","core","-59","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.719129263988772,5010.02674164659,13.7261006620454,8.65685445714585,19.0881289434622,749.438709915041
4934,9705,909,"Australian pollen","Lake Modewarre","Lake Modewarre",-38.24,144.11,111,"5.4","lake","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.719129263988772,5010.02674164659,13.7261006620454,8.65685445714585,19.0881289434622,749.438709915041
4935,9706,910,"Australian pollen","Lake Mountain","Lake Mountain",-37.469,145.875,1440,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.42640761262712,2334.04110523363,6.17129758760342,-1.66156742017057,14.5531570541415,1669.78615959945
4936,9707,20295,"SMPDSv1","Lake Muratovo, Pirin Mts.","Tonkov_o1",41.7456,23.4061805555555,2230,"not known","lake","lacustrine core top","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09606328276291,1491.83546106476,1.03361573206044,-10.9162450813172,11.1465294303714,845.68318245362
4937,9708,20296,"SMPDSv1","Lake Nero","EPDcoretop_E479",57.183333,39.451389,95,"51.7","lacustrine, drained lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.902637816034827,2536.28331799852,4.00235168856887,-11.7139005108826,18.2502300926123,577.4834105572
4938,9709,15848,"Neotoma","Lake Nevin","GMP19",37.92,-87.67,137,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.061682465881,4959.83977999768,13.5256135768069,-0.722690032757039,25.7172490134259,1154.20862611396
4939,9710,17604,"Phelps et al., 2020","Lake Ngami","NGAMI_20",-20.48028333,22.76083333,925,"not known","lake","not known","44","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.253981189605489,8326.52038052533,22.812384604179,16.1846911200874,26.9179117685276,440.344115693086
4940,9711,17605,"Phelps et al., 2020","Lake Nokouâ€_ (So-Ava)","SOA-99_1",6.495,2.388056,2,"not known","lake","not known","17","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.05773444876654,9808.59650983035,26.8728671502201,25.1171077645879,28.5180315159836,1385.3307634138
4941,9712,11554,"Neotoma","Lake Norden","SDHMNO",44.596305,-97.19922,504,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.621351688071176,3403.935036576,6.75183233422275,-11.4308645714328,22.7702964482151,559.639191249528
4942,9713,14139,"Neotoma","Lake O' Pines","OPINES",46.140435,-89.2553,514,"not known","lake","core","-39","Ewing, H.A. 2000. Ecosystem development and response to climatic change: a comparative study of forest-lake ecosystems on different substrates. Doctoral dissertation. University of Minnesota, St Paul, Minnesota, USA.; Ewing, H.A. 2002. The influence of substrate on vegetation history and ecosystem development. Ecology 83:2766-2781.",,9,"cool mixed forest",1.037899671581,2615.33081483962,3.86379949967551,-12.8324776387862,18.7590604682209,794.332437604646
4943,9714,11500,"Neotoma","Lake Oakwood","SDBROA",44.439995,-96.96795,496,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.628734816571643,3417.9844596193,6.81921948220518,-11.3483309073464,22.8018169065753,567.803463035778
4944,9715,6992,"EMPDv2","Lake of Annecy","EPDcoretop_E1459",45.86,6.17,447,"27.59","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.08208513728032,3633.35394669014,9.95439437449352,1.23735968401921,18.9638967354538,959.221458310124
4945,9716,15952,"Neotoma","Lake of the Clouds","JAMMBD1",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9717,15956,"Neotoma","Lake of the Clouds","JAMMBD2",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9718,12857,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","-20","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12858,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","-10","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12859,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","0","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12860,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","10","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12861,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","20","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12862,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","30","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12863,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","40","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9718,12864,"Neotoma","Lake of the Clouds","LKCLDSSW",48.142555,-91.11254,462,"not known","lake","core","50","Stuiver, M. 1971. Evidence for the variation of atmospheric C14 content in the late Quaternary. Pages 57-70 in K.K. Turekian, editor. The late Cenozoic glacial ages. Yale University Press, New Haven, Connecticut, USA.; Craig, A.J. 1972. Pollen influx to laminated sediments: a pollen diagram from northeastern Minnesota. Ecology 53(1):46-57. Gajewski, K. 1987. Climatic impacts on the vegetation of eastern North America during the past 2000 years. Vegetatio 68(3):179-190. Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quaternary Research 3(3):383-396. Amundson, D.C. 1974. The early postglacial transition from spruce forest to pine forest in Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Craig, A.J. 1969. Absolute pollen analysis of laminated sediments from northeastern Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.","10.2307/1935709;
10.1007/BF00114719;
10.1016/0033-5894(88)90034-8;
10.1016/0033-5894(75)90027-7;
10.1016/0033-5894(73)900",9,"cool mixed forest",1.02707055302308,2311.27454003352,1.93012275784522,-16.5698170394575,17.5055262957557,743.236396862561
4945,9719,15957,"Neotoma","Lake of the Clouds","RWS001",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9720,15950,"Neotoma","Lake of the Clouds","RWS003",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9721,15955,"Neotoma","Lake of the Clouds","RWS004",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9722,15959,"Neotoma","Lake of the Clouds","RWS012",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9723,15954,"Neotoma","Lake of the Clouds","RWS015",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9724,15953,"Neotoma","Lake of the Clouds","RWS017",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9725,15951,"Neotoma","Lake of the Clouds","RWS019",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9726,15960,"Neotoma","Lake of the Clouds","RWS020",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4945,9727,15958,"Neotoma","Lake of the Clouds","RWS023",44.266667,-71.316667,1550,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.54553023803415,1061.36666835887,-4.32932972692157,-20.5576564571065,9.90891342595072,1489.5631182792
4946,9728,15847,"Neotoma","Lake of the Ozarks","GMP18",38.16675267,-92.96597494,201,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.912258283249901,4702.41600542266,12.5280932288528,-2.81381841150821,25.8826891558214,981.587951976641
4947,9729,6075,"EMBSeCBIO","Lake Ohrid","Lake Ohrid core_17",40.938,20.759,693,"358","lake","core","41","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.747979451907193,4097.06505051779,11.2248357548432,1.32347926404781,20.7564493876768,845.915319072647
4947,9730,6074,"EMBSeCBIO","Lake Ohrid","Lake Ohrid core_2",40.938,20.759,693,"358","lake","core","-4","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.747979451907193,4097.06505051779,11.2248357548432,1.32347926404781,20.7564493876768,845.915319072647
4948,9731,7287,"EMPDv2","Lake Oltina","Feurdean_a4",44.1545,27.637,7,"30","fluvial","sediment sample","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.507244240359207,4249.68191600473,11.561355012848,-0.923164855054605,22.2995072216141,492.647978402727
4949,9732,13013,"Neotoma","Lake Onamia","ONAMIA",46.068333,-93.68,380,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.862179412768417,3065.88133158048,5.24508508285087,-13.3702894827659,20.876587422036,702.839075243699
4949,9732,13014,"Neotoma","Lake Onamia","ONAMIA",46.068333,-93.68,380,"not known","lake","core","15","Unpublished data",,9,"cool mixed forest",0.862179412768417,3065.88133158048,5.24508508285087,-13.3702894827659,20.876587422036,702.839075243699
4949,9732,13015,"Neotoma","Lake Onamia","ONAMIA",46.068333,-93.68,380,"not known","lake","core","44","Unpublished data",,9,"cool mixed forest",0.862179412768417,3065.88133158048,5.24508508285087,-13.3702894827659,20.876587422036,702.839075243699
4950,9733,13024,"Neotoma","Lake Ontario, Mississauga Basin","ONTMIS1",43.556667,-78.15,73,"not known","lake","core","6","McAndrews, J.H. 1972. Pollen analysis of the sediments of Lake Ontario. 24th International Geological Congress, Section 8:223-227.; McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,,"not applicable",0.999212183584407,3365.72738893753,7.8668290794356,-6.54432401224115,21.329101907513,857.466759873774
4950,9733,13025,"Neotoma","Lake Ontario, Mississauga Basin","ONTMIS1",43.556667,-78.15,73,"not known","lake","core","12","McAndrews, J.H. 1972. Pollen analysis of the sediments of Lake Ontario. 24th International Geological Congress, Section 8:223-227.; McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,,"not applicable",0.999212183584407,3365.72738893753,7.8668290794356,-6.54432401224115,21.329101907513,857.466759873774
4950,9733,13026,"Neotoma","Lake Ontario, Mississauga Basin","ONTMIS1",43.556667,-78.15,73,"not known","lake","core","24","McAndrews, J.H. 1972. Pollen analysis of the sediments of Lake Ontario. 24th International Geological Congress, Section 8:223-227.; McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,,"not applicable",0.999212183584407,3365.72738893753,7.8668290794356,-6.54432401224115,21.329101907513,857.466759873774
4950,9733,13027,"Neotoma","Lake Ontario, Mississauga Basin","ONTMIS1",43.556667,-78.15,73,"not known","lake","core","36","McAndrews, J.H. 1972. Pollen analysis of the sediments of Lake Ontario. 24th International Geological Congress, Section 8:223-227.; McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,,"not applicable",0.999212183584407,3365.72738893753,7.8668290794356,-6.54432401224115,21.329101907513,857.466759873774
4950,9733,13028,"Neotoma","Lake Ontario, Mississauga Basin","ONTMIS1",43.556667,-78.15,73,"not known","lake","core","48","McAndrews, J.H. 1972. Pollen analysis of the sediments of Lake Ontario. 24th International Geological Congress, Section 8:223-227.; McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,,"not applicable",0.999212183584407,3365.72738893753,7.8668290794356,-6.54432401224115,21.329101907513,857.466759873774
4951,9734,13021,"Neotoma","Lake Ontario, Rochester Basin","ONT-ROCH",43.51,-76.9,73,"not known","lake","core","6","Unpublished data",,,"not applicable",1.06485119769976,3348.90182145759,7.7117449951905,-6.98612268326947,21.2193985920959,901.859143351551
4951,9734,13022,"Neotoma","Lake Ontario, Rochester Basin","ONT-ROCH",43.51,-76.9,73,"not known","lake","core","36","Unpublished data",,,"not applicable",1.06485119769976,3348.90182145759,7.7117449951905,-6.98612268326947,21.2193985920959,901.859143351551
4951,9734,13023,"Neotoma","Lake Ontario, Rochester Basin","ONT-ROCH",43.51,-76.9,73,"not known","lake","core","48","Unpublished data",,,"not applicable",1.06485119769976,3348.90182145759,7.7117449951905,-6.98612268326947,21.2193985920959,901.859143351551
4952,9735,5966,"EMBSeCBIO","Lake Orestias","Orestias G25",40.5117,21.2578,630,"32.4","lake","core","32","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.606939842647448,4344.49314023244,11.9027209321437,1.92111323691331,21.6397329383638,713.158423290633
4953,9736,17606,"Phelps et al., 2020","Lake Ossa 2","OW4_1.1",3.801389,10.75,223,"39","lake","core top","19","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",2,"tropical semi-evergreen broadleaf forest",1.76411678055933,9330.54915460573,25.5631483687828,24.2175364446278,26.8495949383852,2249.03426633328
4954,9737,17607,"Phelps et al., 2020","Lake Ossa I","OSSA1_1.5",3.752222,10.068611,35,"39","lake","core","16","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",1,"tropical evergreen broadleaf forest",1.92526102192531,9543.81933217126,26.1474502251267,24.736336830178,27.4415461412828,2421.89984201599
4954,9738,17608,"Phelps et al., 2020","Lake Ossa I","OSSA1_2.5",3.752222,10.068611,35,"39","lake","core","26","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",1,"tropical evergreen broadleaf forest",1.92526102192531,9543.81933217126,26.1474502251267,24.736336830178,27.4415461412828,2421.89984201599
4954,9739,17609,"Phelps et al., 2020","Lake Ossa I","OSSA1_3.5",3.752222,10.068611,35,"39","lake","core","37","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",1,"tropical evergreen broadleaf forest",1.92526102192531,9543.81933217126,26.1474502251267,24.736336830178,27.4415461412828,2421.89984201599
4954,9740,17610,"Phelps et al., 2020","Lake Ossa I","OSSA1_4.5",3.752222,10.068611,35,"39","lake","core","47","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",1,"tropical evergreen broadleaf forest",1.92526102192531,9543.81933217126,26.1474502251267,24.736336830178,27.4415461412828,2421.89984201599
4955,9741,15733,"Neotoma","Lake Ozonia","DRW031",44.59149,-74.6087149999999,421,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.31110177083396,2762.48110461636,5.1699613955306,-10.072739422257,18.8204718108041,1018.84070062151
4956,9742,13087,"Neotoma","Lake Patzcuaro","PATZCUAR",19.583333,-101.583333,2044,"not known","lake","core","23","Deevey, E.S., Jr. 1944. Pollen analysis and Mexican archeology: an attempt to apply the method. American Antiquity 10(135-149).; Hutchinson, G.E., R. Patrick, and E.S. Deevey, Jr. 1956. Sediments of Lake Patzcuaro, Michoacan, Mexico. Bulletin of the Geological Society of America 67:1491-1504.; Watts, W.A., and J.P. Bradbury. 1982. Paleoecological studies at Lake Patzcuaro on the west-central Mexican Plateau and at Chalco in the Basin of Mexico. Quaternary Research 17:56-70.; Saporito, M.S. 1975. Chemical and mineral studies of a core from Lake Patzcuaro, Mexico. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,4,"warm-temperate evergreen and mixed forest",0.574287128877646,6372.14570325441,17.4579334335737,13.8040991455986,20.6899521079246,879.956921421004
4957,9743,14719,"Neotoma","Lake Petén-Itzá","PETITZ6",16.96397,-89.84187,110,"not known","lake","core","40","Correa-Metrio, A., M.B. Bush, D.A. Hodell, M. Brenner, J. Escobar, and T. Guilderson. 2012. The influence of abrupt climate change on the ice-age vegetation of the Central American lowlands. Journal of Biogeography 39(3):497-509. Correa-Metrio, A., M.B. Bush, K.R. Cabrera, S. Sully, M. Brenner, D.A. Hodell, J. Escobar, and T. Guilderson. 2012. Rapid climate change and no-analog vegetation in lowland Central America during the last 86,000 years. Quaternary Science Reviews 38:63-75.","10.1111/j.1365-2699.2011.02618.x;
10.1016/j.quascirev.2012.01.025",4,"warm-temperate evergreen and mixed forest",1.27839596916856,9441.14793046862,25.8661587136127,22.8149804642895,28.075985483406,2070.77647499383
4958,9744,7209,"EMPDv2","Lake Plaani Külajärv","EPDcoretop_E2562",57.68,27.08,244,"0.2","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.995102779515122,2527.66965477828,5.21383537295291,-7.18751855643235,16.3627468425851,629.377378027666
4959,9745,14498,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-41","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14499,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-36","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14500,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-31","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14501,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-25","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14502,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-19","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14503,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-13","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14504,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","-7","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14505,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","0","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14506,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","19","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4959,9745,14507,"Neotoma","Lake Pleasant","PLEASANT",42.5604,-72.513,80,"not known","lake","core","38","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.28100294962552,3741.1197001327,9.64066178873534,-3.7217365412246,22.1700179527037,1126.6501118056
4960,9746,11557,"Neotoma","Lake Poinsett","SDHMPO",44.56839,-97.086055,503,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.62433004878144,3406.14191108358,6.76303833904984,-11.416447100183,22.7712063216892,562.499780741284
4961,9747,15846,"Neotoma","Lake Pomme de Terre","GMP17",37.88,-93.33,320,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.937047634244724,4954.65604764347,13.5155096281818,-0.676271633996626,26.0342793610202,1056.15492609967
4962,9748,911,"Australian pollen","Lake Purrembete","Lake Purrembete",-38.2667,143.2167,140,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.721989945264733,4890.7046046743,13.3991906977378,8.62501264113316,18.4450494758417,744.939301528427
4963,9749,912,"Australian pollen","Lake Purrumbete","Lake Purrumbete",-38.28,143.23,149,"5.52","lake","core","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.716712768345955,4880.92897858231,13.3724081604995,8.55913314949163,18.4570901664108,740.702420611252
4963,9749,913,"Australian pollen","Lake Purrumbete","Lake Purrumbete",-38.28,143.23,149,"5.52","lake","core","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.716712768345955,4880.92897858231,13.3724081604995,8.55913314949163,18.4570901664108,740.702420611252
4963,9749,914,"Australian pollen","Lake Purrumbete","Lake Purrumbete",-38.28,143.23,149,"5.52","lake","core","29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.716712768345955,4880.92897858231,13.3724081604995,8.55913314949163,18.4570901664108,740.702420611252
4964,9750,12832,"Neotoma","Lake PWWL","LAKEPWWL",73.591389,-98.538889,110,"not known","lake","core","14","Gajewski, K., and M. Frappier. 2001. Postglacial environmental history from Prince of Wales Island, Nunavut, Canada. Boreas 30:285-289.",,28,"tundra",0.539616007096056,215.002433840916,-17.2014454112957,-34.7350967961053,4.18311848519933,119.792915029383
4965,9751,12833,"Neotoma","Lake QC","LAKEQC",46.828333,-80.698333,333,"not known","lake","core","0","McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.12429691843508,2530.54196234819,3.14367826346384,-14.4210036241117,18.5718551783413,853.126742735158
4966,9752,13580,"Neotoma","Lake Rachel","MNDLLR",45.80155,-95.55285,415,"not known","lake","core","-30","Unpublished data",,22,"steppe",0.76308056806253,3123.40698100254,5.26727396798182,-13.7486661673381,21.2519133804368,637.94028953092
4966,9752,13581,"Neotoma","Lake Rachel","MNDLLR",45.80155,-95.55285,415,"not known","lake","core","-11","Unpublished data",,22,"steppe",0.76308056806253,3123.40698100254,5.26727396798182,-13.7486661673381,21.2519133804368,637.94028953092
4966,9752,13582,"Neotoma","Lake Rachel","MNDLLR",45.80155,-95.55285,415,"not known","lake","core","7","Unpublished data",,22,"steppe",0.76308056806253,3123.40698100254,5.26727396798182,-13.7486661673381,21.2519133804368,637.94028953092
4966,9752,13583,"Neotoma","Lake Rachel","MNDLLR",45.80155,-95.55285,415,"not known","lake","core","25","Unpublished data",,22,"steppe",0.76308056806253,3123.40698100254,5.26727396798182,-13.7486661673381,21.2519133804368,637.94028953092
4966,9752,13584,"Neotoma","Lake Rachel","MNDLLR",45.80155,-95.55285,415,"not known","lake","core","43","Unpublished data",,22,"steppe",0.76308056806253,3123.40698100254,5.26727396798182,-13.7486661673381,21.2519133804368,637.94028953092
4967,9753,20297,"SMPDSv1","Lake Racze","EPDcoretop_E730",53.916667,14.666667,-9,"0.05","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.851008274005149,3103.49705339388,8.34622833200117,-1.14758622597966,17.5678471141935,595.681364063909
4968,9754,915,"Australian pollen","Lake Ranfurlie E.","Lake Ranfurlie E.",-34.1833,142.1167,40,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.197958234066671,6377.34806384309,17.4721864762824,10.185893148681,24.7956661904251,280.344489786439
4969,9755,24283,"Neotoma","Lake Refugio 1","REFUGIO1",-13.091745,-71.708055,3401,"not known","lake","core","-56","Urrego, D.H., B.A. Niccum, C.F. La Drew, M.R. Silman, and M.B. Bush. 2011. Fire and drought as drivers of early Holocene tree line changes in the Peruvian Andes. Journal of Quaternary Science 26(1):28-36.","10.1002/jqs.1422",4,"warm-temperate evergreen and mixed forest",0.721611664379309,3981.56514884681,10.9083976680735,8.86455236572854,12.2295422547175,1055.43237962211
4970,9756,24284,"Neotoma","Lake Refugio 2","REFUGIO2",-13.09478,-71.7052449999999,3406,"not known","lake","core","-56","Urrego, D.H., B.A. Niccum, C.F. La Drew, M.R. Silman, and M.B. Bush. 2011. Fire and drought as drivers of early Holocene tree line changes in the Peruvian Andes. Journal of Quaternary Science 26(1):28-36.","10.1002/jqs.1422",4,"warm-temperate evergreen and mixed forest",0.71965000755449,3973.09046371588,10.8851793526463,8.84061382754433,12.2067258834801,1052.4759891926
4971,9757,24285,"Neotoma","Lake Refugio 3","REFUGIO3",-13.099145,-71.7031399999999,3404,"not known","lake","core","-56","Urrego, D.H., B.A. Niccum, C.F. La Drew, M.R. Silman, and M.B. Bush. 2011. Fire and drought as drivers of early Holocene tree line changes in the Peruvian Andes. Journal of Quaternary Science 26(1):28-36.","10.1002/jqs.1422",4,"warm-temperate evergreen and mixed forest",0.721242281484889,3975.98720451917,10.8931156288197,8.84849121018296,12.2143399626255,1054.79876844319
4972,9758,20298,"SMPDSv1","Lake Ribno Banderishko, Pirin Mts","Tonkov_n1",41.738375,23.4152527777777,2190,"not known","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07805019614817,1539.66121988212,1.27813273029892,-10.6439148645065,11.3866896939522,839.312403681917
4973,9759,24457,"Southern Hemisphere pollen","Lake Rotoiti","Lake Rotoiti_mod",-41.7989,172.83257,279,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",22,"steppe",1.85034505906819,3986.61080128878,10.9222213733939,5.6953420405358,15.7944565166343,1669.91377951235
4974,9760,916,"Australian pollen","Lake Rotomanuka","Lake Rotomanuka core top",-37.56,175.18,33,"0.173","lake","core top","31","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.61878013122817,5282.07527836978,14.4714391188213,9.97896498089491,18.973866253195,1616.72672635757
4975,9761,16953,"Neotoma","Lake RS29","RS29SS",73.133333,-95.283333,180,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",31,"tundra",0.633108825078988,225.870170453131,-16.9991677233685,-34.4063388993312,4.30970408800514,142.679501044419
4976,9762,16959,"Neotoma","Lake RS36","RS36SS",72.583333,-95.066667,160,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.629301591548855,240.999684894942,-16.9320525802479,-34.5497407421895,4.50380182663177,143.608420578334
4977,9763,7210,"EMPDv2","Lake Ruila","EPDcoretop_E2563",59.18,24.43,43,"0.5","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06656949047935,2431.4651572845,5.16228592787205,-6.17306065403387,16.5383227666651,633.680523350372
4978,9764,13693,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","-18","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13694,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","-9","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13695,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","0","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13696,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","9","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13697,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","17","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13698,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","26","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13699,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","34","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4978,9764,13700,"Neotoma","Lake Sallie","SALLIE",46.77186,-95.896225,405,"not known","lake","core","43","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.747745625419616,3015.08421990274,4.64765841768925,-14.7249360825866,20.7637483849144,610.566526131755
4979,9765,20308,"SMPDSv1","Lake Sapanca","Leroy_d1 (Esme-Ahmediye)",40.7644666666666,30.2408166666666,177,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.587710055410894,4967.19625952358,13.6087568754071,4.40485488186458,22.3346859683195,677.64679808911
4979,9766,20309,"SMPDSv1","Lake Sapanca","Leroy_d10 (Carpinus)",40.6473333333333,30.2053833333333,1039,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.494398778277725,3753.25336344306,10.2691914335766,-0.112022637583545,19.7091728297516,592.408596784869
4979,9767,20310,"SMPDSv1","Lake Sapanca","Leroy_d11 (Picea )",40.6127333333333,30.1918333333333,1097,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.487941034930969,3683.46765101868,10.0579231339644,-0.395204445463306,19.5471855978099,586.712553735277
4979,9768,20311,"SMPDSv1","Lake Sapanca","Leroy_d12 (Abies 1120)",40.6221666666666,30.1911333333333,1120,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.485746835871428,3654.47666465286,9.96820514285482,-0.516121986564731,19.4759506158538,584.51441650394
4979,9769,20312,"SMPDSv1","Lake Sapanca","Leroy_d13 (Keltepe 1460)",40.6478333333333,30.09955,1460,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.455093179409413,3271.83475630172,8.68456489180272,-2.2197650749213,18.4496267864426,555.487655685351
4979,9770,20313,"SMPDSv1","Lake Sapanca","Leroy_d14 (Bogaz/Sakarya)",40.6353,30.3377833333333,80,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.592193264481428,5097.34084114846,13.9653173730095,4.8510069497208,22.5827565452479,678.101845973945
4979,9771,20322,"SMPDSv1","Lake Sapanca","Leroy_d15 (Kum Tepe)",40.7608833333333,30.2372833333333,100,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.595495126889525,5086.49818105542,13.9356114549464,4.84860521317921,22.6033061517309,685.229652036116
4979,9772,20323,"SMPDSv1","Lake Sapanca","Leroy_d16 (Kuru river_2)",40.7355,30.2187666666666,44,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.604917289376743,5138.81246758497,14.0789382673561,5.03904657386179,22.6844508552391,692.103338793207
4979,9773,20324,"SMPDSv1","Lake Sapanca","Leroy_d17 (ChickenFarmMud)",40.7198333333333,30.171,36,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607819717101859,5150.16501210842,14.1100411290642,5.08796105393585,22.7071451800201,695.346172957617
4979,9774,20325,"SMPDSv1","Lake Sapanca","Leroy_d18 (Balkaya)",40.6563833333333,30.2388666666666,250,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.580889280621737,4847.98430731134,13.2821487871544,3.96069058583488,22.0566746908006,671.491542178544
4979,9775,20326,"SMPDSv1","Lake Sapanca","Leroy_d19 (Guldibi)",40.6811,30.2516666666666,86,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.593767670644372,5090.23774723324,13.9458568417349,4.83474810448012,22.5685901725834,679.834025449811
4979,9776,20314,"SMPDSv1","Lake Sapanca","Leroy_d2 (Kuru river_1)",40.7355,30.2187666666666,44,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.604917289376743,5138.81246758497,14.0789382673561,5.03904657386179,22.6844508552391,692.103338793207
4979,9777,20327,"SMPDSv1","Lake Sapanca","Leroy_d20 (Mahmudiye delta)",40.7021833333333,30.2487166666666,41,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.604496193695681,5141.47529202474,14.0862336767801,5.046641639733,22.6867958520825,691.623943989316
4979,9778,20328,"SMPDSv1","Lake Sapanca","Leroy_d21 (Kurtkoy delta)",40.7051666666666,30.1987833333333,32,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607396670473593,5154.90126144226,14.1230171546363,5.1026240911684,22.7158068082512,694.743145821648
4979,9779,20329,"SMPDSv1","Lake Sapanca","Leroy_d22 (Karacay river)",40.7120333333333,30.17495,67,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.604153303748732,5106.43710644337,13.9902386477901,4.92594483071763,22.6124431659591,692.195520387217
4979,9780,20330,"SMPDSv1","Lake Sapanca","Leroy_d23 (Musmula river)",40.7183333333333,30.1418666666666,30,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.609621676678929,5158.89751871717,14.1339658047046,5.12405839020276,22.7257813129324,697.28213274163
4979,9781,20331,"SMPDSv1","Lake Sapanca","Leroy_d24 (regulator)",40.7294666666666,30.3384166666666,28,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.597084396444619,5177.02798054353,14.183638302859,5.1449813198863,22.7592831721046,681.730667672728
4979,9782,20332,"SMPDSv1","Lake Sapanca","Leroy_d25 (tennis club)",40.72,30.3272666666666,31,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.59722975193135,5172.12049650003,14.170193141096,5.12863463819855,22.7474448261656,682.00423349370806
4979,9783,20333,"SMPDSv1","Lake Sapanca","Leroy_d26 (Atmaca street)",40.7117666666666,30.3484,30,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.596780595346042,5173.35973727224,14.1735883212938,5.13085172293364,22.7499591290758,681.513355290474
4979,9784,20334,"SMPDSv1","Lake Sapanca","Leroy_d27 (E. of Nehirkent)",40.693600000000004,30.3793166666666,30,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.596048603765909,5172.75985019719,14.1719447950608,5.12541495744149,22.7478841232026,680.773706099428
4979,9785,20335,"SMPDSv1","Lake Sapanca","Leroy_d28 (Adliye bridge)",40.6711333333333,30.3793333333333,34,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.595889143964797,5165.85514984124,14.1530278077842,5.10069077342027,22.7308784037576,680.784813943734
4979,9786,20336,"SMPDSv1","Lake Sapanca","Leroy_d29 (Dogancay)",40.6416666666666,30.3254833333333,55,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","sediment sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.595478403132473,5133.65959919535,14.0648208197133,4.98870633256335,22.6582808672108,681.016722985728
4979,9787,20315,"SMPDSv1","Lake Sapanca","Leroy_d3 (Chicken farm)",40.7198333333333,30.171,36,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607819717101859,5150.16501210842,14.1100411290642,5.08796105393585,22.7071451800201,695.346172957617
4979,9788,20299,"SMPDSv1","Lake Sapanca","Leroy_d30 (K1.2)",40.7319444444444,30.2527777777777,29.5,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.59964954004428,5174.3290618921,14.1762440051838,5.14649352835015,22.7504233508816,684.58647600329
4979,9789,20300,"SMPDSv1","Lake Sapanca","Leroy_d31 (K2.1)",40.7277777777777,30.2527777777777,31.5,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.599475383754273,5171.23248693573,14.167760238180101,5.13514310349717,22.7434409693192,684.464164179645
4979,9790,20301,"SMPDSv1","Lake Sapanca","Leroy_d32 (K6.1)",40.7180555555555,30.2583333333333,52,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.597068281353268,5141.06981007278,14.0851227673227,5.022120804682,22.6792745111806,682.401226586599
4979,9791,20302,"SMPDSv1","Lake Sapanca","Leroy_d33 (K7.1)",40.7180555555555,30.2680555555555,54,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.596523727495786,5138.21793951015,14.0773094233155,5.01008249257347,22.6737133973975,681.85319303268
4979,9792,20303,"SMPDSv1","Lake Sapanca","Leroy_d34 (KA.2)",40.7148333333333,30.1741944444444,15.2,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.610170749907999,5179.09441660401,14.1892997715178,5.19485592402764,22.7687828267697,697.367588001659
4979,9793,20304,"SMPDSv1","Lake Sapanca","Leroy_d35 (KB.2)",40.7154722222222,30.1655555555555,11,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.610976054706155,5185.10557053341,14.2057686863929,5.21814930723369,22.7817971935752,698.164673923296
4979,9794,20305,"SMPDSv1","Lake Sapanca","Leroy_d36 (KC.2)",40.7151944444444,30.1614722222222,4.5,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.611888935989068,5194.24644224478,14.2308121705337,5.25249100255247,22.8014336932248,699.002418284762
4979,9795,20306,"SMPDSv1","Lake Sapanca","Leroy_d37 (KD.1)",40.7147222222222,30.1819166666666,21.7,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.60912564153109106,5169.88668783745,14.1640731173629,5.15980799833876,22.7489769420586,696.371131967148
4979,9796,20307,"SMPDSv1","Lake Sapanca","Leroy_d38 (KE.2)",40.7265277777777,30.2033333333333,25,"medium (1.1-50 km2)","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.607802268003324,5165.39664181814,14.1517716214196,5.1399232981953,22.7405606024483,694.862653158968
4979,9797,20316,"SMPDSv1","Lake Sapanca","Leroy_d4 (Quercus)",40.77325,30.1755166666666,385,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.56988578850292,4646.36701350518,12.7297726397402,3.22449108748387,21.6073570903465,660.753142222153
4979,9798,20317,"SMPDSv1","Lake Sapanca","Leroy_d5 (Findik upstream)",40.7426166666666,30.1711166666666,187,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.590337501390582,4938.94305653102,13.531350839811,4.30549293827732,22.2546657197743,679.976719002199
4979,9799,20318,"SMPDSv1","Lake Sapanca","Leroy_d6 (Dagtarla Hill)",40.6406833333333,30.2305,354,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.569220471189365,4702.91977636795,12.8847117160766,3.4240483110645,21.7466884129151,661.365141961743
4979,9800,20319,"SMPDSv1","Lake Sapanca","Leroy_d7 (Pinus)",40.6628833333333,30.2373333333333,425,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.560894209947709,4603.45003350264,12.61219187261,3.05325144091448,21.5356560770615,653.624398519397
4979,9801,20320,"SMPDSv1","Lake Sapanca","Leroy_d8 (Keltepe Rd 600)",40.67695,30.1430666666666,600,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.545057239592381,4362.30965095455,11.9515332902865,2.17842099963358,21.0123562826827,640.398070762091
4979,9802,20321,"SMPDSv1","Lake Sapanca","Leroy_d9 (Keltepe Rd 800)",40.6602166666666,30.14595,800,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.522818824732064,4083.9963919593,11.1890312108474,1.14779110464768,20.416790161425,619.978167901404
4979,9803,5967,"EMBSeCBIO","Lake Sapanca","Sapanca long core SA03R6",40.718056,30.258333,30,"49","lake","core","18","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.599594229281279,5172.99404852151,14.1725864343055,5.14147303848636,22.7462414223069,684.590216772958
4980,9804,20337,"SMPDSv1","Lake Sedmo Rilsko, Rila Mts","Tonkov_j1",42.210756,23.325556,2095,"not known","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.995742291451257,1785.10132268717,2.82390590379559,-8.1495930232098,12.5154933931454,838.746572652697
4981,9805,17611,"Phelps et al., 2020","Lake Sélé","LAKESELE_1",7.15,2.433333,15,"not known","lake","not known","17","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.979206070563347,9912.64583833314,27.1579338036524,25.3216817995614,28.8903698694311,1287.03877653843
4982,9806,917,"Australian pollen","Lake Selina","Lake Selina ss",-41.9,145.63,540,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.52745729183877,3303.14648593409,9.04971639981941,4.75099572877787,13.8904286431148,1407.61148783307
4982,9807,918,"Australian pollen","Lake Selina","Lake Selina_SEL999",-41.8833,145.6167,540,"small (0.01-1 km2)","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.52809920745309,3303.5454780609,9.05080952893398,4.75390959539026,13.8914142067531,1408.63290881905
4983,9808,20338,"SMPDSv1","Lake Shabla Eseretz","Shabla-Ezeretz lake",43.5672222222222,28.5675,14,"100","lake","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.537981125000247,4285.92561494086,11.7249031095002,-0.133257257482477,22.183193301191,517.983104742101
4984,9809,18334,"SMPDSv1","Lake Shabla Eseretz (Bulga31)","Barboni_a730",43.55,28.53333333,0,"medium (1.1-50 km2)","coastal, lacustrine","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535376819011024,4288.92991087168,11.7299187382865,-0.184185099107701,22.2109544203323,515.960956929595
4985,9810,20339,"SMPDSv1","Lake Shabla Ezeretz","Barboni_a943",43.585833,28.564444,1,"100","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.535762213721152,4285.7501464026,11.7204885903557,-0.195574487225713,22.2068117733778,515.875942182633
4986,9811,14074,"Neotoma","Lake Shelby","SHELBYAL",30.2600649999999,-87.66485,0,"not known","lake","core","4","Liu, K., and M.L. Fearn. 1993. Lake-sediment record of late Holocene hurricane activities from coastal Alabama. Geology 21(9):793-796. Liu, K., and M.L. Fearn. 1995. Maize pollen of 3500 B.P. from southern Alabama. American Antiquity 60(1):109-117.","10.1130/0091-7613(1993)021<0793:LSROLH>2.3.CO;2",4,"warm-temperate evergreen and mixed forest",1.13019872577071,7334.32572395954,20.0940430793412,10.7366037711874,27.7841826467838,1505.81317214385
4987,9812,8915,"EMPDv2","Lake Shuryshkarskiy Sor","Ryabogina_a194",65.887996,65.257988,74,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21250482435604,1253.66473313996,-5.4153341509357,-23.7332826194173,14.4833451477147,466.411708521672
4988,9813,10645,"Neotoma","Lake Sidi Ali","SAli core",33.068056,-4.998333,2080,"not recorded","lake","core top","-52","Campbell, J.F.E., Fletcher, W.J., Joannin, S., Hughes, P.D.M., Rhanem, M. and Zielhofer, C., 2017. Environmental drivers of Holocene forest development in the Middle Atlas, Morocco. Frontiers in Ecology and Evolution, 5, p.113.; 
Fletcher, W.J., C. Zielhofer, S. Mischke, C.L. Bryant, X. Xu, and D. Fink. 2017. AMS radiocarbon dating of pollen concentrates in a karstic lake system. Quaternary Geochronology 39:112-123.; Zielhofer, C., W.J. Fletcher, S. Mischke, M. De Batist, J.F.E. Campbell, S. Joannin, R. Tjallingii, N. El Hamouti, A. Junginger, A. Stele, J. Bussmann, B. Schneider, T. Lauer, K. Spitzer, M. Strupler, T. Brachert, and A. Mikdad. 2017. Atlantic forcing of the Western Mediterranean winter rain minima during the last 12,000 years. Quaternary Science Review 157:29-51.","10.3389/fevo.2017.00113;
10.1016/j.quageo.2017.02.006;
10.1016/j.quascirev.2016.11.037",20,"xerophytic woods/scrub",0.325639507827951,4571.49461453309,12.5246427795427,3.21356175536957,24.3340297660886,470.578247639944
4989,9814,17612,"Phelps et al., 2020","Lake Sinnda 2","SN2_0",-3.836111,12.8,133,"not known","lake","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.02431143430848,9191.27440432527,25.1815737104802,22.1009015977722,27.0966025748487,1202.85390564575
4990,9815,17613,"Phelps et al., 2020","Lake Sinnda 3","SN3_0",-3.835556,12.804167,133,"not known","lake","core","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.02413044066716,9191.45805620118,25.1820768663046,22.1008480318433,27.0972270291229,1202.64505028044
4990,9816,17614,"Phelps et al., 2020","Lake Sinnda 3","SN3_6.7",-3.835556,12.804167,133,"not known","lake","core","33","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.02413044066716,9191.45805620118,25.1820768663046,22.1008480318433,27.0972270291229,1202.64505028044
4991,9817,12834,"Neotoma","Lake Six","LAKESIX",48.4,-81.316667,305,"not known","lake","core","23","Liu, K.-B. 1990. Holocene paleoecology of the boreal forest and Great Lakes-St. Lawrence forest in northern Ontario. Ecological Monographs 60:179-212.",,9,"cool mixed forest",1.22439321996093,2238.88892744254,1.19582197484962,-17.4694512593665,17.4026019001049,849.985560639686
4992,9818,20340,"SMPDSv1","Lake Skaidejavri","EPDcoretop_E745",70.000833,27.866667,183,"0.24","lake","peat core top","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.48641858357516,1237.37382377395,-1.6812001987842,-14.1992514239007,12.4435986553643,515.714341719207
4993,9819,20341,"SMPDSv1","Lake Skrzetuszewskie","EPDcoretop_E567",52.55,17.360556,109,"0.025","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.746609857747751,3130.27262273843,8.31331673606363,-2.06133069456142,17.7364095672677,546.691047518291
4993,9820,20342,"SMPDSv1","Lake Skrzetuszewskie","EPDcoretop_E568",52.55,17.360556,109,"0.025","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.746609857747751,3130.27262273843,8.31331673606363,-2.06133069456142,17.7364095672677,546.691047518291
4994,9821,14533,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","-33","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14534,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","-22","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14535,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","-11","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14536,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","2","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14537,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","13","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14538,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","24","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14539,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","35","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4994,9821,14540,"Neotoma","Lake SL06","SL06",68.5904999999999,-91.888,243,"not known","lake","core","46","Peros, M.C., and K. Gajewski. 2009. Pollen-based reconstructions of late Holocene climate. Journal of Paleolimnology 41(1):161-175.",,31,"tundra",0.751896564663947,430.137991073695,-15.3715391503395,-34.5300157226789,7.02116125831122,204.094240879338
4995,9822,20343,"SMPDSv1","Lake Solso","EPDcoretop_E614",56.133333,8.633333,41,"0.0025","ephemeral lake/pond","lacustrine core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26168569734923,2818.87503178112,7.67859914663742,-0.253943474333805,15.642395903325,792.708836314077
4996,9823,15830,"Neotoma","Lake Springfield","GMP01",39.72,-89.58,171,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.952122501715968,4559.18322740087,12.0545994561653,-3.25040541619355,25.0863064184407,978.774447979629
4997,9824,20344,"SMPDSv1","Lake Srebarna","EPDcoretop_E622",44.083333,27.116667,20,"18","lake","core top","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.507653415771759,4279.22733979842,11.6275154764236,-1.07293633692989,22.4979549969419,499.738958686112
4998,9825,7285,"EMPDv2","Lake Stiucii","Feurdean_a2",46.966698,23.900622,239,"0.38","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.712870700515987,3564.53936663657,9.29895234313291,-3.65917116462278,19.2866799354508,623.531820106539
4999,9826,20345,"SMPDSv1","Lake Sudochie","SD10PVC4 core",43.585,58.544,50,"medium (1.1-50 km2)","lake","core top","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.097273562518875,4508.45732312278,11.2725603164549,-5.80558586462635,27.7429158861772,117.884344986721
5000,9827,9073,"EMPDv2","Lake Sunezers","Stivrins_b1",57.113101,22.265616,47.8,"0.014","lake","sediment sample","-68","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02998414638144,2606.93186464719,6.27646964728802,-4.0361405190552,16.4517176271758,664.657747382677
5001,9828,24458,"Southern Hemisphere pollen","Lake Sylvester","Lake Sylvester_0.5",-41.11,172.63,1320,"small (0.01-1 km2)","lake","core top","-26","Shulmeister, J., McLea, W.L., Singer, C., McKay, R.M. and Hosie, C., 2003. Late Quaternary pollen records from the Lower Cobb Valley and adjacent areas, North‐West Nelson, New Zealand. New Zealand Journal of Botany, 41(3), pp.503-533.","10.1080/0028825X.2003.9512867",7,"cool-temperate rainforest",1.90084813876989,1979.17655748544,5.224897324243,-1.45593613451766,11.549186902957,1565.76826236308
5002,9829,919,"Australian pollen","Lake Tagamaucia","Lake Tagamaucia_a",-16.49,179.56,820,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.4543504848104,7340.14321825358,20.1099814198728,18.2898802890976,22.038889876823202,3255.90406609121
5002,9830,920,"Australian pollen","Lake Tagamaucia","Lake Tagamaucia_b",-16.49,179.56,820,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.4543504848104,7340.14321825358,20.1099814198728,18.2898802890976,22.038889876823202,3255.90406609121
5002,9831,921,"Australian pollen","Lake Tagamaucia","Lake Tagamaucia_c",-16.49,179.56,820,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.4543504848104,7340.14321825358,20.1099814198728,18.2898802890976,22.038889876823202,3255.90406609121
5003,9832,922,"Australian pollen","Lake Tali Karng","Tali Karng",-37.583,146.833,915,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.04614725831117,3472.56578255202,9.51387885630691,2.58336461993844,16.7184037052656,1197.15416424512
5004,9833,17615,"Phelps et al., 2020","Lake Tanganyika II","MPU12TAN_0",-8.5,30.85,767,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.611739924611511,8800.51579942036,24.1110021901928,21.8263996325426,26.1896950950587,1035.91525983341
5005,9834,17616,"Phelps et al., 2020","Lake Tanganyika III","SD24TAN_0",-4.513889,29.333333,767,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",,"not applicable",0.715685953753933,8638.03653352635,23.6658535165106,22.3236592741191,24.7440676825516,1090.89189353916
5006,9835,17617,"Phelps et al., 2020","Lake Tanganyika IV","SD36TAN_0",-4.966667,29.366667,767,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",,"not applicable",0.717764077157505,8579.48277043292,23.5054322477614,22.0985262390955,24.6160582878738,1095.59560828676
5007,9836,14856,"Neotoma","Lake Tashmoo","TASHMOO",41.458815,-70.62957,0,"not known","lake","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36333786189028,3939.90371868525,10.5506306333486,-1.80829005004676,22.4392648681903,1238.08403244912
5007,9836,14857,"Neotoma","Lake Tashmoo","TASHMOO",41.458815,-70.62957,0,"not known","lake","core","-23","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36333786189028,3939.90371868525,10.5506306333486,-1.80829005004676,22.4392648681903,1238.08403244912
5007,9836,14858,"Neotoma","Lake Tashmoo","TASHMOO",41.458815,-70.62957,0,"not known","lake","core","-3","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36333786189028,3939.90371868525,10.5506306333486,-1.80829005004676,22.4392648681903,1238.08403244912
5007,9836,14859,"Neotoma","Lake Tashmoo","TASHMOO",41.458815,-70.62957,0,"not known","lake","core","19","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36333786189028,3939.90371868525,10.5506306333486,-1.80829005004676,22.4392648681903,1238.08403244912
5007,9836,14860,"Neotoma","Lake Tashmoo","TASHMOO",41.458815,-70.62957,0,"not known","lake","core","40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36333786189028,3939.90371868525,10.5506306333486,-1.80829005004676,22.4392648681903,1238.08403244912
5008,9837,15734,"Neotoma","Lake Tear of the Clouds","TEAR_C90",44.106905,-73.93533,1320,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.70749793288961,1909.365697081,2.23349855369702,-10.8603936060448,14.2053399916312,1189.51145396789
5009,9838,20346,"SMPDSv1","Lake Teletskoye","TELETSKO_core top",51.7166666666666,87.65,434,"not known","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.680747306729444,2540.51839213425,1.46972952741686,-18.0030227098987,19.3436617628891,508.389459585141
5010,9839,923,"Australian pollen","Lake Terang","Lake Terang",-38.25,142.9,130,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.708453594946846,4936.76848618735,13.5253931128421,8.81418550985034,18.5028687917385,730.854318545747
5011,9840,17618,"Phelps et al., 2020","Lake Teza","TEZAC1_5",-28.008056,32.166667,149,"not known","lake","not known","23","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.663093908343747,7923.05494396062,21.7069998464675,17.560220010971,25.4123369464744,966.408456396872
5012,9841,924,"Australian pollen","Lake Tiberias","Lake Tiberias core",-42.4167,147.3667,442,"9.7","lake","core top","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.03688805075053,3583.0282442989,9.81651573780521,5.19241630375501,14.6631257057542,951.756000582823
5013,9842,17619,"Phelps et al., 2020","Lake Tilla","TILLA_2",10.395556,12.129722,543,"not known","lake","not known","50","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.453936356242937,9723.91719544404,26.6408690286138,22.6847266593239,30.7864263763876,777.926292136016
5014,9843,20347,"SMPDSv1","Lake Tislit","TIS 1",32.192525,-5.63389185331832,2275,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.347742198444419,4249.87415246759,11.6434908286783,2.31400797235267,23.5048745803894,499.845165018813
5014,9844,20356,"SMPDSv1","Lake Tislit","TIS 10",32.199835,-5.63751744554544,2260,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.34648211032433,4274.35721072665,11.7105677006209,2.38728283272806,23.552366054386,498.313587777089
5014,9845,20357,"SMPDSv1","Lake Tislit","TIS 11",32.204038,-5.63877360458008,2305,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.35011234767339,4202.99872440048,11.5150649983575,2.16836694384923,23.4208221315329,502.666055426973
5014,9846,20358,"SMPDSv1","Lake Tislit","TIS 12",32.20866,-5.63807986732795,2363,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.354851747352848,4110.74105022471,11.262304247191,1.88587707700361,23.2501337550199,508.322675174639
5014,9847,20359,"SMPDSv1","Lake Tislit","TIS 13",32.212541,-5.63793740832707,2464,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.363072132681146,3950.48548665307,10.8232479086385,1.39454416788062,22.9543246377971,518.078673191905
5014,9848,20360,"SMPDSv1","Lake Tislit","TIS 14",32.215628,-5.638196323211,2561,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370987214134878,3796.85882006956,10.4023529316974,0.922922446538504,22.6714993362314,527.393033163155
5014,9849,20361,"SMPDSv1","Lake Tislit","TIS 15",32.217404,-5.63738843495072,2670,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.380002997104498,3623.93839376149,9.92859833907259,0.392788666934746,22.3522582192633,537.904884523583
5014,9850,20362,"SMPDSv1","Lake Tislit","TIS 16",32.218496,-5.64466481471569,2760,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.387061911633596,3490.77303293584,9.54469731698291,-0.0426908000769703,22.1006454275665,546.083096843715
5014,9851,20348,"SMPDSv1","Lake Tislit","TIS 2",32.193006,-5.63289828526137,2279,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.348101500653262,4243.30268204745,11.62548680013,2.29430104115981,23.4922277521881,500.273982920549
5014,9852,20349,"SMPDSv1","Lake Tislit","TIS 3",32.193309,-5.63221771785507,2280,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.348205738862508,4241.57589437112,11.6207558749894,2.28927293181777,23.4887325927336,500.397286529886
5014,9853,20350,"SMPDSv1","Lake Tislit","TIS 4",32.193668,-5.63142212324823,2282,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.348395489619821,4238.23146557181,11.6115930563611,2.27934973528629,23.4821743727127,500.62293041858
5014,9854,20351,"SMPDSv1","Lake Tislit","TIS 5",32.194081,-5.63062807874166,2284,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.348585738441751,4234.88647040174,11.6024286860322,2.26942349387432,23.4756179493521,500.848968709074
5014,9855,20352,"SMPDSv1","Lake Tislit","TIS 6",32.194797,-5.63002301621445,2265,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.347060045894975,4265.07317652732,11.6851319904858,2.36173846541272,23.5316852849921,499.012678054619
5014,9856,20353,"SMPDSv1","Lake Tislit","TIS 7",32.195532,-5.62895187486126,2268,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.3473420115085,4260.07923241809,11.6714499518304,2.34686752825229,23.5219601987054,499.347993168243
5014,9857,20354,"SMPDSv1","Lake Tislit","TIS 8",32.196813,-5.62890390648286,2251,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.345970506983219,4287.16752684635,11.7456644571133,2.42952065331645,23.5725038843443,497.69390609718
5014,9858,20355,"SMPDSv1","Lake Tislit","TIS 9",32.19977,-5.62893596707017,2282,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.348517065399534,4237.71341979125,11.6101737528527,2.2784588274173,23.4805474601649,500.747718821953
5015,9859,9067,"EMPDv2","Lake Trikatas","Stivrins_a5",57.533333,25.7,50,"0.13","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00734566011389,2544.68623362733,5.54836863981162,-6.11402631179582,16.735490619452,628.245347799587
5016,9860,20363,"SMPDSv1","Lake Trilistnika, Rila Mts.","Tonkov_k1",42.206011,23.318561,2216,"not known","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03715034721736,1647.71852776513,2.19765900843673,-8.7611300334202,11.8689169319081,858.440733944027
5017,9861,17620,"Phelps et al., 2020","Lake Tritrivakely I","TRITRIVA_0",-19.783334,46.916667,1765,"not known","lake","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.868116689742217,6016.41924399606,16.4833403945098,12.8905798058791,19.0175084527416,1255.06586181541
5018,9862,17621,"Phelps et al., 2020","Lake Tritrivakely II","TRIVA_0",-19.783333,46.916667,1765,"not known","lake","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.868116757909645,6016.41926149218,16.4833404424443,12.8905799236804,19.0175084546537,1255.06596774456
5019,9863,20364,"SMPDSv1","Lake Tsuolbmajavri","EPDcoretop_E747",68.691667,22.083333,526,"0.14","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.53406768259005,1050.22163519942,-3.42082793590846,-16.7433273920317,11.0962132973343,582.036528555977
5020,9864,13383,"Neotoma","Lake Tulane","TULANE",27.5861299999999,-81.503395,32,"not known","lake","core","-34","Grimm, E.C., G.L. Jacobson, Jr., W.A. Watts, B.C.S. Hansen, and K.A. Maasch. 1993. A 50,000-year record of climate oscillations from Florida and its temporal correlation with the Heinrich events. Science 261:198-200.; Watts, W.A., and B.C.S. Hansen. 1988. Environments of Florida in the late Wisconsin and Holocene. Pages 307-323 in B. Purdy, editor. Wet Site Archaeology. Telford Press, West Caldwell, New Jersy, USA.",,4,"warm-temperate evergreen and mixed forest",0.884791167526151,8111.182078272,22.2224166528,15.4215184441132,27.7109608935418,1240.2232220553
5020,9864,13384,"Neotoma","Lake Tulane","TULANE",27.5861299999999,-81.503395,32,"not known","lake","core","-7","Grimm, E.C., G.L. Jacobson, Jr., W.A. Watts, B.C.S. Hansen, and K.A. Maasch. 1993. A 50,000-year record of climate oscillations from Florida and its temporal correlation with the Heinrich events. Science 261:198-200.; Watts, W.A., and B.C.S. Hansen. 1988. Environments of Florida in the late Wisconsin and Holocene. Pages 307-323 in B. Purdy, editor. Wet Site Archaeology. Telford Press, West Caldwell, New Jersy, USA.",,4,"warm-temperate evergreen and mixed forest",0.884791167526151,8111.182078272,22.2224166528,15.4215184441132,27.7109608935418,1240.2232220553
5020,9864,13385,"Neotoma","Lake Tulane","TULANE",27.5861299999999,-81.503395,32,"not known","lake","core","20","Grimm, E.C., G.L. Jacobson, Jr., W.A. Watts, B.C.S. Hansen, and K.A. Maasch. 1993. A 50,000-year record of climate oscillations from Florida and its temporal correlation with the Heinrich events. Science 261:198-200.; Watts, W.A., and B.C.S. Hansen. 1988. Environments of Florida in the late Wisconsin and Holocene. Pages 307-323 in B. Purdy, editor. Wet Site Archaeology. Telford Press, West Caldwell, New Jersy, USA.",,4,"warm-temperate evergreen and mixed forest",0.884791167526151,8111.182078272,22.2224166528,15.4215184441132,27.7109608935418,1240.2232220553
5020,9864,13386,"Neotoma","Lake Tulane","TULANE",27.5861299999999,-81.503395,32,"not known","lake","core","48","Grimm, E.C., G.L. Jacobson, Jr., W.A. Watts, B.C.S. Hansen, and K.A. Maasch. 1993. A 50,000-year record of climate oscillations from Florida and its temporal correlation with the Heinrich events. Science 261:198-200.; Watts, W.A., and B.C.S. Hansen. 1988. Environments of Florida in the late Wisconsin and Holocene. Pages 307-323 in B. Purdy, editor. Wet Site Archaeology. Telford Press, West Caldwell, New Jersy, USA.",,4,"warm-temperate evergreen and mixed forest",0.884791167526151,8111.182078272,22.2224166528,15.4215184441132,27.7109608935418,1240.2232220553
5021,9865,925,"Australian pollen","Lake Turangmoroke","Lake Turangmoroke",-37.7,142.75,200,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.581070659228073,4964.44880473035,13.601229602001,8.2139205549395,19.3045661879922,626.276192112642
5022,9866,926,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 1",-35.2363,142.8455,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234678799839121,6240.53396445104,17.0973533272631,9.7369602953049,24.5022234466071,319.281903527001
5022,9867,927,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 10",-35.265,142.8577,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233603336444308,6209.03599332155,17.0110575159494,9.7538360235146,24.4056338726354,313.170511563687
5022,9868,928,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 11",-35.2513,142.7955,59,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.244825653815113,6140.44768693249,16.8231443477603,9.64296601677095,24.1624692489516,325.015031891318
5022,9869,929,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 12",-35.2541,142.8049,59,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.244954738587377,6140.11072098599,16.8222211533863,9.64178498678133,24.1616079557218,325.138242790093
5022,9870,930,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 13",-35.2575,142.8149,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233091291283341,6210.3702512444,17.014713017108,9.75868384527713,24.4091101551269,312.661171475812
5022,9871,931,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 14",-35.2586,142.8251,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233203809471099,6210.13044478431,17.0140560131077,9.75761969878094,24.4085461032644,312.777996607415
5022,9872,932,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 15",-35.2634,142.8295,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233314458850542,6209.5062929817605,17.0123460081692,9.75659107945043,24.4065431125,312.858337711944
5022,9873,933,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 16",-35.2656,142.8374,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233420835715187,6209.16067727118,17.0113991158115,9.75558833630328,24.4055647684327,312.95811132172
5022,9874,934,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 17",-35.2691,142.8457,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233549652528739,6208.65563584454,17.01001544067,9.75437723211512,24.4040560015989,313.071193590862
5022,9875,935,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 18",-35.2734,142.8561,50,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.23489906796377,6201.0193335663,16.9890940645652,9.74106809599664,24.3775400231144,314.474679857493
5022,9876,936,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 19",-35.2736,142.8618,50,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234955488891163,6200.94611628977,16.988893469287,9.7405279396455,24.3774323797971,314.536985898331
5022,9877,937,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 2",-35.2379,142.8238,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234585619327183,6240.14088535786,17.0962763982407,9.73785588336184,24.4999417575296,319.147418039572
5022,9878,938,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 20",-35.2645,142.7859,59,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.244921804388262,6139.06152794423,16.819346651902,9.64220920396073,24.1575068517283,325.001786915412
5022,9879,939,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 21",-35.2674,142.7978,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233070569477933,6209.36286122873,17.0119530444623,9.75892381061076,24.4053023967104,312.546031984036
5022,9880,940,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 22",-35.2694,142.8081,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.23319764008183,6209.00747486239,17.0109793831846,9.75773089847248,24.4043467395955,312.670628816093
5022,9881,941,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 23",-35.2706,142.8177,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233306298010952,6208.75924401064,17.0102992986593,9.7567061907281,24.4037362056604,312.782026800374
5022,9882,942,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 24",-35.2747,142.8364,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233542827422272,6208.06991191871,17.0084107175855,9.75447612732936,24.4018508531928,313.011009835524
5022,9883,943,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 25",-35.2778,142.8446,50,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234854495239014,6200.59394487281,16.9879286160899,9.7415262177649,24.3758171640082,314.38258085119
5022,9884,944,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 26",-35.2746,142.7835,59,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.245043148620258,6137.97663853025,16.8163743521377,9.64118353572839,24.1537720958677,325.046696663734
5022,9885,945,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 27",-35.2767,142.7967,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233194115300379,6208.24963124381,17.0089030992981,9.75779623190599,24.4015193313924,312.59888286932
5022,9886,946,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 28",-35.2786,142.8067,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233317134544204,6207.90844243463,17.0079683354373,9.75664198345533,24.4006016295915,312.719774168853
5022,9887,947,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 29",-35.2791,142.8156,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233409192432063,6207.75170315858,17.0075389127632,9.75577199440868,24.4002813113206,312.818918133115
5022,9888,948,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 3",-35.2425,142.8334,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.23470856542539,6239.77965941258,17.0952867381166,9.73663686519429,24.4992919747875,319.260989393435
5022,9889,949,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 30",-35.2833,142.8393,50,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234884223303928,6199.98165371746,16.9862511060752,9.74127979401016,24.3736146193519,314.364565514947
5022,9890,950,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 4",-35.2483,142.8437,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.234853432419603,6239.3034668732,17.0939821010225,9.73519584063681,24.4983158646323,319.391067229198
5022,9891,951,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 5",-35.2536,142.8553,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.241795084397329,6161.14158838761,16.8798399681852,9.67281370737122,24.2370388012576,321.901135969287
5022,9892,952,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 6",-35.2443,142.8122,59,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.238309541312227,6213.65858814846,17.0237221593108,9.70097605506846,24.4085985914138,322.637078262727
5022,9893,953,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 7",-35.2492,142.8197,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.23473759641411,6238.95614278959,17.0930305281907,9.7363133630929,24.4960709114863,319.234272047683
5022,9894,954,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 8",-35.2539,142.8345,56,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.241603838438118,6161.20594545759,16.8800162889249,9.67463553764477,24.2366716174783,321.677304109671
5022,9895,955,"Australian pollen","Lake Tyrrell","Lake Tyrrell_SS 9",-35.2599,142.847,49,"280","lake","surface sample","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.233429268431447,6209.75368057167,17.0130237823881,9.75547379958756,24.4078028543644,313.020956816528
5022,9896,956,"Australian pollen","Lake Tyrrell","TYRRELL2",-35.24664,142.83017,83,"280","lacustrine, drained lake","core top","-5","Luly, J.G. 1993. Holocene palaeoenvironments near Lake Tyrrell, semi-arid northwestern Victoria, Australia. Journal of Biogeography 20:587-598. https://www.jstor.org/stable/2845516. [DOI: 10.2307/2845516];
Luly, J.G., J.M. Bowler, and M.J. Head. 1986. A radiocarbon chronology from the playa Lake Tyrrell, northwestern Victoria, Australia. Palaeogeography, Palaeoclimatology, Palaeoecology 54:171-180 [DOI: 10.1016/0031-0182(86)90123-9]",,16,"temperate sclerophyll woodland and shrubland",0.269250063936264,6007.96773567212,16.4601855771839,9.40707184972863,23.7023029445514,350.923325250814
5023,9897,6071,"EMBSeCBIO","Lake Urmia","Urmia core 20",37.5,45.5,1297,"5200","lake","core","-35","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.280206426243366,4640.8072785052,12.5071356143965,-1.88443314281979,25.7605917285994,381.145430066854
5024,9898,20365,"SMPDSv1","Lake Van","Barboni_a944",38.473889,42.738611,1648,"375500","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.461542914259638,3941.12697340168,10.3514506090571,-3.01274072314139,23.5665684626174,646.690070135003
5024,9899,20366,"SMPDSv1","Lake Van","EPDcoretop_E677",38.473889,42.738611,1645,"375500","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.461576201071205,3946.74168364598,10.3710049640396,-2.99328890727973,23.5873759286086,646.950386556288
5024,9900,6072,"EMBSeCBIO","Lake Van","Van - Wick Core_0.5",38.473889,42.738611,1648,"3755","lake","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.461542914259638,3941.12697340168,10.3514506090571,-3.01274072314139,23.5665684626174,646.690070135003
5024,9901,6073,"EMBSeCBIO","Lake Van","Van - Wick Core_2.5",38.473889,42.738611,1648,"3755","lake","core","28","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.461542914259638,3941.12697340168,10.3514506090571,-3.01274072314139,23.5665684626174,646.690070135003
5025,9902,15748,"Neotoma","Lake Vanare","DRW048",43.3715849999999,-73.7891349999999,217,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.22774042192758,3221.31961701642,7.18062547143923,-7.8156276079718,20.6799462192261,997.955149131374
5026,9903,7152,"EMPDv2","Lake Varna","EPDcoretop_E2200",43.2,27.83,0,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.542484989756337,4428.24522974152,12.1321787116206,0.545904417659412,22.3349439579505,528.742341899701
5027,9904,20367,"SMPDSv1","Lake Varna (Arsenala)","EPDcoretop_E76",43.2,27.833333,0,"large (50.1-500 km2)","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.542550938150187,4428.34603440232,12.1324548887735,0.547129480442695,22.334794267267,528.80022349209
5028,9905,957,"Australian pollen","Lake Vera","Lake Vera core",-42.2713,145.8854,560,"small (0.01-1 km2)","lake","core top","-22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.45455357148,3266.28553638982,8.9487274969584,4.52336525819642,13.8579541501969,1333.46966439337
5028,9906,958,"Australian pollen","Lake Vera","Lake Vera_ss",-42.2667,145.8667,560,"small (0.01-1 km2)","lake","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.45696256284421,3266.05592406643,8.9480984220998,4.52539144699803,13.8562633119103,1335.75053369408
5029,9907,7213,"EMPDv2","Lake Verijarv","EPDcoretop_E2567",57.81,27.06,90,"0.2","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.990251192093049,2473.46406848821,4.99017067478892,-7.42109327590897,16.6654039377585,613.805616605846
5030,9908,15832,"Neotoma","Lake Vermilion","GMP03",40.17,-87.65,198,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.0120243297118,4337.85853350192,11.2944957536146,-4.05203527619115,24.184356214892,1000.82046872459
5031,9909,9074,"EMPDv2","Lake Vezezers","Stivrins_b2",57.124849,22.341909,50.3,"0.07","lake","sediment sample","-68","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.03052811569962,2607.59289562817,6.27033603130778,-4.07142327571924,16.4543237096528,665.220345944688
5032,9910,11621,"Neotoma","Lake Virginia","VIR-1C",43.52982,-89.930365,298,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.93453730787449,3375.70130457343,7.13435610848431,-9.92176209817092,21.7583575372562,812.85518455215
5032,9911,11622,"Neotoma","Lake Virginia","VIR-1M",43.52982,-89.930365,298,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.93453730787449,3375.70130457343,7.13435610848431,-9.92176209817092,21.7583575372562,812.85518455215
5033,9912,20368,"SMPDSv1","Lake Viviis","Barboni_a945",39.53333333,22.7,50,"18000","lacustrine, drained lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415607597141698,5796.84482331376,15.8817666392158,6.47335882577841,25.5165577791041,540.617206054933
5034,9913,8916,"EMPDv2","Lake Voykarski Sor","Ryabogina_a195",65.646158,64.588165,60,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22681237358371,1325.82802553577,-4.87073505461107,-23.3081251413867,15.0058140777169,480.577991526143
5035,9914,15008,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-58","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15009,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-57","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15010,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-55","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15011,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-54","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15012,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-53","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15013,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-50","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15014,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-44","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15015,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-39","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15016,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-34","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15017,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-29","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15018,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-24","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15019,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-18","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15020,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-13","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15021,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-7","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15022,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","-2","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15023,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","10","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15024,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","28","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5035,9914,15025,"Neotoma","Lake WA01","WA01",61.24441,-136.929375,1000,"not known","lake","core","47","Ravindra, R. 2009. A high-resolution vegetation, fire, and climate history from the Aishihik Region, Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.691933734327754,1185.01157441257,-4.37010717780966,-22.6436597429055,11.4090460648855,319.851429290399
5036,9915,959,"Australian pollen","Lake Wanda","Wanda_1",-2.55,121.3833,445,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.70049712588897,8958.79233832997,24.5446365433698,23.9402438495445,25.0012802674438,2749.30928330271
5036,9916,960,"Australian pollen","Lake Wanda","Wanda_2",-2.55,121.3833,445,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.70049712588897,8958.79233832997,24.5446365433698,23.9402438495445,25.0012802674438,2749.30928330271
5036,9917,961,"Australian pollen","Lake Wanda","Wanda_3",-2.55,121.3833,445,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.70049712588897,8958.79233832997,24.5446365433698,23.9402438495445,25.0012802674438,2749.30928330271
5037,9918,962,"Australian pollen","Lake Wangoom","Lake Wangoom LW87 core",-38.35,142.6,100,"medium (1.1-50 km2)","lake","core top","-52","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.728804096513912,4982.82131229518,13.6515652391649,9.12777301955167,18.4619026421793,745.541133096177
5038,9919,15842,"Neotoma","Lake Wappapello","GMP13",36.97055086,-90.35313417,109,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.03377801957868,5411.27473656504,14.8254102371645,1.26181467348831,26.6912636621561,1194.94253913508
5039,9920,15840,"Neotoma","Lake Wee-ma-tuk","GMP11",40.55,-90.17,198,"not known","terrestrial","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.951481102784299,4230.20825660276,10.7154917632596,-5.37356558543721,24.2823318108031,939.857622191589
5040,9921,963,"Australian pollen","Lake Wellington","Lake Wellington",-38.1,147.3,20,"not known","lake","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.746818281077921,5097.41313955964,13.9655154508483,8.97395361706071,19.070481822885,775.81640368975
5041,9922,11005,"Bush et al., 2020","Lake03","Lake03",-15.69945,-70.205283,3838,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.480243953269085,3189.92434205603,8.739518745359,6.23838042034389,10.2534652499706,710.122440873393
5042,9923,11006,"Bush et al., 2020","Lake06","Lake06",-15.655033,-70.195683,3837,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.485521877550009,3197.49300102345,8.76025479732451,6.26466804483604,10.2742572257473,718.029462159193
5043,9924,11007,"Bush et al., 2020","Lake12","Lake12",-15.435267,-70.16755,3832,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.509338023095691,3230.50618797102,8.85070188485211,6.38495241358708,10.3607278950633,753.671223666829
5044,9925,11008,"Bush et al., 2020","Lake23","Lake23",-16.67815,-68.31545,3865,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.363812545823539,3270.32477474159,8.95979390340161,5.8309249443154,11.030216945734,536.978421524153
5045,9926,11009,"Bush et al., 2020","Lake27","Lake27",-16.624633,-68.274817,3882,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.361714567853086,3240.75724172159,8.87878696362078,5.75486694274046,10.9518201903761,533.620210709425
5046,9927,11010,"Bush et al., 2020","Lake29","Lake29",-16.513033,-68.491983,3848,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.379312805925173,3287.1465297967,9.00588090355259,5.9412584102554,11.0419107644901,560.518734891839
5047,9928,9089,"EMPDv2","Lakenberk, Sumava","Svobodova_a7",49.1065444444444,13.3119805555556,1336.6,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.30134169718784,1763.16851926666,3.62878208011404,-4.70111130827999,11.7799315475122,1625.27553361382
5048,9929,20369,"SMPDSv1","Lakstjorna","Bjune_a257",63.7083333333333,8.69166666666666,52,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.8030066284026,2086.84839948661,5.3605251940604,-1.87149204475731,13.2670801454482,1283.35521506595
5049,9930,20370,"SMPDSv1","Lalaxkarret","EPDcoretop_E363",60.15,21.866667,20,"0.1","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0169936986719,2321.54415933265,4.88727983137676,-6.01947974118675,16.1500658847229,578.402111471421
5050,9931,964,"Australian pollen","Lamington National Park","Lamington National Park 1",-28.2,153.167,900,"not applicable","terrestrial","moss polster or moss","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.374101733231824,5604.37416079323,15.3544497555979,7.84627393958721,21.5619847216971,582.143823885497
5050,9932,965,"Australian pollen","Lamington National Park","Lamington National Park 2",-28.2,153.167,750,"not applicable","terrestrial","moss polster or moss","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.47863210367521,5889.596463895,16.135880723,8.98391558462105,22.0270177270051,736.895442129877
5050,9933,966,"Australian pollen","Lamington National Park","Lamington National Park 3",-28.2,153.167,600,"not applicable","terrestrial","moss polster or moss","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.585579134063942,6174.81876699676,16.9173116904021,10.1215572296549,22.4920507323131,891.647060374257
5051,9934,17368,"Neotoma","Lancaster Lake","TW073",45.62,-84.016667,215,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",1.04293583997011,2838.65122779821,5.47394451447502,-9.53447018507901,19.1484973280571,823.258350781424
5052,9935,7174,"EMPDv2","Langarud","EPDcoretop_E2315",37.19,50.15,-22,"not known","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.157454884531838,6732.28287917453,18.4446106278754,5.70099817244256,30.5995217994566,208.655571969391
5053,9936,12836,"Neotoma","Langdale Pond","LANGDALE",30.641667,-83.195,58,"not known","lake","core","0","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.00466814668192,7026.83390319059,19.2515997347687,9.76654801310231,27.2358314610286,1310.23578079796
5053,9936,12837,"Neotoma","Langdale Pond","LANGDALE",30.641667,-83.195,58,"not known","lake","core","40","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.00466814668192,7026.83390319059,19.2515997347687,9.76654801310231,27.2358314610286,1310.23578079796
5054,9937,6977,"EMPDv2","Langes Fenn Kemnitzerheide","EPDcoretop_E1404",52.31,12.91,36,"0.02","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.794604160687057,3288.84638607333,8.96594295350719,-0.454552458187738,17.8671343763613,563.058099230159
5055,9938,20371,"SMPDSv1","Langevatn","Bjune_a98",60.1979378,5.36628318,51,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.07736419140721,2632.3373442338,7.21188313488712,0.876439260993618,14.1285498235719,2152.73410337948
5055,9939,20372,"SMPDSv1","Langevatn","Bjune_a99",58.4107579,6.52664286,424,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87686561080418,2094.27240553819,5.23867960884166,-2.66587102983924,13.3287688003478,1624.76496045233
5056,9940,20373,"SMPDSv1","Langrumpa","Bjune_a281",61.6983333333333,10.155,1013,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.48339538373388,1153.0752807629,-0.459207573013425,-11.1368763264992,10.0337516395346,698.40616308283
5057,9941,23181,"SMPDSv1","Langsetertjern","Bjune_a296",59.6216666666666,11.385011,140,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.27165672334123,2357.80173137595,5.34776024761093,-4.80549443045833,15.7084301214815,760.965014894631
5058,9942,20374,"SMPDSv1","Langso","Odgaard_a3",56.44915,10.499712,50,"0.21","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11933537340227,2794.29480638629,7.6075004173764,-0.28265232990652,15.5881577393354,704.528502092073
5059,9943,20375,"SMPDSv1","Langtjern","Bjune_a70",60.49263964,10.31588896,483,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.37938944003797,1833.98554580867,2.81527658247725,-8.27360612830677,13.6306315318945,754.452260460555
5060,9944,16580,"Neotoma","Lantern Hill Pond","KMT001",41.46,-71.95,36,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.28665180672199,3893.48714181671,10.3420218173719,-2.27723941645215,22.408232820312602,1169.66790400298
5061,9945,967,"Australian pollen","Lanyon House","Lanyon House_1",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9946,968,"Australian pollen","Lanyon House","Lanyon House_2",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9947,969,"Australian pollen","Lanyon House","Lanyon House_3",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9948,970,"Australian pollen","Lanyon House","Lanyon House_4",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9949,971,"Australian pollen","Lanyon House","Lanyon House_5",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9950,972,"Australian pollen","Lanyon House","Lanyon House_6",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9951,973,"Australian pollen","Lanyon House","Lanyon House_7",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5061,9952,974,"Australian pollen","Lanyon House","Lanyon House_8",-35.483,149.068,578,"not applicable","terrestrial, soil","soil sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.736288097391939,4619.80386958487,12.6569969029722,5.66930932265214,19.4291299971605,898.566864885839
5062,9953,10459,"IBERIA","Lanzahita","LANZBOG_0",40.2222,-4.9358,558,"not known","terrestrial, bog/fen/swamp","core","-51","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.38682585803925,5329.95886546243,14.6026270286642,6.46758366337196,24.5660723224675,482.903258795826
5062,9954,10460,"IBERIA","Lanzahita","LANZBOG_0.02",40.2222,-4.9358,558,"not known","terrestrial, bog/fen/swamp","core","1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.38682585803925,5329.95886546243,14.6026270286642,6.46758366337196,24.5660723224675,482.903258795826
5063,9955,3576,"CMPD","Lanzhou","Lanzhou 1",36.08,104.17,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.435328821809194,2108.08803836357,3.69959119540287,-8.67941659777587,14.2504317020228,437.754534991702
5063,9956,3577,"CMPD","Lanzhou","Lanzhou 2",36.08,104.17,3100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.461702589743243,1842.35876844726,2.76182792677288,-9.13749256297302,12.8330800416541,457.890156203979
5063,9957,3578,"CMPD","Lanzhou","Lanzhou 3",36.08,104.17,3600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.507541306576178,1413.79570982082,1.19888914572291,-9.90095250496827,10.5141407585255,491.449524891106
5064,9958,6652,"EMPDv2","LAO1494","Binney2017_E3423",72.19,99.6,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.0255082244874,894.798438243651,-13.2698685604328,-34.8121438950518,12.7637668038672,281.262128549296
5065,9959,6653,"EMPDv2","LAO694","Binney2017_E3424",73.39,99.71,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.04369379163068,775.709436622016,-14.4381527009931,-35.5452610399603,11.5496553808581,266.473358534712
5066,9960,20376,"SMPDSv1","Lappskardet","N/KDV/AH-I",68.859722,19.158333,457,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.33030618521807,1012.64824967433,-1.68992891587462,-11.7404658737429,10.4690699397032,829.734481119789
5066,9961,20377,"SMPDSv1","Lappskardet","N/KDV/BH-II",68.861111,19.2,607,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.28823086759825,914.090186153652,-2.73564231896369,-13.4478712183089,9.89873349306746,799.51685729169
5066,9962,20378,"SMPDSv1","Lappskardet","N/KDV/CH-III_CHIIIB",68.858333,19.233333,775,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.24026651817628,812.192522508643,-3.90394929780242,-15.358297878303,9.26120003436848,766.269601361844
5066,9963,20379,"SMPDSv1","Lappskardet","N/KDV/DBH-IV",68.855556000000007,19.25,784,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.19603674171547,810.127793705569,-3.98774966535229,-15.5575653397087,9.25727855885165,751.944371002537
5066,9964,20380,"SMPDSv1","Lappskardet","N/KDV/FH-V",68.852778,19.252778,830,"not applicable","terrestrial","pollen trap","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.14020716354333,783.086631603941,-4.37105980926155,-16.2429351182067,9.08381305542624,731.631600395353
5066,9965,20381,"SMPDSv1","Lappskardet","N/KDV/FH-VI",68.851389,19.233333,930,"not applicable","terrestrial","pollen trap","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.19974731196919,726.038709172677,-4.97142218162564,-17.0980398525149,8.67256389194605,737.496478364619
5067,9966,24459,"Southern Hemisphere pollen","Laravida Tarn","Laravida core",-8.3896,147.361055555556,3560,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","0","Hope, G.S., 2009. Environmental change and fire in the Owen Stanley ranges, Papua New Guinea. Quaternary Science Reviews, 28(23-24), pp.2261-2276.","10.1016/j.quascirev.2009.04.012",4,"warm-temperate evergreen and mixed forest",1.88398682582169,5400.49758357632,14.7958837906201,13.4855363305323,15.7701329052295,2655.62769283519
5068,9967,9327,"EMPDv2","LARG 600","Remazani_a9",36.55,51.5105555555556,600,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.140061270861462,6463.64918456793,17.7086279029258,4.29124390995913,30.2969855403092,195.27466372609
5069,9968,14171,"Neotoma","Larix laricina Site 10","LXSITE10",57.8541249999999,-72.777555,280,"not known","terrestrial","core","-45","Penalba, M.C., and S. Payette. 1997. Late-Holocene expansion of Eastern Larch (Larix laricina [Du Roi] K. Koch) in Northwestern Quebec. Quaternary Research 48:114-121.",,15,"cold evergreen needleleaf forest",1.37909063704067,860.214438472269,-6.71435643555435,-24.3899115098948,9.40619221083613,555.312284467138
5069,9968,14172,"Neotoma","Larix laricina Site 10","LXSITE10",57.8541249999999,-72.777555,280,"not known","terrestrial","core","13","Penalba, M.C., and S. Payette. 1997. Late-Holocene expansion of Eastern Larch (Larix laricina [Du Roi] K. Koch) in Northwestern Quebec. Quaternary Research 48:114-121.",,15,"cold evergreen needleleaf forest",1.37909063704067,860.214438472269,-6.71435643555435,-24.3899115098948,9.40619221083613,555.312284467138
5070,9969,14169,"Neotoma","Larix laricina Site 4","LXSITE4",57.7191666666666,-75.8134722222222,170,"not known","terrestrial","core","-45","Penalba, M.C., and S. Payette. 1997. Late-Holocene expansion of Eastern Larch (Larix laricina [Du Roi] K. Koch) in Northwestern Quebec. Quaternary Research 48:114-121.",,15,"cold evergreen needleleaf forest",1.29344872635855,844.116967197448,-6.68113683285466,-24.7556915540782,9.00659338875244,517.878592848471
5071,9970,14170,"Neotoma","Larix laricina Site 5","LXSITE5",57.7191666666666,-75.8134722222222,170,"not known","terrestrial","core","-45","Penalba, M.C., and S. Payette. 1997. Late-Holocene expansion of Eastern Larch (Larix laricina [Du Roi] K. Koch) in Northwestern Quebec. Quaternary Research 48:114-121.",,15,"cold evergreen needleleaf forest",1.29344872635855,844.116967197448,-6.68113683285466,-24.7556915540782,9.00659338875244,517.878592848471
5072,9971,17525,"Neotoma","Larkum Pond","WAP002",42.164722,-73.059722,380,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.34657350938518,3186.59078017689,7.23996695043439,-7.22796224438513,20.3578969421979,1115.12910568256
5073,9972,9325,"EMPDv2","LARU 520","Remazani_a7",36.5561111111111,51.5016666666667,520,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.134495575979408,6597.46430567674,18.075244673087,4.72294553816757,30.6152155447176,187.616054210951
5074,9973,20382,"SMPDSv1","Las Alforjetas","Barboni_a947",41.3975,-0.120417,352,"1","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.408841321982147,5284.14783226245,14.4771173486643,6.41316220239551,23.7428923734199,501.769106964596
5075,9974,10389,"IBERIA","Las Animas Mire","ANIMAS_0",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","-57","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9975,10390,"IBERIA","Las Animas Mire","ANIMAS_0.05",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","-41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9976,10391,"IBERIA","Las Animas Mire","ANIMAS_0.1",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","-27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9977,10392,"IBERIA","Las Animas Mire","ANIMAS_0.15",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","-13","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9978,10393,"IBERIA","Las Animas Mire","ANIMAS_0.2",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9979,10394,"IBERIA","Las Animas Mire","ANIMAS_0.25",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9980,10395,"IBERIA","Las Animas Mire","ANIMAS_0.3",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5075,9981,10396,"IBERIA","Las Animas Mire","ANIMAS_0.35",36.6858,-5.03,1403,"not known","terrestrial, bog/fen/swamp","core","39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.376909261926949,4791.53388209453,13.1274900879302,5.16398948403066,23.6890303897326,491.481226782092
5076,9982,13999,"Neotoma","Las Flores Arroyo","LASFLORE",33.291,-117.4605,6,"not known","terrestrial","excavation","-44","Anderson, R.S., and B.F. Byrd. 1998. Late-Holocene vegetation changes from the Las Flores Creek coastal lowlands, San Diego County, California. Madroño 45(2):171-182.",,20,"xerophytic woods/scrub",0.230752543741365,6479.71518906231,17.7526443535954,13.1766529087618,23.2757959869036,316.049395694341
5077,9983,10461,"IBERIA","Las Lanchas","LANCHAS_0.02",39.58576667,-4.894297222,800,"not known","terrestrial, bog/fen/swamp","core","-8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.402653295147659,4738.60431548214,12.9824775766634,4.90486030278617,23.0065394553546,499.40577289612
5077,9984,10462,"IBERIA","Las Lanchas","LANCHAS_0.04",39.58576667,-4.894297222,800,"not known","terrestrial, bog/fen/swamp","core","10","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.402653295147659,4738.60431548214,12.9824775766634,4.90486030278617,23.0065394553546,499.40577289612
5077,9985,10463,"IBERIA","Las Lanchas","LANCHAS_0.06",39.58576667,-4.894297222,800,"not known","terrestrial, bog/fen/swamp","core","29","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.402653295147659,4738.60431548214,12.9824775766634,4.90486030278617,23.0065394553546,499.40577289612
5077,9986,10464,"IBERIA","Las Lanchas","LANCHAS_0.08",39.58576667,-4.894297222,800,"not known","terrestrial, bog/fen/swamp","core","48","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.402653295147659,4738.60431548214,12.9824775766634,4.90486030278617,23.0065394553546,499.40577289612
5078,9987,20383,"SMPDSv1","Las Palanques 3","Barboni_a928",42.161944,2.443056,440,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.669090938982604,4761.23243552543,13.0444724260971,5.77612720233166,21.4816378389011,721.281269278415
5079,9988,9581,"EMPDv2","Las Pardillas","EPDcoretop_E1394",42.05,-3.05,1870,"0.005","lake","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.115505248626495,3027.43428625942,8.14505812806881,-0.895001604250458,20.2611230337927,155.073436956833
5080,9989,20384,"SMPDSv1","Las Pivnicki 1","PL/AFC/LP1",53.079856,18.551435,73,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.755959072411754,3086.815889757,8.14640882463648,-2.30655230781695,17.5607966692591,546.220632944537
5081,9990,20385,"SMPDSv1","Las Pivnicki 2","PL/AFC/LP2",53.083119,18.548054,76,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.757723319173275,3083.9945622661,8.13792417625775,-2.3105983587944,17.5504841243211,547.442867567068
5082,9991,20386,"SMPDSv1","Las Pivnicki 3","PL/AFC/LP3",53.091663,18.563504,75,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.757860298317281,3084.21551507051,8.13829246329152,-2.31157812620705,17.5509705580769,547.405833417421
5083,9992,20387,"SMPDSv1","Las Vaca","Barboni_a1454",37.21666667,-6.666666667,69.9615,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442445189220543,6438.67352569946,17.6402014402725,11.22847852653,25.1979401325592,584.008011865494
5084,9993,10397,"IBERIA","Las Vinuelas","VINUELAS_0.01",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","-56","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5084,9994,10398,"IBERIA","Las Vinuelas","VINUELAS_0.03",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","-35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5084,9995,10399,"IBERIA","Las Vinuelas","VINUELAS_0.04",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","-25","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5084,9996,10400,"IBERIA","Las Vinuelas","VINUELAS_0.06",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","-5","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5084,9997,10401,"IBERIA","Las Vinuelas","VINUELAS_0.08",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5084,9998,10402,"IBERIA","Las Vinuelas","VINUELAS_0.10",39.3744,-4.4884,761,"not known","terrestrial, bog/fen/swamp","core","37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.389455833759173,4908.81786913343,13.4488160798176,5.25353761704853,23.6703257101345,486.238353767125
5085,9999,13951,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","-14","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13952,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","-10","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13953,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","-6","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13954,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","0","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13955,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","4","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13956,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","10","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13957,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","16","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13958,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","20","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13959,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","26","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13960,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","37","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13961,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","45","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5085,9999,13962,"Neotoma","LaSalle Lake","MNHBLS",47.33732,-95.16525,422,"not known","lake","core","49","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.801809239897256,2944.80112025803,4.376937719788,-14.9914700823213,20.414547251182,642.935828344959
5086,10000,11011,"Bush et al., 2020","LasAlturas","LasAlturas",8.95,-82.8333,1494,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.18171669949855,6974.61658704791,19.1085385946518,18.2356499030829,19.8437994049948,3632.34732798935
5087,10001,11012,"Bush et al., 2020","Lasalturas.Bell","Lasalturas.Bell",8.95,-82.8333,1494,"not known","terrestrial","moss polster or moss","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.18171669949855,6974.61658704791,19.1085385946518,18.2356499030829,19.8437994049948,3632.34732798935
5088,10002,975,"Australian pollen","Lashmar's Lagoon","Lashmar's Lagoon",-35.8,138.067,10,"small (0.01-1 km2)","coastal, other","core top","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.439049819240226,5730.67567168051,15.7004812922754,11.4094941049166,20.3454803666306,522.287517053681
5089,10003,20388,"SMPDSv1","Laska","PL/AFC/L1_L2",53.933,17.512,150,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.881609292043753,2891.53220203678,7.6075019118125,-2.2531496689225,16.7830852836669,616.342429153771
5090,10004,20389,"SMPDSv1","Laska 3","PL/AFC/L3",53.93387,17.524052,150,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.881590115866516,2891.43517572925,7.60713814812799,-2.25368081455085,16.7827904449803,616.325871808829
5091,10005,20390,"SMPDSv1","Laspi","Crimea-30",44.42,33.7,17,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.501736226308728,4071.3517301794,11.0921050127556,-0.59970996444882,22.2087508415379,495.877170604709
5092,10006,20391,"SMPDSv1","Laspialade","Barboni_a131",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10007,20392,"SMPDSv1","Laspialade","Barboni_a132",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10008,20393,"SMPDSv1","Laspialade","Barboni_a133",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10009,20394,"SMPDSv1","Laspialade","Barboni_a134",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10010,20395,"SMPDSv1","Laspialade","Barboni_a135",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10011,20396,"SMPDSv1","Laspialade","Barboni_a136",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10012,20397,"SMPDSv1","Laspialade","Barboni_a137",45.41,2.7,943,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13897071045174,2946.04813748017,8.07136476021965,0.351385093170802,16.7108187164413,1015.92756503031
5092,10013,20398,"SMPDSv1","Laspialade","Barboni_a178",45.41,2.7,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13772610533315,2951.0082387707,8.08495407882384,0.365186446489641,16.7225437391374,1014.8051194586
5092,10014,20399,"SMPDSv1","Laspialade","Barboni_a179",45.41,2.7,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13772610533315,2951.0082387707,8.08495407882384,0.365186446489641,16.7225437391374,1014.8051194586
5092,10015,20400,"SMPDSv1","Laspialade","Barboni_a180",45.41,2.7,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13772610533315,2951.0082387707,8.08495407882384,0.365186446489641,16.7225437391374,1014.8051194586
5093,10016,11013,"Bush et al., 2020","LasPozas","LasPozas",16.34,-90.17,163,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.57219784444174,9366.68380255668,25.6621474042649,22.8314803897531,27.7505192076548,2603.86614834455
5094,10017,13560,"Neotoma","Last Lake","LASTLAKE",45.45,-95.24005,396,"not known","lake","core","-45","Unpublished data",,22,"steppe",0.777377135977909,3201.85020886546,5.66737204146886,-13.1820627199213,21.586818575818,657.44785449968
5094,10017,13561,"Neotoma","Last Lake","LASTLAKE",45.45,-95.24005,396,"not known","lake","core","44","Unpublished data",,22,"steppe",0.777377135977909,3201.85020886546,5.66737204146886,-13.1820627199213,21.586818575818,657.44785449968
5095,10018,12839,"Neotoma","Lateral Pond","LATPOND",65.942222,-135.514167,470,"not known","lake","core","-27","Ritchie, J.C. 1982. The modern and late-Quaternary vegetation of the Doll Creek area, North Yukon, Canada. New Phytologist 90:563-603.; Ritchie, J.C., and L.C. Cwynar. 1982. The Late Quaternary Vegetation of the North Yukon. Pages 113-126 in D.M. Hopkins, J.V. Matthews, Jr., C.E. Schweger, and S.B. Young, editors. Paleoecology of Beringia. Academic Press, New York, USA. 489p.",,15,"cold evergreen needleleaf forest",0.642429912790898,1192.89398615963,-8.60003476612369,-29.7500144765691,13.2650979425231,259.156843665871
5096,10019,20403,"SMPDSv1","Latvajarvi","Seppa_b28",64.811104,28.20045,246,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22504518419028,1648.94730036362,0.0722506189362162,-14.15339051244,14.6683940444769,546.33079134488
5097,10020,20404,"SMPDSv1","Latvalampi","Seppa_b35",64.18,30.32,254,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16362777383202,1774.61363426441,0.737413084258907,-13.5821701648058,15.443203417574,550.821665572757
5098,10021,6240,"EMPDv2","Latvia Lake","Binney2017_E2218",42.86,132.66,2,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.956324112941078,3165.73700355417,5.97577163167874,-11.7480275029421,21.4150796378262,757.337890783114
5099,10022,24460,"Southern Hemisphere pollen","Laukutu Swamp","Laukutu core",-9.4818,160.0768,20,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-46","Haberle, S.G., 1996. Explanations for palaeoecological changes on the northern plains of Guadalcanal, Solomon Islands: the last 3200 years. The Holocene, 6(3), pp.333-338.","10.1177/095968369600600307",1,"tropical evergreen broadleaf forest",2.42886748905713,9263.51626622493,25.3794966197943,24.676013253023,25.977313580764,3196.95526704179
5100,10023,20405,"SMPDSv1","Lauvtjern","Bjune_a79",59.3531164,7.30457759,633,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.48721421104054,1815.33269399146,3.73216456900005,-5.12370073784181,12.7029956823444,1383.9988094106
5101,10024,7123,"EMPDv2","Lavare","EPDcoretop_E2111",48.43,-0.92,205,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.95858089422294,3685.62675177679,10.0976075391145,3.56992526528504,17.1569363982492,747.022532549225
5102,10025,7351,"EMPDv2","Lavarone","Finsinger_a75",45.9364500786046,11.2530876275276,1114,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61594388482862,2236.02555607741,5.43669279922525,-3.50528603856592,14.214632750349,1331.16492172458
5103,10026,11014,"Bush et al., 2020","LaVega","LaVega",20.63,-101.85,1888,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.478194545494039,6732.95254479274,18.4464453281993,14.403507233088,21.8723501640579,753.957800321341
5104,10027,20406,"SMPDSv1","Lavera","Lopez_a160",40.0150833333333,-5.61944444444444,420,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425842573417215,5642.43803205152,15.4587343343877,7.53533789943647,25.0821283212699,529.400782043895
5104,10028,20407,"SMPDSv1","Lavera","Lopez_a161",40.0998333333333,-5.71763888888888,480,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430032484237881,5465.03013765482,14.9726853086433,7.07710414442281,24.5562832363181,532.199595870299
5104,10029,20408,"SMPDSv1","Lavera","Lopez_a162",40.08725,-5.73672222222222,510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430124068047143,5382.93781394961,14.7477748327386,6.85608826789202,24.3283171581509,531.83249153663
5104,10030,20409,"SMPDSv1","Lavera","Lopez_a163",40.0799444444444,-5.74725,490,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430577388506189,5437.53681092589,14.8973611258244,7.00641514815467,24.4756004145789,532.76217943829
5104,10031,20410,"SMPDSv1","Lavera","Lopez_a164",40.0818611111111,-5.74605555555555,480,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.43068406776188,5464.7783996635,14.9719956155164,7.08061451783898,24.5500710855993,533.051710455006
5104,10032,20411,"SMPDSv1","Lavera","Lopez_a165",40.0834722222222,-5.74513888888888,475,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.43073874509042,5478.36369086996,15.0092155914246,7.11759373152375,24.5872143725054,533.192267616965
5104,10033,20412,"SMPDSv1","Lavera","Lopez_a166",40.1178611111111,-5.77319444444444,630,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.453238957897358,5012.39994405335,13.7326025864475,5.94966139371076,23.1368490569467,553.076831860688
5104,10034,20413,"SMPDSv1","Lavera","Lopez_a167",40.1246111111111,-5.77305555555555,640,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.452882313263896,4984.97691351146,13.6574709959218,5.87304510450256,23.0633360283032,552.480016179415
5104,10035,20414,"SMPDSv1","Lavera","Lopez_a168",40.1264444444444,-5.77275,650,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.452405708952833,4957.93344555838,13.5833793028997,5.79707078980175,22.9917306575062,551.792799775463
5104,10036,20415,"SMPDSv1","Lavera","Lopez_a169",40.1304444444444,-5.77211111111111,670,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.451454711962549,4903.8374775988,13.4351711715036,5.64511345133233,22.8484379145887,550.416136763634
5104,10037,20416,"SMPDSv1","Lavera","Lopez_a170",40.0768055555555,-5.68925,450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428988953885469,5550.70132674059,15.2074008951797,7.30356876271559,24.8020023996301,531.799781093548
5104,10038,20417,"SMPDSv1","Lavera","Lopez_a171",40.0771111111111,-5.68758333333333,470,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428722530016716,5496.10140447683,15.0578120670598,7.15469468804323,24.6529951628571,531.136219797107
5104,10039,20418,"SMPDSv1","Lavera","Lopez_a172",40.0766388888888,-5.68677777777777,510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428269944935094,5386.83179494669,14.7584432738266,6.85720627071351,24.3541794496966,529.893586611648
5104,10040,20419,"SMPDSv1","Lavera","Lopez_a173",40.0771111111111,-5.68758333333333,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427901403402381,5277.38786164736,14.4585968812256,6.55958714842585,24.0543086647842,528.719445162266
5104,10041,20420,"SMPDSv1","Lavera","Lopez_a174",40.0751388888888,-5.68580555555555,560,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42771462546163,5250.30579710474,14.3843994441226,6.48548638859635,23.9809324309646,528.335660638415
5104,10042,20421,"SMPDSv1","Lavera","Lopez_a175",40.0757777777777,-5.68680555555555,520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.428155128588958,5359.55842559798,14.6837217139671,6.78295199969691,24.2796368142933,529.584242019844
5104,10043,20422,"SMPDSv1","Lavera","Lopez_a176",40.0758333333333,-5.68766666666666,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42838955761732,5414.18167194915,14.8333744436963,6.93173464967784,24.4289102816734,530.219968450224
5104,10044,20423,"SMPDSv1","Lavera","Lopez_a177",40.1006944444444,-5.71466666666666,500,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429718806639607,5410.51076450131,14.8233171630173,6.92810907284466,24.4078663829412,531.476631328474
5104,10045,20424,"SMPDSv1","Lavera","Lopez_a178",40.1004444444444,-5.71416666666666,500,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42969756899757,5410.56167210949,14.8234566359164,6.92814252639307,24.408179614204,531.455440785731
5104,10046,20425,"SMPDSv1","Lavera","Lopez_a179",40.101,-5.71355555555555,495,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429742615443362,5424.21117005722,14.8608525207047,6.96524033912903,24.4456110175078,531.594147704571
5104,10047,20426,"SMPDSv1","Lavera","Lopez_a180",40.10125,-5.71294444444444,490,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429782663851234,5437.88550152232,14.8983164425269,7.00238541371994,24.48315562104,531.729511714498
5104,10048,20427,"SMPDSv1","Lavera","Lopez_a181",40.1049166666666,-5.71286111111111,480,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429957726785387,5464.89995620432,14.9723286471351,7.07615934637586,24.556574588446,532.077882943983
5104,10049,20428,"SMPDSv1","Lavera","Lopez_a182",40.0994444444444,-5.71508333333333,510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429599806620854,5383.27123500102,14.7486883150713,6.85391630941402,24.3334157542679,531.167942976874
5104,10050,20429,"SMPDSv1","Lavera","Lopez_a183",40.0981388888888,-5.71344444444444,505,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429578082155232,5397.13498849931,14.786671201368,6.89130554831374,24.3719760754528,531.248902290384
5104,10051,20430,"SMPDSv1","Lavera","Lopez_a184",40.0978055555555,-5.71280555555555,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429606539922862,5410.85985655356,14.8242735795988,6.92855067924718,24.4097451611328,531.376780789515
5104,10052,20431,"SMPDSv1","Lavera","Lopez_a185",40.0975,-5.71491666666666,510,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429561574428495,5383.43818898946,14.7491457232588,6.85422388822805,24.3341948811464,531.141284416057
5104,10053,20432,"SMPDSv1","Lavera","Lopez_a186",40.0974444444444,-5.71497222222222,520,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429452020602278,5356.12159687458,14.6743057448619,6.77982717671547,24.2594674575677,530.832478315276
5104,10054,20433,"SMPDSv1","Lavera","Lopez_a187",40.1673888888888,-5.74858333333333,1726,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42281630073992,2205.1769562197,5.64950126905482,-2.19210745001438,15.2324151350324,492.986441531437
5104,10055,20434,"SMPDSv1","Lavera","Lopez_a188",40.1672222222222,-5.74808333333333,1705,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42283827493227,2248.32670266457,5.80632230341411,-2.0359464932621,15.3889466394532,493.674162992602
5104,10056,20435,"SMPDSv1","Lavera","Lopez_a189",40.1469722222222,-5.77108333333333,1059,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432512213553861,3856.33472860554,10.5653006263165,2.69938682942836,20.0812718854494,522.877837460222
5104,10057,20436,"SMPDSv1","Lavera","Lopez_a190",40.1253611111111,-5.75436111111111,1001,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434633654496113,4013.29512115261,10.9953290990482,3.13917230846577,20.5008978518744,526.424359760778
5104,10058,20437,"SMPDSv1","Lavera","Lopez_a191",40.1403055555555,-5.74008333333333,964,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.426440439157542,4140.07744262067,11.3426779249881,3.47183202413594,20.9212099814116,517.876237124008
5105,10059,14075,"Neotoma","Laysan Island Lake","LAYSAN",25.768,-171.7328,-16,"not known","lake","core","-40","Athens, J.S., J.V. Ward, and D.W. Blinn. 2004. Holocene paleoenvironment of Laysan Island, Northwestern Hawaiian Islands. Pacific Islands Ecoregion, Division of Ecological Services, U.S. Fish and Wildlife Service, Honolulu, Hawaii, USA.; Athens, J.S., J.V. Ward, and D.W. Blinn. 2007. Vegetation history of Laysan Island, northwestern Hawaiian Islands. Pacific Science 61(1):17-37.",,,"not applicable",,,,,,
5106,10060,16585,"Neotoma","LB02","LB02",57.893333,-75.605,180,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.29106669477261,812.706130687428,-6.89352558487783,-24.8655644120331,8.82628918059945,510.290827921137
5107,10061,13243,"Neotoma","LD Lake","SEPTILES",50.140278,-67.131944,122,"not known","lake","core","0","Mott, R.J. 1976. A Holocene pollen profile from the Sept-Iles area, Québec. Naturaliste Canadien 103:457-467.",,9,"cool mixed forest",1.62338040449917,2052.93534954418,1.57379992718404,-14.5742247822037,16.5088385421511,1047.42213604097
5108,10062,12855,"Neotoma","LDDsite5772","LITTRNLK",44.8,-76.683056,206,"not known","not known","core","10","Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.",,9,"cool mixed forest",1.11602259209757,2939.21406881369,5.58477838416968,-10.5635450930139,19.8436025320226,906.904052860845
5109,10063,20438,"SMPDSv1","Le Fourneau","EPDcoretop_E240",48.444444,-0.191667,276,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.999904041907318,3501.13452187507,9.59214937500018,2.88755838314336,16.7739458677601,765.423212129302
5110,10064,20439,"SMPDSv1","Le Grand Lemps","EPDcoretop_E379",45.473333,5.416667,500,"0.8","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.01020021394465,3689.42418605733,10.1080114686502,1.61668490445882,19.172925729292,945.352317009672
5111,10065,7098,"EMPDv2","Le Grand Montarnu","EPDcoretop_E2012",47.01,4.05,771,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.15454763687332,3081.58031535956,8.44266454516685,0.178009021184152,17.275739115537,995.200705538514
5112,10066,7145,"EMPDv2","Le Jolan","EPDcoretop_E2161",45.14,2.86,1120,"0.5","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.22973659456571,2615.03180959979,7.09065353165575,-0.633986331111872,15.8082988729742,1088.73945182921
5112,10067,20440,"SMPDSv1","Le Jolan","EPDcoretop_E813",45.139444,2.859167,1120,"0.5","terrestrial, bog/fen/swamp","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.2297247109852,2615.00733198636,7.09057785312269,-0.634042602392852,15.8082145070019,1088.73060678358
5113,10068,20441,"SMPDSv1","Le Loclat","EPDcoretop_E1216",47.018611,6.996806,435,"5e-04","lake","lacustrine core top","-36","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26668831208767,3395.19403016704,9.30190145251243,0.44800506905732,18.1067549075137,1017.68341291696
5114,10069,20442,"SMPDSv1","Le Mo","CH/WVDK/M5",46.546338,6.229588,1315,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71771048978302,2221.26322674669,5.66081205875304,-2.41900957535181,14.2301609039861,1405.50560534157
5115,10070,9200,"EMPDv2","Le Moe","EPDcoretop_E2361",46.55,6.23,1310,"0.02","terrestrial, bog/fen/swamp","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.71476424972638,2227.37798465399,5.68251174718987,-2.40115431343443,14.2534761812089,1403.22111563301
5116,10071,20443,"SMPDSv1","Le Moura","Barboni_a1275",43.462778,-1.537917,40,"8.6","terrestrial, bog/fen/swamp","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.0873666856435,4931.90022414434,13.5120554086146,6.99006249417862,20.4701623951022,1039.07331288889
5117,10072,20444,"SMPDSv1","Le Taurons","Barboni_a176",45.4,2.7,870,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10835110257856,3067.26550725213,8.40346714315652,0.688559583425493,16.9983177417279,988.588812219524
5117,10073,20445,"SMPDSv1","Le Taurons","Barboni_a177",45.4,2.7,870,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10835110257856,3067.26550725213,8.40346714315652,0.688559583425493,16.9983177417279,988.588812219524
5118,10074,7089,"EMPDv2","Le Vernay","EPDcoretop_E1985",47.26,4.08,595,"2.5","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.09333330396635,3345.62220348739,9.16608822873257,0.477776855492692,18.2210116539787,943.087921261761
5119,10075,7090,"EMPDv2","Le Verny des Brulons","EPDcoretop_E1986",47.32,4.12,565,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.07784384244131,3387.28698660582,9.28023831946799,0.618346563592468,18.2906955218179,926.847948166285
5120,10076,12840,"Neotoma","Leading Tickles","LEADINGT",49.471389,-55.473056,105,"not known","lake","core","-32","Anderson, T.W., and J.B. Macpherson. 1994. Wisconsinan late-glacial environmental change in Newfoundland: a regional review. Journal of Quaternary Science 9:171-178.; Blake, W., Jr. 1983. Geological Survey of Canada radiocarbon dates XXIII. Geological Survey of Canada Paper 83-7:5..; Macpherson, J.B., and T.W. Anderson. 1985. Further evidence of late glacial climate fluctuations from Newfoundland: pollen stratigraphy from a core from a north coast site. Current Research, Part B, Geological Survey of Canada Paper 85-1B:383-390.; McNeely, R., and S. McCuaig. 1991. Geological Survey of Canada radiocarbon dates XXIX. Geological Survey of Canada Paper 89-7:11-12.",,9,"cool mixed forest",1.77998361370173,2042.39443554598,3.53060435675856,-8.16909669455181,15.5966347450826,1097.30311749004
5121,10077,3579,"CMPD","Lechang","Lechang",30.42,90.99,4219,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.538525362927424,1813.26367327485,3.2750288476063,-6.96507831156886,12.0840952938206,649.128858377732
5122,10078,17425,"Neotoma","Lee Lake","TW133",42.08,-86.18,244,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",1.00509216297623,3784.70011045212,9.42525982145103,-5.33130227354181,22.5221994865295,906.607975507663
5123,10079,11546,"Neotoma","Legion Lake","SDCULE",43.76049,-103.462515,1527,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.411915097987159,2995.46761960152,6.93117286019475,-5.8975222121703,20.833961848891,402.511026091521
5124,10080,20446,"SMPDSv1","Lehmilampi","Seppa_b58",62.43,24.67,135,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00960194440059,2076.29405588756,3.10074872111675,-9.52574088812782,15.8539008111606,535.138237065909
5125,10081,8632,"EMPDv2","Leirbreen","Pardoe_c80",61.34,8.05,1540,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38308536110147,1012.82988225575,-1.07143775025009,-11.2535267996209,9.13281689238716,698.407847613187
5125,10082,8633,"EMPDv2","Leirbreen","Pardoe_c81",61.34,8.05,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.43431581206669,1034.64556736708,-0.907571853964978,-11.0301500277058,9.24678001436542,723.456527992061
5125,10083,8634,"EMPDv2","Leirbreen","Pardoe_c82",61.34,8.05,1460,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.48567190668161,1056.74538918956,-0.743705957679861,-10.8067732557907,9.36074313634367,748.505208370934
5125,10084,8635,"EMPDv2","Leirbreen","Pardoe_c83",61.34,8.05,1420,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.53715453600753,1079.06036521521,-0.579840061394745,-10.5833964838755,9.47470625832193,773.553888749807
5125,10085,8636,"EMPDv2","Leirbreen","Pardoe_c84",61.34,8.05,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56294388049039,1090.32963164277,-0.497907113252187,-10.471708097918,9.53168781931105,786.078228939244
5126,10086,20447,"SMPDSv1","Leirvatn","Bjune_a271",61.5466666666666,8.25833333333333,1401,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.59416224609531,1036.165539215,-0.801999785127078,-10.758432659823,9.22009895587542,784.166009281239
5127,10087,7184,"EMPDv2","Lej da la Tscheppa","EPDcoretop_E2357",46.45,9.75,2616,"0.0796","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.14831654456837,204.834444239236,-3.99538961639765,-10.2993273309636,2.56509987998724,2404.08202737377
5128,10088,7422,"EMPDv2","Lekvenvatnet","Hjelle_a11",60.1647449,5.4411613,39,"0.012","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.09211333460895,2658.90524457312,7.28467190294006,0.964458232329993,14.1863594825069,2163.51501996549
5129,10089,6267,"EMPDv2","Lena Delta_1","Binney2017_E2394",72.84,125.82,9,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.798769273528736,1011.94156583467,-16.7115908933233,-45.416915877969,13.1768353254859,253.615180910211
5130,10090,6268,"EMPDv2","Lena Delta_2","Binney2017_E2395",73.39,126.61,4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.793423517547598,1017.92778762883,-16.8275624112177,-45.7188502138392,13.2093799572144,250.745427818486
5131,10091,6269,"EMPDv2","Lena Delta_3","Binney2017_E2396",72.38,126.52,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.797988352016017,1033.70949373037,-16.7706697434073,-45.8037363142347,13.3513202091585,256.513487933459
5132,10092,14740,"Neotoma","Leonora Curtin","LEONORA",35.56948,-106.106515,1850,"not known","artificial water body","core","20","Edwards, K.W. 2015. Environmental dimensions of colonial settlement: A palynological investigation of La Cienega, New Mexico. Master's thesis. University of Massachusetts Boston, Boston, Massachusetts, USA.",,17,"temperate evergreen needleleaf open woodland",0.284690395286639,3813.03099191988,10.3754298053016,-0.642123332389853,21.6059225873945,379.403900004284
5133,10093,20448,"SMPDSv1","Lerbackstjarnen","Seppa_b153",62.589294,16.502783,257,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22436826087204,1743.04984423749,1.77383116505861,-10.3433170544776,13.7459837932821,614.633403229825
5134,10094,20450,"SMPDSv1","Lerchwald","Lerchwald_B",47.46766,11.00941,900,"not known","terrestrial","moss polster or moss","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40532234528302,2527.53050309523,6.43513418438061,-2.7618815821306,15.2692972532544,1092.67559045111
5134,10095,20449,"SMPDSv1","Lerchwald","Lerchwald_C",47.46767,11.00942,900,"not applicable","terrestrial, soil","surface sample","-42","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40532201157988,2527.53041385247,6.43513345624868,-2.76188382812528,15.2692971117911,1092.67517256352
5135,10096,7186,"EMPDv2","Les Amburnex","EPDcoretop_E2359",46.54,6.23,1370,"0.002","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.75470662298497,2151.57777509376,5.41036174398369,-2.62789966732504,13.9599082316589,1432.27530825944
5136,10097,20451,"SMPDSv1","Les Echets (ECHETS 77)","Barboni_a949",45.82,4.92,228.935,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.906854018263275,4015.88688661423,11.0024298263404,2.30418561723349,20.0258327126983,822.974753126891
5137,10098,7150,"EMPDv2","Les Laubies","EPDcoretop_E2185",44.47,3.65,1380,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.40193373926109,2087.19378033158,5.21372236820165,-2.51392957793239,13.8822195391062,1173.37468948168
5138,10099,7101,"EMPDv2","Les Naudieres","EPDcoretop_E2017",47.54,0.7,101,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.814201970361612,4071.32801698348,11.1543233342013,4.03928564972836,18.8041546540261,676.062218261859
5139,10100,20452,"SMPDSv1","Les Palanques","Palanques_core top",42.1622222,2.43805556,460,"91","lacustrine, drained lake","lacustrine core top","31","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.6736152133821,4724.54639929698,12.9439627377999,5.67492470142152,21.3866961602972,725.159766551848
5140,10101,7130,"EMPDv2","Les Tannieres","EPDcoretop_E2121",46.51,1.36,190,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.866220008523593,4052.23482719397,11.1020132251889,3.68055551630001,19.0913052704295,741.559379895746
5141,10102,8083,"EMPDv2","Lesnaya","Mikishin-Gvozdeva_a146",46.5591666666667,143.360277777778,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6030980500877,2313.53714096716,3.65915106098947,-10.3421334044749,17.2940698608413,1014.60919788277
5142,10103,20453,"SMPDSv1","Lesunovo","Lesunovo 2014_SS",55.05157,41.10937,100,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.848252298901927,2726.08858686504,4.64636448830814,-11.1492646558411,18.8467551704215,587.297078785867
5142,10104,20454,"SMPDSv1","Lesunovo","Lesunovo 7_SS",55.1421,40.9499,102,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.843992276358184,2734.01096007524,4.68002907754284,-11.1044641256064,18.866677348343,584.683117017689
5142,10105,9416,"EMPDv2","Lesunovo","Novenko_c291",55.05157,41.10937,115,"0.01","terrestrial, soil","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.838683282629551,2743.95293361113,4.71231697442993,-11.0667232191161,18.8950195383622,584.346849846954
5142,10106,9559,"EMPDv2","Lesunovo","Novenko_c42",55.1435,40.9255,92,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847689895452782,2726.74558340131,4.65312208737358,-11.1438909656312,18.8494627283352,585.421345106189
5142,10107,9560,"EMPDv2","Lesunovo","Novenko_c43",55.1417,40.9242,116,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.837348988404285,2746.22933812346,4.72755012665578,-11.0349280508194,18.8946182511814,582.851320900351
5142,10108,9561,"EMPDv2","Lesunovo","Novenko_c44",55.1406,40.9246,105,"0.01","terrestrial","litter","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.842049473678785,2737.29470492527,4.69347692790834,-11.0847332823004,18.8738215930076,584.031634585896
5142,10109,9562,"EMPDv2","Lesunovo","Novenko_c45",55.1385,40.9419,93,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847777624441118,2726.70030244977,4.65257680496245,-11.1438483978674,18.8491286941679,585.607393896538
5142,10110,9563,"EMPDv2","Lesunovo","Novenko_c46",55.1233,40.9167,97,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.845199265436251,2730.848930327,4.66969202077162,-11.1184996694488,18.857759078977,584.856959507254
5142,10111,9564,"EMPDv2","Lesunovo","Novenko_c47",55.1213,40.9112,90,"0.01","terrestrial, soil","soil sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.848125180929947,2725.2411085551,4.6487284665784,-11.1487457569058,18.8442680268714,585.569850269703
5142,10112,9565,"EMPDv2","Lesunovo","Novenko_c48",55.1421,40.9499,102,"0.01","terrestrial","litter","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.843992276358184,2734.01096007524,4.68002907754284,-11.1044641256064,18.866677348343,584.683117017689
5143,10113,12841,"Neotoma","Lewis Lake","LEWISLK",45.749444,-93.364167,295,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.87166628914961,3371.84982630602,6.64272097512471,-11.7130214025144,22.1420604823998,732.918592657232
5143,10113,12842,"Neotoma","Lewis Lake","LEWISLK",45.749444,-93.364167,295,"not known","lake","core","12","Unpublished data",,9,"cool mixed forest",0.87166628914961,3371.84982630602,6.64272097512471,-11.7130214025144,22.1420604823998,732.918592657232
5143,10113,12843,"Neotoma","Lewis Lake","LEWISLK",45.749444,-93.364167,295,"not known","lake","core","40","Unpublished data",,9,"cool mixed forest",0.87166628914961,3371.84982630602,6.64272097512471,-11.7130214025144,22.1420604823998,732.918592657232
5144,10114,3580,"CMPD","Lhasa","Lhasa",25.08,113.1,775,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3680127658239,5989.53507552618,16.4096851384279,5.46840555456292,26.3623074468913,1564.95924934017
5145,10115,3581,"CMPD","Liangtian","Liangtian",25.63,113.03,280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33019793182686,6644.76732167059,18.2048419771797,7.02935009995236,28.462080913872,1529.30071493437
5146,10116,9831,"Herzschuh et al., 2019","Liangwang Mt","Liangwang Mt 1",25.465,102.955,2820,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.835822063501121,3472.8704545855,9.51471357420686,1.85129631173218,16.0517493263961,1005.14201780062
5146,10117,3582,"CMPD","Liangwang Mt","Liangwang Mt 2",25.4667,102.95,2725,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.83556074730252194,3697.75761437624,10.130842779113,2.50229777671539,16.5444965859466,1012.58503707571
5146,10118,9832,"Herzschuh et al., 2019","Liangwang Mt","Liangwang Mt 3",25.465,102.955,2495,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.835012533091375,4244.65756996841,11.6291988218313,4.08692484575174,17.7436592128032,1030.64376819747
5146,10119,9833,"Herzschuh et al., 2019","Liangwang Mt","Liangwang Mt 4",25.465,102.955,2295,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.83514731859249,4719.60348712712,12.9304205126771,5.46269625130223,18.7848345275153,1046.33715305707
5146,10120,9834,"Herzschuh et al., 2019","Liangwang Mt","Liangwang Mt 5",25.465,102.955,2155,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.835522797719328,5052.06562913822,13.8412756962691,6.42573623518757,19.5136572478137,1057.32252245879
5146,10121,3583,"CMPD","Liangwang Mt","Liangwang Mt z1",24.77,102.91,2495,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.813831452127614,4375.72883074005,11.9882981664111,4.58584006437484,17.8987932718832,1036.69931438957
5146,10122,3584,"CMPD","Liangwang Mt","Liangwang Mt z2",24.81,102.9,2155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.827570873583917,5094.7581503495,13.9582415078068,6.68657163236145,19.4604624213432,1062.2085814476
5146,10123,3585,"CMPD","Liangwang Mt","Liangwang Mt z3",24.81,102.91,2820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.803680795454587,3681.8981327853,10.0873921446172,2.55705563844509,16.3947159525928,1012.62135362709
5146,10124,3586,"CMPD","Liangwang Mt","Liangwang Mt z4",24.81,102.9,2295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.822084437824007,4797.03486140157,13.1425612641139,5.81610932339499,18.8144312500722,1051.71194910094
5146,10125,3587,"CMPD","Liangwang Mt","Liangwang Mt z5",24.76,102.91,2725,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.805229401936279,3889.76276824463,10.6568842965606,3.16500520232701,16.8444800012241,1019.31776842235
5146,10126,3588,"CMPD","Liangwang Mt","Liangwang Mt z6",24.81,102.91,2820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.803680795454587,3681.8981327853,10.0873921446172,2.55705563844509,16.3947159525928,1012.62135362709
5147,10127,3589,"CMPD","Lianyungang","Lianyungang",34.8,119.4,0,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.805749196474296,5080.84428048244,13.9201213163902,0.364760910311557,26.4445164824133,879.080076877495
5148,10128,9641,"Gaillard et al., 1992","Liarum","Liarum A",55.954,13.847515,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02806928131548,2654.81884843029,6.88218605835818,-2.10405503849341,16.0344215844554,675.584459835176
5148,10129,9642,"Gaillard et al., 1992","Liarum","Liarum B",55.954,13.847515,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02806928131548,2654.81884843029,6.88218605835818,-2.10405503849341,16.0344215844554,675.584459835176
5148,10130,9643,"Gaillard et al., 1992","Liarum","Liarum C",55.954,13.847515,124,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02806928131548,2654.81884843029,6.88218605835818,-2.10405503849341,16.0344215844554,675.584459835176
5149,10131,15247,"Neotoma","Liberty","AMD014",43.52,-90.78,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.922742200095268,3470.51343003821,7.42824493796596,-9.9264031764413,22.1150957201503,816.046661958486
5150,10132,7166,"EMPDv2","Liffey Head Bog","EPDcoretop_E2248",53.15,-6.28,505,"17","terrestrial, blanket bog","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.0325641057460424,2543.50092845856,6.96849569440702,2.13667027858686,13.2299332052956,18.5964290602167
5151,10133,976,"Australian pollen","Lighthouse Swamp","Lighthouse Swamp",-32,115.75,25,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.476694187836468,6656.52102413799,18.2370439017479,13.2334254653215,24.3898968416391,693.932769290386
5152,10134,14794,"Neotoma","Lignumvitae Key","LIGNUMV",24.90197,-80.699085,1,"not known","coastal, lacustrine","core","-27","Kaplan, S.W. 2003. Peat records of late Holocene climate and sea-level change in south Florida. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,17,"temperate evergreen needleleaf open woodland",0.789306882082826,9055.14633722616,24.8086201019895,20.1398333847651,28.6635953474443,1191.67930471666
5153,10135,20455,"SMPDSv1","Likolampi","Seppa_b25",64.83,29.52,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1401355621214,1792.94598854609,0.902505181400721,-13.3434991449733,15.3976313551927,532.297892237206
5154,10136,20456,"SMPDSv1","Lilla Gloppsjon","EPDcoretop_E382",59.804444,14.627778,198,"0.5","lake","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14999377427266,2103.5859365116,4.00897554199887,-6.63001324069677,14.8495318231652,659.169967278184
5155,10137,9644,"Gaillard et al., 1992","Lilla Horns","Lilla Horns",57.086669,16.911268,11,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.873566837669128,2664.88639797506,7.01112150235573,-1.74076346079887,16.3312199423322,563.089253357007
5156,10138,20457,"SMPDSv1","Lillevatn","Bjune_a129",59.6245788,10.18603454,143,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44710991157373,2339.66652077595,5.31245547346154,-4.88523097924025,15.6141494984802,851.610335019996
5157,10139,9645,"Gaillard et al., 1992","Lillo","Lillo A",56.163202,15.78208,-1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.855099931387938,2812.11260693608,7.49590858499776,-1.24185674982121,16.690485558914,571.306706343581
5157,10140,9646,"Gaillard et al., 1992","Lillo","Lillo B",56.163202,15.78208,-1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.855099931387938,2812.11260693608,7.49590858499776,-1.24185674982121,16.690485558914,571.306706343581
5158,10141,20458,"SMPDSv1","Lillo-2","Barboni_a950",43.07,-5.23,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.654220733108568,3009.34937109655,8.2447927975248,0.203364322342012,17.7741619071644,735.64347990921
5159,10142,20459,"SMPDSv1","Lilltrasket","Seppa_b71",59.97,23.25,35,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04167695441177,2347.90598976722,4.89306349179525,-6.26850941657062,16.2845232511286,594.262054730464
5160,10143,14415,"Neotoma","Lily Lake","LILY04",45.9009999999999,-92.273,297,"not known","lake","core","-52","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.907496448251212,3160.63122011793,5.91760821579133,-12.0666643114292,21.1502024103424,740.467062838252
5160,10143,14416,"Neotoma","Lily Lake","LILY04",45.9009999999999,-92.273,297,"not known","lake","core","4","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.907496448251212,3160.63122011793,5.91760821579133,-12.0666643114292,21.1502024103424,740.467062838252
5160,10143,14417,"Neotoma","Lily Lake","LILY04",45.9009999999999,-92.273,297,"not known","lake","core","19","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.907496448251212,3160.63122011793,5.91760821579133,-12.0666643114292,21.1502024103424,740.467062838252
5160,10143,14418,"Neotoma","Lily Lake","LILY04",45.9009999999999,-92.273,297,"not known","lake","core","37","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.907496448251212,3160.63122011793,5.91760821579133,-12.0666643114292,21.1502024103424,740.467062838252
5160,10144,14076,"Neotoma","Lily Lake","LILYCA",41.976925,-120.210015,2047,"not known","lake","core","-43","Minckley, T.A., C. Whitlock, and P.J. Bartlein. 2007. Vegetation, fire, and climate history of the northwestern Great Basin during the last 14,000 years. Quaternary Science Reviews 26:2167-2184.",,17,"temperate evergreen needleleaf open woodland",0.351217671113926,2391.62275486273,5.77622446738728,-3.83244508163614,17.4546999567408,376.000429268303
5160,10145,12844,"Neotoma","Lily Lake","LILYLAKE",45.0481599999999,-92.823905,258,"not known","lake","core","-2","Brugam, R.B., E.C. Grimm, and N.M. Eyster-Smith. 1988. Holocene environmental changes in Lily Lake, Minnesota inferred from fossil diatom and pollen assemblages. Quaternary Research 30(1):53-66.","10.1016/0033-5894(88)90087-7",9,"cool mixed forest",0.858298656531933,3465.29450881172,7.02276747346512,-11.39274760568,22.5398495691457,733.761698542928
5160,10145,12845,"Neotoma","Lily Lake","LILYLAKE",45.0481599999999,-92.823905,258,"not known","lake","core","49","Brugam, R.B., E.C. Grimm, and N.M. Eyster-Smith. 1988. Holocene environmental changes in Lily Lake, Minnesota inferred from fossil diatom and pollen assemblages. Quaternary Research 30(1):53-66.","10.1016/0033-5894(88)90087-7",9,"cool mixed forest",0.858298656531933,3465.29450881172,7.02276747346512,-11.39274760568,22.5398495691457,733.761698542928
5160,10146,12846,"Neotoma","Lily Lake","LILYLK",43.766667,-110.316667,2469,"not known","lake","core","0","Steventon, R.L., and J.E. Kutzbach. 1988. University of Wisconsin radiocarbon dates XXV. Radiocarbon 30:367-383.; Whitlock, C. 1993. Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63:173-198.; Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.",,17,"temperate evergreen needleleaf open woodland",0.515459782069501,1830.52411278322,2.31838189792257,-9.01390374897721,14.9338589581942,460.331046711324
5161,10147,20460,"SMPDSv1","Lily Perch","Bunting_b9",58.079705302861,-5.2544143338381,230,"0.003","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.96172912479698,2497.7573436235,6.84317080444795,2.11439463339464,12.1558387499046,1890.01285101459
5162,10148,11888,"Neotoma","Lily Pond","BU409",46.8478999999999,-87.8310549999999,256,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.04585147668474,2626.52657574718,4.10799713574858,-12.2810990497424,18.5913550214864,784.580796529479
5162,10149,14077,"Neotoma","Lily Pond","LILYMASS",42.417875,-72.34693,303,"not known","lake","core","-43","Foster, D.R., S. Clayden, D.A. Orwig, B. Hall, and S. Barry. 2002. Oak, chestnut and fire: climatic and cultural controls of long-term forest dynamics in New England, USA. Journal of Biogeography 29:1359-1379.",,9,"cool mixed forest",1.32336764818969,3246.69461278422,7.5368175962924,-6.74397230398323,20.5803730733582,1101.96799294076
5162,10149,14078,"Neotoma","Lily Pond","LILYMASS",42.417875,-72.34693,303,"not known","lake","core","-18","Foster, D.R., S. Clayden, D.A. Orwig, B. Hall, and S. Barry. 2002. Oak, chestnut and fire: climatic and cultural controls of long-term forest dynamics in New England, USA. Journal of Biogeography 29:1359-1379.",,9,"cool mixed forest",1.32336764818969,3246.69461278422,7.5368175962924,-6.74397230398323,20.5803730733582,1101.96799294076
5162,10149,14079,"Neotoma","Lily Pond","LILYMASS",42.417875,-72.34693,303,"not known","lake","core","7","Foster, D.R., S. Clayden, D.A. Orwig, B. Hall, and S. Barry. 2002. Oak, chestnut and fire: climatic and cultural controls of long-term forest dynamics in New England, USA. Journal of Biogeography 29:1359-1379.",,9,"cool mixed forest",1.32336764818969,3246.69461278422,7.5368175962924,-6.74397230398323,20.5803730733582,1101.96799294076
5162,10149,14080,"Neotoma","Lily Pond","LILYMASS",42.417875,-72.34693,303,"not known","lake","core","44","Foster, D.R., S. Clayden, D.A. Orwig, B. Hall, and S. Barry. 2002. Oak, chestnut and fire: climatic and cultural controls of long-term forest dynamics in New England, USA. Journal of Biogeography 29:1359-1379.",,9,"cool mixed forest",1.32336764818969,3246.69461278422,7.5368175962924,-6.74397230398323,20.5803730733582,1101.96799294076
5163,10150,14145,"Neotoma","Lily Warwick","LILYWAR",42.68839,-72.337185,269,"not known","lake","core","-36","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.31998001152203,3293.47164916072,7.75473614533456,-6.40730110588426,20.741141437514,1101.5250536742
5163,10150,14146,"Neotoma","Lily Warwick","LILYWAR",42.68839,-72.337185,269,"not known","lake","core","-19","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.31998001152203,3293.47164916072,7.75473614533456,-6.40730110588426,20.741141437514,1101.5250536742
5163,10150,14147,"Neotoma","Lily Warwick","LILYWAR",42.68839,-72.337185,269,"not known","lake","core","-1","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.31998001152203,3293.47164916072,7.75473614533456,-6.40730110588426,20.741141437514,1101.5250536742
5163,10150,14148,"Neotoma","Lily Warwick","LILYWAR",42.68839,-72.337185,269,"not known","lake","core","18","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.31998001152203,3293.47164916072,7.75473614533456,-6.40730110588426,20.741141437514,1101.5250536742
5163,10150,14149,"Neotoma","Lily Warwick","LILYWAR",42.68839,-72.337185,269,"not known","lake","core","36","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.31998001152203,3293.47164916072,7.75473614533456,-6.40730110588426,20.741141437514,1101.5250536742
5164,10151,14081,"Neotoma","Lilypad Lake","LILYPDCA",36.98229,-118.99407,1982,"not known","lake","core","-40","Edlund, E.G. 1996. Late Quaternary environmental history of montane forests of the Sierra Nevada. Doctoral dissertation. University of California Berkeley, Berkeley, California, USA.",,8,"cool evergreen needleleaf forest",0.469619878888983,3246.57864966722,8.89473602648554,0.578785014334211,19.218830979184,603.103966580809
5165,10152,7254,"EMPDv2","Lim-1","Fall_b27",34.7932399999999,33.1648399999999,477,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.359685515659894,6259.89453382239,17.150395983075,8.46539175678631,25.9836190755988,542.338628098738
5166,10153,6984,"EMPDv2","Limni Voulkaria","EPDcoretop_E1420",38.844167,20.833889,3,"10","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.538668181889172,6361.83216244078,17.429677157372,9.90712758157133,25.7919888967868,737.400075365372
5166,10154,22319,"SMPDSv1","Limni Voulkaria","Jahns_b4",38.844167,20.833889,3,"10","lake","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.538668181889172,6361.83216244078,17.429677157372,9.90712758157133,25.7919888967868,737.400075365372
5167,10155,11015,"Bush et al., 2020","Limon","Limon",-6.72,-76.248,904,"not known","lake","lake surface sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.950654750662935,8436.23135277881,23.1129626103529,22.267029612477,23.7518496732349,1269.20605636948
5168,10156,17403,"Neotoma","Lincoln Lake","TW110",43.27,-85.35,255,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.969235759435764,3366.3384370744,7.88720391331261,-6.52274779537302,21.2253568052966,829.146910219303
5169,10157,3590,"CMPD","Lingao","Lingao",19.9,109.6,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3633610634035,8896.90726473636,24.375088396538,17.5668110617345,29.2176480981668,1782.73400673963
5170,10158,3591,"CMPD","Lingdingyang","Lingdingyang",22.47,113.3,-18,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
5171,10159,20461,"SMPDSv1","Lingreville","EPDcoretop_E1344",48.929722,-1.543056,5,"not applicable","coastal, estuarine","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13381510013597,4132.89604272595,11.3230028567834,5.73775624459286,17.4914317415036,888.565370267094
5172,10160,11973,"Neotoma","Linkins Lake","SM-LNK",39.128535,-106.588609999999,3639,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.636363361347681,726.95961115163,-3.76233825020789,-14.9607064674847,7.68071313971392,566.417715430381
5173,10161,9647,"Gaillard et al., 1992","Linnebjar","Linnebjar",56.317381,14.250082,97,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.977122207409665,2702.42846267657,7.0656481890087,-1.87545300322258,16.2186722042628,643.197218226901
5173,10162,9648,"Gaillard et al., 1992","Linnebjar","Linnebjar B",56.317381,14.250082,97,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.977122207409665,2702.42846267657,7.0656481890087,-1.87545300322258,16.2186722042628,643.197218226901
5174,10163,7407,"EMPDv2","Linowek Lake, Suwalski Landscape Park","Galka_a2",54.2234166666667,22.8416638888889,198,"0.0274","lake","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.801798714250376,2865.13864869602,6.94695663016336,-4.91229419555955,17.312171393463,556.973678446304
5175,10164,13673,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","-1","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13674,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","-1","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13675,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","0","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13676,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","2","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13677,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","3","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13678,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","5","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13679,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","7","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13680,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","7","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13681,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","18","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13682,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","23","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13683,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","29","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13684,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","30","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5175,10164,13685,"Neotoma","Linsley Pond","LINSLEY",41.317115,-72.784335,9,"not known","lake","core","42","Brugam, R.B. 1978. Pollen indicators of land-use change in southern Connecticut. Quaternary Research 9:349-362.",,13,"temperate deciduous broadleaf forest",1.22891074684723,4105.01299846615,11.0440239729324,-1.60924482569791,23.0131205985222,1150.52283142073
5176,10165,7442,"EMPDv2","Lintjorna","Hjelle_a31",59.5308533,5.6562139,125,"0.042","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.60654294478622,2537.40429586237,6.95179259140377,0.230575075317577,14.1252807055723,1955.23653682862
5177,10166,15234,"Neotoma","Linton","AMD001",43.15,-91.28,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.911607732221458,3502.39287359434,7.47209267313895,-10.1223066716151,22.2542285580963,814.131063164843
5178,10167,6241,"EMPDv2","Lipigi","Binney2017_E2220",49.54,43.44,68,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.413919643197884,3700.50629443275,8.56308814974643,-7.33349196818097,23.3145121518842,376.999154839253
5179,10168,9323,"EMPDv2","LIRSARA","Remazani_a5",36.5716666666667,51.52,300,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.11886961030572,6969.41108571571,19.0942769471663,5.92545511450609,31.4965815108449,166.074619122069
5180,10169,9324,"EMPDv2","LIRSARA 400","Remazani_a6",36.5641666666667,51.5172222222222,400,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.125903202291168,6801.05404788595,18.6330247887286,5.38119538899407,31.097499546747,175.791155011425
5181,10170,20462,"SMPDSv1","Lisletjonn","Bjune_a196",59.3433333333333,7.30833333333333,518,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.59729501011116,1920.50161214997,4.22903157847206,-4.53629091636604,13.0966111638437,1450.72138879921
5182,10171,20463,"SMPDSv1","Lissac","Miras_c1",45.6105444444444,2.05399444444444,887,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12750430635755,3017.04140066895,8.26586685114781,0.582743560675221,16.7873348837367,987.17944734167
5182,10172,20464,"SMPDSv1","Lissac","Miras_c10",45.6065027777777,2.04721111111111,834,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10619144326413,3109.40233515661,8.51891050727837,0.845993247918497,17.0098151991385,970.024216460544
5182,10173,20465,"SMPDSv1","Lissac","Miras_c11",45.6064444444444,2.04740277777777,833,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10578712350234,3111.15001622634,8.52369867459272,0.850975727193664,17.0140322379677,969.699883666017
5182,10174,20466,"SMPDSv1","Lissac","Miras_c12",45.6063,2.04733611111111,832,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10538233032885,3112.89905187846,8.52849055309166,0.855960296994138,17.0182534557419,969.375662744538
5182,10175,20467,"SMPDSv1","Lissac","Miras_c13",45.6040694444444,2.04608055555555,828,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10370569984967,3119.9821654497,8.54789634369781,0.876114923485202,17.0354753337279,968.066919317103
5182,10176,20468,"SMPDSv1","Lissac","Miras_c14",45.6043888888888,2.04611388888888,826,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10292027936247,3123.44671932781,8.55738827213099,0.886000414086542,17.0437846225343,967.42389720149
5182,10177,20469,"SMPDSv1","Lissac","Miras_c2",45.6100333333333,2.05137499999999,867,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1194947780049,3051.82107807224,8.36115363855408,0.681882699409263,16.8710152142227,980.712541361417
5182,10178,20470,"SMPDSv1","Lissac","Miras_c3",45.6085916666666,2.05444444444444,894,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13022269986006,3004.97110956279,8.232797560446,0.548299994459567,16.7584821402871,989.420149778062
5182,10179,20471,"SMPDSv1","Lissac","Miras_c4",45.6079277777777,2.05473055555555,894,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13019016444103,3005.01130460911,8.23290768386057,0.548405428598129,16.7586498019457,989.412056172553
5182,10180,20472,"SMPDSv1","Lissac","Miras_c5",45.6076583333333,2.05083055555555,869,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12019981012743,3048.46037958657,8.35194624544265,0.672255162199709,16.8631352541275,981.335018532489
5182,10181,20473,"SMPDSv1","Lissac","Miras_c6",45.6072361111111,2.05043055555555,864,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11818367146116,3057.18038976548,8.37583668428899,0.697108935473329,16.8841506467708,979.715508987457
5182,10182,20474,"SMPDSv1","Lissac","Miras_c7",45.6069472222222,2.05123888888888,869,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12016413175305,3048.5070674454,8.35207415738466,0.672377456349674,16.8633261398847,981.326368105363
5182,10183,20475,"SMPDSv1","Lissac","Miras_c8",45.6068694444444,2.04773333333333,835,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10660020252889,3107.64694823197,8.51410122803279,0.840995081583346,17.0055704684385,970.348981556891
5182,10184,20476,"SMPDSv1","Lissac","Miras_c9",45.6065944444444,2.04732222222222,834,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1061939809892,3109.39850254116,8.51890000696208,0.845984128256055,17.0098004528977,970.024704153534
5183,10185,20477,"SMPDSv1","Lissel-Ecklingen","Seppa_b152",61.78,16.5,111,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14041226027848,1944.3172081469,3.23069092667336,-7.77902691781724,14.5713795754295,605.28147323468
5184,10186,7439,"EMPDv2","Listjorna","Hjelle_a28",59.622575,5.5861361,25,"0.004","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.67840967999814,2720.65020436092,7.4538361763313,0.960935213638404,14.4348317909817,1990.50253554637
5185,10187,20478,"SMPDSv1","LITH-1","Seppa_c1",55.22,25.87,155,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.965092716286922,2697.10091199608,5.96943901472481,-6.49912004567579,17.0425804037042,635.936083143623
5186,10188,20479,"SMPDSv1","Lith-10","Seppa_l1",54.55,24.7,176,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.933859798170408,2792.25798543737,6.43595914002806,-5.97040523286677,17.2894099364602,624.578921669523
5187,10189,20480,"SMPDSv1","Lith-11","Seppa_m1",54.2,23.98,110,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.892855681651977,2792.36971337863,6.55936225651753,-5.43840667567542,17.1498178929024,611.277369589843
5188,10190,20481,"SMPDSv1","Lith-12","Seppa_n1",54.22,24.18,123,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.889495713708442,2802.52434670827,6.58577536644027,-5.47443146895934,17.2028958346955,607.955705509396
5189,10191,20482,"SMPDSv1","Lith-13","Seppa_o1",54.37,24.65,140,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.912996061731475,2781.59579964028,6.44208952650624,-5.77928877620704,17.1985968401484,616.285523339159
5190,10192,20483,"SMPDSv1","Lith-14","Seppa_p1",54.38,24.28,178,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.912467214697165,2811.24957635283,6.53710100238706,-5.82336456212488,17.3308048313176,614.814399942749
5191,10193,20484,"SMPDSv1","Lith-15","Seppa_q1",54.28,24.2,130,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.895025982605204,2791.78883821703,6.53840446780558,-5.52713157362964,17.1768683826168,609.386654571861
5192,10194,20485,"SMPDSv1","Lith-16","Seppa_r1",54.12,23.63,140,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.865945184929689,2831.39736962714,6.75396410494744,-5.19666407509438,17.2491943779834,597.775233460545
5193,10195,20486,"SMPDSv1","Lith-17","Seppa_s1",54.35,24.43,131,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.905811624680729,2780.98942111723,6.45903582688319,-5.69867403586669,17.1761931474187,613.227521275476
5194,10196,20487,"SMPDSv1","Lith-18","Seppa_t1",54.03,23.35,134,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.867623395586686,2829.24039502941,6.76296160879171,-5.12962946644364,17.2221091049374,600.828715868651
5195,10197,20488,"SMPDSv1","Lith-19","Seppa_u1",54.07,23.78,118,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.883296446158134,2804.70985724977,6.61559840804808,-5.38108626226396,17.1875229910821,607.100072263455
5196,10198,20489,"SMPDSv1","Lith-2","Seppa_d1",55.55,25.93,178,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.982352033410864,2687.17805466397,5.88740624699756,-6.70774770593358,17.0452144967587,643.352237760689
5197,10199,20490,"SMPDSv1","Lith-3","Seppa_e1",55.18,25.9,148,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.96319943015099,2691.31720287681,5.95556096134439,-6.4750153978524,17.0169777610707,634.499874275996
5198,10200,20491,"SMPDSv1","Lith-4","Seppa_f1",55.18,25.77,143,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.962911567134808,2689.93644156488,5.9626806712138,-6.42924924978912,17.0017748525327,633.724076217072
5199,10201,20492,"SMPDSv1","Lith-5","Seppa_g1",55.2,25.5,156,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.968835844486219,2713.2433742673,6.06375775425405,-6.36003157327712,17.0688699011818,637.667238007737
5200,10202,20493,"SMPDSv1","Lith-6","Seppa_h1",55.62,24.47,60,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.918438466033695,2704.22732413198,6.2449483643415,-5.43876734912853,16.8986572209352,608.735260329224
5201,10203,20494,"SMPDSv1","Lith-7","Seppa_i1",54.6,24.73,130,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.918505374278989,2768.81254470047,6.39858873357967,-5.77674272467049,17.1465962463928,617.317409084386
5202,10204,20495,"SMPDSv1","Lith-8","Seppa_j1",54.62,24.52,196,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.939166654364824,2803.06979729821,6.46586156259973,-6.01459717792516,17.3437717163972,626.05061426396
5203,10205,20496,"SMPDSv1","Lith-9","Seppa_k1",54.58,24.67,149,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.924104800791887,2779.20052322365,6.41877346443449,-5.84788295008071,17.2062715460041,619.996521678752
5204,10206,20497,"SMPDSv1","Litle Kjelavatn","Bjune_a195",59.7983333333333,7.255,960,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.19439872641926,1531.83111098184,2.28478085086747,-6.77790611681511,11.5407007553667,1192.52393432063
5205,10207,20498,"SMPDSv1","Litlevatn","Bjune_a105",61.4124358,5.88395287,356,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.05236771182004,2045.82618885522,5.35072447748694,-1.42857746789498,12.7806392437175,2016.46781953792
5206,10208,20499,"SMPDSv1","Litlvatnet","Bjune_a181",68.5166666666666,14.8666666666666,106,"0.022","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.36356399374987,1391.29688409246,2.34990353783809,-4.63579679319238,11.3016172508907,1265.08560694501
5207,10209,6030,"EMBSeCBIO","Litochoro Katarinis","Litochoro0",40.138889,22.546111,25,"0.02","terrestrial, bog/fen/swamp","core","-20","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.415271472984959,5678.13345687057,15.5565300188235,5.77226644993248,25.4150600611627,522.960375689356
5207,10210,6031,"EMBSeCBIO","Litochoro Katarinis","Litochoro10",40.138889,22.546111,25,"0.02","terrestrial, bog/fen/swamp","core","25","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.415271472984959,5678.13345687057,15.5565300188235,5.77226644993248,25.4150600611627,522.960375689356
5208,10211,20512,"SMPDSv1","Litoral","Lopez_a12",37.2286388888888,-1.79902777777777,0,"not known","ephemeral lake/pond","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.25180216172453,6557.50045391707,17.9657546682659,11.3670424244705,25.8618943979245,321.941393024174
5208,10212,20500,"SMPDSv1","Litoral","Lopez_a17",36.6855,-2.76058333333333,0,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.261635567892688,6801.05008693283,18.6330139368023,12.4224330915449,26.1563680046337,343.818570874864
5208,10213,20501,"SMPDSv1","Litoral","Lopez_a18",36.6964999999999,-2.68188888888888,0,"not applicable","ephemeral lake/pond","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.253384172132802,6759.63615931134,18.5195511214009,12.1702215841419,26.1793145096738,332.282574785515
5208,10214,20502,"SMPDSv1","Litoral","Lopez_a19",36.7215277777777,-2.63086111111111,0,"not applicable","ephemeral lake/pond","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.253176776703315,6752.72634613492,18.500620126397,12.1355951096452,26.177991015559,331.858911499319
5208,10215,20503,"SMPDSv1","Litoral","Lopez_a201",43.44425,-3.43372222222222,25,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.27927192116478,4862.35841033015,13.3215298913155,8.05129673384258,18.9923279048259,1085.66297767766
5208,10216,20504,"SMPDSv1","Litoral","Lopez_a202",43.4564444444444,-3.43263888888888,50,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.2631098235928,4827.55742320006,13.2261847210961,7.90832361772677,18.9597187312533,1077.1152673984
5208,10217,20505,"SMPDSv1","Litoral","Lopez_a21",43.5645833333333,-6.148,50,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05903243753167,4915.67570463222,13.4676046702253,8.65222230287445,18.8654376529478,959.358272759404
5208,10218,20506,"SMPDSv1","Litoral","Lopez_a4",36.7944444444444,-2.58872222222222,5,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.246637160657214,6667.22169416211,18.2663608059236,11.7123110224863,26.2012955474794,322.633889347283
5208,10219,20507,"SMPDSv1","Litoral","Lopez_a5",36.7144444444444,-2.83397222222222,5,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.263702824128672,6796.76962396395,18.6212866409971,12.4083291825228,26.1504679183292,346.438673653977
5208,10220,20508,"SMPDSv1","Litoral","Lopez_a541",39.3898333333333,-0.326972222222222,0,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.316901566178502,6607.60515190253,18.1030278134316,11.5558679776344,26.0695765097793,391.360318767214
5208,10221,20509,"SMPDSv1","Litoral","Lopez_a542",39.3651111111111,-0.321222222222222,0,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.316622096368005,6607.69810257,18.1032824727945,11.5579440785852,26.0695391928163,391.156852745747
5208,10222,20513,"SMPDSv1","Litoral","Lopez_a6",36.7123333333333,-2.71172222222222,0,"not known","ephemeral lake/pond","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.253237232988412,6761.21643106968,18.5238806330676,12.179534956438,26.1793947734101,332.026702140678
5208,10223,20510,"SMPDSv1","Litoral","Lopez_a7",36.7219722222222,-2.79866666666666,2,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.262476857635522,6798.89780158583,18.6271172646187,12.4109186109068,26.1585167275966,344.815904579933
5208,10224,20511,"SMPDSv1","Litoral","Lopez_a8",36.7736111111111,-2.60125,10,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.247018301327528,6661.73567644339,18.2513306203928,11.6949125592091,26.1912930656323,323.260415006992
5209,10225,12847,"Neotoma","Little Bass Lake","LITTBASS",47.286,-93.600465,391,"not known","lake","core","13","Unpublished data",,9,"cool mixed forest",0.887063613966248,2835.26015169412,4.11900290389369,-14.7683679069798,19.9066844012788,694.916105322767
5209,10225,12848,"Neotoma","Little Bass Lake","LITTBASS",47.286,-93.600465,391,"not known","lake","core","50","Unpublished data",,9,"cool mixed forest",0.887063613966248,2835.26015169412,4.11900290389369,-14.7683679069798,19.9066844012788,694.916105322767
5210,10226,14478,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-44","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14479,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-40","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14480,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-36","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14481,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-32","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14482,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-28","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14483,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-24","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14484,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-17","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14485,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-9","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14486,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","-2","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14487,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","6","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14488,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","13","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14489,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","21","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14490,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","29","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14491,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","37","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5210,10226,14492,"Neotoma","Little Bolton","LITTLEBO",42.4222,-71.5873499999999,99,"not known","lake","core","45","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32452773949605,3602.12479159069,9.16907763860488,-4.07722092399462,21.6926759462556,1150.86103350633
5211,10227,13556,"Neotoma","Little Dollar Lake","LTDOLLAR",46.186,-85.3082,258,"not known","lake","core","-28","Futyma, R.P. 1982. Postglacial vegetation of eastern upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.",,9,"cool mixed forest",1.13107037300395,2705.69683006358,4.8898257151643,-10.2204941019199,18.5010089604961,867.061920838335
5211,10227,13557,"Neotoma","Little Dollar Lake","LTDOLLAR",46.186,-85.3082,258,"not known","lake","core","-28","Futyma, R.P. 1982. Postglacial vegetation of eastern upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.",,9,"cool mixed forest",1.13107037300395,2705.69683006358,4.8898257151643,-10.2204941019199,18.5010089604961,867.061920838335
5211,10227,13558,"Neotoma","Little Dollar Lake","LTDOLLAR",46.186,-85.3082,258,"not known","lake","core","-28","Futyma, R.P. 1982. Postglacial vegetation of eastern upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.",,9,"cool mixed forest",1.13107037300395,2705.69683006358,4.8898257151643,-10.2204941019199,18.5010089604961,867.061920838335
5211,10227,13559,"Neotoma","Little Dollar Lake","LTDOLLAR",46.186,-85.3082,258,"not known","lake","core","-28","Futyma, R.P. 1982. Postglacial vegetation of eastern upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.",,9,"cool mixed forest",1.13107037300395,2705.69683006358,4.8898257151643,-10.2204941019199,18.5010089604961,867.061920838335
5212,10228,13734,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5212,10228,13735,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","-10","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5212,10228,13736,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","4","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5212,10228,13737,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","19","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5212,10228,13738,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","33","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5212,10228,13739,"Neotoma","Little Fish Lake","LTLFISH",51.377375,-112.233625,903,"not known","lake","core","47","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.493349808229323,2486.75293224374,3.63222033649714,-12.2569784839334,17.3863036008441,387.94931897912
5213,10229,11792,"Neotoma","Little Giant Basin Lake","LMSJ4",37.806595,-107.600169999999,3676,"not known","lake","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.777625143287987,593.760517114878,-4.66243717332411,-16.0073826111753,6.66715925703054,689.102718703893
5214,10230,11577,"Neotoma","Little Green Valley Meadow","ERW2002-07",34.233935,-117.051414999999,2225,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.46946688370887,3443.48751375239,9.39016376523784,-0.138145638532228,22.6521478968142,659.60917465552
5215,10231,13909,"Neotoma","Little Horseshoe Lake","MNCHLH",45.590765,-93.06903,281,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.880560200792671,3372.93202533408,6.69691925213083,-11.5518195652284,22.1113469439347,740.414960881947
5215,10231,13910,"Neotoma","Little Horseshoe Lake","MNCHLH",45.590765,-93.06903,281,"not known","lake","core","5","Unpublished data",,9,"cool mixed forest",0.880560200792671,3372.93202533408,6.69691925213083,-11.5518195652284,22.1113469439347,740.414960881947
5215,10231,13911,"Neotoma","Little Horseshoe Lake","MNCHLH",45.590765,-93.06903,281,"not known","lake","core","41","Unpublished data",,9,"cool mixed forest",0.880560200792671,3372.93202533408,6.69691925213083,-11.5518195652284,22.1113469439347,740.414960881947
5216,10232,17432,"Neotoma","Little John Jr. Lake","TW141",46.00439,-89.638155,497,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03208312224119,2645.02289777001,3.97760223932147,-12.8050078978035,18.9029128205115,794.496537801996
5217,10233,12849,"Neotoma","Little Lake","LITTLELK",45.143555,-66.713325,64,"not known","lake","core","11","Mott, R.J. 1975. Palynological studies of lake sediment profiles from southwestern New Brunswick. Canadian Journal of Earth Sciences 12(2):273-288.","10.1139/e75-024",9,"cool mixed forest",1.66074192567437,2783.79900595194,6.01441485239489,-7.27770061926986,18.4109517843854,1275.47112170686
5218,10234,20514,"SMPDSv1","Little Loch Roag","EPDcoretop_E555",58.133333,-6.883333,27,"0.2","terrestrial, blanket bog","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.12987668030418,2980.5421596245,8.16586893047809,4.0492690960021704,12.9673140468736,1560.43152799108
5219,10235,14150,"Neotoma","Little Mirror Lake","LITTLEM",42.524435,-71.60848,73,"not known","lake","core","-34","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32426365131498,3654.57269138888,9.38551682065424,-3.75190820190625,21.8559123463785,1155.4029850548
5219,10235,14151,"Neotoma","Little Mirror Lake","LITTLEM",42.524435,-71.60848,73,"not known","lake","core","-17","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32426365131498,3654.57269138888,9.38551682065424,-3.75190820190625,21.8559123463785,1155.4029850548
5219,10235,14152,"Neotoma","Little Mirror Lake","LITTLEM",42.524435,-71.60848,73,"not known","lake","core","0","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32426365131498,3654.57269138888,9.38551682065424,-3.75190820190625,21.8559123463785,1155.4029850548
5219,10235,14153,"Neotoma","Little Mirror Lake","LITTLEM",42.524435,-71.60848,73,"not known","lake","core","18","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32426365131498,3654.57269138888,9.38551682065424,-3.75190820190625,21.8559123463785,1155.4029850548
5219,10235,14154,"Neotoma","Little Mirror Lake","LITTLEM",42.524435,-71.60848,73,"not known","lake","core","35","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.32426365131498,3654.57269138888,9.38551682065424,-3.75190820190625,21.8559123463785,1155.4029850548
5220,10236,11800,"Neotoma","Little Molas Lake","LMSJ11",37.742215,-107.707875,3330,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.655085663980972,1040.82780880984,-1.94551308486191,-13.7743596832241,9.74767128351295,629.166310079066
5221,10237,11482,"Neotoma","Little Moreau Lake","SDDELM",45.34767,-101.092585,622,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.465872172020161,3327.77437853628,6.81545306395999,-10.2343851088325,22.6401962490553,424.897614688191
5222,10238,12850,"Neotoma","Little Pine Lake","LITTLPIN",45.283333,-91.483333,330,"not known","lake","core","10","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.930762640842594,3118.82635700535,5.81437361749964,-11.9006174594758,20.9463356561883,763.38160729511
5222,10238,12851,"Neotoma","Little Pine Lake","LITTLPIN",45.283333,-91.483333,330,"not known","lake","core","20","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.930762640842594,3118.82635700535,5.81437361749964,-11.9006174594758,20.9463356561883,763.38160729511
5222,10238,12852,"Neotoma","Little Pine Lake","LITTLPIN",45.283333,-91.483333,330,"not known","lake","core","30","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.930762640842594,3118.82635700535,5.81437361749964,-11.9006174594758,20.9463356561883,763.38160729511
5222,10238,12853,"Neotoma","Little Pine Lake","LITTLPIN",45.283333,-91.483333,330,"not known","lake","core","40","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.930762640842594,3118.82635700535,5.81437361749964,-11.9006174594758,20.9463356561883,763.38160729511
5222,10238,12854,"Neotoma","Little Pine Lake","LITTLPIN",45.283333,-91.483333,330,"not known","lake","core","50","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.930762640842594,3118.82635700535,5.81437361749964,-11.9006174594758,20.9463356561883,763.38160729511
5223,10239,15735,"Neotoma","Little Pine Pond","LPIN_C90",44.259725,-74.151275,478,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34976034819097,2694.60799365464,4.97628982591699,-10.0345195218746,18.4582882084456,1038.47048069464
5224,10240,14929,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","-52.19","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14930,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","-40.128","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14931,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","-28.077","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14932,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","-16.032","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14933,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","-4.022","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14934,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","19.93","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5224,10240,14935,"Neotoma","Little Royalston Pond","ROYALST",42.67595,-72.1928499999999,301,"not known","lake","core","43.834","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.33510895251689,3210.74710182242,7.40610265509552,-6.84330283235819,20.4500519200112,1103.98190294796
5225,10241,13522,"Neotoma","Little Salt Spring","GDF141",27.075,-82.2333333333333,6,"not known","lake","core","-2","Brown, J.G. 1981. Palynologic and petrographic analyses of bayhead hammock and marsh peats at Little Salt Spring archeological site (8So18), Florida. Master's thesis. University of South Carolina, Columbia, South Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.89064540226206,8516.9895200536,23.3342178631606,17.3828845808466,28.1518902775952,1279.73019817415
5226,10242,15736,"Neotoma","Little Shallow Pond","LSHA_C90",44.048685,-74.952675,515,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34104549143427,2744.92786752785,5.27159743642977,-9.51864681047299,18.5943416666401,1040.67332767783
5227,10243,17320,"Neotoma","Little St. Germain","TW022",45.9,-89.5,499,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03128134534872,2641.30749136556,3.96458465676048,-12.7984218940577,18.8831777149246,794.453169115017
5228,10244,977,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-62","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,978,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-60","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,979,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-58","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,980,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,981,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-52","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,982,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,983,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-43","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,984,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,985,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,986,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,987,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,988,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,989,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","-3","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,990,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,991,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,992,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,993,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5228,10244,994,"Australian pollen","Little Swanport","Little Swanport LSP-80",-42.3419,147.9319,5,"not known","terrestrial, marsh","core","46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.818393036404243,4461.10315910753,12.222200435911,7.97072450686117,16.4113411732924,735.097078612304
5229,10245,14279,"Neotoma","Little Swift Lake","LITSWIFT",60.216475,-159.76567,572,"not known","lake","core","-5","Axford, Y., and D.S. Kaufman. 2004. Late glacial and Holocene glacier and vegetation fluctuations at Little Swift Lake, southwestern Alaska, U.S.A. Arctic, Antarctic, and Alpine Research 36(2):139-146.",,31,"tundra",0.96741132170526,1082.28671356495,-3.29048205095768,-15.0714926186625,10.3775158749444,401.912202785504
5230,10246,11472,"Neotoma","Little Thunder Reservoir","WYCALT",43.6882849999999,-105.377655,1463,"not known","artificial water body","surface sample","-54","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.378349176883599,3094.28428448741,7.30905549425642,-5.6324365713595,21.2800067970189,372.363300661535
5231,10247,24438,"Southern Hemisphere pollen","Little Wanganui","Little Wanganui_M1",-41.402,172.106,120,"small (0.01-1 km2)","terrestrial","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",7,"cool-temperate rainforest",2.99303919221792,4268.64065548337,11.6949059054339,7.04868728368873,16.1548845649246,2663.41231497156
5231,10248,24439,"Southern Hemisphere pollen","Little Wanganui","Little Wanganui_M2",-41.394,172.0995,100,"small (0.01-1 km2)","terrestrial","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",7,"cool-temperate rainforest",3.00853250991241,4308.56166513906,11.8042785346276,7.19668632683502,16.2299915974844,2680.27461187702
5231,10249,24434,"Southern Hemisphere pollen","Little Wanganui","Little Wanganui_mod",-41.3528,172.1351,450,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",2.76039300180687,3612.13582756004,9.89626254126037,4.65746602977079,14.896944629165,2414.47184181803
5232,10250,24475,"Southern Hemisphere pollen","Little Wanganui Saddle Lakes","LW Lower Saddle Lake",-41.3848,172.078,1090,"small (0.01-1 km2)","lake","surface sample","-33","Macphail, M.K. and McQueen, D.R., 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara (Wellington)., 26(2), pp.37-59.",,7,"cool-temperate rainforest",2.32631896929127,2335.08188368746,6.39084737611352,-0.0148218556178633,12.445648684291,1955.60595781638
5232,10251,24476,"Southern Hemisphere pollen","Little Wanganui Saddle Lakes","LW Upper Saddle Lake",-41.3558,172.13168,1080,"small (0.01-1 km2)","lake","surface sample","-33","Macphail, M.K. and McQueen, D.R., 1983. The value of New Zealand pollen and spores as indicators of Cenozoic vegetation and climates. Tuatara (Wellington)., 26(2), pp.37-59.",,7,"cool-temperate rainforest",2.31748113440164,2355.53087402017,6.45118625275659,0.0696941604085412,12.4849212264411,1949.87752106844
5233,10252,14936,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","-58.389","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5233,10252,14937,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","-35.051","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5233,10252,14938,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","-11.713","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5233,10252,14939,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","-0.044","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5233,10252,14940,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","23.294","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5233,10252,14941,"Neotoma","Little Willey Pond","WILLEY",43.2917,-71.1781,253,"not known","lake","core","46.632","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.44683496720948,2977.53702400147,6.48627092486052,-7.72755076448737,19.6188230112331,1154.90851119097
5234,10253,14185,"Neotoma","Little Willow Lake","LTWILLOW",40.4115,-121.389935,1829,"not known","lake","core","-1","West, G.J. 2003. A late Pleistocene-Holocene pollen record of vegetation change from Little Willow Lake, Lassen Volcanic National Park, California. Pages 65-80 in Pacific Climate Conference Procedings.",,8,"cool evergreen needleleaf forest",0.748376256014126,2628.6406884163,6.88622682357805,-1.88893078819385,17.7731558139239,828.007885475469
5235,10254,995,"Australian pollen","Little Willum","Little Willum",-12.67,141.99,40,"not known","terrestrial, bog/fen/swamp","not known","-62","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.970605944953969,9701.11108992839,26.578386547748998,24.1619472912956,28.452879967259,1600.76576582201
5236,10255,16550,"Neotoma","Little Wilson Pond","KG044",44.2,-70.23,88,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.45782071458613,3069.90114735059,6.8770924800417,-7.2981986415996,20.0569137575593,1160.69577188432
5237,10256,15080,"Neotoma","Little Windy Hill Pond","LWH081A",41.433255,-106.33695,2980,"not known","lake","core","31","Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74. Minckley, T.A., and R.K. Shriver. 2011. Vegetation responses to changing fire regimes in a Rocky Mountain forest. Fire Ecology 7(2):66-80. Minckley, T.A., R.K. Shriver, and B. Shuman. 2012. Resilience and regime change in a southern Rocky Mountain ecosystem during the past 17 000 years. Ecological Monographs 82(1):49-68.","10.2113/gsrocky.49.1.61;
10.4996/fireecology.0702066;
10.1890/11-0283.1",17,"temperate evergreen needleleaf open woodland",0.498204456375809,1411.86075539975,0.232769049836906,-10.9779380796962,12.2955862906748,459.636521690793
5238,10257,17396,"Neotoma","Littlefield Lake","TW103",43.77,-84.95,290,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.950921655171753,3152.15147376401,7.03026148323407,-7.27798686729646,20.4438907899459,793.187578828279
5239,10258,20515,"SMPDSv1","Littox","Barboni_a952",37.12,-1.85,130,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.263321657153106,6362.64354272561,17.4319001170565,10.6881045517132,25.5762290261459,337.585024866429
5239,10259,20516,"SMPDSv1","Littox","Barboni_a953",37.13,-1.9,190,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268587488707156,6267.51474336277,17.171273269487,10.3571163962349,25.4350740371189,344.326240155737
5239,10260,20517,"SMPDSv1","Littox","Barboni_a954",37.13,-1.97,310,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.279542859910529,6077.76406473824,16.6514083965431,9.69636208565044,25.1517883348091,358.387361634652
5239,10261,20518,"SMPDSv1","Littox","Barboni_a955",37.13,-1.97,298,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.278393601736661,6097.08524968713,16.7043431498277,9.76378539502283,25.1810539147212,356.932736748758
5239,10262,20519,"SMPDSv1","Littox","Barboni_a956",37.08,-2.1,485,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.29579304996663,5805.39523247036,15.905192417727,8.75151448314397,24.7432080118903,379.552651755501
5239,10263,20520,"SMPDSv1","Littox","Barboni_a957",37.07,-2.07,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.30220188699997,5699.50861458486,15.615092094753,8.38258783711864,24.580167564414,387.618294667577
5239,10264,20521,"SMPDSv1","Littox","Barboni_a958",36.95,-2.17,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.276926422840504,6118.3378558409,16.7625694680573,9.85111246645594,25.2202775950106,356.828432506758
5239,10265,20522,"SMPDSv1","Littox","Barboni_a959",37.3,-1.73,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.278531292584276,6104.53791569524,16.7247614128637,9.82585014975248,25.1129888475034,353.783246262986
5239,10266,20523,"SMPDSv1","Littox","Barboni_a960",37.32,-1.72,240,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.277893208976489,6118.86721007259,16.7640197536235,9.87652774616666,25.1328075673227,352.806602412053
5239,10267,20524,"SMPDSv1","Littox","Barboni_a961",36.97,-2.45,330,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.281832122880525,6108.95163479869,16.736853793969,9.75547598616175,25.3258347096924,365.618956790545
5239,10268,20525,"SMPDSv1","Littox","Barboni_a962",36.85,-2.68,-1853,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",0.0542256558739631,9738.24686791659,26.6801284052509,22.3902408264388,31.268874124478,72.3661786251732
5239,10269,20526,"SMPDSv1","Littox","Barboni_a963",37,-2.75,932,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.347614185266482,5146.46004800137,14.0998905424695,6.38385123349639,24.0460547241912,448.100356151877
5239,10270,20527,"SMPDSv1","Littox","Barboni_a964",36.78,-2.97,380,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.299022807294908,6106.32059904426,16.7296454768336,9.71365380770555,25.3828356204143,391.859431226332
5239,10271,20528,"SMPDSv1","Littox","Barboni_a965",36.72,-2.62,62,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.259337583180047,6646.19008941993,18.2087399710135,11.7617749767132,26.0142699093881,339.631057670636
5239,10272,20529,"SMPDSv1","Littox","Barboni_a966",36.7,-2.62,70,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.260291870789141,6634.18749078794,18.1758561391451,11.7212213998299,25.9938210150135,340.945493008274
5239,10273,20530,"SMPDSv1","Littox","Barboni_a967",36.78,-2.13,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.257465338547428,6457.74822397747,17.6924608876095,11.0334431883636,25.7410196729023,333.364451270581
5239,10274,20531,"SMPDSv1","Littox","Barboni_a968",36.78,-2.13,120,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.259398206206379,6424.9414939504,17.6025794354806,10.9197560652694,25.6902125411178,335.808314650694
5239,10275,20532,"SMPDSv1","Littox","Barboni_a969",36.85,-2.02,60,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.254818490769419,6511.12843463345,17.8387080400916,11.2126157206783,25.8185665064845,329.262554976879
5239,10276,20533,"SMPDSv1","Littox","Barboni_a970",36.83,-2.02,60,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.254801350117414,6513.12728496705,17.8441843423755,11.2195681329398,25.8222057264845,329.389409210501
5240,10277,7154,"EMPDv2","Litzelsee","EPDcoretop_E2220",47.77,8.93,407,"0.013","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06082353951353,3390.56601761315,9.27803420226638,-0.117052636779086,18.3771863785883,834.098639140582
5240,10278,7155,"EMPDv2","Litzelsee","Roesch_a6",47.768771,8.930694,407,"0.012","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06080760271463,3390.68720768165,9.27837726378234,-0.116887539952823,18.3776474238053,834.108482611549
5241,10279,3592,"CMPD","Liuchanghe","Liuchanghe",26.98,106.4,1044,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0650990553031,5604.74897785714,15.3554766516634,4.94558846493387,24.4995512343754,1130.85679732801
5242,10280,3593,"CMPD","Liupanshui","Liupanshui",26.21,105.14,1066,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06415920563818,6100.62774180026,16.7140486076719,7.10570169003153,24.3158464966247,1185.06292174002
5243,10281,3594,"CMPD","Liushuwan","Liushuwan",37.78,108.33,1448,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.327157922123373,3306.67858549525,7.22248859441226,-8.52399293888798,21.0990991188097,359.101523569744
5244,10282,996,"Australian pollen","Lizard Island","LIWB01_05",-14.67,145.45,3,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.0916137038024,9381.94978890339,25.7039720243929,22.6271044330505,28.0219182812608,1809.81361820553
5244,10283,997,"Australian pollen","Lizard Island","LIWB01_55",-14.67,145.45,3,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.0916137038024,9381.94978890339,25.7039720243929,22.6271044330505,28.0219182812608,1809.81361820553
5245,10284,20534,"SMPDSv1","Ljosetjern","Bjune_a118",58.5979773,8.02442042,480,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.13523945903135,1936.72543330798,4.08034334116122,-5.1594339537592,13.3805852922027,1224.97244176143
5246,10285,20535,"SMPDSv1","LLagoni","Barboni_a841",44.387361,10.048611,1361,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.48148542492365,1917.02392299166,4.6222135341981,-3.00944590834776,13.0139240177377,1221.62392606123
5247,10286,24353,"Neotoma","Llano Grande Mire","LLGRANDE_0",6.47451,-76.09258,3460,"not known","terrestrial","core","-48","Velásquez-R., C.A., and H. Hooghiemstra. 2013. Pollen-based 17-kyr forest dynamics and climate change from the Western Cordillera of Colombia; no-analogue associations and temporarily lost biomes. Review of Palaeobotany and Palynology 194:38-49.","10.1016/j.revpalbo.2013.03.001",4,"warm-temperate evergreen and mixed forest",0.104625856532933,4232.25649200887,11.5952232657777,10.983427919159,12.1062666434229,154.191397728908
5247,10287,24354,"Neotoma","Llano Grande Mire","LLGRANDE_5",6.47451,-76.09258,3460,"not known","terrestrial","core","37","Velásquez-R., C.A., and H. Hooghiemstra. 2013. Pollen-based 17-kyr forest dynamics and climate change from the Western Cordillera of Colombia; no-analogue associations and temporarily lost biomes. Review of Palaeobotany and Palynology 194:38-49.","10.1016/j.revpalbo.2013.03.001",4,"warm-temperate evergreen and mixed forest",0.104625856532933,4232.25649200887,11.5952232657777,10.983427919159,12.1062666434229,154.191397728908
5248,10288,11016,"Bush et al., 2020","Llavi87","Llavi87",-2.843,-79.146,3145,"not known","lake","lake surface sample","-38","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.826523821640568,4194.60473501968,11.4920677671772,10.9913748328995,11.733084204201,1056.5471217478
5249,10289,11017,"Bush et al., 2020","Llaviucu","Llaviucu",-2.74,-79,3124,"not known","lake","lake surface sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.850126492029682,4289.37809309587,11.7517208030024,11.2293211713711,11.995563832267,1091.76526506193
5250,10290,20536,"SMPDSv1","Lleguna","Barboni_a951",42.12,-6.72,1050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.774206380021685,3564.4265691485,9.76555224424246,2.32230693606203,18.4447386004026,836.45963999672006
5251,10291,8947,"EMPDv2","Llet-Ti","Salonen_a25",66.535,59.303,50,"0.46","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29337131969326,1245.58714818226,-4.37251735334603,-21.2011126402741,14.3941748139061,478.320124273837
5252,10292,13740,"Neotoma","Lloyd Lake [Red Deer Lake]","LLOYDS",50.87114,-114.161275,1133,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.635374809083977,2159.00461658648,2.96055686901751,-11.1117906311847,15.5076416036084,485.041694344294
5252,10292,13741,"Neotoma","Lloyd Lake [Red Deer Lake]","LLOYDS",50.87114,-114.161275,1133,"not known","lake","core","0","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.635374809083977,2159.00461658648,2.96055686901751,-11.1117906311847,15.5076416036084,485.041694344294
5252,10292,13742,"Neotoma","Lloyd Lake [Red Deer Lake]","LLOYDS",50.87114,-114.161275,1133,"not known","lake","core","24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.635374809083977,2159.00461658648,2.96055686901751,-11.1117906311847,15.5076416036084,485.041694344294
5252,10292,13743,"Neotoma","Lloyd Lake [Red Deer Lake]","LLOYDS",50.87114,-114.161275,1133,"not known","lake","core","48","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.635374809083977,2159.00461658648,2.96055686901751,-11.1117906311847,15.5076416036084,485.041694344294
5253,10293,17256,"Neotoma","Lloyds Lake [W. Lake]","LFR68102",49.5077,-99.67675,426,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.62457189219146,2662.63155391592,2.61472935957646,-17.3332082082076,19.3644912504459,487.650512267481
5254,10294,16587,"Neotoma","LM01","LM01",55.625,-74.583333,320,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.42075975778619,1088.39670645724,-5.36854043063021,-23.8028559150723,10.8775428444511,644.569398567414
5255,10295,16588,"Neotoma","LMBC","LMBC",55.616667,-74.6,320,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.4207552038684,1089.2138051993,-5.36372740680997,-23.8003237709266,10.8824694869305,644.830463067298
5256,10296,7043,"EMPDv2","Lobbs Bog","EPDcoretop_E1678",50.97,-3.62,243,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.28140531116608,3238.31535986991,8.87209687635593,3.49051254687946,14.8219962573021,1446.31467859767
5257,10297,20538,"SMPDSv1","Lobynskoe","Lobynskoe_SS (Novenko_c11)",54.0769,37.7119,195,"0.03","lake","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.873677747390108,2742.91224211047,5.06310251083005,-9.8512459528432,18.4521226126352,618.044215043538
5257,10298,20537,"SMPDSv1","Lobynskoe","Novenko_b5",54.0768055555555,37.7120277777777,217,"0.03","terrestrial, soil","soil sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.862129667209006,2763.42915415422,5.1157414850968,-9.82407331924842,18.4734986937934,614.927831873258
5258,10299,20539,"SMPDSv1","Localite Fioc","Barboni_a833",45.85,7.617,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.16821594765534,1617.17422533983,3.33990002081488,-4.29877646952628,11.6070277069106,1729.8758686433
5259,10300,20540,"SMPDSv1","Loch Ashik","EPDcoretop_E887",57.25,-5.833333,30,"0.022","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",3.4234998779019,3081.39950321163,8.44219041975789,4.24345278302185,13.2546907888269,1757.44920441898
5260,10301,20541,"SMPDSv1","Loch Builg1","Barboni_a1352",57.115363,-3.34412,484,"28.209","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13652455203239,1976.53189929858,5.38443040144591,-0.207383906662388,11.696118980805,1522.32363580199
5261,10302,20542,"SMPDSv1","Loch Clair","EPDcoretop_E941",57.558889,-5.343611,92,"not known","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",3.66208801318978,2887.11154015063,7.90989463054968,3.53930370056577,12.8691508108531,1826.49198324476
5262,10303,20543,"SMPDSv1","Loch Cleat","EPDcoretop_E725",57.066667,-6.333333,38,"1.25","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.2092678779803,3067.41240919855,8.40386961424261,4.142389787611,13.2849009319899,1659.49779945066
5263,10304,20544,"SMPDSv1","Loch Dungeon","EPDcoretop_E372",55.116667,-4.316667,396,"not known","terrestrial, blanket bog","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.56499905304574,2228.15989279525,6.10454765149383,0.618657277646489,12.2646361021394,1836.58883314238
5264,10305,20545,"SMPDSv1","Loch Einich","EPDcoretop_E948",57.083333,-3.8,502,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.70828982581098,1896.25931898502,5.14074417613476,-0.408829364691163,11.3963049251201,1774.30207320466
5265,10306,10651,"Neotoma","Loch Idrigill","Loch Idrigill ss",57.83245,-6.752125,20,"not known","lake","lake surface sample","-38","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",3.02020293469318,3003.20574026869,8.22796093224298,4.10191065024569,13.0335363667442,1520.38559220039
5266,10307,10652,"Neotoma","Loch Lang","Loch Lang ss",57.244555,-7.29608,83,"not known","lake","lake surface sample","-37","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",3.44051385700649,2929.80112181568,8.0268523885361,3.75882302655054,12.9570052077908,1749.16712423824
5267,10308,20546,"SMPDSv1","Loch Laxford","EPDcoretop_E992",58.366667,-5,137,"0.035","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.33221994024174,2721.42094469659,7.4559477936893,2.95366648559359,12.554145465347,1603.15655634137
5268,10309,20547,"SMPDSv1","Loch Lomond Ross Dubh","EPDcoretop_E391",56.086389,-4.583333,8,"not known","lake","lacustrine core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.62710452695193,3391.86895905812,9.29279166865238,4.53901483150319,14.5879779090709,1469.18764066983
5269,10310,10656,"Neotoma","Loch Maree","Loch Maree core top",57.68456,-5.453995,10,"28.7","lake","core top","-19","Birks, H.H., 1972. Studies in the vegetational history of Scotland: III. A radiocarbon-dated pollen diagram from Loch Maree, Ross and Cromatry. New Phytologist 71(4),  pp.731-754.","10.1111/j.1469-8137.1972.tb01285.x",8,"cool evergreen needleleaf forest",3.36377518440826,3111.43484226159,8.52447901989477,4.39777189926223,13.2800786217711,1701.64938936881
5270,10311,998,"Australian pollen","Loch McNess Swamp","Loch McNess Swamp_1",-31.533,115.667,20,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.449529507833224,6706.35745704306,18.3735820740906,13.3791802436934,24.505568651229,663.820895594021
5270,10312,999,"Australian pollen","Loch McNess Swamp","Loch McNess Swamp_2",-31.533,115.667,20,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.449529507833224,6706.35745704306,18.3735820740906,13.3791802436934,24.505568651229,663.820895594021
5271,10313,20548,"SMPDSv1","Loch Meodal","EPDcoretop_E733",57.133333,-5.866667,105,"0.2","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",3.71586411887519,2891.92354774343,7.92307821299571,3.50203756570656,12.9341055786267,1885.04752624813
5272,10314,10655,"Neotoma","Loch Mór na Cairteach","Loch Mór na Cairteach ss",58.19274,-6.423595,46,"not known","lake","lake surface sample","-38","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",3.36952234608162,2980.7282166817,8.16637867584028,4.03445185515101,12.9619031610419,1674.73205690625
5273,10315,20549,"SMPDSv1","Loch nan Caidhmhnean","Bunting_b7",58.238245413032,-5.1325972152681,897,"0.006","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",5.85530108292608,1289.71972048638,2.29284712692606,-4.37647455388451,9.56361356136111,2495.11750933253
5274,10316,20550,"SMPDSv1","Loch Sionascaig","EPDcoretop_E590",58.060556,-5.175,74,"6.07","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.35301827833718,2889.38141619909,7.91611346903861,3.59282315216177,12.8582162432541,1642.67971442702
5275,10317,1000,"Australian pollen","Loch Sport Swamp","Loch Sport Swamp",-37.9667,147.6833,1,"not applicable","terrestrial, bog/fen/swamp","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.73316982171887,5155.17143625784,14.1237573596105,9.12889422966327,19.2152341977454,764.166667538936
5276,10318,20551,"SMPDSv1","Loch Tarff","EPDcoretop_E646",57.154167,-4.595833,291,"not known","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.62669693777353,2373.00675985329,6.50138838315968,1.36468741684473,12.255416647183,1776.69626032514
5277,10319,20552,"SMPDSv1","Lochan a Mhuilinn","Bunting_b2",58.253713357801,-5.0879299076364,394,"0.008","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.94737319701063,2138.57513921605,5.85910997045492,0.660419675288206,11.6336668461682,1829.40642182762
5278,10320,20553,"SMPDSv1","Lochan Creag a Phris","Bunting_b6",58.262625899798,-5.1279289163224,30,"0.003","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.15092513681154,2974.16929973344,8.14840904036559,3.93718659730324,13.0113827863982,1545.82317558581
5279,10321,20554,"SMPDSv1","Lochan Fionn Airce","Bunting_b5",58.263647646061,-5.122902794776,20,"0.019","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.12799574872201,2996.79327584536,8.21039253656263,4.02288094228589,13.0533112258845,1536.84842562067
5280,10322,20555,"SMPDSv1","Lochan na Dubh Leitir","Bunting_b4",58.2656905529,-5.1128496661763,5,"0.04","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.09295516269284,3030.51180640608,8.30277207234543,4.15041415397954,13.1160196651355,1522.94529304903
5281,10323,20556,"SMPDSv1","Lochan na h-Inghinn","Bunting_b3",58.252775365904,-5.089553135271,88,"0.006","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.2621493089389,2839.16297587022,7.77852870101431,3.41512705728504,12.7668338861452,1586.1449774969
5282,10324,20557,"SMPDSv1","Lochan nan Gabhar","Barboni_a1353",57.11588,-3.408444,765,"2.613","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.13952257309047,1511.09701911076,3.61738444160011,-2.41135805715073,10.3770819693798,1926.53437476221
5283,10325,20558,"SMPDSv1","Lochan nan Gad","Bunting_b1",58.252692990144,-5.0929556841815,90,"0.016","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.26765007259675,2834.76101709883,7.76646853999681,3.39801787894951,12.7584751427004,1588.35952792284
5284,10326,10654,"Neotoma","Lochan Tota Ruairidh Dhuibh","Lochan Tota Ruairidh Dhuibh ss",58.021515,-6.402885,151,"not known","lake","lake surface sample","-38","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",4.10313509246182,2733.66310482278,7.48948795841858,3.07818200016354,12.5015141108008,1999.86584644726
5285,10327,11018,"Bush et al., 2020","Loche","Loche",21.42,-88.14,7,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.718977261413401,9389.82988000837,25.7255613150914,22.4139827314911,27.9770248389223,1091.25854920697
5286,10328,9649,"Gaillard et al., 1992","Loddean","Loddean",55.729821,12.996615,-3,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.881873302273452,3014.46562192987,8.1568482671286109,-0.715081964896495,17.041806183292,594.448030454964
5287,10329,6976,"EMPDv2","Loddigsee","EPDcoretop_E1403",53.43,11.85,43,"1.5","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.875099033792218,3185.76890899118,8.71052593080426,-0.137759257752018,17.304978955142,600.344729861802
5288,10330,3595,"CMPD","Loess Plateau","Loess Plateau 02",35.49,109.78,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.493619760199137,3987.48846283106,10.2304933073141,-4.1977640486539904,22.9902701978984,551.547404546924
5288,10331,3596,"CMPD","Loess Plateau","Loess Plateau 03",35.49,109.78,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.500579697277947,4071.99828806158,10.5330623228777,-3.87935914819713,23.2984873866191,558.486535289939
5288,10332,3597,"CMPD","Loess Plateau","Loess Plateau 08",35.97,109.75,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.468212383878795,3948.38344102539,9.99041521904026,-4.81701264542444,22.9501688643536,523.334036148419
5288,10333,3598,"CMPD","Loess Plateau","Loess Plateau 09",35.97,109.75,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.463866495618111,3901.58649281602,9.81724740185713,-5.00513854171744,22.7795037812812,518.752280653687
5288,10334,3599,"CMPD","Loess Plateau","Loess Plateau 11",35.97,109.75,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.458448477805992,3843.45062296713,9.60078763037821,-5.24029591208371,22.5661724274407,513.025086285272
5288,10335,3600,"CMPD","Loess Plateau","Loess Plateau 13",35.97,109.75,1150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.469300480821684,3960.13871042571,10.033707173336,-4.76998117135118,22.9928351351217,524.479475022101
5288,10336,3601,"CMPD","Loess Plateau","Loess Plateau 15",35.87,108.67,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.449549365135319,3609.20097317163,8.85955543840834,-5.50257450644419,21.6535417875331,493.95705069624
5288,10337,3602,"CMPD","Loess Plateau","Loess Plateau 15-1",35.87,108.67,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.449549365135319,3609.20097317163,8.85955543840834,-5.50257450644419,21.6535417875331,493.95705069624
5288,10338,3603,"CMPD","Loess Plateau","Loess Plateau 16",35.87,108.67,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.449549365135319,3609.20097317163,8.85955543840834,-5.50257450644419,21.6535417875331,493.95705069624
5288,10339,3604,"CMPD","Loess Plateau","Loess Plateau 18",35.72,106.47,2650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.329507975600775,2051.412020794,3.11604316287278,-9.80342011520447,14.6370849535721,329.937918025264
5288,10340,3605,"CMPD","Loess Plateau","Loess Plateau 18-1",35.72,106.47,2650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.329507975600775,2051.412020794,3.11604316287278,-9.80342011520447,14.6370849535721,329.937918025264
5288,10341,3606,"CMPD","Loess Plateau","Loess Plateau 22",35.58,106.25,2070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.419695291234933,2714.26358935442,5.87605707764586,-7.15238356940088,17.6132867565515,430.56163800826
5288,10342,3607,"CMPD","Loess Plateau","Loess Plateau 29",36.37,106.33,2050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406672353073335,2700.28767678762,5.75117161816946,-7.42725079200009,17.6683360183293,415.281151741939
5288,10343,3608,"CMPD","Loess Plateau","Loess Plateau 30",36.37,106.33,2050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406672353073335,2700.28767678762,5.75117161816946,-7.42725079200009,17.6683360183293,415.281151741939
5288,10344,3609,"CMPD","Loess Plateau","Loess Plateau 31",36.37,106.33,2050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406672353073335,2700.28767678762,5.75117161816946,-7.42725079200009,17.6683360183293,415.281151741939
5288,10345,3610,"CMPD","Loess Plateau","Loess Plateau 34",35.97,109.75,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.458448477805992,3843.45062296713,9.60078763037821,-5.24029591208371,22.5661724274407,513.025086285272
5288,10346,3611,"CMPD","Loess Plateau","Loess Plateau 36",36.4,106.22,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.369545292605719,3119.88355817323,7.12428675379055,-6.88668232375978,19.6311252735407,390.725926707291
5288,10347,3612,"CMPD","Loess Plateau","Loess Plateau 37",36.4,106.22,2050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.420939379624418,2724.12148101688,5.89377632748034,-7.18021541962856,17.6934942862157,428.608206289408
5288,10348,3613,"CMPD","Loess Plateau","Loess Plateau 38",37.27,106.28,2610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.555390742316207,2038.41078851514,3.76951508593512,-7.27486515273403,14.2984418847507,517.349990422873
5288,10349,3614,"CMPD","Loess Plateau","Loess Plateau 41",37.26,106.28,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.524087435935955,2161.75924952957,4.13200730046213,-7.33474351530825,14.9510897065671,496.460361825618
5288,10350,3615,"CMPD","Loess Plateau","Loess Plateau 44",37.23,106.26,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.505873619591743,2266.15729927131,4.46489471799207,-7.32895969838784,15.4773816426095,484.854215002867
5288,10351,3616,"CMPD","Loess Plateau","Loess Plateau 45",37.23,106.26,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.505873619591743,2266.15729927131,4.46489471799207,-7.32895969838784,15.4773816426095,484.854215002867
5288,10352,3617,"CMPD","Loess Plateau","Loess Plateau 46",37.22,106.23,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.407642901211292,2763.63506889038,5.97598941650282,-7.2793426478983,17.958126287474,414.165031654016
5288,10353,3618,"CMPD","Loess Plateau","Loess Plateau 47",37.22,106.23,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.407642901211292,2763.63506889038,5.97598941650282,-7.2793426478983,17.958126287474,414.165031654016
5288,10354,3619,"CMPD","Loess Plateau","Loess Plateau 52",37.53,105.38,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.220047918033638,3461.94300061334,7.7935076297737496,-8.10986971516759,21.6493046504552,243.739547662054
5288,10355,3620,"CMPD","Loess Plateau","Loess Plateau 54",37.53,105.38,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.220047918033638,3461.94300061334,7.7935076297737496,-8.10986971516759,21.6493046504552,243.739547662054
5288,10356,3621,"CMPD","Loess Plateau","Loess Plateau 56",37.13,105.63,2250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.467531242296369,2529.12282016523,5.35974593559528,-7.05167864571579,16.6149358896091,460.834059111866
5288,10357,3622,"CMPD","Loess Plateau","Loess Plateau 57",37.3,105.63,2510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.511558505570199,2243.7459175361,4.47916410907213,-7.13907069559773,15.1753645051787,488.295547631439
5288,10358,3623,"CMPD","Loess Plateau","Loess Plateau 58",36.45,105.63,2600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.585697547909419,2227.15414754288,4.57504011453118,-6.67525716046318,14.8651170564884,557.051156615151
5288,10359,3624,"CMPD","Loess Plateau","Loess Plateau 60",36.27,105.62,2100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44138006332786,2729.88193000297,5.99137130306361,-6.92365567529372,17.5554404659787,448.216400090885
5289,10360,3625,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S01",36.07881667,108.34495,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.461434718121531,3693.2176782927,9.19079555120952,-5.09959860184353,21.9604750221207,504.467692740647
5289,10361,3626,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S02",36.02095,108.88478333,1110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.489244372693514,3993.54526132974,10.251724912323,-4.15826891113147,23.0581479567993,539.442834085318
5289,10362,3627,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S03",35.81423333,109.90273333,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.454358068355804,3770.36753494634,9.3253419526918009,-5.54613829121791,22.2960156588219,509.655759992751
5289,10363,3628,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S04",36.00511667,110.15475,889,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.494203790101209,4266.89904509734,11.1236665621651,-3.66299683017402,24.0981507299308,551.026328643663
5289,10364,3629,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S05",35.79481667,110.59941667,794,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.503367696769506,4387.24999159993,11.5534995984736,-3.16837778934406,24.5013885618533,561.948343476933
5289,10365,3630,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S06",35.9086,110.73861667,915,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.488501266910286,4213.69811192691,10.9224746736296,-3.92790909620382,23.917992884519,546.267371182316
5289,10366,3631,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S07",36.0634,111.0203,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.457415397945648,3687.32249572026,8.94295199347326,-6.18535770551886,22.0471203755425,511.356089668357
5289,10367,3632,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S08",38.2203,112.74201667,1060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.465848871039754,3566.11366434275,8.27470274768425,-7.41810361407459,21.8008717766336,505.174132287447
5289,10368,3633,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S09",38.42443333,112.5594,897,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.453362403253871,3764.80010550034,8.97696688111778,-6.90009834840773,22.6020196921816,495.904043382068
5289,10369,3634,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S10",38.31666667,111.69956667,1180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.41505803567882,3498.35255007536,7.73630344152738,-8.80012674325461,21.8054588590034,457.545184796017
5289,10370,3635,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S11",38.18895,111.47623333,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.433806567906135,3256.492965884,6.86097216430817,-9.40194730878919,20.7740298002706,471.076190619657
5289,10371,3636,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S12",37.8149,111.2301,1140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.414349983259209,3660.06201754923,8.43362919475002,-7.94426624252883,22.3526306802785,461.676002298801
5289,10372,3637,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S13",37.46166667,110.98363333,878,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.418819908315514,4176.45242107093,10.4578054028211,-5.65323558444226,24.1325143727266,474.890096903727
5289,10373,3638,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S14",37.42293333,110.7635,828,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.414455480524124,4277.64608350006,10.805540418154,-5.37641990921114,24.5042955221807,472.262373015316
5289,10374,3639,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S15",37.73503333,110.18273333,867,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406995309098391,4184.19440859599,10.3067013479788,-6.44854448011215,24.3155517162591,464.534679070334
5289,10375,3640,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S16",35.95876667,108.07168333,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.527813109709188,4073.71170924107,10.6778043689914,-3.13544560135241,23.1797001141195,573.489315461715
5289,10376,3641,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S17",35.52178333,107.84456667,1130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.536554697037705,3971.82858472204,10.3825009988007,-3.18922176913271,22.7564657053959,577.455494325013
5289,10377,3642,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S18",35.62535,106.55173333,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.496730802558953,3446.09306506615,8.61004688246734,-4.59342491843782,20.6286641501898,520.445421531991
5289,10378,3643,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S19",38.70841667,109.14578333,1310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.308994969587547,3449.91592742399,7.41381127785949,-9.40644051924738,21.9672303530879,346.366636693483
5289,10379,3644,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S20",38.92788,108.24993333,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.25417183835185,3317.09212999863,6.86571393578747,-9.92626550856921,21.5845343336654,283.860555305542
5289,10380,3645,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S21",35.70625,105.20356667,1810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.426682976427727,3067.70388057514,7.18966848348172,-6.10580532128607,19.0179529603349,442.821016150486
5289,10381,3646,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S22",37.64136667,103.15501667,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.194168169930617,3396.60740578935,7.52280195843262,-8.35961189779507,21.4217533318149,211.505184248506
5289,10382,3647,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S23",37.51333333,103.64733333,1810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.236861072056397,2917.22034198905,5.99106732363605,-8.8175768175982,19.009830857872,251.862984321533
5289,10383,3648,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S24",38.76853333,101.16133333,1830,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.138954268089948,2722.83444030854,4.70143894646445,-11.2199010098812,18.5776838858045,148.391342073652
5289,10384,3649,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S25",39.31401667,106.31008333,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.174367281137687,3433.59774709548,7.18511099433164,-9.92455814374379,22.1963655029139,197.482872547214
5289,10385,3650,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S26",37.07603333,103.3065,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.272550084679051,2852.25290760099,5.91320496445026,-8.48091962383669,18.4652510374083,287.695794618186
5289,10386,3651,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S27",38.27935,102.10741227,1870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164503435503053,2750.60891693536,4.99482115030082,-10.4830416986801,18.6292777086439,175.576802555602
5289,10387,3652,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S28",39.77691667,99.2159,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0961501781168965,3490.17087504748,7.43811616563504,-9.57579068547994,21.9604442637374,108.734462018869
5289,10388,3653,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S29",39.7224,99.43036667,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.101920439622149,3532.74961016663,7.61377765672795,-9.43039320153128,22.1270080576727,115.106641116092
5289,10389,3654,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S30",40.75486667,99.404,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0883812164561103,3419.29521078373,7.08476796037273,-10.0252562685254,21.8459487185966,99.2180831359074
5289,10390,3655,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S31",40.98965,99.41831667,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0844859139500206,3513.90627480803,7.31634345123093,-10.1690854651633,22.4591172392079,95.3160317121153
5289,10391,3656,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S32",39.374,105.69906667,1150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.14256634922626,3692.85782563942,8.01644033554271,-9.69129517205899,23.5484496931834,163.397513864859
5289,10392,3657,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S33",40.34961667,104.7430167,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1076570982193,3735.55255310015,7.93204758699885,-10.2785169536472,24.1232359208139,125.877067764131
5289,10393,3658,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S34",40.86768333,104.44975,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103831799998904,3754.98924497665,8.00729705567177,-10.2165785508208,24.2207371515135,122.267245057971
5289,10394,3659,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S35",41.30493333,103.8789,848,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0899760342369157,3716.62540375258,7.49953393826153,-11.5178954197933,24.4532797809327,104.147715384733
5289,10395,3660,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S36",41.95025,102.2739,1140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0858081925632442,3620.93386203722,7.05724850284243,-12.054075237566,24.0133296893189,98.8426179322899
5289,10396,3661,"CMPD","Loess Plateau and deserts","Loess Plateau and deserts S37",41.24005,99.45258333,1370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0847061369825489,3452.07997962758,7.15029661996789,-10.1054154467743,22.0997211807149,95.043145550998
5290,10397,12865,"Neotoma","Lofty Lake","LOFTY",54.725278,-112.480833,620,"not known","lake","core","-15","Lichti-Federovich, S. 1970. The pollen stratigraphy of a dated section of late Pleistocene lake sediment from central Alberta. Canadian Journal of Earth Sciences 7:938-945.",,15,"cold evergreen needleleaf forest",0.71691573061226,2167.39870267932,0.946465599683643,-18.0852493245551,15.9541406582926,473.253648346901
5291,10398,20559,"SMPDSv1","Logne","EPDcoretop_E397",47.328333,-1.501111,4,"not known","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.906700778188629,4437.41203119502,12.1572932361507,5.89453315513621,18.9656111960106,788.773840485597
5292,10399,20560,"SMPDSv1","Lohja","Seppa_b136",59.57,25.7,21,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0507715764393,2396.57969230236,4.8034724074685,-7.14174286103116,16.693426113229,614.087211763136
5293,10400,9470,"EMPDv2","Lokshim river area-1","Novenko_c199",61.2333,52.5667,126,"0.01","terrestrial, soil","soil sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27069641766348,1920.12790290545,0.317954077555944,-17.2905523589522,17.2641850999224,594.081585416158
5294,10401,9471,"EMPDv2","Lokshim river area-2","Novenko_c200",61.2833,52.5167,126,"0.01","terrestrial, soil","soil sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26853114876621,1921.92614786834,0.334952578228675,-17.2554570470865,17.2539215871176,592.518759227606
5295,10402,7200,"EMPDv2","Lomonosovfonna","EPDcoretop_E2533",78.86,17.42,1250,"not known","glacial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",3.92206387130765,40.1169320323959,-12.8185318332747,-23.1497822986713,1.01251387396783,830.356512859332
5296,10403,20561,"SMPDSv1","Lomtjenn","Bjune_a297",59.29,11.365,130,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.25917359161208,2382.06014270885,5.47310198250407,-4.60627115926326,15.7737977435342,760.475288964509
5297,10404,20562,"SMPDSv1","Lomtjern","Bjune_a53",62.14647364,9.07673765,1047,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.87050951270153,1109.25245085744,-0.39360762413333,-10.4492776250644,9.67129750603588,865.363357892839
5298,10405,20563,"SMPDSv1","Lomtjonn","Bjune_a234",59.8083333333333,7.40833333333333,907,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.22036685744569,1561.46635214088,2.41962715115381,-6.66722762627279,11.6850476887444,1206.09430956872
5299,10406,12866,"Neotoma","Lone Fox Lake","LONEFOX",56.716667,-119.716667,1100,"not known","lake","core","-32","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. 1987. Postglacial development of the subalpine-boreal transition forest of western Canada. Journal of Ecology 75:303-320.; MacDonald, G.M., and L.C. Cwynar. 1985. A fossil pollen based reconstruction of the late Quaternary history of lodgepole pine (Pinus contorta ssp. latifolia) in the western interior of Canada. Canadian Journal of Forest Research 15:1039-1044.; MacDonald, G.M., and L.C. Cwynar. 1991. Post-glacial population growth rates of Pinus contorta ssp. latifolia in western Canada. Journal of Ecology 79:417-429.",,15,"cold evergreen needleleaf forest",0.842173562008016,1473.42278661306,-1.80260650645264,-17.8818716086681,12.1066085434749,489.45194337542
5300,10407,14409,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","-49","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5300,10407,14410,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","-25","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5300,10407,14411,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","-13","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5300,10407,14412,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","8","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5300,10407,14413,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","20","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5300,10407,14414,"Neotoma","Lone Star Lake","LONESTAR",45.932,-92.365,284,"not known","lake","core","37","Hotchkiss, S.C., R. Calcote, and E.A. Lynch. 2007. Response of vegetation and fire to Little Ice Age climate change: regional continuity and landscape heterogeneity. Landscape Ecology 22:25-41. Lynch, E.A., S.C. Hotchkiss, and R. Calcote. 2011. Charcoal signatures defined by multivariate analysis of charcoal records from 10 lakes in northwest Wisconsin (USA). Quaternary Research 75(1):125-137.","10.1007/s10980-007-9133-3;
10.1016/j.yqres.2010.08.007",9,"cool mixed forest",0.904770399389723,3199.01156003049,6.07201243570292,-11.9350667216898,21.3172451617554,740.695460370618
5301,10408,7044,"EMPDv2","Long Breach","EPDcoretop_E1679",51.07,-3.69,345,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.76166090890325,2972.73980362297,8.14449261266566,2.66311861405037,14.1176201582195,1661.15001199448
5302,10409,14838,"Neotoma","Long Cove Pond","LONGCV",41.359610000000004,-70.63147,1,"not known","lake","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36220823407161,3941.9898182371,10.558765437119,-1.7947445695941,22.4392397418352,1238.86067878151
5302,10409,14839,"Neotoma","Long Cove Pond","LONGCV",41.359610000000004,-70.63147,1,"not known","lake","core","-23","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36220823407161,3941.9898182371,10.558765437119,-1.7947445695941,22.4392397418352,1238.86067878151
5302,10409,14840,"Neotoma","Long Cove Pond","LONGCV",41.359610000000004,-70.63147,1,"not known","lake","core","21","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36220823407161,3941.9898182371,10.558765437119,-1.7947445695941,22.4392397418352,1238.86067878151
5303,10410,14741,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-57","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14742,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-49","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14743,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-45","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14744,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-42","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14745,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-38","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14746,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-34","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14747,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-30","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14748,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-26","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14749,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-22","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14750,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-18","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14751,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-14","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14752,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-10","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14753,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-7","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14754,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","-3","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14755,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","1","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14756,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","5","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14757,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","9","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14758,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","13","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14759,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","17","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14760,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","21","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10410,14761,"Neotoma","Long Lake","LL07D",41.499845,-106.367885,2700,"not known","lake","core","44","Carter, V.A., A. Brunelle, T.A. Minckley, J.D. Shaw, R.J. DeRose, and S. Brewer. 2017. Climate variability and fire effects on quaking aspen in the central Rocky Mountains, USA. Journal of Biogeography 44(6):1280–1293. Carter, V.A., A. Brunelle, T.A. Minckley, P.E. Dennison, and M.J. Power. 2013. Regionalization of fire regimes in the Central Rocky Mountains, USA. Quaternary Research 80(3):406-416. Minckley, T.A. 2014. Postglacial vegetation history of southeastern Wyoming, U.S.A. Rocky Mountain Geology 49(1):61-74.","10.1111/jbi.12932;
10.1016/j.yqres.2013.07.009;
10.2113/gsrocky.49.1.61",17,"temperate evergreen needleleaf open woodland",0.443858152861721,1747.75812734024,1.87219593793199,-9.56699775619738,14.2775940724527,421.55073819014
5303,10411,13972,"Neotoma","Long Lake","MNHNLL",44.988845,-93.556405,288,"not known","lake","core","-26","Young, M.A. 1979. A high resolution paleomagnetic study of recent sediments from Long Lake, Hennepin County, Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854276204413762,3441.93124787869,6.90601374415082,-11.5297463885221,22.4399879423158,732.199900192041
5303,10411,13973,"Neotoma","Long Lake","MNHNLL",44.988845,-93.556405,288,"not known","lake","core","29","Young, M.A. 1979. A high resolution paleomagnetic study of recent sediments from Long Lake, Hennepin County, Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854276204413762,3441.93124787869,6.90601374415082,-11.5297463885221,22.4399879423158,732.199900192041
5303,10412,16727,"Neotoma","Long Lake","RBD006",45.833333,-88.666667,461,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.03046082718308,2618.81120207415,3.94893025517677,-12.5851929021976,18.7291556946303,789.378503862131
5303,10413,17407,"Neotoma","Long Lake","TW114",43.12,-85.12,255,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.969839774979427,3451.75765361944,8.23510776495293,-6.14797053645525,21.4832902870806,838.219420273442
5304,10414,14000,"Neotoma","Long Last Lake","LONGLAST",61.564,-137.2285,985,"not known","lake","core","-39","Keenan, T.J., and L.C. Cwynar. 1992. Late Quaternary history of black spruce and grasslands in southwest Yukon Territory. Canadian Journal of Botany 70:1336-1345.; Keenan, T.J. 1991. Late-Quaternary history of Black Spruce and grasslands in southwest Yukon Territory. Master's thesis. University of New Brunswick, Fredericton, New Brunsiwck, Canada.",,15,"cold evergreen needleleaf forest",0.54246136996521,1220.03357038851,-4.9774505178916,-24.6787622367476,11.8201558884618,251.4126408166
5305,10415,20564,"SMPDSv1","Long Lough","EPDcoretop_E400",54.416667,-5.866667,25,"0.97","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.37973576676491,3350.22558180454,9.17870022412202,4.43311074570812,14.6478972743096,1374.47374543863
5306,10416,1001,"Australian pollen","Long Swamp","Long Swamp Core A",-38.0999,141.108,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.690894104191894,5216.54419132046,14.2919018940287,10.1690567744807,18.7696196465726,710.744768804983
5306,10416,1002,"Australian pollen","Long Swamp","Long Swamp Core A",-38.0999,141.108,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.690894104191894,5216.54419132046,14.2919018940287,10.1690567744807,18.7696196465726,710.744768804983
5306,10417,1003,"Australian pollen","Long Swamp","Long Swamp Core C",-38.109,141.124,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.691707218320943,5216.01449217624,14.2904506634966,10.1683625029555,18.7668093116621,711.299718700889
5306,10417,1004,"Australian pollen","Long Swamp","Long Swamp Core C",-38.109,141.124,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.691707218320943,5216.01449217624,14.2904506634966,10.1683625029555,18.7668093116621,711.299718700889
5306,10418,1005,"Australian pollen","Long Swamp","LS1",-38.0999,141.108,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.690894104191894,5216.54419132046,14.2919018940287,10.1690567744807,18.7696196465726,710.744768804983
5306,10419,1006,"Australian pollen","Long Swamp","LS2",-38.109,141.124,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.691707218320943,5216.01449217624,14.2904506634966,10.1683625029555,18.7668093116621,711.299718700889
5306,10420,1007,"Australian pollen","Long Swamp","LS3",-38.105,141.107,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.691136584795927,5216.22011240746,14.2910140065958,10.1688634274928,18.7678411215176,710.913886520264
5307,10421,8108,"EMPDv2","Longary_bog","Mikishin-Gvozdeva_a169",50.5283333333333,142.763888888889,150,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29766192729627,1826.05598359017,-0.2131473300202,-17.6785318397108,15.1063947318127,719.845778472205
5308,10422,7999,"EMPDv2","Longary_forest","Mikishin-Gvozdeva_a59",50.5347222222222,142.751111111111,160,"not applicable","terrestrial","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29962154580198,1814.79059115939,-0.271814786119214,-17.7362216028077,15.0495220571774,720.102741436058
5309,10423,3662,"CMPD","Longchi Mt","Longchi Mt 6",31.2166666666667,119.7,343,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30748902320861,5403.18572185682,14.8032485530324,2.52871094330318,26.6355308710851,1413.13745445391
5309,10424,3663,"CMPD","Longchi Mt","Longchi Mt 7",31.2166666666667,119.7,392,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34663633675581,5352.16970255815,14.6634786371456,2.44672589027279,26.4268723604169,1449.43752737705
5309,10425,3664,"CMPD","Longchi Mt","Longchi Mt 8",31.2166666666667,119.7,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41781439551066,5260.54909647074,14.412463278002,2.29948742768761,26.0521387086046,1514.62949507576
5310,10426,20565,"SMPDSv1","Longeyroux-1","Miras_d1",45.5969861111111,2.07053055555555,897,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13072601302413,3000.70101474153,8.22109867052473,0.536053370728115,16.7497681910049,990.231567395499
5310,10427,20566,"SMPDSv1","Longeyroux-1","Miras_d10",45.6007472222222,2.07776111111111,871,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1203794153342,3045.87750461007,8.34486987564402,0.664893522256939,16.8583370329376,981.84247498854
5310,10428,20567,"SMPDSv1","Longeyroux-1","Miras_d11",45.6001222222222,2.0801,869,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11952318713937,3049.43519724526,8.35461697875413,0.675028631868002,16.8670249040206,981.182324759578
5310,10429,20568,"SMPDSv1","Longeyroux-1","Miras_d12",45.5985444444444,2.08086111111111,874,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12144880303708,3040.84433593685,8.33108037242971,0.650527629971306,16.8465228714176,982.783359060801
5310,10430,20569,"SMPDSv1","Longeyroux-1","Miras_d13",45.5965388888888,2.08045277777777,889,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12737939260914,3014.86023579741,8.25989105697922,0.576461223597028,16.7841720038773,987.62054791563
5310,10431,20570,"SMPDSv1","Longeyroux-1","Miras_d2",45.59815,2.07098333333333,884,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12555727593408,3023.2703389617,8.2829324355115,0.600392195084326,16.8039846078541,986.037527385321
5310,10432,20571,"SMPDSv1","Longeyroux-1","Miras_d3",45.5983166666666,2.07076111111111,885,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12596814538739,3021.51681133408,8.27812825023037,0.595396807518979,16.7997424302514,986.363402097381
5310,10433,20572,"SMPDSv1","Longeyroux-1","Miras_d4",45.5984944444444,2.07077222222222,884,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12557483377633,3023.24747138198,8.28286978460815,0.600331885534586,16.8038907732139,986.041762450717
5310,10434,20573,"SMPDSv1","Longeyroux-1","Miras_d5",45.5968083333333,2.07246666666666,886,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12628288698621,3019.89340517029,8.27368056211037,0.590754638272367,16.7960281429247,986.666956645736
5310,10435,20574,"SMPDSv1","Longeyroux-1","Miras_d6",45.5973555555555,2.07283611111111,880,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12389710971729,3030.31119546201,8.30222245332058,0.620452440191299,16.8210574331432,984.730579389385
5310,10436,20575,"SMPDSv1","Longeyroux-1","Miras_d7",45.5982111111111,2.07271944444444,877,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12273347458528,3035.48165016947,8.31638808265609,0.635200642700199,16.8334156451014,983.769253288329
5310,10437,20576,"SMPDSv1","Longeyroux-1","Miras_d8",45.5984944444444,2.07228333333333,878,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1231517513555,3033.71762017933,8.31155512377899,0.630176729099994,16.829131023088,984.096934688824
5310,10438,20577,"SMPDSv1","Longeyroux-1","Miras_d9",45.5991944444444,2.07626111111111,872,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12073058966006,3044.19538375815,8.34026132536479,0.660065332852497,16.8543935069836,982.15324091915
5311,10439,20578,"SMPDSv1","Longeyroux-2","Miras_e1",45.5977416666666,2.06928611111111,902,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13278086454965,2991.93314404697,8.197077106978,0.511070417991681,16.728559923516,991.859771678632
5311,10440,20579,"SMPDSv1","Longeyroux-2","Miras_e2",45.5981666666666,2.06985555555555,895,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12998338201635,3004.10506174942,8.23042482671073,0.545769404224664,16.757828323865,989.599041640898
5311,10441,20580,"SMPDSv1","Longeyroux-2","Miras_e3",45.59855,2.07057777777777,885,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12598052366029,3021.50049393305,8.27808354502204,0.595353314992645,16.7996757152619,986.366350938218
5311,10442,20581,"SMPDSv1","Longeyroux-2","Miras_e4",45.5984777777777,2.07105555555555,882,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12476892398291,3026.73407725326,8.292422129461,0.610268994435593,16.8122911837411,985.393813029534
5311,10443,20582,"SMPDSv1","Longeyroux-2","Miras_e5",45.5989333333333,2.07160277777777,878,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12317897047223,3033.67992862065,8.31145185923466,0.63007355407479,16.8289791271285,984.103188912111
5312,10444,16519,"Neotoma","Longfellow Lake","KG016",45.77,-67.87,142,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50647147275821,2623.16140182383,4.78146477836342,-10.0433180459452,18.4202928938598,1127.50165314243
5313,10445,3665,"CMPD","Longgan Lake","Longgan Lake",29.83,115.917,14,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.25152192523317,6335.68144992393,17.3580313696546,4.82358720961703,29.2147896602075,1438.43266753869
5314,10446,3666,"CMPD","Longnan","Longnan",24.57,114.69,526,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34927376002906,6666.56978783497,18.2645747611917,8.03910115937804,27.1809272516272,1596.49556550304
5315,10447,3667,"CMPD","Longquan Lake","Longquan Lake",31,112.1,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.972108285477923,6008.8906183453,16.4627140228638,3.8991908887429,28.1947026595728,1078.10257428799
5315,10448,9835,"Herzschuh et al., 2019","Longquan Lake","Longquan Lake_2",31.08,112.24,80,"not applicable","not known","not known","0","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.967009641246871,6030.50983614476,16.521944756561,3.91302075092334,28.2857268635319,1073.91545012161
5316,10449,16444,"Neotoma","Longstaff Bluff","JTA263",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10450,16442,"Neotoma","Longstaff Bluff","JTA264",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10451,16440,"Neotoma","Longstaff Bluff","JTA265",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10452,16449,"Neotoma","Longstaff Bluff","JTA266",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10453,16441,"Neotoma","Longstaff Bluff","JTA267",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10454,16443,"Neotoma","Longstaff Bluff","JTA268",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10455,16447,"Neotoma","Longstaff Bluff","JTA269",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10456,16448,"Neotoma","Longstaff Bluff","JTA270",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10457,16445,"Neotoma","Longstaff Bluff","JTA271",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5316,10458,16446,"Neotoma","Longstaff Bluff","JTA272",68.92,-75.13,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.840967920543756,371.950870152252,-13.2165784198862,-29.6253965832459,6.13170035480342,227.81554622333
5317,10459,12867,"Neotoma","Longswamp","LONGSWMP",40.483333,-75.666667,192,"not known","lake","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.17013701138503,4002.38594642516,10.5731173970841,-2.74772928640484,22.8781298841634,1096.60854660909
5318,10460,3668,"CMPD","Longzhai","Longzhai GLs-01",24.7288888888889,109.391666666667,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32171695415849,7894.42983170489,21.6285748813833,12.0675363458824,29.2657285021017,1555.0605710311
5318,10461,3669,"CMPD","Longzhai","Longzhai GLs-02",24.7288888888889,109.391666666667,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32171695415849,7894.42983170489,21.6285748813833,12.0675363458824,29.2657285021017,1555.0605710311
5318,10462,3670,"CMPD","Longzhai","Longzhai GLs-03",24.7275,109.392222222222,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32170608714188,7894.57473487042,21.6289718763573,12.0684311585679,29.2655635324701,1555.07147861191
5318,10463,3671,"CMPD","Longzhai","Longzhai GLs-04",24.7275,109.392222222222,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32170608714188,7894.57473487042,21.6289718763573,12.0684311585679,29.2655635324701,1555.07147861191
5318,10464,3672,"CMPD","Longzhai","Longzhai GLs-05",24.7236111111111,109.387777777778,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32143978531547,7895.27018743528,21.6308772258501,12.0716882775203,29.2658851897786,1554.84971038118
5318,10465,3673,"CMPD","Longzhai","Longzhai GLs-06",24.7236111111111,109.387777777778,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32143978531547,7895.27018743528,21.6308772258501,12.0716882775203,29.2658851897786,1554.84971038118
5318,10466,3674,"CMPD","Longzhai","Longzhai GLs-07",24.7227777777778,109.388055555556,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31112893684146,7636.84695501721,20.9228683699102,11.2164521044715,28.7597549459554,1529.52380842269
5318,10467,3675,"CMPD","Longzhai","Longzhai GLs-08",24.7227777777778,109.388055555556,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31112893684146,7636.84695501721,20.9228683699102,11.2164521044715,28.7597549459554,1529.52380842269
5318,10468,3676,"CMPD","Longzhai","Longzhai GLs-09",24.7216666666667,109.388611111111,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31113158462088,7636.94082588177,20.923125550361,11.2170301515065,28.7596544517522,1529.54543451133
5318,10469,3677,"CMPD","Longzhai","Longzhai GLs-10",24.7197222222222,109.389166666667,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31111557813763,7637.13183668104,20.9236488676193,11.2181295568841,28.7595250799194,1529.56079517388
5318,10470,3678,"CMPD","Longzhai","Longzhai GLs-11",24.7197222222222,109.389166666667,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31111557813763,7637.13183668104,20.9236488676193,11.2181295568841,28.7595250799194,1529.56079517388
5318,10471,3679,"CMPD","Longzhai","Longzhai GLs-12",24.7188888888889,109.389444444444,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31111070395925,7637.21112257388,20.9238660892435,11.2185922185972,28.7594652183567,1529.56954093007
5318,10472,3680,"CMPD","Longzhai","Longzhai GLs-13",24.7188888888889,109.389444444444,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31111070395925,7637.21112257388,20.9238660892435,11.2185922185972,28.7594652183567,1529.56954093007
5318,10473,3681,"CMPD","Longzhai","Longzhai GLs-14",24.5638333333333,107.0955,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04168919993964,8340.43450236885,22.8505054859421,13.8072610303243,29.7679224911055,1250.55126694756
5318,10474,3682,"CMPD","Longzhai","Longzhai GLs-15",24.5638333333333,107.0955,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04168919993964,8340.43450236885,22.8505054859421,13.8072610303243,29.7679224911055,1250.55126694756
5318,10475,3683,"CMPD","Longzhai","Longzhai GLs-16",24.7144444444444,109.383055555556,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31587712977513,7767.38224361485,21.2804992975749,11.6506716031623,29.0129520727087,1541.88040488217
5318,10476,3684,"CMPD","Longzhai","Longzhai GLs-17",24.7133333333333,109.384166666667,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30552692669179,7508.94100100818,20.5724410986525,10.7951437533988,28.5069565386935,1516.56000804789
5318,10477,3685,"CMPD","Longzhai","Longzhai GLs-18",24.7133333333333,109.384166666667,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30552692669179,7508.94100100818,20.5724410986525,10.7951437533988,28.5069565386935,1516.56000804789
5318,10478,3686,"CMPD","Longzhai","Longzhai GLs-19",24.7159722222222,109.384444444444,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31597375992977,7767.12144850466,21.2797847904237,11.6494324267161,29.0128628689941,1541.95963675159
5318,10479,3687,"CMPD","Longzhai","Longzhai GLs-20",24.7186111111111,109.384722222222,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.31087004491064,7637.54717320092,20.9247867758929,11.2197649876532,28.7599817832151,1529.31203826843
5319,10480,7415,"EMPDv2","Lonnestjorna","Hjelle_a4",60.2847182,5.2319395,6,"0.012","lake","sediment sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.86601913119208,2648.95058707816,7.25739886870729,1.05147679590808,14.0961653081313,2025.31457938806
5320,10481,16539,"Neotoma","Loon Lake","KG033",45.03,-70.65,522,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.64445980629305,2347.32928096908,3.27643816622007,-12.099550481955,17.1846404375941,1197.19957478919
5321,10482,12868,"Neotoma","Loon Pond","LOONPOND",45.033333,-68.2,110,"not known","lake","core","-27","Jacobson, G.L., Jr., R.B. Davis, R.S. Anderson, M. Tolonen, and R. Stuckenrath, Jr. (n.d.) Post-glacial vegetation of the coastal lowlands of Maine. Unpublished manuscript.",,9,"cool mixed forest",1.49433177272597,2743.03488754458,5.49757125874789,-8.79318783615836,18.7515092919009,1143.79908823681
5321,10482,12869,"Neotoma","Loon Pond","LOONPOND",45.033333,-68.2,110,"not known","lake","core","27","Jacobson, G.L., Jr., R.B. Davis, R.S. Anderson, M. Tolonen, and R. Stuckenrath, Jr. (n.d.) Post-glacial vegetation of the coastal lowlands of Maine. Unpublished manuscript.",,9,"cool mixed forest",1.49433177272597,2743.03488754458,5.49757125874789,-8.79318783615836,18.7515092919009,1143.79908823681
5322,10483,15545,"Neotoma","Loop Road Site 1","DAW016",25.319444,-80.795278,3,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.887072925304044,8873.58118718626,24.3111813347569,19.2215329307544,28.4358559228956,1308.26516525745
5323,10484,15541,"Neotoma","Loop Road Site 2","DAW012",25.319444,-80.798611,3,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.886988841937208,8873.56867869218,24.3111470649101,19.2213418377797,28.4359619185007,1308.15251218136
5324,10485,15544,"Neotoma","Loop Road Site 3","DAW015",25.278611,-80.795278,5,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.946490612760211,8724.51007596267,23.9027673314046,18.4752345099547,28.2542524193045,1377.00494577988
5325,10486,8134,"EMPDv2","Lopatinka_1","Mikishin-Gvozdeva_a197",46.5283333333333,141.911666666667,30,"not known","fluvial","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65471461088852,2424.8597132175,4.05269076621964,-10.2178157105954,17.8800100912795,1055.8159611325
5326,10487,8135,"EMPDv2","Lopatinka_2","Mikishin-Gvozdeva_a198",46.5494444444444,141.864444444444,7,"not known","fluvial","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.68263237269455,2481.26882663112,4.30341387445096,-9.9826213809925,18.1292934015317,1074.01670170549
5327,10488,3688,"CMPD","Lopei Mt","Lopei Mt 0540",24.83,121.03,540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57101348104475,6873.91682342062,18.8326488312894,12.2506965192276,24.9176926012837,1904.73642823866
5327,10489,3689,"CMPD","Lopei Mt","Lopei Mt 0560",24.83,121.03,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.57579676425838,6838.21617295572,18.7348388300157,12.1864567269564,24.7929584460211,1908.51624411719
5327,10490,3690,"CMPD","Lopei Mt","Lopei Mt 0580",24.83,121.03,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58059399812868,6802.51552249082,18.637028828742,12.1222169346853,24.6682242907585,1912.29605999573
5327,10491,3691,"CMPD","Lopei Mt","Lopei Mt 0600",24.83,121.03,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58540526260007,6766.81487202592,18.5392188274683,12.0579771424142,24.5434901354959,1916.07587587427
5327,10492,3692,"CMPD","Lopei Mt","Lopei Mt 0615",24.83,121.03,615,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58902296687809,6740.03938417725,18.465861326513,12.0097972982108,24.449939519049,1918.91073778317
5327,10493,3693,"CMPD","Lopei Mt","Lopei Mt 0700",24.83,121.03,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60967487326114,6588.31161970143,18.0501688210998,11.7149661460843,23.9198193591829,1934.97495526695
5327,10494,3694,"CMPD","Lopei Mt","Lopei Mt 0800",24.83,121.03,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.63430749818204,6409.80836737694,17.5611188147314,11.3423729096889,23.2961485828698,1953.87403465964
5327,10495,3695,"CMPD","Lopei Mt","Lopei Mt 0850",24.83,121.03,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.64676321123016,6320.5567412147,17.3165938115471,11.1560762914913,22.9843131947133,1963.32357435598
5327,10496,3696,"CMPD","Lopei Mt","Lopei Mt 0870",24.83,121.03,870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65177194065419,6284.8560907498,17.2187838102734,11.0815576442122,22.8595790394507,1967.10339023452
5327,10497,3697,"CMPD","Lopei Mt","Lopei Mt 0872",24.83,121.03,872,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65227365039296,6281.28602570331,17.2090028101461,11.0741057794843,22.8471056239245,1967.48137182237
5327,10498,3698,"CMPD","Lopei Mt","Lopei Mt 0874",24.83,121.03,874,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65277551262325,6277.71596065682,17.1992218100187,11.0666539147564,22.8346322083982,1967.85935341023
5327,10499,3699,"CMPD","Lopei Mt","Lopei Mt 0876",24.83,121.03,876,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65327752743191,6274.14589561033,17.1894408098913,11.0592020500285,22.8221587928719,1968.23733499808
5327,10500,3700,"CMPD","Lopei Mt","Lopei Mt 0878",24.83,121.03,878,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65377969490581,6270.57583056384,17.179659809764,11.0517501853006,22.8096853773457,1968.61531658594
5327,10501,3701,"CMPD","Lopei Mt","Lopei Mt 0880",24.83,121.03,880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65428201513187,6267.00576551735,17.1698788096366,11.0442983205726,22.7972119618194,1968.99329817379
5327,10502,3702,"CMPD","Lopei Mt","Lopei Mt 1090",24.83,121.03,1090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.70789320865998,5892.14893563592,16.1428737962628,10.2618525241424,21.4875033315621,2008.68136489843
5327,10503,3703,"CMPD","Lopei Mt","Lopei Mt 1095",24.83,121.03,1095,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.7091910492108,5883.2237730197,16.1184212959444,10.2432228623226,21.4563197927464,2009.62631886807
5327,10504,3704,"CMPD","Lopei Mt","Lopei Mt 1170",24.83,121.03,1170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.72878131350874,5749.34633377633,15.751633791168,9.96377793502611,20.9885667105116,2023.80062841258
5327,10505,3705,"CMPD","Lopei Mt","Lopei Mt 1175",24.83,121.03,1175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73009557403761,5740.42117116011,15.7271812908496,9.94514827320634,20.957383171696,2024.74558238221
5327,10506,3706,"CMPD","Lopei Mt","Lopei Mt 1190",24.83,121.03,1190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73404459335011,5713.64568331143,15.6538237898943,9.88925928774704,20.863832555249,2027.58044429112
5327,10507,3707,"CMPD","Lopei Mt","Lopei Mt 1195",24.83,121.03,1195,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73536301726638,5704.72052069521,15.6293712895759,9.87062962592727,20.8326490164334,2028.52539826075
5327,10508,3708,"CMPD","Lopei Mt","Lopei Mt 1200",24.83,121.03,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73668248571178,5695.79535807898,15.6049187892575,9.8519999641075,20.8014654776177,2029.47035223039
5327,10509,3709,"CMPD","Lopei Mt","Lopei Mt 1220",24.83,121.03,1220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.74197083434612,5660.09470761409,15.5071087879838,9.77748131682843,20.6767313223551,2033.25016810892
5327,10510,3710,"CMPD","Lopei Mt","Lopei Mt 1240",24.83,121.03,1240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.74727601391735,5624.39405714919,15.4092987867101,9.70296266954936,20.5519971670925,2037.02998398746
5327,10511,3711,"CMPD","Lopei Mt","Lopei Mt 1260",24.83,121.03,1260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.75259811971292,5588.69340668429,15.3114887854364,9.62844402227029,20.4272630118299,2040.809799866
5327,10512,3712,"CMPD","Lopei Mt","Lopei Mt 1280",24.83,121.03,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.75793724750174,5552.99275621939,15.2136787841627,9.55392537499122,20.3025288565673,2044.58961574454
5327,10513,3713,"CMPD","Lopei Mt","Lopei Mt 1285",24.83,121.03,1285,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.75927470040421,5544.06759360317,15.1892262838443,9.53529571317145,20.2713453177516,2045.53456971417
5327,10514,3714,"CMPD","Lopei Mt","Lopei Mt 1290",24.83,121.03,1290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76061322470322,5535.14243098694,15.1647737835259,9.51666605135168,20.240161778936,2046.4795236838
5327,10515,3715,"CMPD","Lopei Mt","Lopei Mt 1295",24.83,121.03,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76195282190929,5526.21726837072,15.1403212832074,9.49803638953191,20.2089782401203,2047.42447765344
5327,10516,3716,"CMPD","Lopei Mt","Lopei Mt 1300",24.83,121.03,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76329349353483,5517.29210575449,15.115868782889,9.47940672771214,20.1777947013047,2048.36943162307
5327,10517,3717,"CMPD","Lopei Mt","Lopei Mt 1320",24.83,121.03,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.76866695454585,5481.5914552896,15.0180587816153,9.40488808043307,20.0530605460421,2052.14924750161
5327,10518,3718,"CMPD","Lopei Mt","Lopei Mt 1340",24.83,121.03,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.77405772775171,5445.8908048247,14.9202487803416,9.330369433154,19.9283263907795,2055.92906338015
5327,10519,3719,"CMPD","Lopei Mt","Lopei Mt 1360",24.83,121.03,1360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.77946591085306,5410.1901543598,14.8224387790679,9.25585078587493,19.8035922355169,2059.70887925868
5327,10520,3720,"CMPD","Lopei Mt","Lopei Mt 1400",24.83,121.03,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.79033489996619,5338.78885343,14.6268187765206,9.10681349131678,19.5541239249917,2067.26851101576
5327,10521,3721,"CMPD","Lopei Mt","Lopei Mt 1420",24.83,121.03,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.79579590380193,5303.08820296511,14.5290087752469,9.03229484403772,19.429389769729,2071.0483268943
5327,10522,3722,"CMPD","Lopei Mt","Lopei Mt 1460",24.83,121.03,1460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.80677142823139,5231.68690203531,14.3333887726995,8.88325754947957,19.1799214592038,2078.60795865137
5327,10523,3723,"CMPD","Lopei Mt","Lopei Mt 1480",24.83,121.03,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.81228614956214,5195.98625157041,14.2355787714258,8.8087389022005,19.0551873039412,2082.38777452991
5328,10524,1008,"Australian pollen","Lord Howe Island","Lord Howe Island 1",-31.55,159.08,10,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.44646346809188,6910.39734220505,18.932595458096,15.6308335966534,22.5561114735074,1811.37173780719
5328,10525,1009,"Australian pollen","Lord Howe Island","Lord Howe Island 10",-31.52,159.05,20,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.45962472207749,6838.25289519628,18.7349394388939,15.46000023418,22.3838892830743,1818.87068492699
5328,10526,1010,"Australian pollen","Lord Howe Island","Lord Howe Island 11",-31.57,159.08,80,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.54536261969914,6405.38621314368,17.5490033236813,13.9777789910635,21.3505561404758,1863.86436764582
5328,10527,1011,"Australian pollen","Lord Howe Island","Lord Howe Island 12",-31.56,159.1,100,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.57476100192515,6261.09731912613,17.1536912852771,13.4722236792246,21.0061117596096,1878.86226188543
5328,10528,1012,"Australian pollen","Lord Howe Island","Lord Howe Island 13",-31.55,159.09,400,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",2.10902245741229,4096.76390886308,11.2240107092139,5.88889400164289,15.8394460466173,2103.83067547956
5328,10529,1013,"Australian pollen","Lord Howe Island","Lord Howe Island 14",-31.55,159.08,500,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",2.33390215482676,3375.31943877538,9.24745051719281,3.36111744244891,14.1172241422865,2178.82014667759
5328,10530,1014,"Australian pollen","Lord Howe Island","Lord Howe Island 15",-31.55,159.09,300,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.90976561846592,4818.20837895076,13.200570901235,8.41667056083682,17.5616679509481,2028.84120428151
5328,10531,1015,"Australian pollen","Lord Howe Island","Lord Howe Island 16",-31.55,159.09,100,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.57459393846114,6261.09731912613,17.1536912852771,13.4722236792247,21.0061117596097,1878.86226188543
5328,10532,1016,"Australian pollen","Lord Howe Island","Lord Howe Island 17",-31.59,159.08,650,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",2.72858144736325,2316.33367728049,6.28261022916132,-0.430547396341935,11.5338912857904,2291.30435347466
5328,10533,1017,"Australian pollen","Lord Howe Island","Lord Howe Island 18",-31.58,159.08,500,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",2.33457948490456,3375.31943877535,9.24745051719274,3.36111744244882,14.1172241422864,2178.82014667759
5328,10534,1018,"Australian pollen","Lord Howe Island","Lord Howe Island 2",-31.52,159.04,200,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.73210416331472,5539.65284903845,15.177131093256,10.9444471200307,19.2838898552789,1953.85173308347
5328,10535,1019,"Australian pollen","Lord Howe Island","Lord Howe Island 3",-31.53,159.08,100,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.57426005921931,6261.09731912613,17.1536912852771,13.4722236792246,21.0061117596096,1878.86226188543
5328,10536,1020,"Australian pollen","Lord Howe Island","Lord Howe Island 4",-31.51,159.06,50,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.50123658216366,6621.81955416998,18.1419713812876,14.7361119588216,21.8672227117751,1841.36752628641
5328,10537,1021,"Australian pollen","Lord Howe Island","Lord Howe Island 5",-31.56,159.1,50,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.5020411968045,6621.81955416997,18.1419713812876,14.7361119588216,21.867222711775,1841.36752628641
5328,10538,1022,"Australian pollen","Lord Howe Island","Lord Howe Island 6",-31.52,159.05,100,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.57409324337657,6261.09731912612,17.1536912852771,13.4722236792246,21.0061117596096,1878.86226188543
5328,10539,1023,"Australian pollen","Lord Howe Island","Lord Howe Island 7",-31.53,159.08,120,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.60447174972032,6116.80842510859,16.7583792468729,12.9666683673859,20.6616673787435,1893.86015612504
5328,10540,1024,"Australian pollen","Lord Howe Island","Lord Howe Island 8",-31.52,159.05,80,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.54453981735051,6405.38621314366,17.5490033236813,13.9777789910634,21.3505561404758,1863.86436764582
5328,10541,1025,"Australian pollen","Lord Howe Island","Lord Howe Island 9",-31.53,159.08,100,"not applicable","terrestrial","surface sample","-32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.57426005921931,6261.09731912613,17.1536912852771,13.4722236792246,21.0061117596096,1878.86226188543
5329,10542,14280,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","-104","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14281,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","-64","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14282,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","-26","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14283,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","11","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14284,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","19","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14285,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","30","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14286,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","38","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5329,10542,14287,"Neotoma","Lorraine Lake","LORRAINE",46.1446849999999,-86.48299,437,"not known","lake","core","50","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668.","10.1191/0959683603hl608rp;
10.2307/2845547",9,"cool mixed forest",1.14535881654956,2613.66464658084,4.40999206673723,-10.9730751301513,18.6528533566672,863.917855526032
5330,10543,11613,"Neotoma","Lost Lake","LOS-1C",43.68058,-97.060305,559,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.62943138502318,3416.19725798529,6.93652496384802,-10.8873106935903,22.8084345086314,578.929621796545
5330,10544,11614,"Neotoma","Lost Lake","LOS-1M",43.68058,-97.060305,559,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.62943138502318,3416.19725798529,6.93652496384802,-10.8873106935903,22.8084345086314,578.929621796545
5330,10545,12870,"Neotoma","Lost Lake","LOSTLAKE",46.719435,-87.97207,524,"not known","lake","core","0","Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06794185570686,2577.08004499507,3.84558792538218,-12.4215936656054,18.5581795063295,804.066984438096
5330,10546,12871,"Neotoma","Lost Lake","LOSTLKMT",47.63516,-110.48434,1019,"not known","lake","core","-35","Barnosky, C.W. 1989. Postglacial vegetation and climate in the northwestern Great Plains of Montana. Quaternary Research 31:57-73.",,22,"steppe",0.405102851302435,2927.27089245132,6.09970610376237,-8.76726694284405,20.2160997810438,354.537598408563
5330,10547,14082,"Neotoma","Lost Lake","LOSTLKOR",45.824085,-123.5793,452,"not known","lake","core","-51","Long, C.J., C. Whitlock, and P.J. Bartlein. 2007. Holocene vegetation and fire history of the Coast Range, western Oregon, USA. The Holocene 17:917-926.",,8,"cool evergreen needleleaf forest",2.04827468324473,3349.29358373825,9.17614680476232,2.37001207329761,16.9333490284158,1673.37000802295
5330,10548,17371,"Neotoma","Lost Lake","TW076",45.293695,-83.9657149999999,195,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",1.02351802346881,2883.44558131628,5.67677298189262,-9.31301367301923,19.3315928623506,815.855235332493
5331,10549,11966,"Neotoma","Lost Man Lake","SM-LMN",39.153195,-106.568825,3775,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.663467528303029,594.758247985089,-4.62690166270764,-15.7048708261289,6.72199243466827,578.01519600821
5332,10550,14193,"Neotoma","Lost Moose Core 128","LOSTMOOS",57.5608333333333,-94.2679166666667,110,"not known","terrestrial, bog/fen/swamp","core","-34","Dredge, L.A., and R.J. Mott. 2003. Holocene pollen records and peatland development, northeastern Manitoba. Géographie physique et Quaternaire 57:7-19.",,15,"cold evergreen needleleaf forest",0.958689674858085,1339.69666101973,-5.70567649652233,-26.5203306777679,13.6516490099587,459.951831895755
5332,10550,14194,"Neotoma","Lost Moose Core 128","LOSTMOOS",57.5608333333333,-94.2679166666667,110,"not known","terrestrial, bog/fen/swamp","core","20","Dredge, L.A., and R.J. Mott. 2003. Holocene pollen records and peatland development, northeastern Manitoba. Géographie physique et Quaternaire 57:7-19.",,15,"cold evergreen needleleaf forest",0.958689674858085,1339.69666101973,-5.70567649652233,-26.5203306777679,13.6516490099587,459.951831895755
5333,10551,12872,"Neotoma","Lost P.","LOSTPOND",44.246944,-71.251389,635,"not known","not known","core","20","Davis, M.B., R.W. Spear, and L.C.K. Shane. 1980. Holocene climate of New England. Quaternary Research 14:240-250.; Spear, R.W., M.B. Davis, and L.C.K. Shane. 1994. Late Quaternary history of low- and mid-elevation vegetation in the White Mountains of New Hampshire. Ecological Monographs 64:85-109.",,9,"cool mixed forest",1.76089388537905,2203.24998955186,2.67155895385798,-12.5495484493064,16.350933609634,1257.64669016483
5334,10552,13881,"Neotoma","Lost Park","LOSTPARK",39.2949,-105.538299999999,3079,"not known","terrestrial","core","-41","Vierling, L.A. 1998. Palynological evidence for late- and postglacial environmental change in Central Colorado. Quaternary Research 49:222-232.",,17,"temperate evergreen needleleaf open woodland",0.477403162879243,1358.79463919867,0.0933512415435458,-11.0773293240635,11.7079178369656,458.373001147692
5335,10553,14360,"Neotoma","Lost Swamp","LOSTSWAM",42.82814,-72.4211,350,"not known","terrestrial, bog/fen/swamp","core","-40","Schoonmaker, P.K., Jr. 1992. Long-term vegetation dynamics in southwestern New Hampshire. Doctoral dissertation. Harvard University, Cambridge, Massachusetts, USA.; Schoonmaker, P.K., and D.R. Foster. 1991. Some implications of paleoecology for contemporary ecology. Botanical Review 57(3):204-245.",,9,"cool mixed forest",1.36734182950946,3043.60455466148,6.66279588458377,-7.81998496518437,19.8322743895341,1104.38507031836
5335,10553,14361,"Neotoma","Lost Swamp","LOSTSWAM",42.82814,-72.4211,350,"not known","terrestrial, bog/fen/swamp","core","43","Schoonmaker, P.K., Jr. 1992. Long-term vegetation dynamics in southwestern New Hampshire. Doctoral dissertation. Harvard University, Cambridge, Massachusetts, USA.; Schoonmaker, P.K., and D.R. Foster. 1991. Some implications of paleoecology for contemporary ecology. Botanical Review 57(3):204-245.",,9,"cool mixed forest",1.36734182950946,3043.60455466148,6.66279588458377,-7.81998496518437,19.8322743895341,1104.38507031836
5336,10554,8218,"EMPDv2","Lotos_1","Mikishin-Gvozdeva_b49",42.4558333333333,130.640277777778,2,"4.2","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.841853929393371,3299.84136479126,6.4308890835165204,-11.5552854659435,21.9104468192321,697.252770902938
5337,10555,8219,"EMPDv2","Lotos_5","Mikishin-Gvozdeva_b50",42.4505555555556,130.649722222222,2,"4.2","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.84224084434391,3300.1563390301,6.43309915152509,-11.5514982207332,21.9116614921827,697.59551158632
5338,10556,20583,"SMPDSv1","Loucky","EPDcoretop_E403",49.325,15.502778,560,"0.05","terrestrial, bog/fen/swamp","peat core top","-8","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932667390603546,2918.16018593929,7.52696910308939,-3.02746163871853,16.9421070768754,708.67359534502
5339,10557,7167,"EMPDv2","Lough Anaffrin","EPDcoretop_E2250",53.96,-9.73,184,"0.24","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.38089394582233,3042.96821585124,8.33689922151024,3.92372648716782,13.4721457434734,1370.12321314003
5340,10558,7168,"EMPDv2","Lough Camclaun","EPDcoretop_E2251",52.2,-10.17,233,"0.1","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.19442270487705,3377.13944990505,9.25243684905493,5.02139175506002,14.2255028808152,1389.00495706237
5341,10559,20584,"SMPDSv1","Lough Henney","EPDcoretop_E273",54.433333,-5.9,25,"0.94","lake","lacustrine core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.37076418258881,3350.76674688302,9.18018286817265,4.43831867524335,14.6468194677527,1368.83696742647
5342,10560,7169,"EMPDv2","Lough Inchiquin","EPDcoretop_E2254",51.81,-9.7,40,"1.08","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.7550072822232,3676.4402690819,10.0724390933751,5.74818519331365,15.212803397919,1131.24273252595
5343,10561,10650,"Neotoma","Lough Meenaviller","Lough Meenaviller ss",54.628,-8.66652,152,"0.017","terrestrial, bog/fen/swamp","lake surface sample","-42","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",2.43717330715,3067.72717076363,8.40473197469489,3.79616392888492,13.7685292608486,1360.94982764924
5344,10562,16606,"Neotoma","Lovells Pond","MGW010",41.65,-70.43,12,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.36543615205643,3896.57040006848,10.383054387399,-2.08693283656952,22.3620021279314,1232.19684355868
5345,10563,14254,"Neotoma","Lovesick Lake","LOVESIC1",44.5568055555555,-78.2247972222222,260,"not known","lake","core","-50","Unpublished data",,9,"cool mixed forest",1.09634760685416,2934.55583649931,5.81546824164142,-9.65358686791287,19.678317458877,904.924127795476
5345,10564,14255,"Neotoma","Lovesick Lake","LOVESIC2",44.5568055555555,-78.2247972222222,260,"not known","lake","core","-50","Unpublished data",,9,"cool mixed forest",1.09634760685416,2934.55583649931,5.81546824164142,-9.65358686791287,19.678317458877,904.924127795476
5345,10565,14256,"Neotoma","Lovesick Lake","LOVESIC3",44.5568055555555,-78.2247972222222,260,"not known","lake","core","-50","Unpublished data",,9,"cool mixed forest",1.09634760685416,2934.55583649931,5.81546824164142,-9.65358686791287,19.678317458877,904.924127795476
5346,10566,13781,"Neotoma","Lowder Creek Bog","LOWDER",37.67214,-112.792245,3127,"not known","terrestrial, bog/fen/swamp","core","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.379109125858388,1565.22998272522,1.74480155006577,-8.33153961749852,13.4708348988107,403.586699595539
5347,10567,1026,"Australian pollen","Lowelak Swamp","Lowelak Swamp_a",-2.9333,151.4167,30,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.85120696147893,9598.51149684342,26.2972917721738,25.9935156336877,26.5252069998184,3943.10477824828
5347,10568,1027,"Australian pollen","Lowelak Swamp","Lowelak Swamp_b",-2.9333,151.4167,30,"not known","terrestrial, bog/fen/swamp","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.85120696147893,9598.51149684342,26.2972917721738,25.9935156336877,26.5252069998184,3943.10477824828
5347,10569,1028,"Australian pollen","Lowelak Swamp","Lowelak Swamp_core top",-2.9333,151.4167,30,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.85120696147893,9598.51149684342,26.2972917721738,25.9935156336877,26.5252069998184,3943.10477824828
5348,10570,7828,"EMPDv2","Lower Kolyma River Basin","Lopatina_a1",68.7397222222222,161.399,11,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.566901772588709,866.372208018981,-12.4214023861514,-31.5751417334618,10.435282670131,178.193747653843
5348,10571,7837,"EMPDv2","Lower Kolyma River Basin","Lopatina_a10",68.6320555555556,159.092888888889,22,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.567324819980464,948.488891588565,-12.8714191328322,-33.3863281118061,11.4575894905886,184.692964677822
5348,10572,7838,"EMPDv2","Lower Kolyma River Basin","Lopatina_a11",68.2092222222222,161.967916666667,46,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.596682769861863,956.210689436106,-11.9837031353949,-31.1208765575836,11.4520166983148,193.441612314142
5348,10573,7839,"EMPDv2","Lower Kolyma River Basin","Lopatina_a12",69.4652222222222,161.765416666667,15,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.552462689487813,736.335020429608,-12.8064322849832,-31.4508812078934,8.98687340279513,165.837446997913
5348,10574,7840,"EMPDv2","Lower Kolyma River Basin","Lopatina_a13",69.4711944444444,161.792638888889,16,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.552574271652078,733.898876504468,-12.8133687306644,-31.4444985137605,8.96091954249928,165.752141998059
5348,10575,7841,"EMPDv2","Lower Kolyma River Basin","Lopatina_a14",69.4639722222222,161.7775,13,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.552055639765274,735.994146960666,-12.7986258725928,-31.4390957561072,8.97823937585009,165.69429875453
5348,10576,7842,"EMPDv2","Lower Kolyma River Basin","Lopatina_a15",68.8411111111111,161.041861111111,20,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.563316902684304,862.474146774755,-12.6105060264488,-31.9576402502054,10.4365231484873,176.911061178623
5348,10577,7843,"EMPDv2","Lower Kolyma River Basin","Lopatina_a16",68.7463888888889,161.388472222222,47,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.577609891859524,858.186651909408,-12.5201788355473,-31.6467525986399,10.4003929975305,181.482920975866
5348,10578,7844,"EMPDv2","Lower Kolyma River Basin","Lopatina_a17",68.7501944444444,161.436583333333,13,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.566798224316232,858.505006910923,-12.4516662609404,-31.5999721241257,10.3462392079928,177.866658622477
5348,10579,7845,"EMPDv2","Lower Kolyma River Basin","Lopatina_a18",68.7839722222222,161.406166666667,29,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.569561706338187,851.184099495599,-12.5283272948725,-31.6627653576797,10.2980975503565,178.39812623161
5348,10580,7829,"EMPDv2","Lower Kolyma River Basin","Lopatina_a2",68.7430555555556,161.421444444444,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.566668816930094,866.079582600242,-12.4166182790189,-31.5649782676178,10.4295269105695,178.08721101803
5348,10581,7830,"EMPDv2","Lower Kolyma River Basin","Lopatina_a3",68.6998611111111,161.528861111111,25,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.572004811438376,865.32729847089,-12.4265899094097,-31.5421232909305,10.4407385589112,179.963634837577
5348,10582,7831,"EMPDv2","Lower Kolyma River Basin","Lopatina_a4",68.7430555555556,161.421444444444,41,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.575873263918509,859.310577341361,-12.4999357995385,-31.6235088486563,10.4028465144815,180.938261859353
5348,10583,7832,"EMPDv2","Lower Kolyma River Basin","Lopatina_a5",68.7482222222222,161.396138888889,11,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.566787372565597,865.656069334747,-12.4249429326157,-31.5781182059062,10.4274370721859,178.1030113968
5348,10584,7833,"EMPDv2","Lower Kolyma River Basin","Lopatina_a6",68.6320555555556,159.092888888889,60,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.58711996956385,940.412873778054,-12.8807521891619,-33.3576540790775,11.3797730830589,191.373774211273
5348,10585,7834,"EMPDv2","Lower Kolyma River Basin","Lopatina_a7",68.7895555555556,161.399083333333,12,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.565848143068117,855.363939470227,-12.4685399556687,-31.619569789751,10.3105795778741,177.320068495179
5348,10586,7835,"EMPDv2","Lower Kolyma River Basin","Lopatina_a8",68.7481111111111,161.426861111111,21,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.569889725783126,863.17552911998,-12.4473625034118,-31.5847916056876,10.41435656967,179.04750855466
5348,10587,7836,"EMPDv2","Lower Kolyma River Basin","Lopatina_a9",68.6304166666667,159.161972222222,38,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.57580447015452,944.176474869156,-12.8698171820103,-33.3508587641277,11.4141214655944,187.479319961758
5349,10588,14184,"Neotoma","Lower Lake","LOWERPLT",38.590035,-123.30498,228,"not known","lake","core","-29","West, G.J. 2008. Late Holocene successional change in a coast Redwood forest, Sonoma County, California: A record of fire and logging.G. Waugh and M.E. Basgall, editors. Monographs in California and Great Basin Anthropology. Volume 5. Avocados to Millingstones: Papers in Honor of D.L. True. California State University, Sacramento, Sacramento, California, USA.",,20,"xerophytic woods/scrub",0.803795598026413,5020.60871057231,13.7550923577324,8.08518457163775,19.3007600682318,948.178403403141
5350,10589,16509,"Neotoma","Lower LaPomkeag Lake","KG006",46.37,-68.62,225,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46896455398643,2500.87871014373,3.82769219120295,-11.9410919911874,18.2451111050033,1075.32965197098
5351,10590,6911,"EMPDv2","Lower Medjerda valley","Desprat_a1",37.12945,9.99175,119,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.392239528774489,6529.12531817118,17.888014570332,10.5478810775092,26.446617578064,519.443948305903
5351,10591,6920,"EMPDv2","Lower Medjerda valley","Desprat_a10",37.16325,10.11044,0,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.376360656041524,6683.93778665922,18.3121583196143,11.2357191395794,26.5993714425128,501.872424342991
5351,10592,6921,"EMPDv2","Lower Medjerda valley","Desprat_a11",37.10321,10.14658,38,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.378497973722851,6638.35284075709,18.1872680568687,11.0189567001511,26.568667495359,504.221736500327
5351,10593,6922,"EMPDv2","Lower Medjerda valley","Desprat_a12",37.10321,10.14658,38,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.378497973722851,6638.35284075709,18.1872680568687,11.0189567001511,26.568667495359,504.221736500327
5351,10594,6923,"EMPDv2","Lower Medjerda valley","Desprat_a13",37.10321,10.14658,38,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.378497973722851,6638.35284075709,18.1872680568687,11.0189567001511,26.568667495359,504.221736500327
5351,10595,6924,"EMPDv2","Lower Medjerda valley","Desprat_a14",37.16115,10.11303,30,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.379809592197924,6644.62620336198,18.2044553516767,11.06159591108,26.5609389644694,505.615089809295
5351,10596,6925,"EMPDv2","Lower Medjerda valley","Desprat_a15",37.16735,10.16502,1,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375264077250519,6681.87038875386,18.306494215764,11.2278766789586,26.5982235549511,500.49861643595
5351,10597,6926,"EMPDv2","Lower Medjerda valley","Desprat_a16",37.16702,10.16958,4,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375510249516908,6677.92456366787,18.2956837360764,11.2103550940455,26.5945378601241,500.75423826087
5351,10598,6927,"EMPDv2","Lower Medjerda valley","Desprat_a17",37.17022,10.2,3,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.374767062058556,6678.68079144244,18.297755592993,11.2148027616279,26.5954148659705,499.847722635927
5351,10599,6928,"EMPDv2","Lower Medjerda valley","Desprat_a18",37.17067,10.20234,2,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.374603273237211,6679.92789246216,18.3011723081155,11.2204715809215,26.5966035219271,499.661230855408
5351,10600,6929,"EMPDv2","Lower Medjerda valley","Desprat_a19",37.17068,10.20226,4,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.374849338062369,6677.30947226344,18.2939985541464,11.2088789866918,26.5940132274581,499.930018863865
5351,10601,6912,"EMPDv2","Lower Medjerda valley","Desprat_a2",37.09973,9.99795,74,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.386136658044736,6590.82093195648,18.0570436491958,10.8117235226629,26.5147366948097,512.95913880412
5351,10602,6930,"EMPDv2","Lower Medjerda valley","Desprat_a20",37.17069,10.20231,7,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375214561008705,6673.38060827473,18.2832345432184,11.1914845580238,26.5901323963751,500.3283541574
5351,10603,6931,"EMPDv2","Lower Medjerda valley","Desprat_a21",37.17017,10.21253,6,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.374847742096241,6674.63266029429,18.2866648227241,11.1969672233465,26.5917642145533,499.900664003457
5351,10604,6932,"EMPDv2","Lower Medjerda valley","Desprat_a22",37.17048,10.2131,11,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375455342400828,6668.05674553436,18.2686486179024,11.1679339710859,26.5852134581979,500.56123871567
5351,10605,6933,"EMPDv2","Lower Medjerda valley","Desprat_a23",37.16977,10.22672,21,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.376365622059272,6654.89647570016,18.23259308411,11.1095548857563,26.5727356421718,501.517766125393
5351,10606,6934,"EMPDv2","Lower Medjerda valley","Desprat_a24",37.17113,10.2439,16,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375411725613527,6661.1432715156,18.2497075931934,11.1377622537725,26.579002905655,500.42841144497
5351,10607,6935,"EMPDv2","Lower Medjerda valley","Desprat_a25",37.17175,10.24403,28,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.376910492957572,6645.40916205551,18.2066004439877,11.0681834352191,26.5633507763403,502.059932269204
5351,10608,6936,"EMPDv2","Lower Medjerda valley","Desprat_a26",37.1719,10.2443,35,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.377776504987647,6636.24768310122,18.1815005016472,11.0276109439882,26.5542921863005,503.001288472452
5351,10609,6937,"EMPDv2","Lower Medjerda valley","Desprat_a27",37.17202,10.2443,38,"not applicable","terrestrial, soil","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.378151794867429,6632.31837401806,18.1707352712823,11.0102223927597,26.550392351658,503.409095481041
5351,10610,6938,"EMPDv2","Lower Medjerda valley","Desprat_a28",37.161,10.239,0,"not known","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.373279634016435,6683.00730876605,18.3096090651125,11.231704986197,26.6028886279109,498.137382611083
5351,10611,6939,"EMPDv2","Lower Medjerda valley","Desprat_a29",37.161,10.241,0,"not known","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.373235255627806,6682.98477424969,18.3095473267115,11.2316284793087,26.6029130573996,498.083518232626
5351,10612,6913,"EMPDv2","Lower Medjerda valley","Desprat_a3",37.09948,9.99801,70,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.385665623013428,6596.18099183631,18.071728744757,10.8350898301522,26.520230314416,512.453549347148
5351,10613,6914,"EMPDv2","Lower Medjerda valley","Desprat_a4",37.09962,9.99813,62,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.384740668558743,6606.85915697602,18.1009839917151,10.8817846620082,26.5310469538454,511.458537011631
5351,10614,6915,"EMPDv2","Lower Medjerda valley","Desprat_a5",37.1025,10.09241,7,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.37604418938501,6679.91846374731,18.30114647602,11.2010308842957,26.6089300596257,501.720496759488
5351,10615,6916,"EMPDv2","Lower Medjerda valley","Desprat_a6",37.0859,10.10482,6,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375176613108802,6682.61511620546,18.3085345649465,11.2081286551749,26.6161127914129,500.772268986345
5351,10616,6917,"EMPDv2","Lower Medjerda valley","Desprat_a7",37.0862,10.10539,7,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.375289973987037,6681.25078262293,18.3047966647204,11.2022492841812,26.6146709827416,500.893431661194
5351,10617,6918,"EMPDv2","Lower Medjerda valley","Desprat_a8",37.16365,10.11025,52,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.38256272505285,6615.51155255721,18.1246891850882,10.9336987826689,26.5314106563699,508.597197278433
5351,10618,6919,"EMPDv2","Lower Medjerda valley","Desprat_a9",37.16326,10.11043,42,"not applicable","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.381355115949659,6628.69211337105,18.1608003106056,10.9917987963002,26.5445722930196,507.292123368374
5352,10619,15084,"Neotoma","Lower Paintrock Lake","LPAINTRK",44.392785,-107.381835,2798,"not known","lake","core","38","Rust, R.A., and T.A. Minckley. 2020. Fire and hydrological mediated diversity change in sub-alpine forests through the Holocene. Journal of Vegetation Science in press.",,17,"temperate evergreen needleleaf open woodland",0.325864393459592,1859.16215577974,2.50315320493925,-8.29493528990303,15.436888423287,295.589039673503
5353,10620,12874,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","-39","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12875,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","-34","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12876,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","-11","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12877,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","6","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12878,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","18","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12879,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","29","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5353,10620,12880,"Neotoma","Loxahatchee National Wildlife Refuge Site 1 (EPA Site 7)","LOXAHAT1",26.481111,-80.415556,5,"not known","terrestrial, marsh","core","41","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.926769119300823,8708.23368463811,23.8581744784606,18.4355751750859,28.2578703047608,1338.21038637711
5354,10621,15540,"Neotoma","Loxahatchee Site 1","DAW011",26.516667,-80.338889,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.924444156875636,8652.59144468528,23.7057299854391,18.1701266648403,28.1961781243126,1331.24659787878
5355,10622,15542,"Neotoma","Loxahatchee Site 3","DAW013",26.522778,-80.338889,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.924506370097224,8652.16508935232,23.7045618886365,18.1680072479393,28.1958320479356,1331.23728670941
5356,10623,15543,"Neotoma","Loxahatchee Site 4","DAW014",26.522778,-80.341944,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.924469028112457,8652.20954346888,23.7046836807367,18.1681698216829,28.1959182014459,1331.19110047543
5357,10624,6242,"EMPDv2","Lozoviki","Binney2017_E2221",55.26,28.1,174,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.939837738085536,2673.5185608305,5.66404335663932,-7.36446386442302,17.1743178462509,634.598877217896
5358,10625,16590,"Neotoma","LR02","LR02",58.585,-75.255,170,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.26915618016468,768.869800670585,-7.19390082563437,-25.0346292832757,8.55932816254006,487.621459594649
5359,10626,6658,"EMPDv2","LS-03","Binney2017_E3445",71.5,128.87,69,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.729107649772114,1030.56878361279,-16.2488030722315,-44.8583013184953,12.9348888777628,240.704780571265
5360,10627,6659,"EMPDv2","LS-04","Binney2017_E3446",71.52,128.86,21,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.711701848204525,1041.2073860395,-16.034108052863,-44.4594421710224,13.001640398005,234.523659833785
5361,10628,6660,"EMPDv2","LS-06","Binney2017_E3448",71.5,128.89,71,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.729303187957441,1029.73901382657,-16.2529823382393,-44.8612653802519,12.9261611798833,240.771635565777
5362,10629,6661,"EMPDv2","LS-07","Binney2017_E3449",71.5,128.88,71,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.729573290384951,1029.92635066187,-16.2554808080156,-44.8682468452401,12.9291193449024,240.866992971216
5363,10630,6662,"EMPDv2","LS-08","Binney2017_E3450",71.5,128.86,69,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.729377503390245,1030.75758787214,-16.2513150674272,-44.8653268445383,12.9378653410429,240.800133328591
5364,10631,6663,"EMPDv2","LS-09","Binney2017_E3451",71.87,127.07,15,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.796356555408782,1055.4494020002,-16.7372545019462,-46.0048860953734,13.5077171824812,259.829802860272
5365,10632,6664,"EMPDv2","LS-13","Binney2017_E3453",71.9,127.02,3,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.791370081837493,1057.22518051598,-16.7289711142447,-45.9879054766458,13.529135212219,257.788989998151
5366,10633,6665,"EMPDv2","LS-15","Binney2017_E3455",71.87,127.04,21,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.799262446832373,1053.99609040258,-16.7420515201889,-46.0081842924153,13.4939102544305,260.879009592193
5367,10634,6666,"EMPDv2","LS-16","Binney2017_E3456",71.87,127.04,21,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.799262446832373,1053.99609040258,-16.7420515201889,-46.0081842924153,13.4939102544305,260.879009592193
5368,10635,6667,"EMPDv2","LS-17","Binney2017_E3457",71.87,127.05,18,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.7978556648969,1054.6958203198,-16.7394634357263,-46.0058619319845,13.5007033997951,260.366801785273
5369,10636,6668,"EMPDv2","LS-21","Binney2017_E3460",69.39,125.14,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.806487836799499,1213.94655844286,-14.3745509724699,-43.0310118349878,14.6920343394444,293.781618400978
5370,10637,6669,"EMPDv2","LS-22","Binney2017_E3461",69.39,125.13,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.806355429859837,1214.10492274219,-14.3715406943614,-43.0263868307672,14.6933097759805,293.755163457106
5371,10638,6670,"EMPDv2","LS-23","Binney2017_E3462",69.39,125.13,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.806355429859837,1214.10492274219,-14.3715406943614,-43.0263868307672,14.6933097759805,293.755163457106
5372,10639,6671,"EMPDv2","LS-28","Binney2017_E3467",69.04,124.22,88,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.780493295690114,1232.48588184535,-13.912502893327,-42.2926592363014,14.8300564552158,289.9451056297
5373,10640,6672,"EMPDv2","LS-30","Binney2017_E3469",70.68,125.87,174,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.870082361988934,1088.62970816107,-15.8879478186561,-44.9358064624444,13.691237511245,300.804176988103
5374,10641,16591,"Neotoma","LT02","LT02",59.14,-74.913333,120,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.18559565012998,709.707415571426,-7.61793728705779,-25.3448394581136,8.17160832280384,440.266681783161
5375,10642,16592,"Neotoma","LT03","LT03",59.158333,-74.95,117,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.18157877880463,708.799648793906,-7.62711663098711,-25.3636092152051,8.16546839516491,438.391978124812
5376,10643,11872,"Neotoma","LT1A","LT1A",59.1416666666667,-75.15,150,"not known","lake","surface sample","-37","Gajewski, K. 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences 28(4):643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.22902459374418,721.175376006558,-7.52933103457458,-25.2195534225122,8.26045387491582,459.267586846503
5377,10644,9573,"EMPDv2","Lubimoye peatland","Novenko_c25",54.0611,37.5933,115,"0.02","terrestrial, bog/fen/swamp","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.924169903807077,2663.99269463925,4.87851727096447,-9.90459700551312,18.3401816037032,633.558913576484
5378,10645,9137,"EMPDv2","Luci","Tantau_a8",46.2969444444444,25.7375,1080,"1.2","terrestrial, bog/fen/swamp","peat","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.04878754920387,2300.70755247552,4.72440609515163,-7.49130095141209,14.4882050741264,804.559097682689
5379,10646,6981,"EMPDv2","Lüderholz","EPDcoretop_E1411",51.68,10.31,228,"not known","ephemeral lake/pond","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.937423824035894,3031.53616097052,8.23955326210136,-0.600009449194372,16.7479581906934,635.940455692008
5380,10647,5932,"EMBSeCBIO","Luganskoe","Luganskoe_Lug 2",43.72,40.68,2428,"0.01","terrestrial, blanket bog","peat surface","-26","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.36154924941728,1144.6760103761,-1.69472291812725,-15.0896173335868,10.0303588732196,1140.34466731822
5381,10648,20585,"SMPDSv1","Luganskoe boloto","Luganskoe boloto_SS",43.7325,40.6917,2428,"not known","terrestrial, bog/fen/swamp","core top","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.36165484503918,1144.58349710941,-1.69571318676313,-15.0918867621475,10.0293425558325,1140.10081538019
5382,10649,8189,"EMPDv2","Lugovoye","Mikishin-Gvozdeva_b20",44.7463888888889,132.729444444444,70,"4e-04","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.834275238778945,3088.74264340471,4.39839785855134,-16.0507682554162,21.2087359547617,635.539401857199
5383,10650,11019,"Bush et al., 2020","Luky","Luky",-16.52245,-68.458833,3852,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.377230406086017,3281.73488137861,8.99105446953043,5.92013147176293,11.0316906674825,557.330324060265
5384,10651,9650,"Gaillard et al., 1992","Lummelunda","Lummelunda",57.762588,18.460917,46,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.834417028697216,2564.66146181383,6.63898271416424,-2.28821660908496,16.3169850205155,524.379499769414
5385,10652,9577,"EMPDv2","Lungo","Finsinger_a74",46.430222421849,10.6843410106956,2550,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.7158708550255,278.419074764275,-3.55109423948501,-10.0397644495392,3.2259440788319,2189.98413963165
5386,10653,7992,"EMPDv2","Lunskyi","Mikishin-Gvozdeva_a52",51.3902777777778,143.438333333333,40,"not applicable","terrestrial","litter","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24169554231756,1854.56065807174,-0.40096844007599,-18.3144497080069,15.3144594134326,674.417366934646
5387,10654,3724,"CMPD","Luofu Mt","Luofu Mt 1",23.27,114.03,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36830982439565,6583.80526280399,18.0378226378191,7.96194837439013,26.5900095213801,1620.14263266733
5387,10655,3725,"CMPD","Luofu Mt","Luofu Mt 2",23.27,114.05,109,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.53583419837017,8023.11899133179,21.9811479214569,13.7731955058325,28.4304082771934,1945.2316975341
5387,10656,3726,"CMPD","Luofu Mt","Luofu Mt 3",23.27,114.05,651,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3489826317411,6434.42653505692,17.628565849471,7.36091384823918,26.3959803660817,1585.75621897472
5387,10657,3727,"CMPD","Luofu Mt","Luofu Mt 4",23.03,114.05,203,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.51810664313845,7774.38628096025,21.299688440987,12.8242926060921,28.0399376381826,1905.84894336961
5387,10658,3728,"CMPD","Luofu Mt","Luofu Mt 5",23.27,114.07,140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.52669374189077,7933.11815202458,21.7345702795194,13.4126387944364,28.312699358496,1926.00834659305
5388,10659,9836,"Herzschuh et al., 2019","Luojiang","Luojiang 1",29.98,121.36,4,"not known","not known","not known","12.8","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.1956976243567,5956.12370194585,16.3181471286188,4.72667643940604,27.7152793433857,1324.32138887611
5388,10660,9837,"Herzschuh et al., 2019","Luojiang","Luojiang 2",29.98,121.36,4,"not known","not known","not known","25.8","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",1.1956976243567,5956.12370194585,16.3181471286188,4.72667643940604,27.7152793433857,1324.32138887611
5389,10661,9838,"Herzschuh et al., 2019","Luojishan","Luojishan",27.505,102.405,3800,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.65844932297969,2766.40399341596,7.57871359716229,0.160045551355085,13.6546625311085,804.820542780434
5390,10662,3729,"CMPD","Luonan Basin","Luonan Basin NLH28_1",34.124,110.253333333333,894,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.653908038634601,4326.61728852717,11.6940680335163,-1.37748467046831,23.7972177904877,704.91984714639
5390,10663,3730,"CMPD","Luonan Basin","Luonan Basin NLH28_2",34.124,110.253333333333,894,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.653908038634601,4326.61728852717,11.6940680335163,-1.37748467046831,23.7972177904877,704.91984714639
5390,10664,3731,"CMPD","Luonan Basin","Luonan Basin NLH29",34.0753333333333,110.12,967,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663282168967572,4257.12099629515,11.4931392897023,-1.43869492269557,23.5118675226597,712.249747220528
5390,10665,3732,"CMPD","Luonan Basin","Luonan Basin NLH30_1",34.067,110.082666666667,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.666041387221173,4218.93248951444,11.3779007632279,-1.50356035360275,23.3654510571301,714.115385043704
5390,10666,3733,"CMPD","Luonan Basin","Luonan Basin NLH30_2",34.067,110.082666666667,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.666041387221173,4218.93248951444,11.3779007632279,-1.50356035360275,23.3654510571301,714.115385043704
5390,10667,3734,"CMPD","Luonan Basin","Luonan Basin NLH31",34.0778333333333,110.064,1039,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.668178525088217,4174.23875139814,11.2407890379843,-1.59136762145752,23.197635570297,715.236466237562
5390,10668,3735,"CMPD","Luonan Basin","Luonan Basin NLH32_1",34.0773333333333,110.008,1119,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.67389456417007,4083.25521697373,10.962328846081,-1.75804970713072,22.8493998477432,718.818312862237
5390,10669,3736,"CMPD","Luonan Basin","Luonan Basin NLH33",34.1345,110.016,1019,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.664678004978647,4198.18542839123,11.3105275780061,-1.56740843155091,23.2952724678808,712.17141986895
5390,10670,3737,"CMPD","Luonan Basin","Luonan Basin NLH34",34.1788333333333,111.52,1197,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.621027487447026,3851.27914884338,10.0947692830185,-2.99905061976233,22.2008180892816,663.325132955141
5390,10671,3738,"CMPD","Luonan Basin","Luonan Basin NLH35",34.2066666666667,111.362666666667,782,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.633152544976017,4453.49434942011,12.0620897323814,-1.24907234995764,24.2823908214908,689.093406466342
5390,10672,3739,"CMPD","Luonan Basin","Luonan Basin NLH36",34.102,110.101333333333,983,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663150284937023,4238.86840820083,11.4357885719522,-1.48427474902872,23.447017946632,711.685480949855
5390,10673,3740,"CMPD","Luonan Basin","Luonan Basin NLH37",34.1115,110.2,1010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663666751723946,4207.47050755801,11.3380105581202,-1.5568268799626,23.3337598509727,711.682917373574
5390,10674,3741,"CMPD","Luonan Basin","Luonan Basin NLH38_1",34.1205,110.250666666667,906,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.6547845153668,4311.72570682968,11.6489266621737,-1.40531860989995,23.741838343721,705.456229970504
5390,10675,3742,"CMPD","Luonan Basin","Luonan Basin NLH38_2",34.121,110.250666666667,909,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.654932191412508,4307.99563446079,11.6375069248518,-1.4130382465916,23.7282161990813,705.518366706855
5390,10676,3743,"CMPD","Luonan Basin","Luonan Basin NLH39_1",34.1176666666667,110.233777777778,931,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.658064940293406,4299.20183493357,11.616334476708,-1.39076639420931,23.681030773951,708.134520773364
5390,10677,3744,"CMPD","Luonan Basin","Luonan Basin NLH39_2",34.1176666666667,110.233777777778,931,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.658064940293406,4299.20183493357,11.616334476708,-1.39076639420931,23.681030773951,708.134520773364
5390,10678,3745,"CMPD","Luonan Basin","Luonan Basin NLH40",34.1764444444445,110.156444444444,1022,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.661957196080643,4194.73742707385,11.2951182628551,-1.60516551530716,23.2936649433757,709.590858187598
5390,10679,3746,"CMPD","Luonan Basin","Luonan Basin NLH41",34.1736666666667,110.154666666667,1015,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.661601476905004,4202.73278992576,11.3197121333126,-1.58913607214627,23.3235468805102,709.411638456599
5390,10680,3747,"CMPD","Luonan Basin","Luonan Basin NLH42",34.1916666666667,110.141333333333,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.674302279722221,3992.9320158168,10.6746258163419,-1.98027777065496,22.5219533240432,717.231828794833
5390,10681,3748,"CMPD","Luonan Basin","Luonan Basin NLH43",34.164,110.173333333333,1218,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.67607710760134,3971.21528793456,10.6082144930236,-2.01624226067167,22.4372457620412,718.562242419303
5390,10682,3749,"CMPD","Luonan Basin","Luonan Basin NLH44",34.1615,110.24,1134,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.669588251879002,4065.64066585691,10.8989530769131,-1.846581380822,22.8029753227515,714.414294305864
5390,10683,3750,"CMPD","Luonan Basin","Luonan Basin NLH45",34.2205,110.237333333333,1012,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.658719825051359,4206.49755047297,11.3267664729893,-1.61031364390589,23.3477034849136,706.721217927368
5390,10684,3751,"CMPD","Luonan Basin","Luonan Basin NLH46_1",34.1861666666667,110.269333333333,944,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.653928384143309,4264.72223674136,11.5000799072326,-1.53155702740181,23.5789688129983,703.476537407778
5390,10685,3752,"CMPD","Luonan Basin","Luonan Basin NLH46_2",34.1861666666667,110.269333333333,944,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.653928384143309,4264.72223674136,11.5000799072326,-1.53155702740181,23.5789688129983,703.476537407778
5390,10686,3753,"CMPD","Luonan Basin","Luonan Basin NLH47",34.1865,110.44,1236,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.668840091563969,3905.61350314914,10.3777625564344,-2.2891301393809,22.2407738522883,709.875948125378
5390,10687,3754,"CMPD","Luonan Basin","Luonan Basin NLH48",34.2203333333333,110.450666666667,1241,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.668567942756956,3900.57443429783,10.3606839756482,-2.30584043462639,22.2234831364368,709.38488600195706
5390,10688,3755,"CMPD","Luonan Basin","Luonan Basin NLH49",34.242,110.437333333333,1444,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.68185934526706,3660.31553393399,9.59652313349671,-2.79802066993221,21.2993577781574,716.080340395348
5390,10689,3756,"CMPD","Luonan Basin","Luonan Basin NLH50",34.2841666666667,110.378666666667,1246,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.648857495721062,3958.99462128406,10.5151662231218,-2.35136164658682,22.4755785996162,696.442132300095
5390,10690,3757,"CMPD","Luonan Basin","Luonan Basin NLH51",34.3191666666667,110.354666666667,1215,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.64408464464882,3994.01671034208,10.6197983597185,-2.31100184999952,22.6175905212553,692.540299144768
5390,10691,3758,"CMPD","Luonan Basin","Luonan Basin NLH52",34.3421666666667,110.336,1315,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.652495804979743,3892.10328497636,10.3037693984298,-2.4890454118267,22.2167922761149,698.887988176647
5390,10692,3759,"CMPD","Luonan Basin","Luonan Basin NLH53",34.1998333333333,110.458666666667,1131,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.662187203305194,4032.89235310443,10.7769564335368,-2.031342607942,22.7232003327532,706.426968624711
5390,10693,3760,"CMPD","Luonan Basin","Luonan Basin NLH54",34.1545,110.522666666667,1130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.661788652878681,4030.97694794376,10.7703175433833,-2.03932913250169,22.7173803210599,706.21332997861
5390,10694,3761,"CMPD","Luonan Basin","Luonan Basin NLH55",34.1296666666667,110.546666666667,1248,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.667115102699175,3884.74949667397,10.3068368957843,-2.35959174913102,22.1696520428591,708.055027430283
5390,10695,3762,"CMPD","Luonan Basin","Luonan Basin NLH56",34.0898333333333,110.176,967,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.662141928767364,4257.1615765723,11.4914220944906,-1.45080508272312,23.5164778713997,711.208772912894
5390,10696,3763,"CMPD","Luonan Basin","Luonan Basin NLH57",34.0873333333333,110.173333333333,991,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663783305720439,4229.2825927503,11.4067216052921,-1.50206265684195,23.411178826346,712.240420791384
5390,10697,3764,"CMPD","Luonan Basin","Luonan Basin NLH58",34.1566666666667,110.192,1039,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.663704939104447,4174.74958438872,11.2349672713941,-1.63675829553824,23.2161837868569,710.957290318423
5390,10698,3765,"CMPD","Luonan Basin","Luonan Basin NLH59",34.1415,110.216,959,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.658824370421503,4266.79584321459,11.516298558342701,-1.46149994246087,23.5628149628414,708.15708118357
5390,10699,3766,"CMPD","Luonan Basin","Luonan Basin NLH60",34.0668333333333,110.261333333333,998,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.661996122688023,4197.37559558811,11.3011831191325,-1.61564597533984,23.3126784228199,710.098255197192
5390,10700,3767,"CMPD","Luonan Basin","Luonan Basin NLH61",34.0625,110.384,928,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.657429918480653,4283.37490248809,11.5645590948007,-1.44768610364825,23.6322227815018,707.704281559407
5390,10701,3768,"CMPD","Luonan Basin","Luonan Basin NLH62",34.023,110.586666666667,980,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.65849825538217,4214.21895259637,11.3491328350346,-1.60779507855347,23.383400772904,707.576763713141
5391,10702,3769,"CMPD","Luoqui","Luoqui 1",34.6,102.38,3500,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.476385589174278,1660.8959541918,2.113952501115,-9.60669234908273,11.821542237829,481.343945842184
5391,10703,3770,"CMPD","Luoqui","Luoqui 2",34.6,102.4,3400,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.474141653663687,1750.26654751055,2.46846141183837,-9.35883493845349,12.2606482374271,480.682396236759
5392,10704,20586,"SMPDSv1","Luotoinen","Seppa_b68",60.7,27.82,45,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03812731212954,2341.47804556866,4.22542396770501,-8.74754199210447,16.9727953537375,587.938578080532
5393,10705,20587,"SMPDSv1","Lupishkinskoe-boloto","Lupishkinskoe-boloto_SS (Novenko_c10)",53.8851,38.4914,156,"1","terrestrial, bog/fen/swamp","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.796346041917303,2786.69439199314,5.03674394919936,-10.2739160404899,18.8236030018236,568.647403323491
5394,10706,20588,"SMPDSv1","Lurs","Ortu_d5",43.963,5.892,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.762754924581328,4506.52628262046,12.3466473496451,4.7277112326889,21.0565772666977,840.807711871012
5394,10707,20589,"SMPDSv1","Lurs","Ortu_d6",43.963,5.892,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.762754924581328,4506.52628262046,12.3466473496451,4.7277112326889,21.0565772666977,840.807711871012
5394,10708,20590,"SMPDSv1","Lurs","Ortu_d7",43.963,5.892,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.762754924581328,4506.52628262046,12.3466473496451,4.7277112326889,21.0565772666977,840.807711871012
5395,10709,3771,"CMPD","Lushan Mt","Lushan Mt 1",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5395,10710,3772,"CMPD","Lushan Mt","Lushan Mt 2",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5395,10711,3773,"CMPD","Lushan Mt","Lushan Mt 3",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5395,10712,3774,"CMPD","Lushan Mt","Lushan Mt 4",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5395,10713,3775,"CMPD","Lushan Mt","Lushan Mt 5",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5395,10714,3776,"CMPD","Lushan Mt","Lushan Mt 6",29.35,116,1474,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02288417167619,3414.6460069887,8.9832322507458109,-2.57672560921498,20.0992461441455,1076.43163311425
5396,10715,7349,"EMPDv2","Lusia III","Finsinger_a72",46.3495824820906,11.7401853557203,2381,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.02182470078675,480.83337776576,-2.47469335709441,-9.36314497350643,4.81451850064896,1861.0801551077
5397,10716,20591,"SMPDSv1","Lutiniere","EPDcoretop_E406",46.444444,-0.862222,4,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.883535563265208,4548.5078594758,12.4616653684268,6.01918878033639,19.3533721499611,801.964406478514
5398,10717,6805,"EMPDv2","LUTN0K","Binney2017_E3718",67.68,33.28,360,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.77444658140352,1166.78047121821,-1.88781616600703,-14.0596974302537,11.8526342846853,684.646337581468
5399,10718,3777,"CMPD","Luxun Lake","Luxun Lake",30,112.2,58,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08462832043681,6194.54848287047,16.9713657064944,4.58616080032653,28.7284783399534,1204.41773956984
5400,10719,20592,"SMPDSv1","Luza river","Luza_SS (Novenko_c190)",60.3667,49.5167,112,"not known","not known","sediment sample","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21525689487999,1964.6508957434,0.687276349929863,-16.8244452359113,17.2069180466899,583.747847855469
5401,10720,8180,"EMPDv2","Luzanova_Boloto","Mikishin-Gvozdeva_b11",44.5516666666667,132.388055555556,71,"not known","lake","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.831971306469838,3091.04290740648,4.52551140296019,-15.6700016431398,21.1209066292597,637.615620026601
5402,10721,8188,"EMPDv2","Luzanova_Ilistaya","Mikishin-Gvozdeva_b19",44.5502777777778,132.3925,69,"4000","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.83120151076086,3093.74848456967,4.53407670624256,-15.6697329960039,21.1360677378972,637.148341093056
5403,10722,8181,"EMPDv2","Luzanova_Khanka","Mikishin-Gvozdeva_b12",44.555,132.391388888889,69,"4000","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.831163249496378,3093.8724994707,4.53307958101681,-15.6739660858329,21.1382826330075,637.07198949998
5404,10723,8186,"EMPDv2","Luzanova_Lug","Mikishin-Gvozdeva_b17",44.5516666666667,132.386111111111,71,"not known","lake","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.8319559039501,3091.08324227954,4.52596679068551,-15.668933578564,21.1209093783268,637.612831346137
5405,10724,8185,"EMPDv2","Luzanova_Ozero","Mikishin-Gvozdeva_b16",44.5483333333333,132.378055555556,69,"4000","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.831107276913763,3094.00639175958,4.53800680481354,-15.6597184659754,21.1351361194621,637.163918322767
5406,10725,8184,"EMPDv2","Luzanova_Sklon","Mikishin-Gvozdeva_b15",44.55,132.379166666667,80,"not applicable","terrestrial","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.835551546378555,3078.46669329357,4.486349636267,-15.6695468742586,21.0490901229744,639.841740363887
5407,10726,8183,"EMPDv2","Luzanova_Sopka","Mikishin-Gvozdeva_b14",44.5511111111111,132.378055555556,80,"not applicable","terrestrial","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.83553199028251,3078.51333826045,4.48630787686198,-15.6700894863014,21.0496222552051,639.820006408226
5408,10727,8182,"EMPDv2","Luzanova_Val","Mikishin-Gvozdeva_b13",44.5511111111111,132.39,72,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.832396990825369,3089.57695156055,4.52058333278338,-15.6711501441543,21.1127364200737,637.874899512871
5409,10728,8187,"EMPDv2","Luzanova_Zaliv","Mikishin-Gvozdeva_b18",44.5577777777778,132.387222222222,69,"4000","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.831114640838573,3094.01858847879,4.53332420534541,-15.6745043147483,21.1395828287291,637.023239457036
5410,10729,23241,"SMPDSv1","LV/LK/SE1","LV/LK/SE1",57.722,25.783,48,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01246267100754,2516.95904638297,5.38753689428258,-6.38574078404518,16.7358448332974,626.294707837513
5411,10730,23242,"SMPDSv1","LV/LK/SE2","LV/LK/SE2",57.724,25.788,52,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.012544053306,2515.76013256817,5.37614133499586,-6.4185623647948304,16.7257118053329,626.438695511476
5412,10731,3778,"CMPD","Lvliang","Lvliang s144",37.7736833333333,111.512683333333,1575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.451975762047039,2918.67855859889,5.54905903666502,-10.4508074327372,19.3405229387083,482.72085464055
5412,10732,3779,"CMPD","Lvliang","Lvliang s145",37.7736166666667,111.5129,1565,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.451398976290111,2934.19381655835,5.61388415439778,-10.3897660639146,19.4053895141741,482.53932319538
5412,10733,3780,"CMPD","Lvliang","Lvliang s146",37.7234333333333,111.515616666667,1455,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.45193130643195,3128.20889738757,6.47043895062475,-9.42824308805085,20.1522784197269,487.455988499609
5412,10734,3781,"CMPD","Lvliang","Lvliang s147",37.72335,111.5157,1467,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.452382764105325,3109.08766578811,6.39165502188329,-9.5065859607413,20.0755556800783,487.487302801047
5413,10735,9651,"Gaillard et al., 1992","Lya ljunghed","Lya ljunghed",59.585321,16.727049,27,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",15,"cold evergreen needleleaf forest",0.920452135545231,2392.7633953845,5.63467146736352,-4.01872443600383,15.945166204496,547.108706490404
5414,10736,7055,"EMPDv2","Lyadhej-To lake","EPDcoretop_E1751",68.25,65.79,150,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.10057346190403,920.802793158684,-7.83267087329977,-25.274643169669,11.8451434268816,364.013502743048
5415,10737,9652,"Gaillard et al., 1992","Lybeck","Lybeck",59.529414,16.724513,34,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.927886378103433,2377.70254392996,5.56528846003784,-4.09724385206281,15.8878178345443,551.357123948441
5416,10738,13596,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","-32","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5416,10738,13597,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","-20","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5416,10738,13598,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","3","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5416,10738,13599,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","14","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5416,10738,13600,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","37","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5416,10738,13601,"Neotoma","Lybeck Lake","LYBECK",45.6745,-95.7125,356,"not known","lake","core","48","Unpublished data",,22,"steppe",0.74196918780638,3259.06492268789,5.87927717774742,-13.0032514714986,21.8751903458059,629.831615474264
5417,10739,24435,"Southern Hemisphere pollen","Lyell Buller Road","Lyell Buller_mod",-41.78,171.598,-5797,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",,"not applicable",5.44185959582332,16347.0662461508,44.7864828661666,40.073691979509,49.4879819274288,4872.28157266612
5418,10740,24436,"Southern Hemisphere pollen","Lyell Picnic Grounds","LPC_mod",-41.788,172.0838,500,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",4,"warm-temperate evergreen and mixed forest",2.57504685372848,3503.20293747521,9.59781626705536,4.16831443675717,14.7120322220622,2233.12171611376
5419,10741,17424,"Neotoma","Lyon Lake","TW132",42.18,-84.42,306,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.985158702079794,3655.63329621353,8.95219464055809,-5.6924227695208,21.9838856289732,876.895648929379
5420,10742,15552,"Neotoma","Lyons Pond","DCG04",42.53,-73.58,190,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.2690608452749499,3568.47340202864,8.80666320779688,-5.33155028116956,21.7022194613376,1092.17505511856
5421,10743,12899,"Neotoma","M Lake","MARIA",68.266667,-133.466667,105,"not known","lake","core","-25","Ritchie, J. C. 1984. Past and present vegetation of the far northwest of Canada. University of Toronto Press, Toronto, Ontario, Canada.; Ritchie, J.C. 1977. The modern and late Quaternary vegetation of the Campbell-Dolomite Uplands, near Inuvik, N.W.T. Canada. Ecological Monographs 47:401-423.",,15,"cold evergreen needleleaf forest",0.620732580926248,1130.77089362272,-9.56902175304735,-28.8077067643966,13.108025126657,227.328358437733
5422,10744,20593,"SMPDSv1","M66","Seppa_b103",68.98,27.3,141,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13959949232116,1385.6604520695,-1.15542608233676,-14.4231570143643,13.4151729264607,416.67706056762
5423,10745,20594,"SMPDSv1","M67","Seppa_b104",69.18,27.28,160,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18982543189476,1359.39932597273,-1.33388095092572,-14.6161355666637,13.2696010312867,432.643404991458
5424,10746,20595,"SMPDSv1","M68","Seppa_b105",69.55,27.62,310,"not known","terrestrial","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.61147982577476,1166.63375753392,-2.68972611623233,-16.066703479992,12.1513773807579,568.893190016084
5425,10747,20596,"SMPDSv1","M70","Seppa_b106",69.88,28.22,260,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.70293765038095,1142.09220401574,-2.35541724569489,-14.8832352831099,11.9266317917919,579.433917686551
5426,10748,20597,"SMPDSv1","M71","Seppa_b107",69.7,28.63,260,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.66409540829584,1174.47375842189,-1.94104451195362,-14.1070687765697,12.0610110404858,576.433628595335
5427,10749,20598,"SMPDSv1","M81","Seppa_b108",69.68,28.63,280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.71282732970963,1157.69509778558,-2.06968509926803,-14.2522747020147,11.9633674379485,591.264465324565
5428,10750,20599,"SMPDSv1","M83","Seppa_b109",69.67,28.97,160,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.45326693797835,1246.808518056,-1.14461842011268,-12.7647644949336,12.3858797546044,515.307644725971
5429,10751,20600,"SMPDSv1","M85","Seppa_b110",69.32,28.92,155,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.41051945987446,1262.86259595623,-1.10351745466945,-12.8451968184499,12.4950134129314,505.485221597356
5430,10752,20601,"SMPDSv1","M88","Seppa_b111",69.1,28.58,145,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.33708923916246,1286.89070484939,-1.23188700753431,-13.5237171887325,12.7198924842694,479.839336935999
5431,10753,20602,"SMPDSv1","M90","Seppa_b112",68.77,28.68,224,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34585630418279,1305.81059470876,-1.43347696985569,-14.2884413896013,12.8739799784907,496.515719888099
5432,10754,20603,"SMPDSv1","M94","Seppa_b113",68.65,27.93,220,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22725218726696,1361.63209938609,-1.42001963721863,-14.8730165329393,13.275963282473,460.645405281304
5433,10755,1029,"Australian pollen","Maalan turnoff","Maalan turnoff",-17.6,145.617,520,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.80415002146162,8230.27856295228,22.5487083916501,17.8618726468618,25.8361134490327,1429.29245864983
5434,10756,11020,"Bush et al., 2020","Macanche4","Macanche4",16.97,-89.63,169,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.35473482736623,9287.86880285267,25.4462158982265,22.5360064368725,27.5241838549967,2195.32218964445
5435,10757,11021,"Bush et al., 2020","Macas127A","Macas127A",-2.3055799,-78.1420975,1359,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.75914626866873,7339.94743067678,20.1094450155528,19.2224605868773,20.438737603455,2295.18653711148
5436,10758,11022,"Bush et al., 2020","Macas127B","Macas127B",-2.3055799,-78.1420975,1359,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.75914626866873,7339.94743067678,20.1094450155528,19.2224605868773,20.438737603455,2295.18653711148
5437,10759,11023,"Bush et al., 2020","Macas127Moss","Macas127Moss",-2.3055799,-78.1420975,1359,"not known","terrestrial","moss polster or moss","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.75914626866873,7339.94743067678,20.1094450155528,19.2224605868773,20.438737603455,2295.18653711148
5438,10760,11024,"Bush et al., 2020","Macas128","Macas128",-2.3057599,-78.1442032,1359,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.75895190735164,7339.88265732037,20.1092675543024,19.2222893954341,20.4386832281967,2294.93551649581
5439,10761,11025,"Bush et al., 2020","Macas129","Macas129",-2.2370601,-78.0426025,1059,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.05664160720858,7871.43471028476,21.5655745487254,20.6088277103342,21.8999205279673,2665.22340119894
5440,10762,11026,"Bush et al., 2020","Macas130","Macas130",-2.23718,-78.0459976,1059,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.05636895213085,7871.31508661468,21.565246812643,20.6085059716376,21.8998266347676,2664.86009893018
5441,10763,11027,"Bush et al., 2020","Macas131","Macas131",-2.23896,-78.0501022,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.04151140774826,7833.32168985657,21.4611553146755,20.5088747627784,21.7956190380212,2645.78689339535
5442,10764,11028,"Bush et al., 2020","Macas132","Macas132",-2.23985,-78.050499,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0413288417896,7833.27825277651,21.4610363089767,20.5087703372042,21.7955089566383,2645.56648446473
5443,10765,11029,"Bush et al., 2020","Macas133","Macas133",-2.24073,-78.0513,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.04111786345378,7833.22159128541,21.4608810720148,20.5086299604794,21.7953908931838,2645.30765765425
5444,10766,11030,"Bush et al., 2020","Macas134","Macas134",-2.24051,-78.0515976,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.04113348085009,7833.21902312625,21.4608740359623,20.5086197438054,21.7954091102244,2645.32252820797
5445,10767,11031,"Bush et al., 2020","Macas135","Macas135",-2.2395699,-78.052002,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.04126489191763,7833.23718648594,21.4609237985916,20.5086549949427,21.7955066147476,2645.47288035083
5446,10768,11032,"Bush et al., 2020","Macas136","Macas136",-2.2372601,-78.0500031,1081,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.04181105681056,7833.3825418863,21.4613220325652,20.5090143761735,21.7958143912185,2646.14201711351
5447,10769,20604,"SMPDSv1","Machados","Connor_b2",37.130561,-7.887022,150,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.515980558028283,6124.40771702299,16.7791992247205,10.8484279965241,23.867472694254,637.925396800601
5448,10770,10658,"Neotoma","Machova","BK-5-A",48.830833,17.541111,442,"not known","terrestrial, bog/fen/swamp","core top","-50","Rybníčková, E., Hájková, P. and Rybníček, K., 2005. The origin and development of spring fen vegetation and ecosystems–palaeogeobotanical results, in: Poulíčková, A., Hájek, A., Rybníček, K. (Eds.), Ecology and palaeoecology of spring fens of the West Carpathians. Palacký University Olomouc, Academy of Sciences of the Czech Republic, Masaryk University Brno, Olomouc, Czech Republic, pp.29-62.",,9,"cool mixed forest",1.01895499183716,2894.15348847059,7.34478037268113,-3.70220518712926,16.8041348031074,774.759217469161
5448,10771,7027,"EMPDv2","Machova","EPDcoretop_E1593",48.83,17.54,498,"5e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.09245789017205,2759.50205454221,6.87685744502105,-4.07739017269639,16.2590606558105,817.851815427422
5449,10772,20605,"SMPDSv1","Macizo Galaico-Leones","Lopez_a397",42.2665,-7.54013888888888,1340,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.750279102514427,2960.96639760361,8.06202324998771,-0.360275426160232,17.9522268208245,792.431485328321
5449,10773,20606,"SMPDSv1","Macizo Galaico-Leones","Lopez_a398",42.2616944444444,-7.54086111111111,1340,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.749709512350352,2961.1804182883,8.06261821525922,-0.360174606691167,17.9538602594042,791.946529933729
5449,10774,20607,"SMPDSv1","Macizo Galaico-Leones","Lopez_a399",42.2553055555555,-7.53075,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.74420565435817,2948.509571039,8.01913005084634,-0.431126736470398,17.9474567732728,787.121382713925
5449,10775,20608,"SMPDSv1","Macizo Galaico-Leones","Lopez_a400",42.2539166666666,-7.536,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.758379835010656,2989.91057816196,8.15884759163819,-0.205614078689119,17.9754545520701,800.188034827868
5449,10776,20609,"SMPDSv1","Macizo Galaico-Leones","Lopez_a401",42.2471388888888,-7.52586111111111,1360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.665961776790386,2916.84928082858,7.92894557481592,-0.468126114916384,17.8529487607899,706.963551599821
5449,10777,20610,"SMPDSv1","Macizo Galaico-Leones","Lopez_a402",42.2403055555555,-7.51677777777777,1370,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.659988839706939,2903.36584001962,7.88251417256246,-0.540210943969302,17.8424050584545,701.513015546347
5449,10778,20611,"SMPDSv1","Macizo Galaico-Leones","Lopez_a403",42.2368888888888,-7.51277777777777,1360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.665259504943635,2918.56774250539,7.93454535228069,-0.460895251523463,17.8587116739264,706.800461493419
5450,10779,20612,"SMPDSv1","Madeleine","Miras_f1",45.5747416666666,1.99907777777777,809,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09547516907284,3154.34709319304,8.64204683066586,0.973633167863948,17.1196443646041,961.869534446715
5450,10780,20613,"SMPDSv1","Madeleine","Miras_f2",45.5738111111111,1.99979722222222,805,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09383651723777,3161.42035765597,8.66142563741362,0.993800944575482,17.1367761047371,960.575569630844
5450,10781,20614,"SMPDSv1","Madeleine","Miras_f3",45.5733611111111,1.99950555555555,802,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0926285999998,3166.69958650629,8.67588927809943,1.00886030092484,17.1495169110585,959.611083750163
5450,10782,20615,"SMPDSv1","Madeleine","Miras_f4",45.5720777777777,1.99858333333333,804,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09338137937235,3163.26772257884,8.66648691117491,0.999041718370582,17.1413521309015,960.244756389985
5450,10783,20616,"SMPDSv1","Madeleine","Miras_f5",45.5698472222222,1.98866944444444,821,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10017163952989,3133.48590550991,8.58489289180797,0.91400199025103,17.069607304314,965.710679071606
5450,10784,20617,"SMPDSv1","Madeleine","Miras_f6",45.5699388888888,1.98778333333333,816,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09819696084832,3142.23323617743,8.60885818130803,0.938976878438131,17.0906286487807,964.114493833199
5450,10785,20618,"SMPDSv1","Madeleine","Miras_f7",45.5680444444444,1.98710555555555,836,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10608701375928,3107.27235191655,8.51307493675766,0.839131060301244,17.0066393505076,970.499925795234
5451,10786,6902,"EMPDv2","madonie","Colombaroli_a17",37.8446944444444,14.0199166666667,1390,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.486947713219914,4290.00274166968,11.753432168958,5.04751777370272,20.2800099990388,666.836302874869
5452,10787,6891,"EMPDv2","Madonie","Colombaroli_a6",37.8411666666667,14.0235,1460,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.492556221247793,4172.89233078136,11.4325817281681,4.71164380914418,19.9910053765893,675.193556516484
5453,10788,20619,"SMPDSv1","Madrid E","Lopez_a377",40.3233888888888,-3.51016666666666,570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.325471156811311,5449.25965816093,14.9294785155094,6.42439763582976,25.4669490903276,413.177765488956
5453,10789,20620,"SMPDSv1","Madrid E","Lopez_a378",40.326,-3.504,510,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.310604471528214,5628.78695051343,15.4213341109957,6.82225336038347,26.0549214134686,397.442705457667
5453,10790,20621,"SMPDSv1","Madrid E","Lopez_a379",40.3283888888888,-3.48525,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332770495505097,5361.02806882845,14.6877481337766,6.22856671169174,25.1796770160167,420.785250923933
5453,10791,20622,"SMPDSv1","Madrid E","Lopez_a380",40.3311111111111,-3.48083333333333,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332734260764259,5361.0953491758,14.6879324634953,6.22876557156648,25.1799284538055,420.736631422406
5453,10792,20623,"SMPDSv1","Madrid E","Lopez_a381",40.3339166666666,-3.48988888888888,600,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332800246164948,5360.11329389332,14.6852419010776,6.22696367475998,25.1755068806519,420.790904596615
5453,10793,20624,"SMPDSv1","Madrid E","Lopez_a382",40.3198055555555,-3.49705555555555,580,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.327862735233965,5420.77075318152,14.8514267210453,6.36074642578187,25.3753944012183,415.701224802132
5453,10794,20625,"SMPDSv1","Madrid E","Lopez_a386",39.9962972222222,-3.65064722222222,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.330235067984097,5556.69759085451,15.2238290160397,6.63818561903846,25.8776349580913,420.015251855201
5453,10795,20626,"SMPDSv1","Madrid E","Lopez_a387",40.1073388888888,-3.19049444444444,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333788092435824,5427.18006373994,14.8689864759998,6.35783013299491,25.4860397249655,422.260451685431
5453,10796,20627,"SMPDSv1","Madrid E","Lopez_a388",40.2896416666666,-3.4347,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332419363615319,5368.70314645457,14.7087757437112,6.24215755493215,25.2144817521802,420.598123209805
5453,10797,20628,"SMPDSv1","Madrid E","Lopez_a389",40.2218611111111,-3.53398611111111,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337522213283475,5406.02816572709,14.8110360704852,6.31190447023437,25.3811191937132,426.565318036343
5453,10798,20629,"SMPDSv1","Madrid E","Lopez_a390",40.35225,-3.50516944444444,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332897207391911,5357.05854996268,14.6768727396238,6.22159655694505,25.1615731014467,420.80729133244
5453,10799,20630,"SMPDSv1","Madrid E","Lopez_a395",40.1307611111111,-3.51906944444444,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338062693437409,5411.74734398692,14.826705052019,6.31935757267267,25.4079393815879,427.539426523908
5454,10800,20631,"SMPDSv1","Madrid NW","Lopez_a305",40.5864444444444,-3.93161111111111,820,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393509548209171,4630.613950055,12.6866135617945,4.6421980992338,22.664625581703,480.814086496009
5454,10801,20632,"SMPDSv1","Madrid NW","Lopez_a306",40.5958333333333,-3.92763888888888,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38862016217649,4687.55078566987,12.8426048922462,4.77077074385683,22.8447914016619,476.026372002427
5454,10802,20633,"SMPDSv1","Madrid NW","Lopez_a307",40.5844444444444,-3.94466666666666,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400885879338123,4543.51471058308,12.4479855084468,4.44589262322582,22.3862878685636,487.919790214484
5454,10803,20634,"SMPDSv1","Madrid NW","Lopez_a308",40.6499166666666,-4.02838888888888,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.413269451307229,4389.28396137922,12.025435510628,4.10015671878863,21.8779113899876,499.331133244789
5455,10804,20635,"SMPDSv1","Madrid S","Lopez_a246",40.2975833333333,-3.84158333333333,630,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.34802105643716,5222.1200241487,14.3071781483526,5.96375841838235,24.6111829024242,437.1664171966
5455,10805,20636,"SMPDSv1","Madrid S","Lopez_a247",40.3020555555555,-3.90933333333333,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.342018009964721,5304.19756689826,14.5320481284884,6.15296243667417,24.8623052702079,431.007099365469
5455,10806,20637,"SMPDSv1","Madrid S","Lopez_a248",40.3025833333333,-3.90674999999999,620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346436513063516,5245.56147275144,14.3714012952094,6.0205497664708,24.6749966882514,435.534199473214
5455,10807,20638,"SMPDSv1","Madrid S","Lopez_a249",40.2729444444444,-3.86397222222222,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343849652555291,5281.8958884196,14.4709476395058,6.09906592898253,24.8027133328088,433.022265944482
5455,10808,20639,"SMPDSv1","Madrid S","Lopez_a250",40.2966388888888,-3.79916666666666,620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.345294061415033,5255.25867970042,14.3979689854806,6.0358580564405,24.7243577558178,434.377121318396
5455,10809,20640,"SMPDSv1","Madrid S","Lopez_a251",40.3156111111111,-3.76105555555555,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340182094180852,5315.45002570947,14.5628767827657,6.16946279552211,24.9209532291079,429.031419288701
5455,10810,20641,"SMPDSv1","Madrid S","Lopez_a252",40.2946111111111,-3.72577777777777,580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.329805433142545,5405.57392486153,14.8097915749631,6.33109103964063,25.3082334167205,417.77387971778103
5455,10811,20642,"SMPDSv1","Madrid S","Lopez_a253",40.2793333333333,-3.73491666666666,560,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.325080407672425,5466.02855964789,14.9754207113641,6.46434842019066,25.5071562287671,412.887005358927
5455,10812,20643,"SMPDSv1","Madrid S","Lopez_a254",40.2544166666666,-3.72616666666666,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.32267717090569,5499.12807077605,15.066104303496,6.53603125223233,25.6197082950283,410.467251926721
5455,10813,20644,"SMPDSv1","Madrid S","Lopez_a275",40.2493611111111,-3.94202777777777,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338771369864228,5504.19273067346,15.0799800840369,6.60078971403176,25.5586822251353,428.653637535004
5455,10814,20645,"SMPDSv1","Madrid S","Lopez_a276",40.2432222222222,-3.92972222222222,560,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340546337811812,5476.11420557713,15.0030526180195,6.53592318803548,25.4720687588695,430.511841906075
5455,10815,20646,"SMPDSv1","Madrid S","Lopez_a277",40.2608055555555,-3.91772222222222,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3314167812406,5455.41122282989,14.9463321173422,6.49373842271894,25.3509998636213,420.237576215729
5455,10816,20647,"SMPDSv1","Madrid S","Lopez_a278",40.1474166666666,-3.613,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.322778217875273,5625.82212126988,15.4132112911504,6.79791678560083,26.0931797382803,411.456404952666
5455,10817,20648,"SMPDSv1","Madrid S","Lopez_a279",40.1449166666666,-3.62383333333333,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.317646956753459,5698.81381079261,15.6131885227195,6.96008805672098,26.3288449689633,406.02498183756
5455,10818,20649,"SMPDSv1","Madrid S","Lopez_a280",40.1244722222222,-3.62166666666666,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.323161682961332,5626.33952191339,15.41462882716,6.79811140809051,26.0959894082441,411.967971375771
5455,10819,20650,"SMPDSv1","Madrid S","Lopez_a281",40.1263611111111,-3.63627777777777,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.328606681925921,5551.84054624127,15.2105220444966,6.6331940714203,25.8537698523522,417.699198920651
5455,10820,20651,"SMPDSv1","Madrid S","Lopez_a349",40.27725,-3.59069444444444,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.32135408744652,5507.40875344043,15.0887911053162,6.55241931837771,25.6561514343104,409.020264975372
5455,10821,20652,"SMPDSv1","Madrid S","Lopez_a350",40.2635833333333,-3.603,620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338720078524097,5298.68182806008,14.5169365152331,6.0897526770863,24.9737754491649,427.212326991103
5455,10822,20653,"SMPDSv1","Madrid S","Lopez_a351",40.2521388888888,-3.57627777777777,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346018430951476,5212.02333918056,14.2795159977549,5.89663700633332,24.6938054392741,434.785701680203
5455,10823,20654,"SMPDSv1","Madrid S","Lopez_a353",40.1835833333333,-3.69091666666666,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.339383096775393,5398.36193504412,14.790032698751,6.29690748078637,25.348780610789,428.687277453593
5455,10824,20655,"SMPDSv1","Madrid S","Lopez_a354",40.1881944444444,-3.65024999999999,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338935433482773,5400.6290564159,14.7962439901805,6.30111082094812,25.3585084692823,428.198528045469
5455,10825,20674,"SMPDSv1","Madrid S","Lopez_a355",40.1586944444444,-3.67519444444444,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.339426232922871,5400.7100841317,14.7964659839225,6.30040663988644,25.3595067470524,428.846752274811
5455,10826,20675,"SMPDSv1","Madrid S","Lopez_a356",40.1519722222222,-3.64663888888888,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.339189620432645,5402.83048488371,14.8022753010513,6.30400781945013,25.3688466404651,428.629784441393
5455,10827,20656,"SMPDSv1","Madrid S","Lopez_a357",40.1222222222222,-3.60813888888888,250,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.266783214377112,6435.86954729805,17.6325193076659,8.50051659484544,28.7168020589748,350.349003929412
5455,10828,20657,"SMPDSv1","Madrid S","Lopez_a358",40.1548333333333,-3.57913888888888,300,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.275468866089249,6289.91699642761,17.2326493052811,8.21399100318579,28.2445518134229,359.972650271927
5455,10829,20658,"SMPDSv1","Madrid S","Lopez_a359",40.0231388888888,-3.62130555555555,400,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.299129469878957,5996.78098410684,16.4295369427585,7.61593109862759,27.3008745640526,386.65533695473
5455,10830,20659,"SMPDSv1","Madrid S","Lopez_a360",40.0233333333333,-3.61308333333333,400,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.299000610665543,5997.26181510541,16.43085428796,7.61682233924558,27.3029813187165,386.513383072982
5455,10831,20660,"SMPDSv1","Madrid S","Lopez_a361",40.0209722222222,-3.60713888888888,405,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.299956121312959,5983.01692835779,16.3918272009802,7.58495805755571,27.2574475063106,387.562902772136
5455,10832,20661,"SMPDSv1","Madrid S","Lopez_a362",40.136,-3.42522222222222,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359398692315681,5122.71446152105,14.0348341411536,5.67513349333567,24.4776911431915,449.376071040518
5455,10833,20662,"SMPDSv1","Madrid S","Lopez_a363",40.1498055555555,-3.55633333333333,400,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.295723279092466,5997.2155667465,16.4307275801274,7.62130281850562,27.2991555709562,382.369077752691
5455,10834,20663,"SMPDSv1","Madrid S","Lopez_a364",40.15875,-3.52863888888888,400,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.295161469725091,5998.72017663486,16.4348497989996,7.62452053991763,27.3054592824715,381.715264719897
5455,10835,20664,"SMPDSv1","Madrid S","Lopez_a365",40.1579166666666,-3.50505555555555,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.294843455366364,6000.29953831423,16.4391768172993,7.62748617536442,27.3124036730498,381.370310046533
5455,10836,20665,"SMPDSv1","Madrid S","Lopez_a366",40.0115277777777,-3.59738888888888,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.319162915155714,5705.61581930241,15.6318241624724,6.96823246771416,26.361659366554,408.247448412267
5455,10837,20666,"SMPDSv1","Madrid S","Lopez_a367",40.0002777777777,-3.62080555555555,520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.323695510921099,5646.08073360679,15.4687143386487,6.83610254152736,26.1682971887305,413.106992820017
5455,10838,20667,"SMPDSv1","Madrid S","Lopez_a368",40.0266111111111,-3.54388888888888,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.328636800724766,5561.77281068674,15.2377337279089,6.6480593359587,25.8991317847055,418.175147641844
5455,10839,20668,"SMPDSv1","Madrid S","Lopez_a369",40.1491944444444,-3.48327777777777,450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.30521463829534,5854.76105594332,16.0404412491598,7.30333089910545,26.8433907982723,392.669198923098
5455,10840,20669,"SMPDSv1","Madrid S","Lopez_a370",40.1385555555555,-3.47958333333333,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.294842371310298,6002.58000797534,16.4454246793845,7.63101063682851,27.3230156148733,381.451610675415
5455,10841,20670,"SMPDSv1","Madrid S","Lopez_a371",40.1089444444444,-3.46911111111111,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337724787757737,5415.86169057063,14.8379772344401,6.32607336114519,25.4262179916207,427.277463000797
5455,10842,20671,"SMPDSv1","Madrid S","Lopez_a372",40.1150555555555,-3.44983333333333,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348483590956589,5269.62640270662,14.4373326101551,6.00105059756498,24.9535521480314,438.352025248477
5455,10843,20672,"SMPDSv1","Madrid S","Lopez_a373",40.1293611111111,-3.46561111111111,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359730220613195,5120.73654938781,14.0294152038022,5.67151387392243,24.4693365769983,449.751281850765
5455,10844,20673,"SMPDSv1","Madrid S","Lopez_a374",40.0288611111111,-3.64516666666666,450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.309396519862412,5848.72425972583,16.0239020814406,7.28794398865249,26.8201817401461,397.736407542091
5455,10845,20676,"SMPDSv1","Madrid S","Lopez_a375",40.2145,-3.77358333333333,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346271831161881,5371.47582271511,14.7163721170277,6.28632089065817,25.1657276395884,436.443665859266
5455,10846,20677,"SMPDSv1","Madrid S","Lopez_a376",40.2288611111111,-3.76308333333333,600,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.345968301990926,5371.33001758883,14.7159726509283,6.28569315186227,25.1656284526042,436.049441880041
5456,10847,20678,"SMPDSv1","Madrid SW","Lopez_a259",40.3971944444444,-4.33686111111111,825,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397039800523417,4577.73110549472,12.5417290561499,4.53516627062179,22.4223425300288,486.243581663038
5456,10848,20679,"SMPDSv1","Madrid SW","Lopez_a260",40.4055555555555,-4.35697222222222,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392465083595831,4647.16536254864,12.7319598973935,4.69867555658732,22.6325362393036,481.864371450266
5456,10849,20680,"SMPDSv1","Madrid SW","Lopez_a261",40.392,-4.29838888888888,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401757980088313,4508.91959786972,12.3532043777252,4.37312695605965,22.2159433472829,490.703500703646
5456,10850,20681,"SMPDSv1","Madrid SW","Lopez_a262",40.4130833333333,-4.35594444444444,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401775151724165,4503.58676962356,12.3385938893796,4.36237380650723,22.1877758251391,490.661101626399
5456,10851,20682,"SMPDSv1","Madrid SW","Lopez_a263",40.3694722222222,-4.30286111111111,875,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.406369689273112,4438.7968820345,12.1610873480397,4.20843465043908,22.0013487841728,495.166579254684
5456,10852,20683,"SMPDSv1","Madrid SW","Lopez_a264",40.3291944444444,-4.02552777777777,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.327230394179438,5510.24190512883,15.0965531647365,6.6274339137436,25.495378040224,415.558211533226
5456,10853,20684,"SMPDSv1","Madrid SW","Lopez_a265",40.3288055555555,-4.06875,540,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.33109482001311,5462.47080921955,14.9656734499166,6.52266768281942,25.3348819918578,419.60233420451
5456,10854,20685,"SMPDSv1","Madrid SW","Lopez_a266",40.3431666666666,-4.06572222222222,575,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338344757918157,5358.71685771645,14.6814160485382,6.28764901647857,25.0024004604041,427.05009261059
5456,10855,20686,"SMPDSv1","Madrid SW","Lopez_a267",40.3638055555555,-4.06277777777777,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343530592371622,5283.43979891525,14.4751775312746,6.11735305607457,24.759631431326,432.283649454138
5456,10856,20687,"SMPDSv1","Madrid SW","Lopez_a268",40.3890277777777,-4.22811111111111,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.345346512951131,5265.89194150183,14.4271012095941,6.08883547754773,24.6697792865928,434.057216176946
5456,10857,20688,"SMPDSv1","Madrid SW","Lopez_a269",40.4219444444444,-4.2325,575,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.34003295603452,5333.11026135367,14.6112609900101,6.24256193543372,24.8760225357532,428.433727968976
5456,10858,20689,"SMPDSv1","Madrid SW","Lopez_a270",40.4170277777777,-4.1775,580,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340383023142383,5324.26203718196,14.5870192799506,6.21856680965838,24.8591995973862,428.805646309353
5456,10859,20690,"SMPDSv1","Madrid SW","Lopez_a271",40.37875,-4.13486111111111,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333799882161446,5420.44890432618,14.8505449433594,6.43328424700709,25.1798128055832,422.183261859197
5456,10860,20691,"SMPDSv1","Madrid SW","Lopez_a272",40.3918333333333,-4.09672222222222,590,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.341634755664391,5305.90612704003,14.5367291151782,6.17103674468081,24.8202683237643,430.202876416364
5456,10861,20692,"SMPDSv1","Madrid SW","Lopez_a273",40.3591388888888,-4.12166666666666,570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337942790586856,5366.21180193696,14.701950142293,6.30891771962619,25.0132683736046,426.567758417303
5456,10862,20693,"SMPDSv1","Madrid SW","Lopez_a274",40.3396944444444,-4.169,560,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336677941944835,5393.70429200306,14.7772720328851,6.37451627022282,25.095204411704,425.367995151207
5456,10863,20694,"SMPDSv1","Madrid SW","Lopez_a391",40.3201833333333,-4.24150555555555,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.325955884149387,5564.21178579834,15.2444158515023,6.76821051035064,25.6260251673193,414.310745956081
5456,10864,20695,"SMPDSv1","Madrid SW","Lopez_a392",40.3289555555555,-4.24620833333333,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.325950512869316,5562.49536556459,15.2397133303139,6.76480089611329,25.618054670735,414.263658308792
5456,10865,20696,"SMPDSv1","Madrid SW","Lopez_a393",40.3540138888888,-4.15206944444444,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.32398743601262,5567.66323606175,15.2538718796212,6.76851775560719,25.6489812848585,412.060626668631
5456,10866,20697,"SMPDSv1","Madrid SW","Lopez_a394",40.2636333333333,-4.33349166666666,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340082818469122,5527.59579360549,15.1440980646726,6.76140925313856,25.3845398753192,430.73798596053
5457,10867,20698,"SMPDSv1","Madrid W","Lopez_a255",40.5875555555555,-4.10480555555555,880,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.407359147720008,4447.00437384204,12.1835736269645,4.22982297292318,22.0604173274505,494.094796986015
5457,10868,20699,"SMPDSv1","Madrid W","Lopez_a256",40.5952222222222,-4.08527777777777,930,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419702610663614,4304.51915007279,11.7932031508844,3.90726568009024,21.6103837019826,505.690988343422
5457,10869,20700,"SMPDSv1","Madrid W","Lopez_a257",40.5347499999999,-4.07611111111111,740,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374338923465146,4855.91032599728,13.3038639068419,5.15381618829537,23.3687065282084,462.399215851664
5457,10870,20701,"SMPDSv1","Madrid W","Lopez_a258",40.5513611111111,-4.03463888888888,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376573990345715,4828.38518987191,13.2284525749915,5.09057238626155,23.284682362921,464.505636481027
5457,10871,20702,"SMPDSv1","Madrid W","Lopez_a282",40.5673611111111,-4.06894444444444,760,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.378988566309916,4795.23869207918,13.1376402522717,5.01703088224115,23.1717774985884,466.798648141898
5457,10872,20703,"SMPDSv1","Madrid W","Lopez_a283",40.5266388888888,-4.00988888888888,740,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374153515007267,4861.90983554559,13.320300919303,5.16493854509455,23.3989852910144,462.248333325598
5457,10873,20704,"SMPDSv1","Madrid W","Lopez_a284",40.62725,-3.97336111111111,755,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.377736616138194,4809.9285272913,13.1778863761406,5.04886631079296,23.2220372085921,465.222303022191
5457,10874,20705,"SMPDSv1","Madrid W","Lopez_a285",40.6138333333333,-4.10333333333333,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.412386492553187,4387.76123144507,12.0212636477947,4.09630278895549,21.8694567240913,498.708559468903
5457,10875,20706,"SMPDSv1","Madrid W","Lopez_a383",40.38395,-4.44016111111111,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349812909051027,5357.1500821084,14.6771235126258,6.37276568165707,24.8106377256406,440.226369623487
5457,10876,20707,"SMPDSv1","Madrid W","Lopez_a384",40.37665,-4.43756944444444,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.34981800319068,5358.43713402242,14.6806496822532,6.37558245636773,24.8165531625332,440.265757633101
5457,10877,20708,"SMPDSv1","Madrid W","Lopez_a385",40.4084611111111,-4.40473611111111,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348819036204376,5356.98667283546,14.6766758159876,6.36787498222421,24.8143271360429,439.010745019972
5458,10878,20709,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a1",42.4933333333333,1.63777777777777,2541,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27956849589737,1463.89597195734,2.4720756823756,-5.13905882509906,11.8230245463503,1195.74955520514
5458,10879,20710,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a10",42.4883333333333,1.6475,2343,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21132526085538,1662.45446434521,3.45207326711003,-4.15177810725528,12.728460230472,1149.43473416846
5458,10880,20724,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a11",42.4994444444444,1.64888888888888,2318,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.2019605598465,1690.43488407106,3.58359380900111,-4.0183920308307,12.8506372646552,1143.14794744904
5458,10881,20725,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a12",42.4858333333333,1.64194444444444,2271,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1873502981199,1739.04597553097,3.80685461799394,-3.79554726750042,13.0573400011121,1132.8813819159
5458,10882,20726,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a13",42.4830555555555,1.63166666666666,2181,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.15775512560905,1839.57348966544,4.25050770973602,-3.35050929994493,13.4690564623932,1112.21690987875
5458,10883,20711,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a14",42.4825,1.61083333333333,2108,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13416169141769,1925.19749057314,4.60987496380716,-2.99169963459724,13.8041779010592,1095.67015733583
5458,10884,20712,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a15",42.4877777777777,1.61555555555555,2066,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12007453493782,1977.04972163922,4.82177465692805,-2.77751945748549,13.9999739577215,1085.56699594049
5458,10885,20727,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a16",42.4830555555555,1.6175,2058,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11766255105348,1986.39856567709,4.8594956073016,-2.73948789566454,14.0344384063095,1083.7687182344
5458,10886,20728,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a17",42.4841666666666,1.61138888888888,2056,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11707369477107,1988.86379869241,4.86914222815223,-2.73059863275005,14.0441619417728,1083.41605484163
5458,10887,20729,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a18",42.4902777777777,1.60638888888888,1977,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09138761750044,2089.02849753285,5.26356215849812,-2.33414171344882,14.4100884809596,1064.86500292524
5458,10888,20730,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a19",42.4911111111111,1.59361111111111,1879,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06035571074729,2217.65538978515,5.7488808040054,-1.84766092437489,14.8608706170645,1042.12960249347
5458,10889,20713,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a2",42.4947222222222,1.65805555555555,2519,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27097957031218,1485.90973159334,2.58589208024259,-5.02181345338336,11.925987243842,1189.83962768445
5458,10890,20714,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a20",42.4922222222222,1.59444444444444,1884,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0618929850113,2211.07257848238,5.72454965178595,-1.87198905817768,14.8382878512433,1043.26689161116
5458,10891,20715,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a21",42.495,1.58916666666666,1872,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05809167038726,2227.36965229789,5.7844759222513,-1.81241820819101,14.8945025013429,1040.5042153018
5458,10892,20716,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a22",42.4952777777777,1.58666666666666,1817,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04084853375614,2302.48166652206,6.05725994642036,-1.53835962337399,15.1472828865772,1027.64310301248
5458,10893,20717,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a23",42.4961111111111,1.5825,1752,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02065879569609,2393.85228365794,6.37966438021338,-1.21465004021456,15.4462125703136,1012.44957172462
5458,10894,20718,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a24",42.4969444444444,1.57861111111111,1674,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.996690485196519,2507.68708615296,6.76660521028765,-0.826012770044812,15.8048349400022,994.191482108906
5458,10895,20731,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a25",42.4969444444444,1.575,1630,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.983303401435331,2574.20920702535,6.98465919715196,-0.607248497668761,16.0071004817837,983.908623276146
5458,10896,20719,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a26",42.4977777777777,1.56916666666666,1578,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.967591938394972,2655.53644712478,7.24239712593875,-0.348948184710661,16.2463954880094,971.760489753263
5458,10897,20720,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a27",42.5036111111111,1.55222222222222,1242,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.868957422437037,3251.77546434482,8.90897387491731,1.32408596013621,17.791031725437,892.934930747959
5458,10898,20732,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a3",42.4944444444444,1.65416666666666,2479,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25723392909063,1525.00684220528,2.78322569838911,-4.8236965929096,12.1090535686347,1180.67233109246
5458,10899,20733,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a4",42.4905555555555,1.64916666666666,2435,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.24255937945695,1568.22385306742,2.99758703312373,-4.60889669395297,12.3077869076125,1170.75377454712
5458,10900,20734,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a5",42.49,1.6475,2428,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.24025257504587,1575.15974319982,3.03161428435148,-4.57490558290971,12.3394446605197,1169.19942140821
5458,10901,20735,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a6",42.4883333333333,1.6475,2400,"not applicable","terrestrial, soil","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.23077783086,1603.38084505069,3.16930085395798,-4.43643881286754,12.4667644643207,1162.73578196106
5458,10902,20721,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a7",42.4863888888888,1.64666666666666,2348,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21320562546985,1656.91388470557,3.42581882251837,-4.1784648467812,12.7041511164742,1150.70204310934
5458,10903,20722,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a8",42.4833333333333,1.65222222222222,2360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21737768215909,1644.06657511561,3.36506818609491,-4.23912647968644,12.647075118476,1153.44961658279
5458,10904,20723,"SMPDSv1","Madriu-Perafita-Claror Valley","Ejarque_a9",42.4755555555555,1.60638888888888,2311,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20264957763418,1693.60931730587,3.5958577077781,-4.01335372135461,12.8657161828619,1143.68704242593
5459,10905,20736,"SMPDSv1","Maekula","Seppa_b118",58.12,25.7,111,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03740935940184,2467.39727831996,5.10332775102698,-6.91048890293069,16.5160122370728,636.192159515494
5460,10906,3782,"CMPD","Maer Lake","Maer Lake SC-1",19.95,110.183,90,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40221308148018,8795.5980605242,24.097528932943,17.6982594281792,28.6241255486524,1841.52329544473
5461,10907,20737,"SMPDSv1","Maerstjorna","Bjune_a182",68.7666666666666,14.4666666666666,30,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.177258827192,1415.35846919339,2.70837399080737,-3.91268047010379,11.0487740238201,1167.88994209888
5462,10908,20738,"SMPDSv1","Magleso","Odgaard_a11",55.634461,11.693116,50,"0.15","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.955040887563094,2887.81026992171,7.8188404450129,-0.608995747056248,16.2834275524742,636.099421996867
5463,10909,9653,"Gaillard et al., 1992","Magnarod","Magnarod",55.733333,13.616667,111,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.04307251875728,2695.81441714985,7.05791834083361,-1.84915343134455,16.0939214980603,689.662682460815
5464,10910,8295,"EMPDv2","Magnasco","Montanari_b9",44.5166027777778,9.40388888888889,814,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.26664825070847,3125.982328771,8.55421869875104,-0.0924836891764233,17.5138619480999,1168.75893496137
5465,10911,20739,"SMPDSv1","Mahkli","Meltsov_a2",57.74603,26.49239,81,"0.083","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.994962944885695,2489.03805373286,5.12671623600334,-7.08928177520677,16.6720829876785,615.760807996981
5466,10912,3783,"CMPD","Maili","Maili 1",42.87,122.88,155,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.568637299821971,3572.03687219136,6.73458901967058,-13.0989749877499,23.6408967072034,539.305435586285
5466,10913,3784,"CMPD","Maili","Maili 2",42.6,122.95,155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.604685579270639,3598.64624461334,6.95269075749585,-12.6940611330283,23.6457937925964,576.57395824059
5466,10914,3785,"CMPD","Maili","Maili 3",42.55,122.9,155,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.604078899848173,3600.79135915573,6.97081678951217,-12.6522656542781,23.6472404656028,576.649628240409
5467,10915,8740,"EMPDv2","Mainau","Roesch_b3",47.701303,9.186872,396,"10","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0493578775736,3459.21726870246,9.4724607203643,-0.00964626780735266,18.6238277538458,829.162724560077
5468,10916,8301,"EMPDv2","Maissana","Montanari_b15",44.3373111111111,9.53623055555556,575,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.12991697012485,3701.69597528688,10.1416328090051,1.24171489379713,19.2825713319258,1091.48152307407
5469,10917,11563,"Neotoma","Maitland Draw","MAIT-S1",44.1200016666666,-103.796191666666,1756,"not known","fluvial","surface sample","-49","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.415407957076931,2789.1515203914,6.24249363927817,-6.08909386599001,19.9559424411373,400.039352484995
5469,10918,11562,"Neotoma","Maitland Draw","MAIT-S2",44.1200016666666,-103.796191666666,1756,"not known","fluvial","surface sample","-49","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.415407957076931,2789.1515203914,6.24249363927817,-6.08909386599001,19.9559424411373,400.039352484995
5470,10919,6999,"EMPDv2","Majen Ben H mida","EPDcoretop_E1489",37.13,9.08,330,"9e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.439752726173976,6189.45598171868,16.9574136485443,9.28397468617535,26.0549756030917,572.679709042888
5471,10920,7000,"EMPDv2","Majen El Orbi","EPDcoretop_E1491",37.15,9.08,200,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.436366424545946,6385.83966241543,17.4954511299053,10.0811604371825,26.1855361979847,571.356124659752
5472,10921,16421,"Neotoma","Makar Inlet","JTA238",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10922,16415,"Neotoma","Makar Inlet","JTA239",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10923,16417,"Neotoma","Makar Inlet","JTA240",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10924,16416,"Neotoma","Makar Inlet","JTA241",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10925,16423,"Neotoma","Makar Inlet","JTA242",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10926,16422,"Neotoma","Makar Inlet","JTA243",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10927,16424,"Neotoma","Makar Inlet","JTA244",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10928,16418,"Neotoma","Makar Inlet","JTA245",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10929,16420,"Neotoma","Makar Inlet","JTA246",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5472,10930,16419,"Neotoma","Makar Inlet","JTA247",68.3,-85.67,400,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.778160469044167,324.789656325504,-14.6906608458757,-31.9830434896563,5.82885478005757,209.883095176467
5473,10931,8010,"EMPDv2","Makarov","Mikishin-Gvozdeva_a70",48.6258333333333,142.788888888889,0,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.56281208900605,1945.13876560899,1.07937250148674,-14.9917937405711,15.6645225867493,893.663694508147
5474,10932,13856,"Neotoma","Makepeace Cedar Swamp","MKPEACEA",41.9361899999999,-70.75736,40,"not known","terrestrial, bog/fen/swamp","core","25","Newby, P.E., P. Killoran, M.R. Waldorf, B.N. Shuman, R.S. Webb, and T. Webb III. 2000. 14,000 years of sediment, vegetation, and water-level changes at the Makepeace Cedar Swamp, southeastern Massachusetts. Quaternary Research 53(3):352-368.","10.1006/qres.1999.2120",9,"cool mixed forest",1.346396780914,3781.16518452829,9.92193961080703,-2.84695811526557,22.1277146580061,1197.97174971083
5474,10933,13855,"Neotoma","Makepeace Cedar Swamp","MKPEACEB",41.9361899999999,-70.75736,40,"not known","terrestrial, bog/fen/swamp","core","-16","Newby, P.E., P. Killoran, M.R. Waldorf, B.N. Shuman, R.S. Webb, and T. Webb III. 2000. 14,000 years of sediment, vegetation, and water-level changes at the Makepeace Cedar Swamp, southeastern Massachusetts. Quaternary Research 53(3):352-368.","10.1006/qres.1999.2120",9,"cool mixed forest",1.346396780914,3781.16518452829,9.92193961080703,-2.84695811526557,22.1277146580061,1197.97174971083
5475,10934,20740,"SMPDSv1","Makkejavri","Bjune_a6",70.09098899,28.58153336,70,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09390162522562,1388.80844492894,-0.63127720732844,-13.070433658054,13.1983177440008,398.476449506407
5476,10935,27,"AMSS","Makokou","Makokou1_Plot A",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10936,30,"AMSS","Makokou","Makokou10_Plot E",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10937,31,"AMSS","Makokou","Makokou12_Plot F",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10938,32,"AMSS","Makokou","Makokou13_Plot F",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10939,33,"AMSS","Makokou","Makokou14_Plot F",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10940,34,"AMSS","Makokou","Makokou16_Plot F",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10941,35,"AMSS","Makokou","Makokou17_Plot A",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10942,36,"AMSS","Makokou","Makokou18_Plot A",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10943,37,"AMSS","Makokou","Makokou19_Plot A",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10944,28,"AMSS","Makokou","Makokou2_Plot A",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10945,38,"AMSS","Makokou","Makokou20_Plot B",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10946,39,"AMSS","Makokou","Makokou21_Plot B",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10947,40,"AMSS","Makokou","Makokou25_Plot D",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10948,41,"AMSS","Makokou","Makokou26_Plot D",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5476,10949,29,"AMSS","Makokou","Makokou9_Plot E",0.5477,12.85014,470,"not applicable","terrestrial","soil sample","-37","Jolly, D., Bonnefille, R., Burcq, S. and Roux, M., 1996. Représentation pollinique de la foręt dense humide du Gabon, tests statistiques. Comptes rendus de l'Académie des sciences. Série 2. Sciences de la terre et des plančtes, 322(1), pp.63-70.; Lebamba, J., Vincens, A., Jolly, D., Ngomanda, A., Schevin, P., Maley, J. and Bentaleb, I. and REGAB members, 2009. Modern pollen rain in savanna and forest ecosystems of Gabon and Cameroon, Central Atlantic Africa. Review of Palaeobotany and Palynology, 153(1-2), pp.34-45.",";
10.1016/j.revpalbo.2008.06.004",2,"tropical semi-evergreen broadleaf forest",1.43014777803006,8959.37939483328,24.5462449173514,22.8843218389141,25.6088904624133,1666.3229281429
5477,10950,10558,"BIOME6000 Japan","Makura","MakrC0",34.72,132.37,720,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.97805179814517,3993.25708342081,10.9186551784282,-0.0830922757146568,22.9541162440296,1860.83041245976
5478,10951,9104,"EMPDv2","Mala niva, Sumava","EPDcoretop_E1538",48.915017,13.812875,750,"1.27","terrestrial, bog/fen/swamp","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.32151112479218,2632.84480936224,6.66425527030464,-3.15913481293072,15.6900290945257,996.17680941475
5478,10952,9103,"EMPDv2","Mala niva, Sumava","Svobodova_a19",48.915017,13.812875,750,"1.27","terrestrial, bog/fen/swamp","peat","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.32151112479218,2632.84480936224,6.66425527030464,-3.15913481293072,15.6900290945257,996.17680941475
5479,10953,16594,"Neotoma","Malcolm","MALC",54.766667,-66.733333,503,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.64833910607106,1127.74892004288,-5.28274641050503,-23.4854126926829,11.9455681916931,769.330542601881
5480,10954,20741,"SMPDSv1","Maleshevska Mountains Peat Bog","EPDcoretop_E427",41.7,23.033333,1720,"0.005","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.879550567012656,2137.66584663396,4.14419449185791,-7.4675664775714,14.1209043573405,756.601962015469
5481,10955,20742,"SMPDSv1","Malhaire","EPDcoretop_E232",48.5,-1,170,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.957717791170126,3782.20292008437,10.3621997810531,3.92248920986996,17.342121334579,751.715342672885
5482,10956,20743,"SMPDSv1","Malham Tarn","Grant_a15",54.096761,-2.163942,370,"0.604","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.48150564551561,2594.48698947526,7.10818353280892,1.57178264233955,13.3169652340794,1368.73088489658
5483,10957,20744,"SMPDSv1","Malham Tarn Moss","Grant_a14",54.097103,-2.175946,370,"0.351","terrestrial, blanket bog","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.48106373631419,2594.03757931624,7.10695227209928,1.57082896816814,13.3156021888624,1368.4369264827
5484,10958,12888,"Neotoma","Maligne Lake","MALIGNE",52.733333,-117.616667,1675,"not known","lake","core","0","Kearney, M.S. 1981. Late Quaternary vegetational and environmental history of Jasper National Park, Alberta. Dissertation. University of Western Ontario, London, Ontario, Canada.; Kearney, M.S., and B.H. Luckman. 1983. Holocene timberline fluctuations in Jasper National Park, Alberta. Science 221:261-263.; Kearney, M.S., and B.H. Luckman. 1987. A mid-Holocene vegetational and climatic record from the subalpine zone of the Maligne Valley, Jasper National Park, Alberta (Canada). Palaeogeography, Palaeoclimatology, Palaeoecology 59:227-242.",,15,"cold evergreen needleleaf forest",1.48475358278286,1305.36550887413,-0.272806424368827,-11.729294913208,10.9324561217987,946.003465082092
5485,10959,7124,"EMPDv2","Malingue","EPDcoretop_E2112",48.44,-0.57,107,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.921892146856034,3952.20359339184,10.8279550503886,4.40374570670231,17.7919044288541,735.765258732985
5486,10960,13853,"Neotoma","Mallard Pond","MALLARD",51.287795,-101.32475,568,"not known","lake","core","-48","Teed, R.E., C.E. Umbanhowar, and P. Camill. 2009. Multiproxy lake sediment records at the northern and southern boundaries of the Aspen Parkland region of Manitoba, Canada. The Holocene 19(6):937-948.","10.1177/0959683609336569",15,"cold evergreen needleleaf forest",0.637639749370431,2336.30816302481,0.965648130888299,-18.8111461565191,17.6243022390098,466.502039731701
5486,10960,13854,"Neotoma","Mallard Pond","MALLARD",51.287795,-101.32475,568,"not known","lake","core","-34","Teed, R.E., C.E. Umbanhowar, and P. Camill. 2009. Multiproxy lake sediment records at the northern and southern boundaries of the Aspen Parkland region of Manitoba, Canada. The Holocene 19(6):937-948.","10.1177/0959683609336569",15,"cold evergreen needleleaf forest",0.637639749370431,2336.30816302481,0.965648130888299,-18.8111461565191,17.6243022390098,466.502039731701
5487,10961,24423,"Neotoma","Mallin Casanova","CASANOVA_0",-47.64356,-72.975225,126,"not known","terrestrial","core","-47","Iglesias, V., S.G. Haberle, A. Holz, and C. Whitlock. 2018. Holocene dynamics of temperate rainforests in west-central Patagonia. Frontiers in Ecology and Evolution 5:177.","10.3389/fevo.2017.00177",7,"cool-temperate rainforest",1.30878914276439,2611.8468919542,7.15574490946355,2.23824349965343,11.8415780215765,1022.20097563806
5487,10962,24424,"Neotoma","Mallin Casanova","CASANOVA_4",-47.64356,-72.975225,126,"not known","terrestrial","core","17","Iglesias, V., S.G. Haberle, A. Holz, and C. Whitlock. 2018. Holocene dynamics of temperate rainforests in west-central Patagonia. Frontiers in Ecology and Evolution 5:177.","10.3389/fevo.2017.00177",7,"cool-temperate rainforest",1.30878914276439,2611.8468919542,7.15574490946355,2.23824349965343,11.8415780215765,1022.20097563806
5488,10963,24375,"Neotoma","Mallín Fontanito","FONT_2",-44.908576,-71.564436,940,"not known","terrestrial, bog/fen/swamp","core","-37","Nanavati, W., C. Whitlock, V. Iglesias, and M.E. de Porras. 2019. Postglacial vegetation, fire, and climate history along the eastern Andes, Argentina and Chile (lat. 41–55°S). Quaternary Science Reviews 207:145-160.","10.1016/j.quascirev.2019.01.014",7,"cool-temperate rainforest",1.07248061214991,2339.77008904309,6.41032901107697,0.480053672365786,11.9886941198205,957.480524032939
5488,10964,24376,"Neotoma","Mallín Fontanito","FONT_9",-44.908576,-71.564436,940,"not known","terrestrial, bog/fen/swamp","core","43","Nanavati, W., C. Whitlock, V. Iglesias, and M.E. de Porras. 2019. Postglacial vegetation, fire, and climate history along the eastern Andes, Argentina and Chile (lat. 41–55°S). Quaternary Science Reviews 207:145-160.","10.1016/j.quascirev.2019.01.014",7,"cool-temperate rainforest",1.07248061214991,2339.77008904309,6.41032901107697,0.480053672365786,11.9886941198205,957.480524032939
5489,10965,24252,"Neotoma","Mallin Pollux","_10",-45.68859,-71.8379449999999,640,"not known","terrestrial, bog/fen/swamp","core","11","Markgraf, V., C. Whitlock, and S. Haberle. 2007. Vegetation and fire history during the last 18,000 cal yr B.P. in Southern Patagonia: Mallín Pollux, Coyhaique, Province Aisén (45°41′30″ S, 71°50′30″ W, 640 m elevation). Palaeogeography, Palaeoclimatology, Palaeoecology 254(3-4):492-507.","10.1016/j.palaeo.2007.07.008",7,"cool-temperate rainforest",1.17000462771111,2374.91716173747,6.50662236092457,0.768868377578126,11.8563485860569,1001.72489824221
5489,10966,24251,"Neotoma","Mallin Pollux","POLLUX_0",-45.68859,-71.8379449999999,640,"not known","terrestrial, bog/fen/swamp","core","-47","Markgraf, V., C. Whitlock, and S. Haberle. 2007. Vegetation and fire history during the last 18,000 cal yr B.P. in Southern Patagonia: Mallín Pollux, Coyhaique, Province Aisén (45°41′30″ S, 71°50′30″ W, 640 m elevation). Palaeogeography, Palaeoclimatology, Palaeoecology 254(3-4):492-507.","10.1016/j.palaeo.2007.07.008",7,"cool-temperate rainforest",1.17000462771111,2374.91716173747,6.50662236092457,0.768868377578126,11.8563485860569,1001.72489824221
5490,10967,24200,"Neotoma","Mallín Vaca Lauquen","VACALAUQ",-36.85805,-71.048505,1450,"not known","terrestrial","core","0","Markgraf, V. 1987. Paleoenvironmental changes at the northern limit of the subantarctic Nothofagus forest, latitude 37°S, Argentina. Quaternary Research 28:119-129.","10.1016/0033-5894(87)90037-8",22,"steppe",0.454224252203698,3430.41897093522,9.39840813954854,3.12828324889211,16.1484046372133,605.714311523118
5490,10968,24199,"Neotoma","Mallín Vaca Lauquen","VLNOASH",-36.85805,-71.048505,1450,"not known","terrestrial","core","-20","Markgraf, V., C. Whitlock, R.S. Anderson, and A. Garcia. 2009. Late Quaternary vegetation and fire history in the northernmost Nothofagus forest region: Mallin Vaca Lauquen, Neuquen Province, Argentina. Journal of Quaternary Science 24(3):248-258.","10.1002/jqs.1233",22,"steppe",0.454224252203698,3430.41897093522,9.39840813954854,3.12828324889211,16.1484046372133,605.714311523118
5491,10969,9654,"Gaillard et al., 1992","Mallsjon","Mallsjon",56.324311,15.315938,63,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.885399041176174,2691.19333834344,7.05522924929101,-1.75479453041076,16.3057031526886,587.119751449063
5492,10970,9490,"EMPDv2","Malokulskii peatland-1","Novenko_c167",54.8833,59.15,720,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.797055212637162,2136.38794744888,0.208760840927855,-18.1098677976898,17.2343987207345,515.034192193862
5493,10971,9491,"EMPDv2","Malokulskii peatland-2","Novenko_c168",54.8833,59.15,721,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.796943953050288,2135.68525188778,0.204407057589005,-18.1146485609739,17.2304654318312,514.962170631228
5494,10972,9492,"EMPDv2","Malokulskii peatland-3","Novenko_c169",54.8833,59.15,722,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.796832696737099,2134.98255632669,0.200053274250155,-18.1194293242579,17.226532142928,514.890149068595
5495,10973,22163,"SMPDSv1","Malopolskie voivodeship Beskid Sadecki Mts., Jesionowa","Kolaczek_c1",49.4768166666666,20.74895,850,"0.01","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28216740011737,2238.10781243001,4.82934766409784,-6.03607293694838,14.1721278367789,937.632834501044
5495,10974,22164,"SMPDSv1","Malopolskie voivodeship Beskid Sadecki Mts., Jesionowa","Kolaczek_c2",49.4768166666666,20.74895,850,"0.01","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.28216740011737,2238.10781243001,4.82934766409784,-6.03607293694838,14.1721278367789,937.632834501044
5496,10975,22165,"SMPDSv1","Malopolskie voivodeship, Tatra Mts","Kolaczek_e1",49.2086111111111,19.8527777777777,1294,"0.002","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.83199992714063,1528.23555325793,1.91174879363789,-8.13330802633511,10.8634404715051,1224.57622171765
5497,10976,22166,"SMPDSv1","Malopolskie voivodeship, The Orawa-Nowy Targ Basin","Kolaczek_d1",49.46,19.7866666666666,655,"0.51","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18019430371966,2532.83988277354,5.9763271212902,-5.09937391218795,15.3991438533296,888.896463203909
5498,10977,7703,"EMPDv2","Malozemel skaya tundra","Lapteva_b63",67.5731,53.16641,18,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35688725505249,1197.84460432608,-3.83806458067504,-19.5495477432355,13.5944066494008,457.168815672996
5498,10978,7704,"EMPDv2","Malozemel skaya tundra","Lapteva_b64",67.57545,53.15633,18,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35693232643769,1197.86155055624,-3.83761389814163,-19.5489288642883,13.5942785887913,457.165067559036
5498,10979,7705,"EMPDv2","Malozemel skaya tundra","Lapteva_b65",67.69637,53.16391,8,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35687636287938,1177.25964112253,-3.96133478997875,-19.5743132782532,13.4382196397955,451.796955542775
5498,10980,7706,"EMPDv2","Malozemel skaya tundra","Lapteva_b68",67.57545,53.15633,18,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35693232643769,1197.86155055624,-3.83761389814163,-19.5489288642883,13.5942785887913,457.165067559036
5499,10981,7746,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b107",67.88831,52.48097,78,"272","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35553193997039,1292.79896404496,-3.27762096597981,-19.4921090563927,14.2505072971819,473.198617372597
5499,10982,7694,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b55",67.84806,52.85492,5,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36227261901169,1166.12828974678,-4.01066690088363,-19.5613401301219,13.3384189875506,450.341004814903
5499,10983,7695,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b56",67.84516,52.67041,7,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36468155055437,1165.72789604173,-4.02769790171645,-19.5865742194372,13.3495232332884,450.780166438317
5499,10984,7696,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b57",67.79988,52.54901,15,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36246181166173,1183.11213200237,-3.91700747503753,-19.5597117029098,13.4762631473473,453.986039555937
5499,10985,7697,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b58",67.75369,52.35919,2,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36238788250064,1166.7024673447,-4.01131919162925,-19.5549274864273,13.3547216055157,450.728606549042
5499,10986,7698,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b59",67.8439,52.48097,39,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36043928508154,1223.73607086407,-3.67266788984286,-19.5297285813512,13.7668930666938,461.40175703741
5499,10987,7699,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b60",67.8439,52.48097,39,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36043928508154,1223.73607086407,-3.67266788984286,-19.5297285813512,13.7668930666938,461.40175703741
5499,10988,7700,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b61",67.84305,52.48021,40,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36028135483373,1225.51088084248,-3.66222230525448,-19.5284709005977,13.7794605642382,461.717190033337
5499,10989,7701,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b62",67.84389,52.47432,40,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36027380513609,1225.51054344607,-3.66206838442585,-19.5283447882728,13.7792683200462,461.706825474203
5499,10990,7702,"EMPDv2","Malozemel skaya tundra_Lake Golodnaya Guba","Lapteva_b66",67.83285,52.67831,1,"272","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36486255208083,1155.58141645433,-4.09045364281579,-19.5959965679389,13.2744334199176,448.772499670194
5500,10991,20745,"SMPDSv1","Malschotscher Hotter","EPDcoretop_E1196",46.66611111,11.45833333,2050,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.62058764715887,874.844869488309,-0.305546091573793,-7.65103329826702,7.33251812836796,1741.47611369466
5501,10992,6243,"EMPDv2","Maltan Archy","Binney2017_E2223",60.8,151.72,783,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.16098739119748,820.13956213354,-10.4380259793148,-29.359590785463,9.30043050223325,406.088377936643
5502,10993,6244,"EMPDv2","Malyi Kretchet","Binney2017_E2224",66.78,175.52,36,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.99450017817652,930.029300507265,-8.72039986655977,-24.4392069581612,10.9329931688136,317.114645746979
5503,10994,7059,"EMPDv2","Mamontovy Klyk","EPDcoretop_E1790",73.61,117.12,25,"not known","coastal, other","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.716271327263622,876.410229139276,-15.2558019918979,-40.8352536484883,11.8387126251535,211.731355490162
5504,10995,10511,"IBERIA","Manaderos","Manaderos core",40.3424,-4.6939,1292,"not known","terrestrial, bog/fen/swamp","core top","37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.474417763515446,3236.7289176435,8.86775045929727,1.34113182038441,18.2768367483865,555.369451603758
5505,10996,3786,"CMPD","Manasi Lake","Manasi Lake",45.97,84.83,257,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.149122391771855,4232.78280775501,8.53599196677073,-13.6455778414024,26.3475961872513,150.581245166016
5506,10997,12889,"Neotoma","Mangrove Lake","MANGROVE",32.3,-64.75,18,"not known","lake","core","0","Watts, W.A., and B.C.S. Hansen. 1986. Holocene climate and vegetation of Bermuda. Pollen et Spores 28:355-364.",,,"not applicable",,,,,,
5507,10998,20746,"SMPDSv1","Mankarbo","Barboni_a366",60.3,17.7,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06801440980181,2083.84787346107,4.19263100629259,-5.87071160128132,14.9157228212915,599.050767387304
5508,10999,20747,"SMPDSv1","Mannik","Seppa_b134",58.87,26.27,89,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0584265992337,2428.19476861711,4.95362765013585,-6.97034471226493,16.5057675089656,637.460217536579
5509,11000,16677,"Neotoma","Mansebourg","PJHR030",43.716667,-79.35,303,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.10219227784222,3102.33011076336,6.89514621261624,-7.35030046512582,20.0807407151218,935.903492961798
5510,11001,12890,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","-32","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5510,11001,12891,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","-18","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5510,11001,12892,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","-3","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5510,11001,12893,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","12","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5510,11001,12894,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","26","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5510,11001,12895,"Neotoma","Mansell Pond","MANSELL",45.041667,-68.733333,58,"not known","lake","core","40","Almquist-Jacobson, H., and D. Sanger. 1995. Holocene climate and vegetation in the Milford drainage basin, Maine, U.S.A., and their implications for human history. Vegetation History and Archaeobotany 4:211-222.",,9,"cool mixed forest",1.4832496181442,2883.36214233259,6.19528568609962,-7.78200098274511,19.2256050686815,1149.61285323322
5511,11002,1030,"Australian pollen","Manton Dam","Manton Dam core 1_105",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11003,1031,"Australian pollen","Manton Dam","Manton Dam core 1_125",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11004,1032,"Australian pollen","Manton Dam","Manton Dam core 1_145",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11005,1033,"Australian pollen","Manton Dam","Manton Dam core 1_1625",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11006,1034,"Australian pollen","Manton Dam","Manton Dam core 1_185",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11007,1035,"Australian pollen","Manton Dam","Manton Dam core 1_2225",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11008,1036,"Australian pollen","Manton Dam","Manton Dam core 1_25",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11009,1037,"Australian pollen","Manton Dam","Manton Dam core 1_45",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11010,1038,"Australian pollen","Manton Dam","Manton Dam core 1_65",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","13","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11011,1039,"Australian pollen","Manton Dam","Manton Dam core 1_85",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11012,1040,"Australian pollen","Manton Dam","Manton Dam core 2_1",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","3","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11013,1041,"Australian pollen","Manton Dam","Manton Dam core 2_2",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","7","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11014,1042,"Australian pollen","Manton Dam","Manton Dam core 2_3",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11015,1043,"Australian pollen","Manton Dam","Manton Dam core 2_4",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11016,1044,"Australian pollen","Manton Dam","Manton Dam core 2_6",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5511,11017,1045,"Australian pollen","Manton Dam","Manton Dam core 2_8",-12.86,131.13,39,"medium (1.1-50 km2)","lake","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.823466540305029,9965.28040027681,27.3021380829502,23.8454370936538,29.6660942963259,1455.27729752701
5512,11018,11033,"Bush et al., 2020","Manu","Manu",-13.383389,-71.902033,2948,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.90242571932613,4692.51275873397,12.8561993389972,10.8932691697354,14.1229515541944,1323.52325745199
5512,11018,11034,"Bush et al., 2020","Manu","Manu",-13.387103,-71.902482,2948,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.902504502003981,4692.24549892249,12.8554671203356,10.8925025658929,14.1221579284233,1323.60760334131
5512,11018,11035,"Bush et al., 2020","Manu","Manu",-13.403294,-71.899527,2951,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.902443286206376,4686.01863261416,12.8384072126415,10.874506919486,14.1048931677452,1323.35979501026
5512,11018,11036,"Bush et al., 2020","Manu","Manu",-13.039493,-71.529694,1202,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.87133647743478,7607.14038849629,20.8414805164282,19.0043933628785,21.9445333113515,2778.99982187396
5512,11018,11037,"Bush et al., 2020","Manu","Manu",-13.049508,-71.532971,1230,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.85709323174734,7561.17033591337,20.7155351668859,18.8762023682218,21.8216672040749,2757.87745199485
5512,11018,11038,"Bush et al., 2020","Manu","Manu",-13.056326,-71.546662,1463,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.73442600474799,7178.44203636558,19.6669644831934,17.8063609472657,20.7965914558698,2575.07924754514
5512,11018,11039,"Bush et al., 2020","Manu","Manu",-13.054942,-71.546277,1463,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.73437603480737,7178.4591907882,19.6670114816115,17.8063665019356,20.7966086703629,2575.0049536269
5512,11018,11040,"Bush et al., 2020","Manu","Manu",-13.062147,-71.55312,1557,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.68521533055185,7023.88344706321,19.2435162933239,17.374355522758002,20.3826504071659,2501.54304527086
5512,11018,11041,"Bush et al., 2020","Manu","Manu",-13.06524,-71.562136,1769,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57478054826021,6675.24260474541,18.2883359034121,16.3993104147272,19.4486316585524,2336.22272342751
5512,11018,11042,"Bush et al., 2020","Manu","Manu",-13.071578,-71.56894,1747,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.58525332109684,6711.30208939533,18.387129012042,16.5006574674709,19.5453729616311,2351.81867745465
5512,11018,11043,"Bush et al., 2020","Manu","Manu",-13.069395,-71.560289,1737,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.59194719812736,6727.72943117587,18.4321354278791,16.5461024588838,19.58929360238,2361.95419827027
5512,11018,11044,"Bush et al., 2020","Manu","Manu",-13.079658,-71.560249,2091,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41160049155401,6144.87720078994,16.8352800021642,14.914960365923,18.0275574513862,2091.35739812439
5512,11018,11045,"Bush et al., 2020","Manu","Manu",-13.094762,-71.563294,1917,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.50139492436895,6430.63150194271,17.6181684984732,15.7148678760676,18.7933899989161,2226.12194528953
5512,11018,11046,"Bush et al., 2020","Manu","Manu",-13.100908,-71.566347,2043,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43685386523702,6222.91222894477,17.0490745998487,15.1336260643981,18.2367514320883,2129.14689854826
5512,11018,11047,"Bush et al., 2020","Manu","Manu",-13.100882,-71.566172,2043,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.43688546934468,6222.91310134435,17.0490769899845,15.1336191021392,18.2367525846035,2129.19609878233
5512,11018,11048,"Bush et al., 2020","Manu","Manu",-13.103598,-71.570562,2026,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.44496826065081,6250.79875890276,17.1254760517884,15.2119066998744,18.3115242843014,2141.28756395913
5512,11018,11049,"Bush et al., 2020","Manu","Manu",-13.103551,-71.57047,2026,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.44498203101031,6250.80063369476,17.1254811882048,15.2119070233105,18.3115285631198,2141.30930514848
5512,11018,11050,"Bush et al., 2020","Manu","Manu",-13.123721,-71.573777,2102,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.4072446330615,6124.67538201987,16.7799325534791,14.8589635138099,17.9735397334218,2084.47314390058
5512,11018,11051,"Bush et al., 2020","Manu","Manu",-13.140435,-71.584413,2568,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.16865296310568,5355.34195431048,14.6721697378369,12.7054040594326,15.9111948418747,1725.30565650985
5512,11018,11052,"Bush et al., 2020","Manu","Manu",-13.158364,-71.590537,2368,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27114978766186,5684.10562558159,15.5728921248811,13.6260326429092,16.792468364665,1879.38014525885
5512,11018,11053,"Bush et al., 2020","Manu","Manu",-13.157713,-71.599241,2636,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.13275545457207,5241.7134392312,14.3608587376197,12.3876033174781,15.6063768439842,1671.06509277205
5512,11018,11054,"Bush et al., 2020","Manu","Manu",-13.160169,-71.60025,2658,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.12154887401512,5205.20904892055,14.2608467093714,12.2853785382497,15.5084703960194,1654.17816398818
5512,11018,11055,"Bush et al., 2020","Manu","Manu",-13.174289,-71.606913,2761,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.06894991965094,5033.98291924994,13.7917340253423,11.8058687503295,15.0491492497059,1574.90380215642
5512,11018,11056,"Bush et al., 2020","Manu","Manu",-13.17603,-71.608672,2956,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.969162963099138,4711.73500974382,12.908863040394,10.903367831671,14.1850040587348,1424.95722406578
5512,11018,11057,"Bush et al., 2020","Manu","Manu",-13.177453,-71.600012,2850,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.02486812074516,4886.92231560377,13.3888282619281,11.3936479979052,14.6547491111205,1508.62987405167
5512,11018,11058,"Bush et al., 2020","Manu","Manu",-13.177993,-71.585428,2956,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.973010970704421,4712.23218611387,12.9102251674353,10.9038286750992,14.1863193488288,1430.76616601332
5512,11018,11059,"Bush et al., 2020","Manu","Manu",-13.178019,-71.590282,2956,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.972240723386814,4712.09404835707,12.9098467078276,10.9036248822221,14.18594328681,1429.59823652227
5512,11018,11060,"Bush et al., 2020","Manu","Manu",-13.186593,-71.603977,3151,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.870813802951509,4388.85265890455,12.0242538600125,9.99857257346238,13.3189133185218,1277.36585883301
5512,11018,11061,"Bush et al., 2020","Manu","Manu",-13.184511,-71.598926,3301,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.794371733284982,4141.45262172577,11.3464455389747,9.30554439936141,12.6555493655121,1163.03189690103
5512,11018,11062,"Bush et al., 2020","Manu","Manu",-13.18659,-71.59845,3301,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.794586854471803,4141.26778479672,11.3459391364294,9.30494132028008,12.6549913396848,1163.32915074476
5512,11018,11063,"Bush et al., 2020","Manu","Manu",-13.200858,-71.612275,3580,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.649829387094807,3678.16073922236,10.0771527101983,8.00764983746056,11.4124551404104,947.40550143347
5512,11018,11064,"Bush et al., 2020","Manu","Manu",-13.3043,-71.7931,4141,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.333934108061183,2652.69231667644,7.26765018267518,5.13089060437555,8.59384919399739,478.863081732649
5513,11019,11065,"Bush et al., 2020","Manu470","Manu470",-12.651636,-71.24875,443,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.22589132746776,8838.54806153688,24.2152001685942,22.3579446059485,25.2103398779567,3287.35466035998
5514,11020,11066,"Bush et al., 2020","Manu550","Manu550",-12.650383,-71.261206,492,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.18612063445907,8755.06142447307,23.9864696560906,22.1756255198092,24.9782774787461,3216.29572514929
5515,11021,11067,"Bush et al., 2020","Manu670","Manu670",-12.646219,-71.26776,706,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07243061217667,8413.71746069035,23.0512807142201,21.2273989609312,24.0704657261638,3054.47090383062
5516,11022,11068,"Bush et al., 2020","Manu770","Manu770",-12.643484,-71.274198,706,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07091288949166,8414.02697626147,23.0521287020862,21.2286800690795,24.0711908736999,3052.01864828102
5517,11023,11069,"Bush et al., 2020","Manu880","Manu880",-12.639956,-71.26776,674,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.08800169930895,8464.8514104174,23.191373727171,21.3694036919065,24.2062270514001,3076.43920260513
5518,11024,8011,"EMPDv2","Manui","Mikishin-Gvozdeva_a71",50.8355555555556,142.676666666667,1,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17631839510777,1960.80281051212,-0.0158118425842056,-18.3201269335736,15.8431231601234,657.975239384152
5519,11025,11070,"Bush et al., 2020","Manutest1","Manutest1",-13.161154,-71.599691000000007,2522,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.19112784149134,5429.6473378564,14.8757461311134,12.9138593424317,16.1102276687049,1758.86449918539
5520,11026,11071,"Bush et al., 2020","Manutest2","Manutest2",-13.199145,-71.617506,3432,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.725353161977317,3922.73815465947,10.7472278209848,8.69297762387676,12.068434997277,1059.82861940491
5521,11027,11072,"Bush et al., 2020","Manutest3","Manutest3",-13.168461,-71.600872,2761,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.06950744465528,5034.55277904841,13.7932952850641,11.8073294002553,15.0507679507711,1575.82329838923
5522,11028,11073,"Bush et al., 2020","Manutest4","Manutest4",-13.069958,-71.565274,1737,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.5909810544203,6727.76691810471,18.4322381317937,16.5465080877986,19.5894427423558,2360.4431476231
5523,11029,11074,"Bush et al., 2020","Manutest5","Manutest5",-12.647111,-71.26836,706,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.07248860576316,8413.73586344062,23.051331132714,21.2275073472149,24.070542102226,3054.56499899116
5524,11030,11075,"Bush et al., 2020","Manutest6","Manutest6",-12.644239,-71.276973,808,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0176054013932,8251.28930527023,22.6062720692335,20.7766036650123,23.6384959302013,2975.84424388629
5525,11031,3787,"CMPD","Maofeng Mt","Maofeng Mt 1",23.29,113.4,166,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.49400642934643,7816.45022221326,21.4149321156528,12.8628992235131,28.2375985092721,1861.92750123502
5525,11032,3788,"CMPD","Maofeng Mt","Maofeng Mt 2",23.29,113.46,451,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41922088105109,6974.04055809752,19.1069604331439,9.46417591965902,27.1777868130045,1700.64622006689
5526,11033,3789,"CMPD","Maohebei","Maohebei",39.5,119.17,50,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.531562253969427,4332.52587888435,10.890227020211,-5.67818325809636,25.0954349503433,566.973668727499
5527,11034,3790,"CMPD","Maolan Mt","Maolan Mt",25.21,108,494,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12748245266851,7107.29293938001,19.4720354503562,9.70125883161472,27.3507530375378,1289.25916111586
5528,11035,13977,"Neotoma","Maple Lake","MAPLE",41.93542,-74.75772,637,"not known","lake","core","-28","Ibe, R.A. 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York. Dissertation. New York University, New York, New York, USA..",,9,"cool mixed forest",1.32020092167537,2853.94110927582,6.01940225644615,-8.02330140283737,18.8049142804937,1054.5321161498
5529,11036,12897,"Neotoma","Maplehurst Lake","MAPLHRST",43.225,-80.659722,300,"not known","lake","core","30","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.; Mott, R.J., and L.D. Farley-Gill. 1978. A late-Quaternary pollen profile from Woodstock, Ontario. Canadian Journal of Earth Sciences. Canadian Journal of Earth Sciences 15(7):1101-1111. http://www.nrcresearchpress.com/doi/abs/10.1139/e78-116#.VuJ-7JwrKUk.","10.1139/e78-116",9,"cool mixed forest",1.11243211003073,3187.77223012923,7.31107350393357,-6.68524052220239,20.2493945082345,965.805196171047
5530,11037,11076,"Bush et al., 2020","Maquera","Maquera",-15.882233,-70.564583,4175,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.377544006815407,2422.9934456671,6.63833820730712,3.983352683699,8.22175218649777,545.920368708026
5531,11038,20748,"SMPDSv1","Marais de Charauze","EPDcoretop_E1230",45.368333,5.566944,375,"0.2","terrestrial, marsh","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.949623330715005,3899.26566104564,10.6829196193031,2.10483592801317,19.8056035693809,897.290000559905
5532,11039,7172,"EMPDv2","Marais de Fos","EPDcoretop_E2263",43.44,4.94,0,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.61349686292945,5324.93231383616,14.5888556543456,6.82253781531029,23.4448659516787,698.476523033917
5533,11040,7110,"EMPDv2","Marais de Kerdual","EPDcoretop_E2073",47.59,-3.05,3,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.06209408223752,4358.90767515835,11.942212808653,6.34072558960212,18.1274505141135,882.38664195757
5534,11041,12789,"Neotoma","Marais de Keswick","KESV",44.195833,-79.512778,221,"not known","terrestrial, marsh","core","42","Dinel, H., P.J.H. Richard, P.E.M. Levésque, and A.C. Larouche. 1986. Origine et évolution du marais tourbeux de Keswick, Ontario, par l'analyse pollinique et macrofossile. Canadian Journal of Earth Sciences 23:1145-1155.",,9,"cool mixed forest",1.07123540490753,3118.30005896262,6.86200111658147,-7.66820105018477,20.3022446510221,910.17327196416
5535,11042,20749,"SMPDSv1","Marais de la Perge","EPDcoretop_E609",45.3975,-1.010278,2,"not known","terrestrial, marsh","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.931333276952686,4736.61057863459,12.9770152839304,6.53896334978378,19.8145626913723,878.988813121667
5536,11043,20750,"SMPDSv1","Marais de Marchesieux","EPDcoretop_E1345",49.173333,-1.3,5,"not known","terrestrial, marsh","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13282775658209,4119.10179282285,11.2852103912955,5.69555446647955,17.4478728924571,882.048857305265
5537,11044,7094,"EMPDv2","Marais de Meron","EPDcoretop_E2003",47.38,-1.12,6,"10","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.876723203887362,4428.1019927401,12.1317862814797,5.73961471884468,19.0724183960543,764.133288974902
5538,11045,7092,"EMPDv2","Marais de Munet","EPDcoretop_E1995",47.22,-0.1,28,"0.3","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.790135482929347,4305.78003442111,11.796657628551,4.94892203689871,19.1708578474681,685.479389391353
5539,11046,7103,"EMPDv2","Marais des Bourbes","EPDcoretop_E2020",46.55,-1.82,4,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.937746478686838,4536.25089930929,12.4280846556419,6.25768759454872,19.0627741327754,837.87445350221
5540,11047,11955,"Neotoma","Marble Sinkhole","MARBLEP1",36.381015,-112.062215,2731,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.406709277028486,2164.45652183536,4.86361205937298,-4.37944975935228,15.9990507232753,490.084310913717
5541,11048,10510,"IBERIA","Marbore","Marbore composite_03",42.695631,0.040019,2612,"not known","lake","core top","-18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.25727585406877,1350.2058328494,1.61113247335396,-6.54260439938568,11.602692098725,1196.05427834761
5541,11049,20752,"SMPDSv1","Marbore","MOS-MAR15-2",42.6774333333333,0.0834999999999999,1298,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.883407246427391,3034.52304988717,8.3137617805128,0.313997739228774,17.5913523707162,922.18556831652
5541,11050,20753,"SMPDSv1","Marbore","MOS-MAR15-3",42.6775166666666,0.0761166666666666,1325,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.890448537006906,2983.75340443866,8.17466686147577,0.171500280481587,17.467237976796,927.9059323414
5541,11051,20751,"SMPDSv1","Marbore","MOSS-MAR15-1",42.6762,0.0835833333333333,1282,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.879183079730479,3064.38685088457,8.39558041338239,0.397430687162167,17.6648448922207,918.759656613387
5541,11052,20760,"SMPDSv1","Marbore","MOSS-MAR15-10",42.6890166666666,0.0599499999999999,1850,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03233646830861,2181.87554994196,5.49476477304332,-2.56719212354954,15.0690616339605,1038.25075366752
5541,11053,20761,"SMPDSv1","Marbore","MOSS-MAR15-11",42.6903,0.052,2288,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.15916628864512,1664.55219263104,3.26104994690089,-4.85119568250637,13.0720905515157,1129.69388304318
5541,11054,20754,"SMPDSv1","Marbore","MOSS-MAR15-4",42.6803833333333,0.0719,1386,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.906532105020524,2874.9426971329,7.86243756070084,-0.147468431407652,17.1875596168393,940.848205540952
5541,11055,20755,"SMPDSv1","Marbore","MOSS-MAR15-5",42.68345,0.0715166666666666,1462,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.926699728848365,2748.34683523837,7.47459379966632,-0.543429167178692,16.8399629029615,956.916755725461
5541,11056,20756,"SMPDSv1","Marbore","MOSS-MAR15-6",42.6841,0.0704,1493,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.934953619106689,2698.52618403302,7.31629108028477,-0.705172156893733,16.6982572400347,963.446825432272
5541,11057,20757,"SMPDSv1","Marbore","MOSS-MAR15-7",42.6860166666666,0.0665,1585,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.959607884119626,2556.02540743205,6.84652413953492,-1.18535502979122,16.2780085288002,982.771581473474
5541,11058,20758,"SMPDSv1","Marbore","MOSS-MAR15-8",42.6872833333333,0.0617666666666666,1673,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.98341938623608,2426.27080712872,6.39709753336605,-1.6450401721229,15.8763194353539,1001.18437741419
5541,11059,20759,"SMPDSv1","Marbore","MOSS-MAR15-9",42.68745,0.0600833333333333,1752,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.00510790837501,2314.60973055847,5.99401514897388,-2.05700289106166,15.5157013591626,1017.746840131
5541,11060,20762,"SMPDSv1","Marbore","MP12",42.6910833333333,0.0362,2601,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25458714880152,1359.33396165743,1.66266117616355,-6.48931430002177,11.6472147522578,1194.226263899
5541,11061,20763,"SMPDSv1","Marbore","MP13",42.6898,0.0387833333333333,2600,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25476863995308,1360.04651299571,1.66732070592543,-6.48332976560763,11.6498207208352,1194.35356772615
5541,11062,20764,"SMPDSv1","Marbore","MP14",42.6896666666666,0.0370833333333333,2593,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.2524559707729,1366.43882399228,1.70251388334987,-6.44779063373172,11.6817386098307,1192.81645076577
5542,11063,14439,"Neotoma","Marcella Lake","MARCELLA",60.0734949999999,-133.80601,697,"not known","lake","core","-60","Edwards, M., L. Franklin-Smith, C. Clarke, J. Baker, S. Hill, and K. Gallagher. 2015. The role of fire in the mid-Holocene arrival and expansion of lodgepole pine (Pinus contorta var. latifolia Engelm. ex S. Watson) in Yukon, Canada. The Holocene 25(1):64-78.","10.1177/0959683614556389",15,"cold evergreen needleleaf forest",0.98504760315063,1521.34977944387,-0.737083161744946,-16.878221976063,12.6507335956224,475.739366631726
5543,11064,17249,"Neotoma","Marchand Lake","LFR68095",49.4334999999999,-96.3763,310,"not known","artificial water body","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.693722277235372,2677.67031288182,2.54648871197127,-17.9703363614498,19.4156414733412,531.884890090634
5544,11065,20765,"SMPDSv1","Marcheiruz","Knaap_a72",46.539919,6.235077,1410,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.7825845891679,2101.13804935514,5.22592863367094,-2.78213538623257,13.7606230262457,1452.08533487656
5544,11066,20766,"SMPDSv1","Marcheiruz","Knaap_a73",46.540161,6.232464,1375,"not applicable","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75830591408834,2145.13914175281,5.38693234555848,-2.6475362351166,13.9345331770513,1434.81409466543
5544,11067,20767,"SMPDSv1","Marcheiruz","Knaap_a74",46.539891,6.23247,1375,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75827168005533,2145.16153664882,5.38701890678404,-2.64744256506381,13.9346324857236,1434.80193850028
5544,11068,20768,"SMPDSv1","Marcheiruz","Knaap_a75",46.537112,6.224971,1325,"not applicable","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72315512814869,2209.41000814749,5.61869668349706,-2.45342389156218,14.185073229823,1409.87320302982
5544,11069,20769,"SMPDSv1","Marcheiruz","Knaap_a76",46.546338,6.229588,1315,"not applicable","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71771048978302,2221.26322674669,5.66081205875304,-2.41900957535181,14.2301609039861,1405.50560534157
5545,11070,20770,"SMPDSv1","Marcy","Miras_g1",45.6477944444444,2.02362222222222,805,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09662690518044,3157.02834406087,8.64939272345445,0.982666499905456,17.1199785037929,961.131084758501
5545,11071,20771,"SMPDSv1","Marcy","Miras_g10",45.6469277777777,1.98805277777777,804,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09663156127343,3158.45443326234,8.65329981715709,0.98678943375737,17.1225540989439,960.967956854138
5545,11072,20772,"SMPDSv1","Marcy","Miras_g11",45.6464972222222,1.98597222222222,783,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08826033662171,3195.03802952503,8.75352884801377,1.09129235791871,17.2106080586417,954.204810294422
5545,11073,20773,"SMPDSv1","Marcy","Miras_g12",45.6469805555555,1.98483333333333,778,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08630126010583,3203.70714460671,8.77727984823757,1.11607234252477,17.2314041117849,952.603404603704
5545,11074,20774,"SMPDSv1","Marcy","Miras_g13",45.6480333333333,1.97916388888888,796,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09359400797756,3172.23529640547,8.69105560659033,1.02619891823619,17.15539728781,958.442578596103
5545,11075,20775,"SMPDSv1","Marcy","Miras_g14",45.6477,1.97890277777777,791,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09158848947955,3180.96541690464,8.71497374494423,1.05113701074776,17.1764374908261,956.830159080768
5545,11076,20776,"SMPDSv1","Marcy","Miras_g2",45.6481361111111,2.02205277777777,803,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09586136305159,3160.46640198556,8.65881206023442,0.992488996065327,17.1281815721974,960.494477772364
5545,11077,20777,"SMPDSv1","Marcy","Miras_g3",45.6479111111111,2.02110277777777,800,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09466536173487,3165.6846865821,8.67310873036192,1.00738086218441,17.1407383831955,959.526567689586
5545,11078,20778,"SMPDSv1","Marcy","Miras_g4",45.6477472222222,2.02009444444444,798,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09387228620749,3169.16120958247,8.68263345091088,1.01730332010389,17.1490953585361,958.883141347395
5545,11079,20779,"SMPDSv1","Marcy","Miras_g5",45.6465666666666,2.01105555555555,795,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09273785506553,3174.3654533554,8.69689165302849,1.03216411517664,17.1614927008019,957.947919596891
5545,11080,20780,"SMPDSv1","Marcy","Miras_g6",45.6444777777777,1.99853888888888,806,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09719869578792,3155.23065831179,8.64446755701859,0.977518414077752,17.1152922163945,961.541726173131
5545,11081,20781,"SMPDSv1","Marcy","Miras_g7",45.6441888888888,1.99330277777777,818,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10204596593391,3134.29635242644,8.58711329431902,0.917730621382488,17.0647860243228,965.433405032265
5545,11082,20782,"SMPDSv1","Marcy","Miras_g8",45.6455333333333,1.98962777777777,814,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10054882274432,3141.14002845899,8.60586309166848,0.937303645530381,17.0810412432461,964.172148005446
5545,11083,20783,"SMPDSv1","Marcy","Miras_g9",45.6461583333333,1.98835833333333,809,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09859283955506,3149.79654822074,8.6295795841664,0.96204314492946,17.1017899060074,962.571572351685
5546,11084,17622,"Phelps et al., 2020","Mare d'Oursi","OURSI_0",14.654722,-0.487778,290,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.199860108279094,10704.8596115211,29.3283824973181,23.694874790095,34.3930476041842,422.846171280306
5547,11085,76,"APD","Mare de Kissi","BS-6_0",14.6194444444444,-0.00555555555555555,280,"not known","lake","core","0","Ballouche, A., 1998. Dynamique des paysages végétaux sahélo-soudaniens et pratiques agro-pastorales à l'holocène: exemples au Burkina Faso (Holocene dynamic of Sahelo-sudanian vegetation landscapes and agro-pastoral practices: examples from Burkina Faso). Bulletin de l'Association de Géographes Français, 75(2), pp.191-200.","10.3406/bagf.1998.2035",22,"steppe",0.193560362271046,10725.2539346977,29.3842573553362,23.6935158636534,34.4176834212894,414.46640234212
5547,11086,77,"APD","Mare de Kissi","BS-6_5",14.6194444444444,-0.00555555555555555,280,"not known","lake","core","31","Ballouche, A., 1998. Dynamique des paysages végétaux sahélo-soudaniens et pratiques agro-pastorales à l'holocène: exemples au Burkina Faso (Holocene dynamic of Sahelo-sudanian vegetation landscapes and agro-pastoral practices: examples from Burkina Faso). Bulletin de l'Association de Géographes Français, 75(2), pp.191-200.","10.3406/bagf.1998.2035",22,"steppe",0.193560362271046,10725.2539346977,29.3842573553362,23.6935158636534,34.4176834212894,414.46640234212
5548,11087,16666,"Neotoma","Mare du Sault","PJHR019",47.4,-71.183333,772,"not known","lake","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.96287293141404,1961.66724624122,0.797458434245515,-15.7839237454659,15.701643130785,1341.6999904823101
5549,11088,17295,"Neotoma","Marinuka","TW001",44.083056,-91.346389,211,"not known","terrestrial","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.863053780785653,3695.61793211402,8.24184459535473,-9.45743506626928,23.0582502210753,771.9285607445
5550,11089,12900,"Neotoma","Mariposa Lake","MARIPOSA",44.15,-110.233333,2730,"not known","lake","core","0","Steventon, R.L., and J.E. Kutzbach. 1987. University of Wisconsin radiocarbon dates XXIV. Radiocarbon 29:397-415. Steventon, R.L., and J.E. Kutzbach. 1988. University of Wisconsin radiocarbon dates XXV. Radiocarbon 30:367-383.; Whitlock, C. 1993. Postglacial vegetation and climate of Grand Teton and southern Yellowstone National Parks. Ecological Monographs 63:173-198.; Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.","10.1017/S0033822200043794",17,"temperate evergreen needleleaf open woodland",0.553088336448941,1578.76569214403,1.16191657784752,-9.73683688657217,13.5932244153286,479.376088218694
5551,11090,14249,"Neotoma","Mark Pond","MARKPOND",51.8398611111111,-89.6154166666666,348,"not known","lake","core","-27","Unpublished data",,15,"cold evergreen needleleaf forest",1.12956587833668,2043.43967348819,-0.771243764357933,-21.3721484126612,17.1344765150474,725.362416345999
5552,11091,12093,"Neotoma","Markagunt Plateau-01","MP-01",37.8545,-112.80524,1840,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.265452254095374,3324.93640213763,8.73554506510247,-2.55715594573421,21.2582675322659,329.981075616829
5553,11092,12094,"Neotoma","Markagunt Plateau-02","MP-02",37.827,-112.81243,1917,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.270639467332484,3208.95985471633,8.362280400339,-2.82818599310186,20.8134967595299,334.258516839417
5554,11093,12095,"Neotoma","Markagunt Plateau-03","MP-03",37.78039,-112.83192,2116,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.284789908480013,2912.32446375607,7.36976009098397,-3.57479711351193,19.6527547133667,345.271843914134
5555,11094,12096,"Neotoma","Markagunt Plateau-04","MP-04",37.78368,-112.82959,2116,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.2847972531537,2912.15530742438,7.36901048675585,-3.5759030363722,19.6522779448827,345.254125632039
5556,11095,12097,"Neotoma","Markagunt Plateau-05","MP-05",37.76274,-112.84949,2316,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.300031546880846,2629.53726015239,6.34808207350398,-4.36379104242049,18.4753161345705,356.338975147671
5557,11096,12098,"Neotoma","Markagunt Plateau-06","MP-06",37.48898,-112.61463,2378,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.29299581806129,2593.08415978276,6.20731990187101,-4.48125570260581,18.2645422050112,349.159950809155
5558,11097,12099,"Neotoma","Markagunt Plateau-07","MP-07",37.75418,-112.8384,2457,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.311086050075541,2441.83381798063,5.63034215932671,-4.91814526095545,17.6468234932694,364.019605603062
5559,11098,12100,"Neotoma","Markagunt Plateau-08","MP-08",37.71174,-112.62213,2546,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.3058335212173,2342.38883383813,5.21325364219851,-5.30800620723915,17.177037830107,354.78930389532
5560,11099,12101,"Neotoma","Markagunt Plateau-09","MP-09",37.51528,-112.64319,2576,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.307993056117893,2310.33857946286,5.0782764636881,-5.4358661675956,17.0393647606822,357.239848404728
5561,11100,12102,"Neotoma","Markagunt Plateau-10","MP-10",37.52617,-112.74402,2804,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.326426567290135,2009.14021738144,3.79313912591871,-6.53940952737162,15.6563972308199,366.966830366626
5562,11101,12103,"Neotoma","Markagunt Plateau-12","MP-12",37.68153,-112.82926,3429,"not known","terrestrial","surface sample","-42","Anderson, R.S., J. Hasbargen, P.A. Koehler, and E.J. Feiler. 1999. Late Wisconsin and Holocene subalpine forests of the Markagunt Plateau of Utah, southwestern Colorado Plateau, U.S.A. Arctic, Antarctic, and Alpine Research 31(4):366-378.","10.1080/15230430.1999.12003321",17,"temperate evergreen needleleaf open woodland",0.4152160619107,1218.77255992254,-0.0125836402739646,-9.86252120035086,11.5810324802828,421.743629533767
5563,11102,20784,"SMPDSv1","Marketanskoe lake","Marketanskoe lake_SS",45.2344,36.7719,0,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.534429313318532,4229.66210192517,11.5103278757709,-0.65893802094799,23.1582147680776,546.818021500131
5563,11103,8506,"EMPDv2","Marketanskoe lake","Novenko_c126",45.2344,36.7719,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.56662029901467,4226.40187168056,11.5222225526072,-0.467863433358917,23.0185706275926,578.970277659323
5564,11104,20785,"SMPDSv1","Markhustjern","Bjune_a107",61.1980915,5.35952932,212,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.16258832554655,2272.80000024734,6.1955487768121,-0.220087154651731,13.2644691827179,2097.99790641538
5565,11105,14358,"Neotoma","Marl Pond","MARLSK",55.0479749999999,-105.385195,379,"not known","lake","core","-29","Wilson, M.A. 1981. The climatic and vegetational history of the postglacial in central Saskatchewan. Doctoral dissertation. University of Saskatchewan, Saskatoon, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.797914708036472,2009.49875897024,-1.14468511454624,-21.9055002734506,16.4838922815232,494.846663875821
5566,11106,24461,"Southern Hemisphere pollen","Marlborough Sounds","Marlborough_mod",-41.29,174.0265,200,"small (0.01-1 km2)","terrestrial","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.45150948662344,4247.68987441667,11.6375065052512,6.63710394627032,16.3733566565475,1347.62607851454
5567,11107,12000,"Neotoma","Maroon Lake","SM-MRL",39.096805,-106.945165,2903,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.509319434028615,1568.22323786433,0.894986262919169,-11.1203844030507,12.9349456474172,505.203614184413
5568,11108,7053,"EMPDv2","Mars","EPDcoretop_E1732",45.31,1.84,430,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.940306987359237,3853.98670062659,10.5588676729496,2.96713284845903,18.8251862389442,842.963239061466
5569,11109,20786,"SMPDSv1","Marsh by M Malpasso","Barboni_a839",44.35,10.1186,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.40526739695335,2122.95468889144,5.36660731429648,-2.43868213130082,13.8757414173249,1186.18114811396
5570,11110,17309,"Neotoma","Marsh Miller","TW014",45.141111,-91.392778,311,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.910785683385468,3306.15807192133,6.53810011386665,-11.3510567112299,21.7138964538993,765.381911173573
5571,11111,11639,"Neotoma","Martin Lake","GPPS-8",41.816475,-102.524894999999,1172,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.414166981399254,3557.40005427502,8.89801483880135,-4.6768815765576,23.1386439412564,433.110688435188
5572,11112,12901,"Neotoma","Martin Pond","MARTINPD",47.173975,-94.9439649999999,472,"not known","lake","core","0","McAndrews, J.H. 1967. Pollen analysis and vegetational history of the Itasca region, Minnesota. Pages 219-236 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary Paleoecology. Yale University Press, New Haven, Connecticut, USA.; McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.827474055301808,2965.34297011105,4.55662824733634,-14.6495715316913,20.4879872092249,665.791756702354
5572,11112,12902,"Neotoma","Martin Pond","MARTINPD",47.173975,-94.9439649999999,472,"not known","lake","core","16","McAndrews, J.H. 1967. Pollen analysis and vegetational history of the Itasca region, Minnesota. Pages 219-236 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary Paleoecology. Yale University Press, New Haven, Connecticut, USA.; McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.827474055301808,2965.34297011105,4.55662824733634,-14.6495715316913,20.4879872092249,665.791756702354
5572,11112,12903,"Neotoma","Martin Pond","MARTINPD",47.173975,-94.9439649999999,472,"not known","lake","core","33","McAndrews, J.H. 1967. Pollen analysis and vegetational history of the Itasca region, Minnesota. Pages 219-236 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary Paleoecology. Yale University Press, New Haven, Connecticut, USA.; McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.827474055301808,2965.34297011105,4.55662824733634,-14.6495715316913,20.4879872092249,665.791756702354
5573,11113,16700,"Neotoma","Martini","PJHR061",47.42,-72.77,242,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.50223957825375,2378.84516796698,2.49347768175971,-15.0575314202069,17.7376518101623,1065.34894352606
5574,11114,16596,"Neotoma","Mary Lake","MARYLAKE",44.45,-93.694444,306,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.84879456485475,3442.89463248851,6.89656898100546,-11.5378096589221,22.4377504671418,735.028745495546
5574,11115,14422,"Neotoma","Mary Lake","MARYLKON",44.7356549999999,-81.0025599999999,236,"not known","lake","core","0","Bennett, K.D. 1992. Holocene history of forest trees on the Bruce Peninsula, southern Ontario. Canadian Journal of Botany 70(1):6-18.","10.1139/b92-002",9,"cool mixed forest",1.09961637510035,2963.36294259949,6.12757311103232,-8.58341895102784,19.5440893099925,918.069705969441
5574,11115,14423,"Neotoma","Mary Lake","MARYLKON",44.7356549999999,-81.0025599999999,236,"not known","lake","core","37","Bennett, K.D. 1992. Holocene history of forest trees on the Bruce Peninsula, southern Ontario. Canadian Journal of Botany 70(1):6-18.","10.1139/b92-002",9,"cool mixed forest",1.09961637510035,2963.36294259949,6.12757311103232,-8.58341895102784,19.5440893099925,918.069705969441
5575,11116,9655,"Gaillard et al., 1992","Maryd","Maryd",57.908197,12.596203,107,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.12749208666331,2544.64583937798,6.33083587286424,-3.09013702934254,15.9628092729633,705.684026017942
5576,11117,20788,"SMPDSv1","Masatjornet","Bjune_a286",61.555,10.258333,843,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.38502176701383,1332.57223082092,0.369541991939859,-10.6098641359228,11.0811384738766,674.0301965621
5576,11118,20787,"SMPDSv1","Masatjornet","Bjune_a287",61.565,10.271667,843,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.38516048852667,1331.87319122054,0.36621250092981,-10.6104376148641,11.0771604584138,673.745184135199
5576,11119,9579,"EMPDv2","Masatjornet","EPDcoretop_E2537",61.56,10.27,841,"0.02","lake","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.38472858718086,1334.39543141356,0.378102670449024,-10.6023061131228,11.0914181959707,673.984808997127
5577,11120,20789,"SMPDSv1","MasGimel","Miras_h1",45.6376,2.08513333333333,915,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13958531018517,2967.75026281794,8.13082263785738,0.442985234694195,16.6670356403059,996.528676211909
5577,11121,20790,"SMPDSv1","MasGimel","Miras_h2",45.6380833333333,2.08503888888888,915,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1396078456697,2967.72473797424,8.13075270677875,0.442919502034605,16.6669258489901,996.534581746377
5577,11122,20791,"SMPDSv1","MasGimel","Miras_h3",45.6394861111111,2.08451111111111,913,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1388704529706,2971.10965833789,8.14002646119969,0.452582124560995,16.6749249547988,995.901450280891
5577,11123,20792,"SMPDSv1","MasGimel","Miras_h4",45.6396888888888,2.08603611111111,913,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13886157561757,2971.13494020941,8.14009572660113,0.452673356230212,16.6750101700212,995.902132360853
5577,11124,20793,"SMPDSv1","MasGimel","Miras_h5",45.6403916666666,2.08376666666666,912,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13851641659795,2972.78103009269,8.14460556189779,0.457351925264463,16.6788408731692,995.587851732098
5577,11125,20794,"SMPDSv1","MasGimel","Miras_h6",45.6410444444444,2.08339722222222,910,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13774398126177,2976.2055216321,8.15398773049889,0.46711710432974,16.6870107423439,994.945505959115
5578,11126,14847,"Neotoma","Mashacket Cove","MASHACK",41.369905,-70.55215,0,"not known","not known","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36552386401717,3945.33718613923,10.5711320691455,-1.77671096056291,22.4434028511715,1241.87975890931
5578,11126,14848,"Neotoma","Mashacket Cove","MASHACK",41.369905,-70.55215,0,"not known","not known","core","2","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36552386401717,3945.33718613923,10.5711320691455,-1.77671096056291,22.4434028511715,1241.87975890931
5578,11126,14849,"Neotoma","Mashacket Cove","MASHACK",41.369905,-70.55215,0,"not known","not known","core","45","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36552386401717,3945.33718613923,10.5711320691455,-1.77671096056291,22.4434028511715,1241.87975890931
5579,11127,12905,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","0","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12906,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","2","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12907,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","4","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12908,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","15","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12909,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","26","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12910,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","37","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5579,11127,12911,"Neotoma","Mashapaug Pond","MASHPAUG",41.783333,-71.433333,12,"not known","lake","core","48","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31765009135775,3881.57528934277,10.30883925672,-2.2694014355367,22.3985942670935,1187.90728168321
5580,11128,9656,"Gaillard et al., 1992","Mastocka","Mastocka O",56.73618,13.271726,165,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0876663223339,2561.35917463611,6.50250726928651,-2.5763330283625,15.7633001332713,695.390819358256
5580,11129,9657,"Gaillard et al., 1992","Mastocka","Mastocka V",56.7361800067936,13.271726,165,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0876663224147,2561.35917459135,6.50250726902339,-2.57633302887063,15.7633001333273,695.390819314278
5581,11130,7941,"EMPDv2","Mat","Mikishin-Gvozdeva_a1",53.9166666666667,142.7,5,"not applicable","coastal, other","litter","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.25848178502923,1819.13279984579,-1.1060232410477,-19.6545189295871,15.2012233569824,645.709728003498
5582,11131,16673,"Neotoma","Matagami","PJHR026",49.783333,-77.75,273,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.34291361962446,1984.05959168014,-0.245429097000173,-19.1875149596711,15.8990973266822,861.849013807429
5583,11132,112,"APD","Matembe Marsh","MATEMBE3_1.2",-1.388056,31.013333,1150,"not known","terrestrial, bog/fen/swamp","core","5","Laseski, R. A., 1983. Modern pollen data and Holocene climate change in Eastern Africa. Unpublished Thesis, Brown University, 269 p.",,22,"steppe",0.894248944080871,7959.91306598474,21.8079810026979,21.1724698015215,22.2309319925011,1299.47613432148
5583,11133,113,"APD","Matembe Marsh","MATEMBE3_9.1",-1.388056,31.013333,1150,"not known","terrestrial, bog/fen/swamp","core","36","Laseski, R. A., 1983. Modern pollen data and Holocene climate change in Eastern Africa. Unpublished Thesis, Brown University, 269 p.",,22,"steppe",0.894248944080871,7959.91306598474,21.8079810026979,21.1724698015215,22.2309319925011,1299.47613432148
5584,11134,20795,"SMPDSv1","Matese","Barboni_a848",41.4,14.4166,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.82153169886447,3541.95383999749,9.7039831232808,1.64778326243812,18.7827117358473,861.626129813094
5585,11135,16505,"Neotoma","Matheson Pond","KG002",46.38,-68.35,245,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47269653484994,2477.24928800484,3.68638579439806,-12.1636267588367,18.1501633278268,1075.83575854603
5586,11136,1046,"Australian pollen","Mathinna Plain","Mathinna Plain",-41.3667,147.8167,950,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.858129473504202,2508.53063471042,6.87268667043951,1.70427327910141,12.2766460407432,800.695584304796
5587,11137,17262,"Neotoma","Max Lake","LFR68108",49.0619499999999,-100.14225,677,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.61842624857756,2641.71059528461,3.08793542466769,-15.8231378437393,19.2776983983477,490.864007535658
5588,11138,11077,"Bush et al., 2020","max10cm","max10cm",-1.1,-75.8,221,"not known","lake","lake surface sample","-51","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.44117920587366,9549.5092711841,26.1630390991345,24.9563472611307,26.7461447425136,3171.1096927994
5589,11139,24276,"Neotoma","Maxus Site 5","MAXUS5",-0.68774,-76.43842,246,"not known","lake","core","-44","Athens, J.S. 1997. Paleoambiente del Oriente ecuatoriano: resultados preliminares de columnas de sedimentos procedentes de humedales. Fronteras de Investigación 1(1):15-32.;
Athens, J.S., and J.V. Ward. 1999. The late Quaternary of the western Amazon: climate, vegetation, and humans. Antiquity 73(280):287-302.",";
10.1017/S0003598X00088256",1,"tropical evergreen broadleaf forest",2.62789780809887,9477.69175421046,25.9662787786588,24.8071118661506,26.4820215317882,3392.28281191162
5590,11140,8036,"EMPDv2","Mayak_Slepikovskogo","Mikishin-Gvozdeva_a98",47.3016666666667,142.001666666667,5,"1e-04","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6694498071048,2201.81557456217,2.69078676518891,-12.5026356513789,16.9184689117543,1015.68533619003
5591,11141,11636,"Neotoma","Maybe Pond","GPPS-5",40.38854,-102.337193,1153,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.399329134939319,3868.63128337146,10.0639891949129,-3.38458940978799,24.0927607426029,438.503128323411
5592,11142,14177,"Neotoma","Mayflower Lake","MAYFLWON",45.3898611111111,-79.2165277777778,189,"not known","lake","core","-23","Gold, M. 1977. Vegetation and vegetation history of Arrowhead Provincial Park and their interpretation for a recreational public. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.10809691406016,2943.4169343311,5.75620091683131,-9.90314551244856,19.8060046608266,910.8824725323
5593,11143,11651,"Neotoma","Mayor Ranch Pond","GPPS-24",36.71263,-101.553965,938,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.37689996818539,4985.49040059673,13.6588778098541,0.413364557064986,26.6764645055493,485.821186201814
5594,11144,20796,"SMPDSv1","Mazauriel","Barboni_a167",45.43,2.61,770,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06880001964706,3231.16642766732,8.85251076073238,1.14909826964831,17.3780229810037,951.481772657621
5595,11145,23930,"SMPDSv1","Mazier_a1","Mazier_a1",46.509834,6.176977,1333,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.7225778986847,2203.76548486896,5.59922531774298,-2.46670072365708,14.1662065283551,1411.1465102558
5596,11146,23931,"SMPDSv1","Mazier_a10","Mazier_a10",46.547918,6.21414,1387,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.7665948207494,2130.22437467887,5.332533305789,-2.69336906154326,13.8761921945882,1440.52617195722
5597,11147,23932,"SMPDSv1","Mazier_a11","Mazier_a11",46.533277,6.237415,1318,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71857918807038,2218.13458323095,5.64987267818021,-2.42731478541959,14.2184639220002,1406.63909795563
5598,11148,23933,"SMPDSv1","Mazier_a12","Mazier_a12",46.535011,6.182257,1457,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.81179531036643,2045.8900779198,5.02101957419991,-2.95251659561294,13.5410997613754,1473.41621611828
5599,11149,23934,"SMPDSv1","Mazier_a13","Mazier_a13",46.510732,6.183355,1328,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71961786306494,2209.8021702131,5.62075661602995,-2.44888050404234,14.1892460216422,1408.92169189978
5600,11150,23935,"SMPDSv1","Mazier_a14","Mazier_a14",46.543732,6.198901,1389,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.76661788341183,2128.77796059218,5.32737417162518,-2.6971343010976,13.8711783846735,1440.86552964622
5601,11151,23936,"SMPDSv1","Mazier_a15","Mazier_a15",46.535497,6.244093,1270,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68649204844176,2279.9300905232,5.86825725947712,-2.24511939245117,14.4540135321466,1383.35363904034
5602,11152,23937,"SMPDSv1","Mazier_a16","Mazier_a16",46.541645,6.184972,1403,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.77529174883664,2112.07019878024,5.2662252890157,-2.74793748147113,13.8056337661105,1447.24493393877
5603,11153,23938,"SMPDSv1","Mazier_a17","Mazier_a17",46.536143,6.234496,1309,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71261765559284,2229.63312758212,5.69076492756038,-2.39329563538085,14.262628877894,1402.25435015041
5604,11154,23939,"SMPDSv1","Mazier_a18","Mazier_a18",46.508831,6.158094,1474,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.81888221570724,2028.36349405798,4.95584597465844,-3.00462219521868,13.4718865148612,1479.82039124867
5605,11155,23940,"SMPDSv1","Mazier_a19","Mazier_a19",46.544432,6.244182,1448,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.8100165278273,2053.29630597968,5.0484759904588,-2.93092827294592,13.5686707770057,1471.24482577419
5606,11156,23941,"SMPDSv1","Mazier_a2","Mazier_a2",46.506233,6.193948,1324,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71690799591499,2214.81398787003,5.63870262905159,-2.43373061903109,14.2084295261339,1407.07656820592
5607,11157,23942,"SMPDSv1","Mazier_a20","Mazier_a20",46.538778,6.248075,1356,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.74590761701128,2168.56696702656,5.4718480907256,-2.57671043059388,14.0257777040237,1425.87968533379
5608,11158,23943,"SMPDSv1","Mazier_a3","Mazier_a3",46.513069,6.155739,1480,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.82351841076983,2020.80860935644,4.92732291765519,-3.02883393695754,13.441089393233,1482.90444915506
5609,11159,23944,"SMPDSv1","Mazier_a4","Mazier_a4",46.544297,6.189761,1385,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.76343487576099,2134.18718762872,5.34714575602361,-2.68051223300256,13.8927919737839,1438.6531040076
5610,11160,23945,"SMPDSv1","Mazier_a5","Mazier_a5",46.514518,6.162247,1524,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.85484692612476,1967.27558119736,4.7237914550494,-3.19931100489609,13.2210452750748,1504.78771030079
5611,11161,23946,"SMPDSv1","Mazier_a6","Mazier_a6",46.514834,6.182491,1324,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.71734287230365,2214.62892643154,5.63793667036832,-2.4348108506941,14.2077195915816,1407.11244666936
5612,11162,23947,"SMPDSv1","Mazier_a7","Mazier_a7",46.541134,6.220773,1334,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72959586346912,2197.71002347598,5.57683025348223,-2.48865778933562,14.139892993107,1414.35069549803
5613,11163,23948,"SMPDSv1","Mazier_a8","Mazier_a8",46.472163,6.114477,1371,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.7404944645126,2161.52367851932,5.44813131609813,-2.58909071323756,14.0058107455533,1426.25545434364
5614,11164,23949,"SMPDSv1","Mazier_a9","Mazier_a9",46.50571,6.18811,1273,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68175302792692,2281.30760786439,5.87390624267647,-2.23689160732677,14.4626867332865,1381.83199694511
5615,11165,15260,"Neotoma","Mazomani","AMD027",43.17,-89.78,229,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.973361964864922,3746.12596452241,8.75592337518659,-7.9014098729238,22.9359423455732,885.46027748306
5616,11166,20797,"SMPDSv1","MC10","Barboni_a59",45,4.3,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17847812974552,2811.89850123016,7.68401449196982,-0.205802012411532,16.5120146371331,1075.66574603392
5617,11167,20798,"SMPDSv1","MC11","Barboni_a60",44.87,5.3,1350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.34938306547419,2450.22854531625,6.54540002516323,-1.21249732256919,15.257658826631,1252.80022813811
5618,11168,20799,"SMPDSv1","MC26","Barboni_a61",45.05,4.3,1040,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20069312262126,2738.35130712446,7.46055430338252,-0.4071821034776,16.2723063450206,1088.57316203146
5619,11169,20800,"SMPDSv1","MC54","Barboni_a62",44.87,5.25,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.16910338488109,2957.37773133826,8.1024047433925,0.142587374690474,16.9815392174044,1115.16291263716
5620,11170,20801,"SMPDSv1","MC55","Barboni_a63",41.57,9.07,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.755590677989817,3109.1657929576,8.51826244645919,2.39541203914719,16.027222958742,817.348001481898
5621,11171,20802,"SMPDSv1","MC56","Barboni_a64",42.5,9.66,1720,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.656879174319158,1993.86517583714,5.46264431736202,0.264755986793176,11.4538875994196,687.714661599999
5622,11172,20803,"SMPDSv1","MC57","Barboni_a65",42.23,8.97,1570,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.775586777236419,2242.58220430424,6.14406083371023,0.41947514230499,12.8473752476122,809.265722190738
5623,11173,20804,"SMPDSv1","MC58","Barboni_a66",42.05,9.13,1280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.743579444836647,2902.91702691037,7.95319733400102,2.10676607434072,14.9333312370624,797.688732668573
5624,11174,20805,"SMPDSv1","MC66","Barboni_a67",43.52,4.85,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.0741613675139,2993.34438286191,8.20094351469016,0.542677338197007,17.0630609273141,1088.94765508467
5625,11175,20806,"SMPDSv1","MC67","Barboni_a68",44.17,6.43,2100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68877255864175,1597.1579198699,3.25619815951075,-4.18935602403126,11.7992279011784,1508.65473778496
5626,11176,20807,"SMPDSv1","MC68","Barboni_a69",44.1,5.35,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17451098639789,2795.04721892214,7.65586962002176,0.0206426703791585,16.3843969723968,1162.44652124562
5627,11177,20808,"SMPDSv1","MC69","Barboni_a70",44.42,5.48,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.35211730951767,2343.52029563702,6.20106418658347,-1.43687945345416,14.8772126817376,1275.3695764359
5628,11178,20809,"SMPDSv1","MC70","Barboni_a71",44.42,5.38,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.32662013378461,2411.09011546634,6.43031179700705,-1.23270998587003,15.1270024276233,1256.67628065224
5629,11179,20810,"SMPDSv1","MC71","Barboni_a72",43.43,4.35,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.0499046260319,3096.29511040391,8.48300030247648,0.678587793585945,17.4740230663693,1047.72127196474
5630,11180,20811,"SMPDSv1","MC72","Barboni_a73",44.1,5.32,1120,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.13385256322303,2951.4773185367,8.08623922886766,0.430987493220555,16.8325240659184,1132.43544507748
5631,11181,20812,"SMPDSv1","MC73","Barboni_a74",44.1,7.43,2171,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.61714669227078,1600.98660592868,3.38103699347385,-3.76086709089592,11.7567895623753,1479.42187728931
5632,11182,20813,"SMPDSv1","MC75","Barboni_a75",44.05,7.45,2090,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.57305369561417,1701.43576566243,3.81265609516807,-3.38305352305009,12.209682392021,1453.04157706109
5633,11183,20814,"SMPDSv1","MC76","Barboni_a76",45.77,6.53,1784,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.91162499375633,1738.15178478438,3.85088091500598,-3.7941923725339,12.2657941804406,1590.352214692
5634,11184,20815,"SMPDSv1","MC78","Barboni_a77",44.75,5.85,1460,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.38645579124678,2367.13161437201,6.28603482300288,-1.35428687606919,14.9143135762042,1298.86092482787
5635,11185,20816,"SMPDSv1","MC79","Barboni_a78",44.55,6.72,2070,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.77656582468508,1595.981696622,3.27501756095295,-4.14358708026908,11.718206500579,1559.2166998657
5636,11186,20817,"SMPDSv1","MC80","Barboni_a79",44.778151,6.548676,1066,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1948802836818,3040.23012105634,8.32939759193517,0.408536591080767,17.0658838044345,1155.26759416376
5637,11187,20818,"SMPDSv1","MC81","Barboni_a80",44.47,3.62,1380,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.40156037522692,2087.7320749827,5.21651709035147,-2.50899076963214,13.8825093563975,1173.00924802564
5638,11188,20819,"SMPDSv1","MC82","Barboni_a81",44.1,5.32,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.20211499363774,2697.23682626655,7.36645978672257,-0.263026110071848,16.0893333338245,1181.94905498301
5639,11189,20820,"SMPDSv1","MC85","Barboni_a82",43.8,4.92,45,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.641264898413543,5175.51872062818,14.1795033441868,6.33384749229352,23.1065831389483,721.785262873761
5640,11190,12912,"Neotoma","McCarston's Lake","MCCAR",45.05,-80.09,433,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",1.25967725488074,2731.21457082722,4.94231870073297,-10.4939818033346,18.6385894690308,1031.29986937288
5640,11190,12913,"Neotoma","McCarston's Lake","MCCAR",45.05,-80.09,433,"not known","lake","core","1","Unpublished data",,9,"cool mixed forest",1.25967725488074,2731.21457082722,4.94231870073297,-10.4939818033346,18.6385894690308,1031.29986937288
5640,11190,12914,"Neotoma","McCarston's Lake","MCCAR",45.05,-80.09,433,"not known","lake","core","31","Unpublished data",,9,"cool mixed forest",1.25967725488074,2731.21457082722,4.94231870073297,-10.4939818033346,18.6385894690308,1031.29986937288
5641,11191,17519,"Neotoma","McCracken's Pond","TWH001",43.17,-84.83,232,"not known","lake","surface sample","Modern","Hushen, T.W., Kapp, R.O., Bogue, R.D. and Worthington, J.T., 1966. Presettlement forest patterns in Montcalm County, Michigan. Michigan Botanist, 5, pp.192-211.",,13,"temperate deciduous broadleaf forest",0.95472952120484,3484.73174180203,8.36472015119551,-6.01855305195599,21.6146979634888,827.960472190364
5642,11192,12915,"Neotoma","McCraney Lake","MCCRANEY",47.1708699999999,-95.70266,446,"not known","lake","core","-12","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.809451540756424,2950.76931645087,4.42941754551812,-14.8752462316997,20.4003485492026,651.386744551889
5642,11192,12916,"Neotoma","McCraney Lake","MCCRANEY",47.1708699999999,-95.70266,446,"not known","lake","core","14","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.809451540756424,2950.76931645087,4.42941754551812,-14.8752462316997,20.4003485492026,651.386744551889
5642,11192,12917,"Neotoma","McCraney Lake","MCCRANEY",47.1708699999999,-95.70266,446,"not known","lake","core","42","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.809451540756424,2950.76931645087,4.42941754551812,-14.8752462316997,20.4003485492026,651.386744551889
5643,11193,15845,"Neotoma","McDaniel Lake","GMP16",37.3,-93.3,335,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.937806769709343,5058.69995002035,13.8506010137452,-0.00561768443761998,26.1160038493379,1076.76756678806
5644,11194,14226,"Neotoma","McGinnis Lake","MCGINCNT",44.607495,-78.039815,255,"not known","lake","core","-24","Unpublished data",,9,"cool mixed forest",1.09274585002335,2938.29899902997,5.82098755973719,-9.67634492195862,19.6970861752518,900.839564827898
5644,11194,14227,"Neotoma","McGinnis Lake","MCGINCNT",44.607495,-78.039815,255,"not known","lake","core","-19.625","Unpublished data",,9,"cool mixed forest",1.09274585002335,2938.29899902997,5.82098755973719,-9.67634492195862,19.6970861752518,900.839564827898
5644,11194,14228,"Neotoma","McGinnis Lake","MCGINCNT",44.607495,-78.039815,255,"not known","lake","core","29.8","Unpublished data",,9,"cool mixed forest",1.09274585002335,2938.29899902997,5.82098755973719,-9.67634492195862,19.6970861752518,900.839564827898
5645,11195,11930,"Neotoma","McKay Lake","TM1964H",45.45155,-75.66938,45,"not known","lake","surface sample","-13","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.13363708427667,3083.78719866038,6.07336249484282,-10.3251317545865,20.5828329111172,920.66531997686
5645,11196,11929,"Neotoma","McKay Lake","TM1964J",45.45155,-75.66938,45,"not known","lake","surface sample","-13","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.13363708427667,3083.78719866038,6.07336249484282,-10.3251317545865,20.5828329111172,920.66531997686
5646,11197,1047,"Australian pollen","McKenna Lagoon","McKenna Lagoon centre core_1",-34.43,145.51,111,"small (0.01-1 km2)","lake","core","-48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.304881353385081,6123.22735822234,16.7759653649927,8.91876497393195,24.6102611885669,412.56822216102
5646,11198,1048,"Australian pollen","McKenna Lagoon","McKenna Lagoon centre core_11",-34.43,145.51,111,"small (0.01-1 km2)","lake","core","45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.304881353385081,6123.22735822234,16.7759653649927,8.91876497393195,24.6102611885669,412.56822216102
5646,11199,1049,"Australian pollen","McKenna Lagoon","McKenna Lagoon centre core_7",-34.43,145.51,111,"small (0.01-1 km2)","lake","core","8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.304881353385081,6123.22735822234,16.7759653649927,8.91876497393195,24.6102611885669,412.56822216102
5647,11200,20821,"SMPDSv1","McKenzie Heights","Crimea-8",44.61,33.66,226,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.58159480717618,3843.47160199774,10.4527970749348,-0.713683684767536,21.2758154528968,573.590946005167
5648,11201,1050,"Australian pollen","McKenzie Road Bog/Swamp","McKenzie Road Bog",-38.4333,146.7667,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.80600228654709,4895.3758673051,13.4119886775482,8.40194553666396,18.6070069150699,833.131393333937
5649,11202,12918,"Neotoma","McMaster Lake","MCMASTER",64.133333,-110.583333,480,"not known","lake","core","0","MacDonald, G.M., T.W.D. Edwards, K.A. Moser, R. Pienitz, and J.P. Smol. 1993. Rapid response of treeline vegetation and lakes to past climate warming. Nature 361:243-246.; Moser, K.A., and G.M. MacDonald. 1990. Holocene vegetation change at treeline north of Yellowknife, Northwest Territories, Canada. Quaternary Research 34:227-239.",,15,"cold evergreen needleleaf forest",0.667751108504016,973.992186049808,-9.87672945999425,-30.597431428338,11.4233740534174,265.309248868943
5650,11203,14083,"Neotoma","McMurray Lake","MCMURRAY",39.4604,-120.64864,1778,"not known","lake","core","-39","Edlund, E.G. 1996. Late Quaternary environmental history of montane forests of the Sierra Nevada. Doctoral dissertation. University of California Berkeley, Berkeley, California, USA.",,8,"cool evergreen needleleaf forest",0.656810945139136,2951.73789549238,7.97965804804821,-0.682518715432957,18.8124644173081,777.398609847639
5651,11204,1051,"Australian pollen","McNamee Creek","McNamee Creek",-17.633,145.85,150,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.14489463789727,8709.74843982942,23.8623244926833,19.5899248041656,26.8592517537288,1956.93283162694
5652,11205,12923,"Neotoma","McNearney Lake","MCNRNY2A",46.42694,-84.951965,264,"not known","lake","core","-23","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11205,12924,"Neotoma","McNearney Lake","MCNRNY2A",46.42694,-84.951965,264,"not known","lake","core","-8","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11205,12925,"Neotoma","McNearney Lake","MCNRNY2A",46.42694,-84.951965,264,"not known","lake","core","12","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11205,12926,"Neotoma","McNearney Lake","MCNRNY2A",46.42694,-84.951965,264,"not known","lake","core","28","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11205,12927,"Neotoma","McNearney Lake","MCNRNY2A",46.42694,-84.951965,264,"not known","lake","core","44","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11206,12928,"Neotoma","McNearney Lake","MCNRNY3A",46.42694,-84.951965,264,"not known","lake","core","-23","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11206,12929,"Neotoma","McNearney Lake","MCNRNY3A",46.42694,-84.951965,264,"not known","lake","core","-8","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11206,12930,"Neotoma","McNearney Lake","MCNRNY3A",46.42694,-84.951965,264,"not known","lake","core","12","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11206,12931,"Neotoma","McNearney Lake","MCNRNY3A",46.42694,-84.951965,264,"not known","lake","core","28","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11206,12932,"Neotoma","McNearney Lake","MCNRNY3A",46.42694,-84.951965,264,"not known","lake","core","44","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11207,12919,"Neotoma","McNearney Lake","MCNRNY4A",46.42694,-84.951965,264,"not known","lake","core","-27","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11207,12920,"Neotoma","McNearney Lake","MCNRNY4A",46.42694,-84.951965,264,"not known","lake","core","-15","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11207,12921,"Neotoma","McNearney Lake","MCNRNY4A",46.42694,-84.951965,264,"not known","lake","core","7","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5652,11207,12922,"Neotoma","McNearney Lake","MCNRNY4A",46.42694,-84.951965,264,"not known","lake","core","36","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.21065571675362,2590.94139229519,4.23041401866877,-11.3251306567246,17.986807734882,912.432127713006
5653,11208,7109,"EMPDv2","MD72/5-22","EPDcoretop_E2058",42.2,36.49,-846,"not known","terrestrial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",0.75287109972489,6676.24673184675,18.2910869365664,8.77091036825632,27.7786367611646,825.267884107118
5654,11209,20822,"SMPDSv1","MDS6","Barboni_a1272",39.1,-8.666666667,29.4575,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.750101415126307,6151.50059203597,16.8534262795506,11.3631451160303,23.0746777470038,818.836144644463
5655,11210,1052,"Australian pollen","Meadlow bath","Meadlow bath",-33.7,150.3,1050,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.514462338071918,4053.02595000588,11.1041806849476,3.18670741527469,18.9651582661294,698.932309589709
5656,11211,7617,"EMPDv2","Mechacz Wielki mire","Kolaczek_i1",54.3308666666667,22.4399,176,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860096787665508,2812.31889398026,6.77461926872832,-4.89852937541751,17.0800022092047,595.433028515347
5656,11212,7626,"EMPDv2","Mechacz Wielki mire","Kolaczek_i10",54.33105,22.4406333333333,178,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.857833658436676,2812.33324222403,6.77360861497914,-4.90472592575533,17.0809896874516,593.841161423537
5656,11213,7627,"EMPDv2","Mechacz Wielki mire","Kolaczek_i11",54.33115,22.44075,177,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.858965576126221,2812.31782673269,6.77405664051212,-4.90174220372718,17.0804963707576,594.634532680328
5656,11214,7628,"EMPDv2","Mechacz Wielki mire","Kolaczek_i12",54.33115,22.44075,178,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.857836134198124,2812.32905311285,6.77358506961373,-4.9047625987069,17.0809835256301,593.841579143453
5656,11215,7629,"EMPDv2","Mechacz Wielki mire","Kolaczek_i13",54.3312,22.4408833333333,177,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.858965557154948,2812.31568039532,6.77404140626063,-4.90177322274877,17.0804968554855,594.633780995565
5656,11216,7630,"EMPDv2","Mechacz Wielki mire","Kolaczek_i14",54.3312333333333,22.4408666666667,178,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.857837876171382,2812.32555075563,6.77356456323372,-4.9047964217337,17.0809793228301,593.84168175794
5656,11217,7631,"EMPDv2","Mechacz Wielki mire","Kolaczek_i15",54.33,22.44,187,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5656,11218,7632,"EMPDv2","Mechacz Wielki mire","Kolaczek_i16",54.3313666666667,22.4411,177,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.858969278108449,2812.30869154008,6.77400116493521,-4.90183812562697,17.0804876560677,594.634168024916
5656,11219,7633,"EMPDv2","Mechacz Wielki mire","Kolaczek_i17",54.3314,22.4411666666667,180,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.855581456427438,2812.34096823617,6.77257747767105,-4.91091565320107,17.0819484937008,592.255237437383
5656,11220,7634,"EMPDv2","Mechacz Wielki mire","Kolaczek_i18",54.3314,22.4411833333333,180,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.855581184290894,2812.34096313861,6.77257674339913,-4.91091841065852,17.0819493076819,592.255029433298
5656,11221,7635,"EMPDv2","Mechacz Wielki mire","Kolaczek_i19",54.33145,22.4412166666667,181,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.854453435328055,2812.35009767576,6.7720945229579,-4.91395279135793,17.0824321796618,591.462670123205
5656,11222,7618,"EMPDv2","Mechacz Wielki mire","Kolaczek_i2",54.3309,22.43985,176,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860099083695556,2812.31757889687,6.77461561206866,-4.89852648369641,17.0799959823779,595.434292295372
5656,11223,7636,"EMPDv2","Mechacz Wielki mire","Kolaczek_i20",54.3313666666667,22.4412166666667,180,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.855579165362741,2812.34234085329,6.77258141994706,-4.910918149761,17.0819548941396,592.253978050786
5656,11224,7637,"EMPDv2","Mechacz Wielki mire","Kolaczek_i21",54.3324833333333,22.4427333333333,179,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.856732948652449,2812.28417338648,6.77278026108222,-4.90834281660527,17.0814091454336,593.049042198971
5656,11225,7638,"EMPDv2","Mechacz Wielki mire","Kolaczek_i22",54.33295,22.4429833333333,178,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.857878500313997,2812.25357334787,6.77315524032718,-4.90544487888732,17.0808790252956,593.847419415231
5656,11226,7639,"EMPDv2","Mechacz Wielki mire","Kolaczek_i23",54.33315,22.4431666666667,181,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.85449717739184,2812.27861886103,6.77169493833677,-4.91456954780619,17.0823253751972,591.471018186674
5656,11227,7640,"EMPDv2","Mechacz Wielki mire","Kolaczek_i24",54.3335333333333,22.4434333333333,181,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.854509854779267,2812.26252153702,6.77161230235176,-4.91468020639826,17.0822927438029,591.475050909468
5656,11228,7641,"EMPDv2","Mechacz Wielki mire","Kolaczek_i25",54.3354333333333,22.4447166666667,182,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.85344466419358,2812.19355505652,6.77073121962587,-4.91824320894847,17.0826153495445,590.703201237595
5656,11229,7642,"EMPDv2","Mechacz Wielki mire","Kolaczek_i26",54.33545,22.4446666666667,182,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.85344621475961,2812.19285007002,6.7707302184354,-4.91823801151313,17.0826108502248,590.704139909074
5656,11230,7643,"EMPDv2","Mechacz Wielki mire","Kolaczek_i27",54.33,22.44,187,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5656,11231,7644,"EMPDv2","Mechacz Wielki mire","Kolaczek_i28",54.3365,22.4449166666667,183,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.852360367051587,2812.16019976672,6.77004948230037,-4.92148527141411,17.0829828239767,589.929045591938
5656,11232,7645,"EMPDv2","Mechacz Wielki mire","Kolaczek_i29",54.3382,22.4450833333333,181,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.854690348721638,2812.06644891728,6.7706739140997,-4.91576648109849,17.0818159420749,591.544109714631
5656,11233,7619,"EMPDv2","Mechacz Wielki mire","Kolaczek_i3",54.33095,22.4397833333333,174,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.862361415775099,2812.29332718829,6.77555387595912,-4.89248099295922,17.079013343944,597.022160945045
5656,11234,7646,"EMPDv2","Mechacz Wielki mire","Kolaczek_i30",54.33,22.44,187,"1.47","terrestrial","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5656,11235,7620,"EMPDv2","Mechacz Wielki mire","Kolaczek_i4",54.3310666666667,22.4398,174,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.862366222425857,2812.2886007129,6.77553226625481,-4.89250326864709,17.0790006823051,597.024116294814
5656,11236,7621,"EMPDv2","Mechacz Wielki mire","Kolaczek_i5",54.33,22.44,187,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5656,11237,7622,"EMPDv2","Mechacz Wielki mire","Kolaczek_i6",54.3311333333333,22.4399666666667,176,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860107359809795,2812.3079622875,6.77456805064669,-4.8985856870873,17.0799743238925,595.437178997554
5656,11238,7623,"EMPDv2","Mechacz Wielki mire","Kolaczek_i7",54.33,22.44,187,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5656,11239,7624,"EMPDv2","Mechacz Wielki mire","Kolaczek_i8",54.3311166666667,22.4403833333333,177,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.85897020354124,2812.31946074567,6.77407965460244,-4.90167457641141,17.0804828616404,594.638561362533
5656,11240,7625,"EMPDv2","Mechacz Wielki mire","Kolaczek_i9",54.33,22.44,187,"1.47","terrestrial, bog/fen/swamp","moss polster or moss","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847630422879168,2812.49028672975,6.76959022402293,-4.93161950134954,17.0854703421357,586.691444762262
5657,11241,9224,"EMPDv2","Mechacz Wielki Native Reserve","Galka_a3",54.3356666666667,22.4439444444444,194,"1.4672","terrestrial","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.839921432690873,2812.35100064951,6.76503459676132,-4.95442214760435,17.0883789235046,581.208760829583
5658,11242,20823,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a1",53.5740737,13.425961,100,"0.034","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.822747112512664,3311.28067894959,9.01474502398583,-0.599926324724205,17.9372313202892,566.727510920127
5658,11243,20824,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a10",54.0118863,13.4323755,100,"0.008","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.857348421728594,3195.26917388435,8.6801870706362,-0.69905182618757,17.5619679252,586.230672744026
5658,11244,20868,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a11",54.0751664,13.2029996,100,"0.4","terrestrial, bog/fen/swamp","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.871961130260116,3214.7983817659,8.7489126054418,-0.579093896995617,17.5725788230549,592.80276737569
5658,11245,20825,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a12",53.1619861,13.0734265,100,"0.016","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791851922393045,3359.80287059698,9.15028261143177,-0.578106518813655,18.1479913965375,548.255035859298
5658,11246,20826,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a13",53.1607098,13.1151567,100,"0.091","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791848632796151,3360.81358643015,9.15258965077068,-0.582505206449519,18.1537808131951,548.377587205834
5658,11247,20827,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a14",53.1710093,13.0738987,100,"0.286","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792344000229226,3359.33861402384,9.1490482542567,-0.577785196214357,18.145560779925,548.491295887968
5658,11248,20828,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a15",53.2424859,12.293277,100,"0.188","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.806334882894759,3268.48546105385,8.91601480703467,-0.404636822568437,17.7365993867758,553.402431947398
5658,11249,20829,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a16",53.1552193,13.0710874,100,"0.01","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791479313451859,3360.10476362811,9.15110377893943,-0.578135395131591,18.1495496989245,548.070064398597
5658,11250,20830,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a17",53.1453325,13.0311513,100,"0.223","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.790846377033072,3359.72717947473,9.15046377208925,-0.574336835334462,18.1471169991636,547.642904911108
5658,11251,20831,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a18",53.1508569,13.0701805,100,"0.009","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791240200072449,3360.31209724029,9.15166167934673,-0.578214094763396,18.1506284424192,547.953116055641
5658,11252,20832,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a19",54.0101993,13.0939978,100,"0.01","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.872053092258595,3220.26772654558,8.76620054266792,-0.56166662838622,17.5812760839107,593.1982893257
5658,11253,20833,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a2",53.5431958,12.1257954,100,"0.17","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.844889875205222,3268.49481191534,8.92622557425762,-0.310751921661291,17.643160293927,572.495647676253
5658,11254,20834,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a20",53.3426389,13.5338454,100,"0.009","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813784946684847,3330.08669888992,9.06416467912619,-0.62447919581634,18.0162557027934,563.131741786926
5658,11255,20835,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a21",53.1858996,13.1216693,100,"0.04","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.793208189095772,3359.62628038067,9.14939215220265,-0.582080817198937,18.1476318445342,549.041356866526
5658,11256,20836,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a22",53.3311372,13.4412811,100,"0.017","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.815835371206194,3327.5734741433,9.05830694961748,-0.614109774568719,18.0028245626676,564.355203115381
5658,11257,20837,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a23",53.3159715,13.4545186,100,"0.02","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81512760729998,3328.91545028809,9.06176084326336,-0.616518663060148,18.00882239766,564.053731634624
5658,11258,20838,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a24",53.3744866,13.3320875,100,"0.016","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.819573420586042,3321.35808078149,9.04264256520983,-0.599739670011589,17.9739234179144,566.180306683742
5658,11259,20839,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a25",54.0250598,13.0508921,100,"0.005","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.873463580611488,3219.13926737619,8.76323798839975,-0.560291173018864,17.5766954453999,593.873096947689
5658,11260,20840,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a26",53.170818,13.0433867,100,"0.011","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.792276993404851,3358.66820110997,9.1475428315281,-0.574627125896587,18.1416935635899,548.366943443392
5658,11261,20841,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a27",53.5520668,13.4818398,100,"0.01","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.82062844597257,3314.66858974835,9.0233988848146,-0.606871618181178,17.9523596291556,565.670706483313
5658,11262,20842,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a28",53.23336,12.5731952,100,"0.29","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803392728176145,3283.3252624678,8.95101623726496,-0.462782802260588,17.8160844312223,552.620504472633
5658,11263,20843,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a29",53.2619949,12.5855993,100,"0.451","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.820838916440828,3301.24280889285,8.9982118912344191,-0.493075325957359,17.857774007869,564.552602635608
5658,11264,20844,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a3",53.4833614,11.5815881,100,"0.63","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.865673511631421,3244.99707152334,8.88136439798611,-0.0799701985568903,17.4238712916755,579.908056340298
5658,11265,20845,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a30",53.4138625,12.0534941,100,"0.564","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.83964900118446,3269.75225723035,8.93222676098013,-0.28380539965917,17.6374474647867,569.754448330021
5658,11266,20846,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a31",53.3519258,12.265209,100,"1.088","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.822493501289152,3294.93041899224,8.9866650590126,-0.436150265898406,17.8137218115365,563.547996173975
5658,11267,20847,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a32",53.5354379,12.2712808,100,"0.371","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.831346238332236,3287.60099702897,8.9652211940949,-0.448319281039884,17.7885350670676,567.679493609319
5658,11268,20848,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a33",53.461398,11.3932473,100,"0.99","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.871994429387341,3240.64302297563,8.87263194525839,-0.0325837775632898,17.3750172242999,582.757061757393
5658,11269,20849,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a34",53.2345989,11.341809,100,"1.28","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.898567704318827,3156.48137135403,8.63239060726407,-0.1321855520422,17.1169336896519,607.453161583222
5658,11270,20850,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a35",53.1423488,12.5148302,100,"0.113","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.800495051632155,3281.02645742473,8.94614509821407,-0.44771365029033,17.8054538839462,551.30926681123
5658,11271,20851,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a36",53.4827273,13.4154555,100,"0.15","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.820476319609618,3317.21056384709,9.03082315085766,-0.603144134202068,17.9600344130898,566.014171626693
5658,11272,20852,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a37",53.5425394,13.4734098,100,"0.025","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.820594498210034,3315.05443346455,9.02451461049845,-0.60642323564301,17.9535683339508,565.710453573511
5658,11273,20853,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a38",53.274109,13.2657604,100,"0.303","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.818363001673993,3325.01222154899,9.05293245514789,-0.59783029761027,17.9869744345814,566.129748213923
5658,11274,20869,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a39",53.5940189,12.1656599,100,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.847074292381778,3267.71676242578,8.92276162570215,-0.324592328317184,17.6461422101052,573.723691871774
5658,11275,20854,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a4",53.2202003,13.0018116,100,"0.175","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.794942242205248,3355.12658198716,9.13852210246401,-0.568321622119392,18.1226680862299,549.520537418428
5658,11276,20855,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a40",53.1806637,11.0725073,100,"0.08","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.935717278727112,3139.34593408248,8.59040070870991,-0.0707429587673163,16.9854215088271,629.110748881894
5658,11277,20856,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a41",53.3553161,13.1929695,100,"0.044","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.827410620626968,3316.48557123516,9.0348084202852,-0.546927486985366,17.9315521961277,569.935715780919
5658,11278,20857,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a42",53.1453977,12.5056864,100,"0.485","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.800696311662019,3280.49897304361,8.94487645742781,-0.445906187325103,17.8026162543575,551.379270471879
5658,11279,20858,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a43",54.0210276,12.352366,100,"0.086","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.884019834393604,3223.27451747021,8.77098774736415,-0.597969731972418,17.6026970779968,598.367685842169
5658,11280,20859,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a44",53.2356191,12.2838093,100,"0.257","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.806198218245662,3268.05169051062,8.91502074165679,-0.402560855389387,17.7343580128812,553.339440441954
5658,11281,20860,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a45",53.2121041,11.5954052,100,"0.598","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.88548470792085,3165.63690491129,8.65527809177893,-0.159778413663729,17.1770516575532,600.052187485804
5658,11282,20861,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a46",53.124953,12.5647371,100,"0.19","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.799372908653375,3283.93607756976,8.95315683941327,-0.457548902233496,17.8210599007276,550.91830938413
5658,11283,20867,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a47",53.2329059,12.1019877,100,"0.2","terrestrial, bog/fen/swamp","surface sample","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.845741086677343,3200.96588283298,8.74077130170982,-0.28756497912981,17.4078966573574,577.38848486884
5658,11284,20870,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a48",53.1911515,11.3331404,100,"0.02","terrestrial, bog/fen/swamp","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.897517175890138,3157.23743283133,8.63452877545949,-0.131707056009488,17.1196200972473,607.173536625227
5658,11285,20862,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a5",53.4709363,11.4107837,100,"0.15","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.871669797741087,3241.1274146096,8.87369477794469,-0.0367645875137154,17.3794129862563,582.582595370631
5658,11286,20863,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a6",53.5348144,11.4749155,100,"1.2","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.871693815505714,3242.86097563866,8.87736892976167,-0.0532908065466445,17.3947349427018,582.448766918912
5658,11287,20864,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a7",53.4301748,13.2644102,100,"0.07","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.822655812055045,3315.77856906901,9.02822248236122,-0.590225284554836,17.9494654471312,567.563117562436
5658,11288,20865,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a8",53.2948866,12.4835965,100,"0.193","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.821568095059791,3299.00706824366,8.99390027670344,-0.475231073589814,17.8431573516664,564.338522065149
5658,11289,20866,"SMPDSv1","Mecklenburg-Vorpommern","Theuerkauf_a9",53.3047025,12.1716465,100,"0.2","lake","lacustrine core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.834696505348413,3273.72129113373,8.94091284494244,-0.306977142914438,17.6664609135752,568.201816005442
5659,11290,12933,"Neotoma","Medicine Lake","MEDICINE",44.98419,-97.3501249999999,519,"not known","lake","core","0","Allen, K.E. 1992. Geochemical stratigraphy of Medicine Lake, South Dakota: Paleoclimatic implications of the freshwater/ saline transition. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Radle, N.J. 1981. Vegetation history and lake-level changes at a saline lake in northeastern South Dakota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11290,12934,"Neotoma","Medicine Lake","MEDICINE",44.98419,-97.3501249999999,519,"not known","lake","core","11","Allen, K.E. 1992. Geochemical stratigraphy of Medicine Lake, South Dakota: Paleoclimatic implications of the freshwater/ saline transition. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Radle, N.J. 1981. Vegetation history and lake-level changes at a saline lake in northeastern South Dakota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11290,12935,"Neotoma","Medicine Lake","MEDICINE",44.98419,-97.3501249999999,519,"not known","lake","core","23","Allen, K.E. 1992. Geochemical stratigraphy of Medicine Lake, South Dakota: Paleoclimatic implications of the freshwater/ saline transition. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Radle, N.J. 1981. Vegetation history and lake-level changes at a saline lake in northeastern South Dakota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11290,12936,"Neotoma","Medicine Lake","MEDICINE",44.98419,-97.3501249999999,519,"not known","lake","core","34","Allen, K.E. 1992. Geochemical stratigraphy of Medicine Lake, South Dakota: Paleoclimatic implications of the freshwater/ saline transition. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Radle, N.J. 1981. Vegetation history and lake-level changes at a saline lake in northeastern South Dakota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11290,12937,"Neotoma","Medicine Lake","MEDICINE",44.98419,-97.3501249999999,519,"not known","lake","core","46","Allen, K.E. 1992. Geochemical stratigraphy of Medicine Lake, South Dakota: Paleoclimatic implications of the freshwater/ saline transition. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Radle, N.J. 1981. Vegetation history and lake-level changes at a saline lake in northeastern South Dakota. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11291,11374,"Neotoma","Medicine Lake","SDCOME",44.98419,-97.3501249999999,519,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.605630397881483,3359.14543299484,6.53140352377262,-11.7049713476523,22.6465734984789,541.032471029021
5659,11292,11497,"Neotoma","Medicine Lake","WYCRME",44.436525,-104.315815,1364,"not known","lake","surface sample","-33","Unpublished data",,22,"steppe",0.413219069044982,3085.69180233507,7.10934670695081,-6.31263322848864,21.3089712150843,398.129946041781
5660,11293,16704,"Neotoma","Medouie Creek","PWD14",41.308333,-70.016667,3,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.42251222947458,3992.59483709582,10.7517808107093,-1.48280239191743,22.4246629112089,1296.17147274991
5661,11294,9087,"EMPDv2","Medved, Sumava","Svobodova_a5",48.9939194444444,13.4285277777778,1223.8,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.12696235474484,1910.53655596527,4.18024384897625,-4.41111800967478,12.4842790972151,1526.63276058718
5662,11295,20871,"SMPDSv1","Medvedok","Medvedok_SS (Novenko_c160)",57.3925,50.0452,89,"0.01","terrestrial, soil","surface sample","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.931801424353468,2642.93095573105,3.62369115556702,-13.5442444586214,19.6327484171315,580.20212239137
5663,11296,7943,"EMPDv2","Medveje_1","Mikishin-Gvozdeva_a3",53.5391666666667,142.899444444444,-3,"3.12","lake","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26853217629744,1818.07659650307,-0.966574525692364,-19.280702923186,15.1828467398306,653.652741895586
5664,11297,7944,"EMPDv2","Medveje_2","Mikishin-Gvozdeva_a4",53.5366666666667,142.894166666667,-3,"3.12","lake","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26834862209741,1818.25148453091,-0.966709908680896,-19.2828341532905,15.1837968801256,653.619043985407
5665,11298,7945,"EMPDv2","Medveje_3","Mikishin-Gvozdeva_a5",53.5388888888889,142.908055555556,-2,"3.12","lake","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26865290129959,1816.97704908221,-0.97123483776577,-19.2813146304729,15.1776257451773,653.611020589292
5666,11299,20872,"SMPDSv1","Mefjellsvatn","Bjune_a268",61.55,7.94833333333333,1391,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.60842360472358,1078.37740904864,-0.544818201146025,-10.4783677181354,9.45911123533442,799.155030168136
5667,11300,9077,"EMPDv2","Mehlblockmoos","Stojakowits_a1",47.72015,10.47475,850,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.38880013234771,2623.77393955543,6.79750845799163,-2.35988780308163,15.6392691022457,1077.41422277692
5667,11301,9078,"EMPDv2","Mehlblockmoos","Stojakowits_a2",47.72015,10.47475,850,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.38880013234771,2623.77393955543,6.79750845799163,-2.35988780308163,15.6392691022457,1077.41422277692
5667,11302,9079,"EMPDv2","Mehlblockmoos","Stojakowits_a3",47.72015,10.47475,850,"0.15","terrestrial, bog/fen/swamp","moss polster or moss","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.38880013234771,2623.77393955543,6.79750845799163,-2.35988780308163,15.6392691022457,1077.41422277692
5668,11303,24462,"Southern Hemisphere pollen","Mela Swamp","Mela core",-9.4824,160.0989,20,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core top","-46","Haberle, S.G., 1996. Explanations for palaeoecological changes on the northern plains of Guadalcanal, Solomon Islands: the last 3200 years. The Holocene, 6(3), pp.333-338.","10.1177/095968369600600307",1,"tropical evergreen broadleaf forest",2.42985113547468,9261.27333008548,25.3733515892753,24.6706026167766,25.9719829218249,3198.32119757011
5669,11304,1053,"Australian pollen","Melaleuca Inlet","Melaleuca Inlet",-43.2667,146.0833,10,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53303069389868,4119.19007607069,11.2854522632074,7.78198428993511,14.9349800493023,1302.82284141372
5670,11305,20873,"SMPDSv1","Melekino","Melekino_SS (Novenko_c254)",46.9442,37.3861,15,"0.01","terrestrial, soil","surface sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.572191295342175,4084.38062098067,10.8588701794909,-2.4635751841467,23.0974246020516,562.694319449586
5671,11306,6245,"EMPDv2","Melkoye","Binney2017_E2225",64.83,175.25,36,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.04621778646291,967.572525567455,-7.91749527601514,-23.1572225465736,11.1598635480351,349.087555046427
5672,11307,20874,"SMPDSv1","Menalo Mountains","Jahns_e1",37.569167,22.206667,1200,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.610839614310159,3662.72455901916,10.0348618055319,1.05889584821796,19.5189493634563,778.55313772998
5673,11308,17360,"Neotoma","Mendota","TW065",43.1,-89.4,259,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.9537668653173,3559.23025921877,8.02210273905782,-8.63260739753811,22.3166506206333,848.330608687089
5674,11309,20875,"SMPDSv1","Menez-Cam","EPDcoretop_E619",48.25,-3.5,133,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27687601519258,3998.13917356898,10.9538059549835,5.8525681436723,16.6799031069437,1009.86280613654
5675,11310,3791,"CMPD","Menghai","Menghai 1",21.83,100.67,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951808487420802,8884.84987200854,24.342054443859,19.6776976064101,27.3146078850288,1413.6096250794
5675,11311,3792,"CMPD","Menghai","Menghai 2",21.83,100.67,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951808487420802,8884.84987200854,24.342054443859,19.6776976064101,27.3146078850288,1413.6096250794
5675,11312,3793,"CMPD","Menghai","Menghai 3",21.67,100.59,400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.971820089081182,9225.65462695355,25.2757661012426,20.4585957094633,28.2466838124345,1476.00354391867
5676,11313,17305,"Neotoma","Menomin","TW010",44.883889,-91.928889,248,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.868377488893357,3541.25888340171,7.37435810381675,-10.9222486942262,22.7339437280549,750.054857119802
5677,11314,17433,"Neotoma","Menominee Site 1 (Webb unpublished)","TW142",44.87,-88.51,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949679821179146,3106.35131144442,6.2360330303894,-10.0215999883233,20.7170005446912,774.765261753621
5677,11315,17434,"Neotoma","Menominee Site 1 (Webb unpublished)","TW165",44.87,-88.51,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949679821179146,3106.35131144442,6.2360330303894,-10.0215999883233,20.7170005446912,774.765261753621
5678,11316,17452,"Neotoma","Menominee Site 10 (Webb unpublished)","TW152",45.08,-88.63,326,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.97223081258239,2955.46641893518,5.52483315857642,-10.8690388404496,20.1343264312846,779.256093923509
5678,11317,17453,"Neotoma","Menominee Site 10 (Webb unpublished)","TW181",45.08,-88.63,326,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.97223081258239,2955.46641893518,5.52483315857642,-10.8690388404496,20.1343264312846,779.256093923509
5679,11318,17454,"Neotoma","Menominee Site 11 (Webb unpublished)","TW153",44.98,-88.57,287,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958859701465715,3047.02690175162,5.95775119557711,-10.355316535167301,20.4910346259334,776.550828288068
5679,11319,17455,"Neotoma","Menominee Site 11 (Webb unpublished)","TW204",44.98,-88.57,287,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958859701465715,3047.02690175162,5.95775119557711,-10.355316535167301,20.4910346259334,776.550828288068
5680,11320,17456,"Neotoma","Menominee Site 12 (Webb unpublished)","TW154",45.02,-88.75,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.968642601429696,2960.53747648256,5.50462698495148,-11.0054279175017,20.1806133483013,777.483160630099
5681,11321,17457,"Neotoma","Menominee Site 13 (Webb unpublished)","TW155",44.94,-88.53,267,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.952366416330329,3093.23268484368,6.17641405629679,-10.088422788545,20.6668249866044,775.16057567682
5682,11322,17458,"Neotoma","Menominee Site 14 (Webb unpublished)","TW156",44.91,-88.58,279,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.95480878612846,3070.85581593075,6.06417216765702,-10.2422208438353,20.584996259001,775.898423559322
5682,11323,17459,"Neotoma","Menominee Site 14 (Webb unpublished)","TW205",44.91,-88.58,279,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.95480878612846,3070.85581593075,6.06417216765702,-10.2422208438353,20.584996259001,775.898423559322
5683,11324,17460,"Neotoma","Menominee Site 15 (Webb unpublished)","TW159",45.01,-88.89,374,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.981740173359105,2885.6915918624,5.12540634909789,-11.5146289110939,19.8894805268106,783.497658989349
5684,11325,17461,"Neotoma","Menominee Site 16 (Webb unpublished)","TW160",44.98,-88.63,287,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958444959207622,3050.46611889858,5.96727399302103,-10.3607538485769,20.5078516305898,776.549245539506
5685,11326,17462,"Neotoma","Menominee Site 17 (Webb unpublished)","TW161",44.95,-88.66,290,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958446791198383,3047.34572173066,5.94766000575233,-10.3972768727419,20.4983742091708,776.717367223849
5686,11327,17464,"Neotoma","Menominee Site 18 (Webb unpublished)","TW162",45.11,-88.62,341,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.977383660778374,2919.69973532225,5.35713010898486,-11.0603351495421,19.9917128075068,780.246807938892
5686,11328,17463,"Neotoma","Menominee Site 18 (Webb unpublished)","TW184",45.11,-88.62,341,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.977383660778374,2919.69973532225,5.35713010898486,-11.0603351495421,19.9917128075068,780.246807938892
5687,11329,17467,"Neotoma","Menominee Site 19 (Webb unpublished)","TW163",45,-88.58,297,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.96219012182445,3023.49891085337,5.84703671381019,-10.4868924733823,20.3999952196099,777.244386014432
5687,11330,17466,"Neotoma","Menominee Site 19 (Webb unpublished)","TW167",45,-88.58,297,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.96219012182445,3023.49891085337,5.84703671381019,-10.4868924733823,20.3999952196099,777.244386014432
5687,11331,17465,"Neotoma","Menominee Site 19 (Webb unpublished)","TW190",45,-88.58,297,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.96219012182445,3023.49891085337,5.84703671381019,-10.4868924733823,20.3999952196099,777.244386014432
5688,11332,17437,"Neotoma","Menominee Site 2 (Webb unpublished)","TW143",44.88,-88.52,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949550643877645,3108.53600763138,6.24558397138594,-10.0115724314765,20.7257275367864,774.71124824202
5688,11333,17436,"Neotoma","Menominee Site 2 (Webb unpublished)","TW149",44.88,-88.52,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949550643877645,3108.53600763138,6.24558397138594,-10.0115724314765,20.7257275367864,774.71124824202
5688,11334,17435,"Neotoma","Menominee Site 2 (Webb unpublished)","TW227",44.88,-88.52,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949550643877645,3108.53600763138,6.24558397138594,-10.0115724314765,20.7257275367864,774.71124824202
5688,11335,17438,"Neotoma","Menominee Site 2 (Webb unpublished)","TW228",44.88,-88.52,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949550643877645,3108.53600763138,6.24558397138594,-10.0115724314765,20.7257275367864,774.71124824202
5689,11336,17468,"Neotoma","Menominee Site 20 (Webb unpublished)","TW164",44.89,-88.57,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949704237196774,3108.59663803272,6.24050262406637,-10.0313221420776,20.7291302036703,774.774971507484
5690,11337,17469,"Neotoma","Menominee Site 21 (Webb unpublished)","TW166",44.89,-88.51,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.950156942447533,3104.87695947769,6.23026313423193,-10.0254788590277,20.7109458520328,774.804345062456
5691,11338,17471,"Neotoma","Menominee Site 22 (Webb unpublished)","TW168",45.09,-88.7,357,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.981355668137172,2888.59497796119,5.19981878921273,-11.266795335535,19.8717120569053,781.344671052803
5691,11339,17470,"Neotoma","Menominee Site 22 (Webb unpublished)","TW207",45.09,-88.7,357,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.981355668137172,2888.59497796119,5.19981878921273,-11.266795335535,19.8717120569053,781.344671052803
5692,11340,17472,"Neotoma","Menominee Site 23 (Webb unpublished)","TW169",44.87,-88.72,287,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.955363612904636,3063.30484433857,6.01092279757026,-10.3520116977576,20.5654832776991,776.445405424788
5693,11341,17474,"Neotoma","Menominee Site 24 (Webb unpublished)","TW172",45,-88.55,277,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.956557265497053,3067.27604873015,6.05601661417122,-10.2289813470888,20.5671505744005,775.931875655213
5693,11342,17473,"Neotoma","Menominee Site 24 (Webb unpublished)","TW193",45,-88.55,277,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.956557265497053,3067.27604873015,6.05601661417122,-10.2289813470888,20.5671505744005,775.931875655213
5694,11343,17475,"Neotoma","Menominee Site 25 (Webb unpublished)","TW173",45.276667,-88.52,388,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.00177504490198,2764.88550495216,4.64544573622118,-11.8193736572207,19.3470502689089,784.654204497418
5695,11344,17476,"Neotoma","Menominee Site 26 (Webb unpublished)","TW174",45.02,-88.83,355,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.975305250841223,2928.41871353644,5.33028223132462,-11.2724715441404,20.0609446401546,781.34373250629
5695,11345,17477,"Neotoma","Menominee Site 26 (Webb unpublished)","TW188",45.02,-88.83,355,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.975305250841223,2928.41871353644,5.33028223132462,-11.2724715441404,20.0609446401546,781.34373250629
5696,11346,17478,"Neotoma","Menominee Site 27 (Webb unpublished)","TW175",45.05,-88.62,324,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.971039882169992,2961.35599406364,5.55180635603019,-10.8398269432117,20.157932178781,779.093385189209
5697,11347,17479,"Neotoma","Menominee Site 28 (Webb unpublished)","TW176",45.03,-88.82,362,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.977921941423202,2910.48351599584,5.24819748476273,-11.3599939724425,19.9877719837208,781.933991426715
5697,11348,17480,"Neotoma","Menominee Site 28 (Webb unpublished)","TW199",45.03,-88.82,362,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.977921941423202,2910.48351599584,5.24819748476273,-11.3599939724425,19.9877719837208,781.933991426715
5698,11349,17481,"Neotoma","Menominee Site 29 (Webb unpublished)","TW177",44.89,-88.63,273,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.952218949158842,3089.09610803102,6.14274687810734,-10.1661936590807,20.6587356575043,775.454023946701
5699,11350,17439,"Neotoma","Menominee Site 3 (Webb unpublished)","TW144",44.98,-88.85,342,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.970083520185092,2963.15701033576,5.48772584603265,-11.1076746726272,20.2025748290415,780.298636897712
5700,11351,17482,"Neotoma","Menominee Site 30 (Webb unpublished)","TW178",44.9,-88.52,261,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949737835445464,3109.36579181147,6.25053655613408,-10.0025560062573,20.7284172725529,774.68369768205
5701,11352,17484,"Neotoma","Menominee Site 31 (Webb unpublished)","TW179",44.98,-88.89,365,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.978093485353467,2908.97104687741,5.23271309418541,-11.3999096730004,19.9849751394313,782.727986527863
5701,11353,17485,"Neotoma","Menominee Site 31 (Webb unpublished)","TW185",44.98,-88.89,365,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.978093485353467,2908.97104687741,5.23271309418541,-11.3999096730004,19.9849751394313,782.727986527863
5701,11354,17483,"Neotoma","Menominee Site 31 (Webb unpublished)","TW186",44.98,-88.89,365,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.978093485353467,2908.97104687741,5.23271309418541,-11.3999096730004,19.9849751394313,782.727986527863
5702,11355,17486,"Neotoma","Menominee Site 32 (Webb unpublished)","TW180",44.99,-88.5,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.955824130911777,3071.87118620313,6.08262937164611,-10.1843580918542,20.5819179943243,775.743125373699
5703,11356,17487,"Neotoma","Menominee Site 33 (Webb unpublished)","TW182",45.1,-88.61,336,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.975743225750889,2930.93696683051,5.4112562716487,-10.9956400837956,20.0362162954325,779.912782353214
5704,11357,17488,"Neotoma","Menominee Site 34 (Webb unpublished)","TW183",44.93,-88.54,269,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.952634521195527,3089.97521002956,6.15949534365961,-10.1132470715063,20.6552982305567,775.269341387086
5704,11358,17489,"Neotoma","Menominee Site 34 (Webb unpublished)","TW196",44.93,-88.54,269,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.952634521195527,3089.97521002956,6.15949534365961,-10.1132470715063,20.6552982305567,775.269341387086
5705,11359,17490,"Neotoma","Menominee Site 35 (Webb unpublished)","TW187",44.98,-88.84,342,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.970097634966038,2962.63891729237,5.48623407763437,-11.1068745830765,20.2001178787139,780.244473525396
5706,11360,17491,"Neotoma","Menominee Site 36 (Webb unpublished)","TW192",45.01,-88.77,341,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.970367888807217,2959.88768436297,5.48123416379102,-11.091429250569,20.1859628855761,779.712815996497
5707,11361,17492,"Neotoma","Menominee Site 37 (Webb unpublished)","TW194",44.87,-88.5,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949755231540436,3105.74122778427,6.23435645316882,-10.020630113256,20.7140144314075,774.771247010783
5708,11362,17493,"Neotoma","Menominee Site 38 (Webb unpublished)","TW195",45.09,-88.52,299,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.965278725240959,3009.69510425714,5.7937191793691,-10.5196235032319,20.3405934196313,777.535773908626
5709,11363,17494,"Neotoma","Menominee Site 39 (Webb unpublished)","TW197",45.06,-88.96,396,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.990235351545949,2833.17176279442,4.87641408389821,-11.797397712688,19.6753800137398,785.758224899358
5709,11364,17495,"Neotoma","Menominee Site 39 (Webb unpublished)","TW211",45.06,-88.96,396,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.990235351545949,2833.17176279442,4.87641408389821,-11.797397712688,19.6753800137398,785.758224899358
5710,11365,17440,"Neotoma","Menominee Site 4 (Webb unpublished)","TW145",44.9,-88.49,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.950549212026633,3102.91778624006,6.22401862307613,-10.0254889472269,20.7019390027551,774.837851195466
5711,11366,17496,"Neotoma","Menominee Site 40 (Webb unpublished)","TW198",44.87,-88.71,287,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.955426227468709,3062.71828166685,6.00929870703501,-10.3510669870168,20.5626196537441,776.43867664282
5712,11367,17497,"Neotoma","Menominee Site 41 (Webb unpublished)","TW200",44.89,-88.54,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949637582437962,3109.03822976123,6.24610679176903,-10.0154701551231,20.7287645800115,774.719966853145
5713,11368,17498,"Neotoma","Menominee Site 42 (Webb unpublished)","TW201",45.11,-88.52,302,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.966614183376354,3001.6488209485,5.7569400914315,-10.5602194288009,20.3087760358933,777.761962977287
5714,11369,17499,"Neotoma","Menominee Site 43 (Webb unpublished)","TW202",45.09,-88.51,288,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.962185434685609,3033.74574527807,5.90849195084422,-10.3795822842358,20.4333549360996,776.84511506161
5715,11370,17500,"Neotoma","Menominee Site 44 (Webb unpublished)","TW203",44.92,-88.63,292,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.95855851673503,3043.07959767623,5.92920682141377,-10.4156914265828,20.4809610939326,776.806847073796
5716,11371,17501,"Neotoma","Menominee Site 45 (Webb unpublished)","TW206",45.05,-88.57,303,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.965165164133266,3006.05103173102,5.76877704877854,-10.5692059086266,20.3302483075503,777.71252369492
5717,11372,17502,"Neotoma","Menominee Site 46 (Webb unpublished)","TW208",44.98,-88.64,299,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.961933342686799,3023.56339318464,5.83977494276062,-10.5149021825905,20.4041152206566,777.360779007695
5718,11373,17503,"Neotoma","Menominee Site 47 (Webb unpublished)","TW209",45,-88.8,340,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.969803769540467,2964.38060824444,5.49889720808843,-11.0803865430095,20.2053535512137,779.794152340759
5719,11374,17504,"Neotoma","Menominee Site 48 (Webb unpublished)","TW210",44.89,-88.62,273,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.9522893291872,3088.48639961451,6.14105795827389,-10.1652286613412,20.6557491896362,775.45364643838
5720,11375,17505,"Neotoma","Menominee Site 49 (Webb unpublished)","TW212",44.95,-88.52,271,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.953843962884076,3082.75069824565,6.12911604590832,-10.1406896205443,20.6258934618369,775.451995691647
5721,11376,17441,"Neotoma","Menominee Site 5 (Webb unpublished)","TW146",44.89,-88.55,262,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949561875361598,3109.66201878595,6.24782444372014,-10.0164480480471,20.7318140543533,774.715107079821
5722,11377,17506,"Neotoma","Menominee Site 50 (Webb unpublished)","TW213",45.08,-88.84,391,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.988848002448413,2839.44382462567,4.91598749516433,-11.7261369021591,19.6969347000699,784.624041114677
5723,11378,17507,"Neotoma","Menominee Site 51 (Webb unpublished)","TW214",45.11,-88.88,405,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.994198687115629,2806.30819426124,4.75847008140175,-11.9043482332371,19.5609529855803,786.012575517008
5724,11379,17508,"Neotoma","Menominee Site 52 (Webb unpublished)","TW215",45.05,-88.92,395,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.989758236267407,2834.4301441322,4.88471356778216,-11.781437777129,19.6795042414929,785.499551476316
5725,11380,17509,"Neotoma","Menominee Site 53 (Webb unpublished)","TW216",44.98,-88.93,377,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.982308290523163,2881.60783238341,5.10155657157887,-11.5538749482257,19.8747673658276,784.091552048828
5726,11381,17510,"Neotoma","Menominee Site 54 (Webb unpublished)","TW217",45.09,-88.78,379,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.984859637993088,2865.04161957266,5.04179992388333,-11.5723180984088,19.799917306205,783.176584880678
5727,11382,17511,"Neotoma","Menominee Site 55 (Webb unpublished)","TW218",45.1,-88.5,294,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.964221190258255,3019.10500009307,5.84098646333494,-10.4560803628399,20.3757635030822,777.250339115169
5728,11383,17512,"Neotoma","Menominee Site 56 (Webb unpublished)","TW219",44.89,-88.56,263,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.949779254560756,3107.97057665231,6.23877795534638,-10.0303422860723,20.7260716935098,774.77881214382
5729,11384,17513,"Neotoma","Menominee Site 57 (Webb unpublished)","TW220",45.06,-88.75,351,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.974827267200251,2919.4683686806,5.31656322934815,-11.2071882837633,20.0131736257079,778.864764123722
5730,11385,17514,"Neotoma","Menominee Site 58 (Webb unpublished)","TW221",45.04,-88.52,281,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958896000276448,3053.6000293245,5.9976435602236,-10.2838431470997,20.5117482667292,776.28804324916
5731,11386,17515,"Neotoma","Menominee Site 59 (Webb unpublished)","TW222",44.95,-88.6,297,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.960918429739452,3027.96750096068,5.86294461955729,-10.4815633342734,20.4198301092074,777.177680213059
5732,11387,17443,"Neotoma","Menominee Site 6 (Webb unpublished)","TW147",44.89,-88.6,270,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.951544113084123,3094.20683768077,6.17010594849103,-10.1245957996651,20.6763757887394,775.247717296813
5732,11388,17444,"Neotoma","Menominee Site 6 (Webb unpublished)","TW157",44.89,-88.6,270,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.951544113084123,3094.20683768077,6.17010594849103,-10.1245957996651,20.6763757887394,775.247717296813
5732,11389,17445,"Neotoma","Menominee Site 6 (Webb unpublished)","TW158",44.89,-88.6,270,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.951544113084123,3094.20683768077,6.17010594849103,-10.1245957996651,20.6763757887394,775.247717296813
5732,11390,17442,"Neotoma","Menominee Site 6 (Webb unpublished)","TW189",44.89,-88.6,270,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.951544113084123,3094.20683768077,6.17010594849103,-10.1245957996651,20.6763757887394,775.247717296813
5733,11391,17516,"Neotoma","Menominee Site 60 (Webb unpublished)","TW223",45.01,-88.55,282,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.958247835228814,3055.18119511515,5.99993886984324,-10.2944211244139,20.5204094611564,776.279166416239
5734,11392,17517,"Neotoma","Menominee Site 61 (Webb unpublished)","TW224",45.07,-88.75,361,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.978442021782554,2894.74547905763,5.2021893763832,-11.3315023513552,19.9119995334297,779.746182052674
5735,11393,17518,"Neotoma","Menominee Site 62 (Webb unpublished)","TW225",45.04,-88.89,381,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.984672774978358,2867.31815820721,5.04112955118554,-11.6037453226522,19.8139276625578,784.065086828809
5736,11394,17446,"Neotoma","Menominee Site 7 (Webb unpublished)","TW148",45.07,-88.71,352,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.979389683813522,2901.34175719263,5.25864493174553,-11.20312704099,19.9235547281737,781.023632292045
5737,11395,17447,"Neotoma","Menominee Site 8 (Webb unpublished)","TW150",45.01,-88.7,329,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.971230837934302,2956.35999105862,5.5179176139897,-10.9058145339567,20.1431985696536,779.45316518574
5738,11396,17449,"Neotoma","Menominee Site 9 (Webb unpublished)","TW151",44.88,-88.66,278,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.953271530398366,3080.03087886687,6.09633030997145,-10.23183778857,20.6259965155634,775.792802815087
5738,11397,17448,"Neotoma","Menominee Site 9 (Webb unpublished)","TW170",44.88,-88.66,278,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.953271530398366,3080.03087886687,6.09633030997145,-10.23183778857,20.6259965155634,775.792802815087
5738,11398,17450,"Neotoma","Menominee Site 9 (Webb unpublished)","TW171",44.88,-88.66,278,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.953271530398366,3080.03087886687,6.09633030997145,-10.23183778857,20.6259965155634,775.792802815087
5738,11399,17451,"Neotoma","Menominee Site 9 (Webb unpublished)","TW191",44.88,-88.66,278,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.953271530398366,3080.03087886687,6.09633030997145,-10.23183778857,20.6259965155634,775.792802815087
5739,11400,11785,"Neotoma","Mer Bleue Bog","TM1964A",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11401,11787,"Neotoma","Mer Bleue Bog","TM1964B",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11402,11783,"Neotoma","Mer Bleue Bog","TM1964C",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11403,11781,"Neotoma","Mer Bleue Bog","TM1964D",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11404,11782,"Neotoma","Mer Bleue Bog","TM1964E",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11405,11786,"Neotoma","Mer Bleue Bog","TM1964F",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5739,11406,11784,"Neotoma","Mer Bleue Bog","TM1964G",45.40194,-75.4989449999999,68,"not known","terrestrial, bog/fen/swamp","surface sample","-11","Terasmae, J., and R.J. Mott. 1964. Pollen deposition in lakes and bogs near Ottawa, Canada. Canadian Journal of Botany 42(10):1355-1363.","10.1139/b64-131",9,"cool mixed forest",1.15219648730273,3037.20514407014,5.86145105537312,-10.5923018254954,20.3862987071476,932.04609475177
5740,11407,9575,"EMPDv2","Mereya","Mikishin-Gvozdeva_a87",46.641944,142.904722,8,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63787361213527,2366.0839189776,3.81592744826786,-10.4001722925414,17.5795842561288,1036.79294742411
5741,11408,8109,"EMPDv2","Mereya_Laguna","Mikishin-Gvozdeva_a172",46.6280555555556,142.890833333333,1,"0.17","lake","sediment sample","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6445305926468201,2383.50695432972,3.89848705826636,-10.3100462872459,17.655841644163502,1041.7779924231
5742,11409,20876,"SMPDSv1","Merigot-Valessard","Barboni_a169",45.38,2.6,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07955629211846,3184.47402415759,8.72458636755505,1.01881307567318,17.2716343563643,962.513679315271
5743,11410,12939,"Neotoma","Mermaid Bog","MERMAID",46.25,-63.025,15,"not known","terrestrial, bog/fen/swamp","core","-26","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.65990155896974,2593.4946027683,5.26274273655143,-7.61969957208129,18.1192903094647,1204.93416616117
5743,11410,12940,"Neotoma","Mermaid Bog","MERMAID",46.25,-63.025,15,"not known","terrestrial, bog/fen/swamp","core","22","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.65990155896974,2593.4946027683,5.26274273655143,-7.61969957208129,18.1192903094647,1204.93416616117
5744,11411,17296,"Neotoma","Merrick State Park","TW002",44.151667,-91.748056,218,"not known","terrestrial","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.866090313323579,3622.85421885121,7.91408904659632,-9.8591476195052,22.8573627028563,766.11320881375
5745,11412,16748,"Neotoma","Mertock Lake","RJM010",53.490278000000004,-105.766667,494,"not known","lake","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.616220610028374,2244.52498248986,0.444365128505831,-19.5107628564817,17.0817592837782,425.882018481136
5746,11413,11654,"Neotoma","Mesquite Pond","GPPS-27",35.704655,-102.43552,1106,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.335320764158214,5187.1852975103,14.2114665685214,1.86354673043191,26.3905533007319,455.684261627084
5747,11414,17623,"Phelps et al., 2020","Messak Settafet","SETTAFET_0",25.35,11.433333,1094,"not known","not known","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",27,"desert",0.00746535701452675,8290.08189898734,22.7125531479105,12.1254986972078,31.1368608757996,15.0472405981075
5748,11415,7933,"EMPDv2","Metaponto","Mercuri_i14",40.402688,16.796941,18,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.584775614549684,5986.57219715741,16.401567663445,8.83770889563296,24.9228752617035,717.1882705403
5749,11416,82,"APD","Meteor GeoB 1008-3","GB1008-3_5",-6.593056,10.001389,0,"-3100","marine","core top","0","Dupont, L.M., Jahns, S., Marret, F. and Ning, S., 2000. Vegetation change in equatorial West Africa: time-slices for the last 150 ka. Palaeogeography, Palaeoclimatology, Palaeoecology, 155(1-2), pp.95-122.;
Jahns, S., 1996. Vegetation history and climate changes in West Equatorial Africa during the Late Pleistocene and Holocene, based on a marine pollen diagram from the Congo fan. Vegetation History and Archaeobotany, 5(3), pp.207-213.;
Dupont, L.M., Schneider, R.R., Schmüser, S. and Jahns, S. 1999.  Marine-terrestrial interaction of climate changes in West  Equatorial Africa of the last 190,000 years. Palaeoecology  of Africa 26, 61-84.","10.1016/S0031-0182(99)00095-4;
10.1007/BF00217498;
",,"not applicable",,,,,,
5750,11417,17337,"Neotoma","Meyer","TW040",45.051389,-89.074444,415,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.996896535277666,2791.86534153207,4.67352900493359,-12.043381451294,19.508351876173,788.131670118817
5751,11418,8955,"EMPDv2","Mezhgornye","Salonen_a33",65.257,59.667,514,"0.06","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.45027022050353,1035.54367674074,-6.04539513456527,-23.6890493054664,12.7311800128439,552.279697443384
5752,11419,11078,"Bush et al., 2020","Meztitlan","Meztitlan",20.68,-98.87,1263,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.832323503691113,7242.9900254703,19.8438082889597,15.3693500428816,22.9923180584251,1230.6360769143
5753,11420,3794,"CMPD","Miaoershan","Miaoershan",25.2,110.2,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.34322153228637,3183.69426392668,7.92428921808359,-4.35312161050879,19.8419278627215,1307.28552492708
5754,11421,14598,"Neotoma","Mica Lake","MICA08",60.686945,-148.14344,100,"not known","lake","core","-56","Anderson, R.S., D.S. Kaufman, E. Berg, C. Schiff, and T. Daigle. 2017. Holocene biogeography of Tsuga mertensiana and other conifers in the Kenai Mountains and Prince William Sound, south-central Alaska. The Holocene 27(4):485-495.","10.1177/0959683616670217",9,"cool mixed forest",2.7045188783749,1709.43937744414,2.24235006412849,-8.33205306032209,13.0047511517408,1235.04004414777
5755,11422,1054,"Australian pollen","Micalong River, Tumut","Micalong Swamp 2",-35.3333,148.5167,1100,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","47","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.948657566336278,3279.24692251696,8.98423814388208,2.03300126848678,15.726674761429,1121.65449538221
5756,11423,1055,"Australian pollen","Micalong Swamp","Micalong Swamp core MS3_1",-35.318,148.524,980,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.880420458916872,3600.77561561881,9.86513867292824,2.80074940150615,16.7531624056267,1054.80418252725
5756,11424,1056,"Australian pollen","Micalong Swamp","Micalong Swamp core MS3_3",-35.318,148.524,980,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","33","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.880420458916872,3600.77561561881,9.86513867292824,2.80074940150615,16.7531624056267,1054.80418252725
5757,11425,20877,"SMPDSv1","Michliffen","MICH 01",33.41566,-5.07919811912376,1935,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.329903489780251,4724.04161854578,12.9425797768377,3.89836028732729,24.4771972537313,473.553577591472
5757,11426,20878,"SMPDSv1","Michliffen","MICH 02",33.416451,-5.07990515140436,1971,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.328972380751952,4687.08194954133,12.8413204097023,3.73863916827947,24.4664724337965,472.700466245375
5757,11427,20879,"SMPDSv1","Michliffen","MICH 03",33.410804,-5.08486699518152,2088,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.326019951483906,4566.81819329537,12.5118306665627,3.21877824629947,24.4296034531392,470.035085216907
5758,11428,12060,"Neotoma","Mid of boardwalk ""Fak9 midB""","FSPSP9",25.94638,-81.469220000000007,2,"not known","terrestrial, bog/fen/swamp","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.877005993905911,8859.04436002655,24.2713544110316,19.1055789524053,28.4664685429064,1288.51259557896
5759,11429,10598,"BIOME6000 Japan","Midagahara site L","MdghdD0",36.56,137.56,1890,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.77711667845784,2315.05225879304,4.17921174977501,-8.58763318827133,16.8920314063979,1411.42649336863
5760,11430,20880,"SMPDSv1","Middle Atlas","Middle Atlas_1",33.7579460905,-4.88724725549,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.345243835576934,5203.91095290021,14.2572902819184,6.0961915886829,24.6266002348608,486.122771566947
5760,11431,20889,"SMPDSv1","Middle Atlas","Middle Atlas_10",33.1982968619,-5.0708464667,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.32776883971659,4657.69034505986,12.7607954659174,3.5766741912509,24.3914051920194,472.188032440194
5760,11432,20890,"SMPDSv1","Middle Atlas","Middle Atlas_11",33.2040075684,-4.92807880635,2100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.323925638614639,4555.53112233716,12.4809071844854,3.14068470508635,24.3611081572703,468.178718947231
5760,11433,20891,"SMPDSv1","Middle Atlas","Middle Atlas_12",33.1411897978,-5.00517334294,1950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.326647236041296,4718.78643700855,12.9281820192015,3.80405771060492,24.4575137980702,470.747129349481
5760,11434,20892,"SMPDSv1","Middle Atlas","Middle Atlas_13",33.0104146209,-5.02087778558,1530,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.328033901712091,5200.57627231245,14.248154170719,5.69500042808001,24.859722444174,470.328788496236
5760,11435,20893,"SMPDSv1","Middle Atlas","Middle Atlas_14",33.0917921873,-5.12652585424,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330239811184531,4936.58480124672,13.5248898664294,4.69488691330177,24.5820200168746,473.975631615666
5760,11436,20894,"SMPDSv1","Middle Atlas","Middle Atlas_15",33.0146976507,-5.14508565009,1630,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330436908945137,5074.81286997157,13.9035969040317,5.23491975631382,24.6937887582715,473.777188099965
5760,11437,20895,"SMPDSv1","Middle Atlas","Middle Atlas_16",33.4487113382,-4.75675761393,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.332176903195567,5091.01850219105,13.9479958964138,5.4143788504865,24.7235860345924,473.490067569661
5760,11438,20896,"SMPDSv1","Middle Atlas","Middle Atlas_17",33.3230757971,-4.702505903,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.320995226495562,5016.45716573742,13.7437182622943,4.98969323694888,24.8130944513959,461.437677821846
5760,11439,20881,"SMPDSv1","Middle Atlas","Middle Atlas_2",33.6722854943,-4.93864361322,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.336111980611609,5018.81860882461,13.7501879693825,5.18176947690563,24.6185122733337,477.433493818704
5760,11440,20882,"SMPDSv1","Middle Atlas","Middle Atlas_3",33.5951909577,-4.9700524985,1770,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.3327343676461,4897.0130784694,13.4164741875874,4.64714457652384,24.5765167699699,474.764115158892
5760,11441,20883,"SMPDSv1","Middle Atlas","Middle Atlas_4",33.5352285404,-5.10853712904,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.336004497873555,4909.00241843102,13.4493216943315,4.71939561807826,24.5226169340346,478.844284725586
5760,11442,20884,"SMPDSv1","Middle Atlas","Middle Atlas_5",33.4881152125,-5.03686776354,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.33426887020344,4915.03146329805,13.4658396254741,4.72515818763969,24.5505851202394,476.99880951099
5760,11443,20885,"SMPDSv1","Middle Atlas","Middle Atlas_6",33.4852598593,-4.95406252054,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.332451130609099,4921.16559140159,13.4826454558948,4.73350523547608,24.5858465579988,474.828403241241
5760,11444,20886,"SMPDSv1","Middle Atlas","Middle Atlas_7",33.550932983,-4.86554657112,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.333784727593988,5028.02851821661,13.7754205978537,5.18599137305799,24.6528887393809,475.288814298339
5760,11445,20887,"SMPDSv1","Middle Atlas","Middle Atlas_8",33.4153037057,-4.90552151602,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.335238905216965,5080.1480030614,13.9182137070175,5.39941551193276,24.6537443773848,477.324291114214
5760,11446,20888,"SMPDSv1","Middle Atlas","Middle Atlas_9",33.4195867355,-5.04372061124,1934,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.329145891042402,4727.55228355369,12.9521980371334,3.9068641380802,24.4918051893406,472.610195303636
5761,11447,7045,"EMPDv2","Middle North Coombe","EPDcoretop_E1680",50.93,-3.43,122,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.74031853184704,3539.57529396717,9.69746655881416,4.40211683579076,15.6658019758825,1167.25831387716
5762,11448,1057,"Australian pollen","Middle Patriarch Swamp","Middle Patriarch Swamp",-39.9833,148.1667,20,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.812341758037896,4748.73792383053,13.0102408872069,8.43212165851832,17.7318684297034,797.684196625441
5763,11449,9243,"EMPDv2","Middle Ural","Lapteva_b51",59.4987799999999,56.73873,128,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17060526801974,2175.14746785347,1.4653411051563,-16.08487232046,18.1424217832579,657.8037306236
5763,11450,9244,"EMPDv2","Middle Ural","Lapteva_b52",59.4987799999999,56.73873,116,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1637280569336,2191.01594626139,1.55316015769519,-15.9915521735974,18.2158926341949,656.416091683286
5763,11451,9245,"EMPDv2","Middle Ural","Lapteva_b53",59.4987799999999,56.73873,128,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17060526801974,2175.14746785347,1.4653411051563,-16.08487232046,18.1424217832579,657.8037306236
5763,11452,9246,"EMPDv2","Middle Ural","Lapteva_b54",59.47498,56.7043,115,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16217493048947,2193.4951073408,1.5668658543218,-15.9748933347317,18.2256020403427,655.940384590347
5763,11453,9252,"EMPDv2","Middle Ural","Panova_a10",56.54,60.25,250,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.866589345556197,2361.83737740289,2.07385514638513,-15.5422845742584,18.7418403057588,532.157162085639
5763,11454,9253,"EMPDv2","Middle Ural","Panova_a11",57.28,59.28,360,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0784250474124,2180.94770444283,1.26723946945805,-16.2001545422661,17.8114345011804,623.72701137523
5763,11455,9254,"EMPDv2","Middle Ural","Panova_a12",57.25,59.44,387,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06100550404461,2197.5148137673,1.31674219204241,-16.1485996971608,17.8219002828568,620.450172678576
5763,11456,9255,"EMPDv2","Middle Ural","Panova_a13",57,59.44,700,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0519307867044,2129.5877054684,0.677270734747464,-16.8377524246078,17.0604803995124,651.032169545108
5763,11457,9256,"EMPDv2","Middle Ural","Panova_a14",57,59.44,700,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0519307867044,2129.5877054684,0.677270734747464,-16.8377524246078,17.0604803995124,651.032169545108
5763,11458,9257,"EMPDv2","Middle Ural","Panova_a15",56.47,60.12,350,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.934272991249585,2289.95548761656,1.63962977720914,-16.0190842755478,18.277311008824,570.595560687112
5763,11459,9258,"EMPDv2","Middle Ural","Panova_a16",56.46,60.45,230,"9.14","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.828896106817286,2393.78752030549,2.15467758173708,-15.5737277994812,18.9079126512283,516.518551810737
5763,11460,9259,"EMPDv2","Middle Ural","Panova_a17",56.54,60.22,250,"0.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.876593088038956,2359.07575467245,2.0587597215149,-15.5646050389281,18.7220086628063,537.107227428551
5763,11461,9260,"EMPDv2","Middle Ural","Panova_a18",56.18,57.52,224,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.96334347577162,2443.15747218003,2.27329327251744,-15.690928425243,18.8288753720617,585.43886780987
5763,11462,9249,"EMPDv2","Middle Ural","Panova_a7",57.21,60.08,250,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.951540589260027,2282.77381115086,1.7543454335194,-15.8334875375471,18.4317550000895,560.27047093405
5763,11463,9250,"EMPDv2","Middle Ural","Panova_a8",57.21,60.08,250,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.951540589260027,2282.77381115086,1.7543454335194,-15.8334875375471,18.4317550000895,560.27047093405
5763,11464,9251,"EMPDv2","Middle Ural","Panova_a9",57.21,60.08,250,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.951540589260027,2282.77381115086,1.7543454335194,-15.8334875375471,18.4317550000895,560.27047093405
5763,11465,9247,"EMPDv2","Middle Ural","Panova_Antipina_a1",56.54,60.19,310,"0.15","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.913070954871837,2315.81667277411,1.80395181863254,-15.834264594013,18.4487276721818,557.624925853781
5763,11466,9248,"EMPDv2","Middle Ural","Panova_Antipina_a2",56.54,60.25,250,"0.05","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.866589345556197,2361.83737740289,2.07385514638513,-15.5422845742584,18.7418403057588,532.157162085639
5764,11467,6209,"EMPDv2","Middle Urals","Antipina_a1",57.49276,59.56994,240,"not known","terrestrial, bog/fen/swamp","peat surface","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03015458708079,2231.07117558548,1.52562593651734,-16.0853006105635,18.2138969387395,587.941537125106
5764,11468,6210,"EMPDv2","Middle Urals","Antipina_a2",57.49424,59.5671,231,"not known","terrestrial, bog/fen/swamp","peat surface","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.02613527734475,2235.44382640542,1.5463659469775,-16.0772590017861,18.2455987102947,585.289972223244
5764,11469,6211,"EMPDv2","Middle Urals","Antipina_a3",57.15065,60.41132,274,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.930994295422438,2290.51337776443,1.74684379493821,-15.862974255326,18.4265697834011,555.09133190807
5764,11470,7741,"EMPDv2","Middle Urals","Lapteva_b102",59.6,60.03333,189,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.11076586236929,2012.22445354781,0.186434611784626,-18.1214518138332,17.5497910878081,564.85236625754
5764,11471,7662,"EMPDv2","Middle Urals","Lapteva_b16",56.92773,62.0381,158,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.769613585725924,2418.83036844413,2.07239275664221,-16.0702953200896,19.1801836107845,485.506270327312
5764,11472,7663,"EMPDv2","Middle Urals","Lapteva_b17",57.16525,57.15438,263,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03440231296305,2323.20884217838,1.80073811701743,-15.999178764513,18.3628046505849,608.016505530407
5764,11473,7664,"EMPDv2","Middle Urals","Lapteva_b18",57.16525,57.15438,263,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03440231296305,2323.20884217838,1.80073811701743,-15.999178764513,18.3628046505849,608.016505530407
5764,11474,7665,"EMPDv2","Middle Urals","Lapteva_b19",57.44262,57.01117,179,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.07286823104955,2335.03085973818,2.09319119046347,-15.4253069042361,18.5389435752122,622.311262321182
5764,11475,7666,"EMPDv2","Middle Urals","Lapteva_b20",57.80275,57.47512,214,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1184200115136,2256.50727746975,1.70719727720091,-15.8179141493484,18.2241776161195,639.414282165653
5764,11476,7667,"EMPDv2","Middle Urals","Lapteva_b21",57.80275,57.47512,214,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1184200115136,2256.50727746975,1.70719727720091,-15.8179141493484,18.2241776161195,639.414282165653
5764,11477,7668,"EMPDv2","Middle Urals","Lapteva_b22",58.03142,57.58058,267,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1583319387657,2179.44047779535,1.33084091672749,-16.1674081148999,17.886636779567,652.278949681419
5764,11478,7669,"EMPDv2","Middle Urals","Lapteva_b23",59.40195,60.46583,193,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09566495558574,2017.54578253303,0.209869689268072,-18.0795373372276,17.5708199066757,562.624357494127
5764,11479,7670,"EMPDv2","Middle Urals","Lapteva_b24",58.64958,60.01413,247,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09658510627566,2105.20395057104,0.857407749394563,-16.932321344273,17.7766661802489,592.057227493754
5764,11480,7671,"EMPDv2","Middle Urals","Lapteva_b25",58.40273,59.86852,190,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.04454228485022,2173.37022916379,1.16803464000148,-16.7080655312894,18.129993103667,570.792074356912
5764,11481,7672,"EMPDv2","Middle Urals","Lapteva_b26",58.05892,59.89025,256,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.05828962810768,2172.32756209425,1.23203632440682,-16.4118402233442,18.0009629704765,590.801514573432
5764,11482,7673,"EMPDv2","Middle Urals","Lapteva_b27",57.64883,58.98005,214,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.07991335136613,2254.92359208667,1.60616177119499,-16.0682776441548,18.2498250454733,614.190269323221
5764,11483,7674,"EMPDv2","Middle Urals","Lapteva_b28",57.68418,59.34052,301,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.07943922005087,2188.61235985789,1.32645027268711,-16.1977669783362,17.9448443490453,613.628831656095
5764,11484,7675,"EMPDv2","Middle Urals","Lapteva_b29",57.68672,59.72558,376,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10387459520325,2155.73410001795,1.17814881874643,-16.2213921841429,17.6990613696157,631.47503180744
5764,11485,7676,"EMPDv2","Middle Urals","Lapteva_b30",57.70982,60.5164,238,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.967810343761935,2251.14877635578,1.57763840877523,-16.0907379761343,18.3436348270334,559.334395051435
5764,11486,7677,"EMPDv2","Middle Urals","Lapteva_b31",57.70312,61.05572,177,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.902318104711889,2295.95265246643,1.69347674524032,-16.1989581484858,18.6498502549695,528.344529059878
5764,11487,7678,"EMPDv2","Middle Urals","Lapteva_b32",57.80683,61.66365,168,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.887715008543561,2299.19214093327,1.66683978386921,-16.3068612431643,18.7012447789275,520.602948354248
5764,11488,7679,"EMPDv2","Middle Urals","Lapteva_b33",57.44573,61.44595,210,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.872291874721646,2332.44798883753,1.88909239887263,-15.8867002688468,18.7256118531105,523.333806385977
5764,11489,7680,"EMPDv2","Middle Urals","Lapteva_b34",57.21493,61.1305,218,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.865756461246162,2343.20109696401,1.92547156490018,-15.8498661881428,18.7492274410485,524.170340389255
5764,11490,7740,"EMPDv2","Middle Urals","Lapteva_b99",57.44573,61.44595,169,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.855064842812024,2335.00255723854,1.8165500734163,-16.1571851420734,18.8287378936808,512.863311242904
5765,11491,7738,"EMPDv2","Middle Urals_Gorbunovskiy peatbog","Lapteva_b100",57.83333,59.96667,246,"4.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03420264793942,2194.37431446062,1.33455379173213,-16.3188063153388,18.1029550018011,582.694396941741
5765,11492,7739,"EMPDv2","Middle Urals_Gorbunovskiy peatbog","Lapteva_b101",57.83333,59.96667,246,"4.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03420264793942,2194.37431446062,1.33455379173213,-16.3188063153388,18.1029550018011,582.694396941741
5765,11493,7735,"EMPDv2","Middle Urals_Gorbunovskiy peatbog","Lapteva_b96",57.81514,59.95869,211,"4.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00784925956875,2217.55565613927,1.42555979784302,-16.3081974027955,18.2576044262623,568.216941694766
5765,11494,7736,"EMPDv2","Middle Urals_Gorbunovskiy peatbog","Lapteva_b97",57.82278,59.955,210,"4.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00769471595166,2217.76209371728,1.4258519160556,-16.3106782700868,18.2602115852721,567.960197015937
5765,11495,7737,"EMPDv2","Middle Urals_Gorbunovskiy peatbog","Lapteva_b98",57.83333,59.96667,246,"4.5","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03420264793942,2194.37431446062,1.33455379173213,-16.3188063153388,18.1029550018011,582.694396941741
5766,11496,7719,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b80",60.22936,56.18528,120,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18988959291714,2169.23644255664,1.46428862676032,-16.076072041882,18.1436985145903,659.87114546888
5766,11497,7720,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b81",59.87275,56.46544,111,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17826755810037,2168.8193378125,1.44975140463605,-16.1317294118042,18.1643604376422,660.538622165613
5766,11498,7721,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b82",60.46633,55.94358,113,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21169156258024,2128.69664503719,1.26555893254315,-16.3307030442445,18.029700643877,657.170989048487
5766,11499,7722,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b83",60.4753,55.93244,114,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2128107040361,2125.74856260374,1.24929086500525,-16.3502511070113,18.0183943240526,657.14425638119
5766,11500,7723,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b84",60.13419,56.271,112,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1860331914217,2163.02816510936,1.42462711386533,-16.1594379983959,18.1495104099993,661.325107019637
5766,11501,7726,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b87",59.46667,56.65,109,"23.49","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15822048850835,2201.88551600509,1.61376209022698,-15.9234864820451,18.2637340662734,654.950510178571
5766,11502,7727,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b88",59.46667,56.65,109,"23.49","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15822048850835,2201.88551600509,1.61376209022698,-15.9234864820451,18.2637340662734,654.950510178571
5766,11503,7728,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b89",59.46667,56.65,109,"23.49","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15822048850835,2201.88551600509,1.61376209022698,-15.9234864820451,18.2637340662734,654.950510178571
5766,11504,7729,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b90",59.87275,56.46544,111,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17826755810037,2168.8193378125,1.44975140463605,-16.1317294118042,18.1643604376422,660.538622165613
5766,11505,7730,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b91",59.48908,56.69742,125,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16831960626175,2179.73464025897,1.49115545070825,-16.0559671069996,18.1628474370361,657.20666087422
5766,11506,7731,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b92",59.50807,56.7096,111,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16103235027029,2197.37324720793,1.58878463759192,-15.9535321948496,18.2457305204559,655.812278801382
5766,11507,7732,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b93",59.49436,56.70494,123,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16739375569706,2182.097351544,1.50423692575845,-16.0425437706138,18.1742057222171,657.051692323982
5766,11508,7733,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b94",59.48783,56.69625,117,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1637013231699,2190.32314462745,1.54976831225573,-15.9935980688068,18.2118405537157,656.262211744945
5766,11509,7734,"EMPDv2","Middle Urals_Upper Kama","Lapteva_b95",59.48652,56.69673,114,"0.5","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1619516713977,2194.34569320302,1.57188900451779,-15.970035888213,18.230302856902,655.903411077349
5767,11510,16744,"Neotoma","Midnight Lake Area","RJM005",53.583333,-108.366667,762,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.538629302057222,2300.8077761606,1.23156623822454,-17.5682138394552,16.6449764133707,387.867722528769
5767,11511,16743,"Neotoma","Midnight Lake Area","RJM006",53.583333,-108.366667,762,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.538629302057222,2300.8077761606,1.23156623822454,-17.5682138394552,16.6449764133707,387.867722528769
5768,11512,16745,"Neotoma","Midnight Lake Area (2)","RJM007",53.6,-108.366667,762,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.539320331072084,2299.33744800699,1.22396298018673,-17.576981988808,16.6375307267725,388.11994152347
5769,11513,20897,"SMPDSv1","Midttjorna","Bjune_a150",60.4233333333333,5.62,263,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.11350175050432,2274.89987111529,6.16418614253456,-0.522051668201954,13.4136268132498,2146.94802101987
5769,11514,20898,"SMPDSv1","Midttjorna","Bjune_a279",62.3833333333333,10.0216666666666,1000,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.56910024063014,1124.55530826439,-0.60351713682265,-11.2066042209483,9.87431298354911,717.777375060398
5770,11515,20899,"SMPDSv1","Mieminger See","EPDcoretop_E1180",47.291667,10.976389,797,"0.024","lake","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30348660204822,2699.27692904569,7.00999315925651,-2.34725051796338,15.9498410545375,1028.24973499121
5771,11516,7935,"EMPDv2","Miglionico","Mercuri_i16",40.576347,16.525308,147,"not applicable","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.584962186510489,5717.42908883337,15.664189284475,8.14103150687723,24.2084480930408,707.077644807202
5772,11517,3795,"CMPD","Mila Mt","Mila Mt MLE-01",29.8380555555556,92.3255555555556,4770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513785454805264,1169.28231835977,0.186553721867841,-9.78664151864491,9.09408011487278,589.734205096318
5772,11518,3796,"CMPD","Mila Mt","Mila Mt MLE-02",29.8380555555556,92.3255555555556,4771,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513563116455282,1168.31266681749,0.18048580258546,-9.79400291609408,9.08947469929195,589.430556734808
5772,11519,3797,"CMPD","Mila Mt","Mila Mt MLE-03",29.8377777777778,92.3255555555556,4774,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.512906572850348,1165.40587837926,0.162335438854296,-9.81595255627884,9.07564904352488,588.533683532173
5772,11520,3798,"CMPD","Mila Mt","Mila Mt MLE-04",29.8377777777778,92.3258333333333,4782,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.511125561720327,1157.6835631301,0.113772182671547,-9.8748298638139,9.0387635916038,586.103201990259
5772,11521,3799,"CMPD","Mila Mt","Mila Mt MLE-05",29.8372222222222,92.3266666666667,4792,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.508916706959429,1148.07226446321,0.0531439087765789,-9.94813286853315,8.99256997434336,583.090690013013
5772,11522,3800,"CMPD","Mila Mt","Mila Mt MLE-06",29.8366666666667,92.3272222222222,4811,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504693218876915,1129.89204230258,-0.0620591865415567,-10.0876928206105,8.90498909951834,577.346436437128
5772,11523,3801,"CMPD","Mila Mt","Mila Mt MLE-07",29.8366666666667,92.3272222222222,4832,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499989113624934,1110.03909562893,-0.189466800821944,-10.2422734548171,8.80829851018964,570.969340014785
5772,11524,3802,"CMPD","Mila Mt","Mila Mt MLE-08",29.8363888888889,92.3280555555556,4859,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.493926684915865,1084.75638026098,-0.353272508770163,-10.4408559744526,8.68386998009909,562.778028693305
5772,11525,3803,"CMPD","Mila Mt","Mila Mt MLE-09",29.8361111111111,92.3277777777778,4866,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.492362143504471,1078.27606565219,-0.395648939912742,-10.4922327419449,8.65168363415614,560.669725172953
5772,11526,3804,"CMPD","Mila Mt","Mila Mt MLE-10",29.8358333333333,92.3277777777778,4872,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.491020247656084,1072.71660866757,-0.431977898570818,-10.5362421413907,8.62406478524239,558.862840800902
5772,11527,3805,"CMPD","Mila Mt","Mila Mt MLE-11",29.8358333333333,92.3277777777778,4885,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.488083777321756,1060.71526331915,-0.510842280492788,-10.6319294284136,8.5642159508393,554.915209683671
5772,11528,3806,"CMPD","Mila Mt","Mila Mt MLE-12",29.8355555555556,92.3280555555556,4910,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482430544216802,1037.86154700202,-0.662448275379768,-10.8157817989152,8.44909706728811,547.336129923803
5772,11529,3807,"CMPD","Mila Mt","Mila Mt MLE-13",29.845,92.3425,4921,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.47940410730128,1027.3595709631,-0.733023632698174,-10.902514882352,8.39627891692256,543.296767821275
5772,11530,3808,"CMPD","Mila Mt","Mila Mt MLE-14",29.8447222222222,92.3416666666667,4962,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.470034741875852,990.636826580124,-0.981847334334245,-11.2046228524835,8.207585024346,530.830488284275
5772,11531,3809,"CMPD","Mila Mt","Mila Mt MLE-15",29.8416666666667,92.3402777777778,5032,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.454031374361425,929.560807929909,-1.40570605952259,-11.7185642081588,7.88566887038713,509.711878621597
5772,11532,3810,"CMPD","Mila Mt","Mila Mt MLW-01",29.8266666666667,92.3425,5009,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.460022352844213,949.843059314871,-1.26108551810484,-11.539217133216,7.99263964067569,517.579260782292
5772,11533,3811,"CMPD","Mila Mt","Mila Mt MLW-02",29.8261111111111,92.3422222222222,4970,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.469023159462559,984.013653602063,-1.02452253592753,-11.2518487804542,8.17193590805677,529.471138397719
5772,11534,3812,"CMPD","Mila Mt","Mila Mt MLW-03",29.8247222222222,92.3438888888889,4937,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.476618263984329,1013.38024177448,-0.824252100226427,-11.0081994696287,8.32345440459203,539.560049962502
5772,11535,3813,"CMPD","Mila Mt","Mila Mt MLW-04",29.8225,92.3438888888889,4918,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.481044784694835,1030.51524778119,-0.708490521089048,-10.8670760762588,8.41083475913388,545.461083877198
5772,11536,3814,"CMPD","Mila Mt","Mila Mt MLW-05",29.8225,92.3477777777778,4897,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.485786004191893,1049.52022624571,-0.581580655639089,-10.7126014733165,8.50679162573636,551.800753155173
5772,11537,3815,"CMPD","Mila Mt","Mila Mt MLW-06",29.8208333333333,92.3477777777778,4880,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.489709890574136,1065.08562370244,-0.478162736192363,-10.5865778767297,8.58489365880015,557.061353612356
5772,11538,3816,"CMPD","Mila Mt","Mila Mt MLW-07",29.8155555555556,92.3519444444444,4867,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.492843076592791,1077.09685623693,-0.398424124438562,-10.4879921019945,8.6440918150339,561.261325807144
5772,11539,3817,"CMPD","Mila Mt","Mila Mt MLW-08",29.8155555555556,92.3522222222222,4867,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.492841345806058,1077.09005289604,-0.398445962864235,-10.4879899806416,8.6440543041857,561.258694938104
5773,11540,11079,"Bush et al., 2020","Milagros","Milagros",18.51,-88.43,8,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.924351500407218,9441.4050782206,25.8668632280017,23.1905595577239,27.6669117038617,1430.45373498795
5774,11541,16753,"Neotoma","Mile 0 Lac la Ronge Highway","RJM015",53.933333,-106,524,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.654327089445284,2159.1408650254,0.083490848859397,-19.9143068524691,16.6814083776018,441.393545775647
5775,11542,12177,"Neotoma","Mile 0, Lee's Ferry","GCCRT0",36.8677,-111.588,979,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.141286125188498,5468.36999567134,14.981835604579,1.21760904226146,28.555250018333,204.029144444098
5776,11543,16754,"Neotoma","Mile 10 Lac la Ronge Highway","RJM016",54.016667,-105.8,524,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.660830535317747,2152.17297459103,0.0337047829279548,-19.9811111445994,16.6642557986981,444.394786563674
5777,11544,12190,"Neotoma","Mile 108.5, Shinumo Rapids","GCCRT174",36.23746,-112.34882,686,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0939871221111707,6602.93318347531,18.0902278999324,6.37678516112813,30.786890063094,146.358369613387
5778,11545,12178,"Neotoma","Mile 11, Soap Creek Rapids","GCCRT18",36.73961,-111.695,952,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.120374070753243,5488.88701176814,15.0380466075839,1.28142442351374,28.6277613893711,173.568085229938
5779,11546,12191,"Neotoma","Mile 113, Walthenberg Rapids","GCCRT180",36.23867,-112.40478,676,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0946681222318643,6631.30944628509,18.1679710857126,6.51683266630212,30.835396333472,147.710368450158
5780,11547,16755,"Neotoma","Mile 12 Lac la Ronge Highway","RJM017",54.033333,-105.816667,524,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.661375623790922,2151.26804537124,0.030529766709,-19.9845130400162,16.6598470073275,444.539484698988
5781,11548,12192,"Neotoma","Mile 134, Tapeats Creek","GCCRT215",36.36951,-112.46693,615,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.12160984336446,6619.39928029112,18.1353404939483,6.36726604530963,30.7228692016935,189.722399635494
5782,11549,12193,"Neotoma","Mile 137, Deer Creek above falls","GCCRT218",36.38944,-112.50817,610,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.12346237967532,6624.69627787999,18.1498528161096,6.42625263495766,30.7144566134215,192.661289820745
5783,11550,12194,"Neotoma","Mile 144, Kanab Creek","GCCRT229",36.39247,-112.62905,601,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.125278973144332,6653.45970767851,18.2286567333658,6.62652151246813,30.7360491777856,195.925021323378
5784,11551,12195,"Neotoma","MIle 168, Fern Glen Canyon","GCCRT268",36.25944,-112.91905,567,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.109812958472626,6790.36556293076,18.6037412683034,7.16867896258635,31.1539434584175,172.820688411722
5785,11552,16756,"Neotoma","Mile 18 Lac la Ronge Highway","RJM018",54.05,-105.716667,524,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.671366039687037,2138.97389268244,-0.057018446474199,-20.0876746751915,16.63271357194,449.91570769637
5786,11553,12179,"Neotoma","Mile 18 Wash","GCCRT29",36.65638,-111.74386,936,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.117327814000969,5546.08215477615,15.1947456295237,1.46554312733405,28.7659493920452,169.951511540372
5787,11554,12196,"Neotoma","Mile 188, Whitmore Wash","GCCRT300",36.15277,-113.20042,540,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.095235389375871,6907.96930386764,18.9259432982675,7.52295309598787,31.5383049541179,150.823684469602
5788,11555,16757,"Neotoma","Mile 19 Lac la Ronge Highway","RJM019",54.066667,-105.7,524,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.67227100186582,2137.9070430943,-0.0639546568331355,-20.0972650849977,16.6292146604336,450.272778316593
5789,11556,12197,"Neotoma","MIle 213","GCCRT341",35.91916,-113.33432,505,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0918167857808392,6969.79434263254,19.0953269661165,7.65812564199609,31.7388152404971,146.025644646599
5790,11557,12198,"Neotoma","Mile 226, Diamond Creek","GCCRT362",35.76475,-113.36894,488,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0899155064841753,7027.63431553212,19.2537926452935,7.84238344488322,31.8805605224268,143.691412481291
5791,11558,12180,"Neotoma","Mile 24.5, Twentyfour and One-half Mile Rapids","GCCRT39",36.58193,-111.78514,921,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.124766857224953,5681.39386625192,15.5654626472655,2.3905139284629,28.8290719506717,183.249957941879
5792,11559,12181,"Neotoma","Mile 31.5, South Canyon","GCCRT50",36.50446,-111.85734,905,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.121887245074102,5756.45379751263,15.7711062945552,2.66171643412393,28.9969183364816,180.063579333525
5793,11560,12182,"Neotoma","Mile 32, Vasey's Paradise","GCCRT51",36.49812,-111.85767,904,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.121406190024888,5761.11093814345,15.7838655839547,2.6719228759969,29.0111736448349,179.411378995836
5794,11561,16758,"Neotoma","Mile 38 Lac la Ronge Highway","RJM020",54.283333,-105.516667,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.675701759680821,2099.58353210446,-0.114928683138473,-19.9683857391948,16.3454643080388,452.011782389931
5795,11562,12183,"Neotoma","Mile 41, Buck Farm Canyon","GCCRT65",36.40497,-111.88087,883,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.114042246992058,5848.29241422955,16.0227189430947,2.88455040073217,29.2654066278558,169.519495049032
5796,11563,16759,"Neotoma","Mile 49 Lac la Ronge Highway","RJM021",54.433333,-105.2,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.694697063763307,2069.97524359626,-0.330398205896952,-20.1994723309973,16.2707196557205,460.070373927227
5797,11564,12184,"Neotoma","Mile 53, Nankoweap","GCCRT85",36.29909,-111.86039,854,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.101782682795249,5953.81003327093,16.3118083103313,3.04841652134106,29.6268404509695,152.219244923116
5798,11565,16760,"Neotoma","Mile 58 Lac la Ronge Highway","RJM022",54.55,-105.55,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.680270901906677,2097.64302192698,-0.122268289951278,-19.9714578658683,16.3319095767957,452.913085395631
5799,11566,16761,"Neotoma","Mile 60 Lac la Ronge Highway","RJM023",54.575,-105.533333,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.681027679104324,2097.18352018466,-0.126973550456413,-19.9781734780339,16.3308063945922,453.169651002137
5800,11567,12185,"Neotoma","Mile 65.5, Palisades Creek","GCCRT105",36.13989,-111.81478,815,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0677686792586801,6197.4524196298,16.9793216976159,3.75297463194892,30.4088572398456,102.345161260668
5801,11568,12199,"Neotoma","Mile 65.5, Palisades Creek Ridge Top","GCCRT105RT",36.13608,-111.81241,815,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0676768367453612,6198.85716063337,16.9831703031051,3.75595879499708,30.4132347728936,102.220720582227
5802,11569,12186,"Neotoma","MIle 70.5","GCCRT113",36.09334,-111.84831,799,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.0667880352881188,6276.89186272704,17.1969640074713,4.02317410905043,30.6016856233509,101.438730190172
5803,11570,16762,"Neotoma","Mile 74 Lac la Ronge Highway","RJM024",54.733333,-105.433333,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.685947205848003,2093.96134212861,-0.157810563654018,-20.0214061061813,16.3223085451628,454.830242431166
5804,11571,12187,"Neotoma","Mile 77.5, Tonto Trail","GCCRT124",36.0457,-111.92219,778,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.0669553528487281,6387.14035462326,17.4990146702007,4.43649276109893,30.84858296053,102.511178007574
5805,11572,16763,"Neotoma","Mile 88 Lac la Ronge Highway","RJM025",54.916667,-105.35,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.701756689199475,2067.1285951472,-0.353059714952365,-20.296043869996,16.25825332805,460.293606289117
5806,11573,12188,"Neotoma","Mile 94, Granite Rapids","GCCRT148",36.09736,-112.18376,732,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0716310653050669,6568.09817000532,17.9947895068639,5.23869300287328,31.1850487659777,110.98250193038
5807,11574,16764,"Neotoma","Mile 98 Lac la Ronge Highway","RJM026",55.05,-105.316667,594,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.70662928285416,2059.7237338502,-0.406881619937261,-20.3679711622866,16.2393994634327,461.509874308649
5808,11575,12189,"Neotoma","Mile 99, Crystal Rapids","GCCRT157",36.13505,-112.24301,716,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81.","10.1080/00721395.1973.9989736",27,"desert",0.0719360587066794,6602.40072022047,18.0887690964944,5.37608782088573,31.2562368004834,111.61243661025
5809,11576,1058,"Australian pollen","Mill Bay","STNS 1",-42.14,145.3,5,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.47120595926726,4407.14770366957,12.0743772703276,8.49776994739831,15.9914530708388,1326.08247467015
5809,11577,1059,"Australian pollen","Mill Bay","STNS 3",-42.14,145.3,5,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.47120595926726,4407.14770366957,12.0743772703276,8.49776994739831,15.9914530708388,1326.08247467015
5810,11578,16710,"Neotoma","Millbrook Road Pond","PWD6",41.275,-70.133333,6,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40956057484658,3973.60663850745,10.6786692277797,-1.61139380361671,22.4181180974647,1283.61695858787
5811,11579,13915,"Neotoma","Miller Woods Pond 21","MILLER21",41.61189,-87.27349,181,"not known","lake","core","-2","Futyma, R.P. 1984. Paleobotanical studies at Indiana Dunes National Lakeshore. Unpublished report, National Park Service.",,13,"temperate deciduous broadleaf forest",0.953533596036396,3889.9496616934,9.69383453147072,-5.59702214361731,22.96801228081,883.335033022306
5812,11580,13916,"Neotoma","Miller Woods Pond 32","MILLER32",41.60682,-87.282385,182,"not known","lake","core","47","Futyma, R.P. 1984. Paleobotanical studies at Indiana Dunes National Lakeshore. Unpublished report, National Park Service.",,13,"temperate deciduous broadleaf forest",0.954694382027682,3891.76966211399,9.69876156582318,-5.59913532282849,22.9726910867125,884.602350470012
5813,11581,13950,"Neotoma","Miller Woods Pond 51","MILLER51",41.6030049999999,-87.285365,186,"not known","lake","core","-2","Futyma, R.P. 1984. Paleobotanical studies at Indiana Dunes National Lakeshore. Unpublished report, National Park Service.",,13,"temperate deciduous broadleaf forest",0.959046176538331,3894.93541717344,9.70509232602565,-5.61390767768036,22.9797468028833,888.853784748088
5814,11582,8733,"EMPDv2","Mindelsee","Roesch_a7",47.755955,9.020786,406,"1","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.05249132314334,3393.90651835794,9.28641310291899,-0.127851454264647,18.3961065809998,828.640547894924
5815,11583,14459,"Neotoma","Minden Bog","MINDEN",43.60373,-82.86388,239,"not known","terrestrial, bog/fen/swamp","core","-42","Booth, R.K., and S.T. Jackson. 2003. A high-resolution record of late-Holocene moisture variability from a Michigan raised bog, USA. The Holocene 13(6):865-878. Booth, R.K., S.T. Jackson, V.A. Sousa, M.E. Sullivan, T.A. Minckley, and M.J. Clifford. 2012. Multi-decadal drought and amplified moisture variability drove rapid forest community change in a humid region. Ecology 93(2):219-226. Minckley, T.A., R.K. Booth, and S.T. Jackson. 2012. Response of arboreal pollen abundance to Late Holocene drought events in the Upper Midwest, USA. The Holocene 22(5):531-539.","10.1191/0959683603hl669rp;
10.1890/11-1068.1;
10.1177/0959683611427334",9,"cool mixed forest",0.931689959369972,3309.14244717672,7.72934398070824,-6.45826571636635,20.8723875491494,805.464391726161
5815,11583,14460,"Neotoma","Minden Bog","MINDEN",43.60373,-82.86388,239,"not known","terrestrial, bog/fen/swamp","core","42","Booth, R.K., and S.T. Jackson. 2003. A high-resolution record of late-Holocene moisture variability from a Michigan raised bog, USA. The Holocene 13(6):865-878. Booth, R.K., S.T. Jackson, V.A. Sousa, M.E. Sullivan, T.A. Minckley, and M.J. Clifford. 2012. Multi-decadal drought and amplified moisture variability drove rapid forest community change in a humid region. Ecology 93(2):219-226. Minckley, T.A., R.K. Booth, and S.T. Jackson. 2012. Response of arboreal pollen abundance to Late Holocene drought events in the Upper Midwest, USA. The Holocene 22(5):531-539.","10.1191/0959683603hl669rp;
10.1890/11-1068.1;
10.1177/0959683611427334",9,"cool mixed forest",0.931689959369972,3309.14244717672,7.72934398070824,-6.45826571636635,20.8723875491494,805.464391726161
5816,11584,1060,"Australian pollen","Mine Valley Billabong","Core MV2_0",-12.48825,132.8841,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.822633839827277,9984.61990457987,27.3551230262462,24.2970591589777,29.5705041347702,1432.55208616418
5816,11585,1061,"Australian pollen","Mine Valley Billabong","Core MV2_1",-12.48825,132.8841,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.822633839827277,9984.61990457987,27.3551230262462,24.2970591589777,29.5705041347702,1432.55208616418
5816,11586,1062,"Australian pollen","Mine Valley Billabong","Core MV2_2",-12.48825,132.8841,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.822633839827277,9984.61990457987,27.3551230262462,24.2970591589777,29.5705041347702,1432.55208616418
5817,11587,16696,"Neotoma","Mingan","PJHR057",50.25,-63.55,18,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.65965464673508,1926.28606785577,1.95319151795061,-12.1944256755726,15.207593197927,1038.08789666918
5817,11588,16697,"Neotoma","Mingan","PJHR058",50.25,-63.55,18,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.65965464673508,1926.28606785577,1.95319151795061,-12.1944256755726,15.207593197927,1038.08789666918
5818,11589,20900,"SMPDSv1","Minitumba","EPDcoretop_E443",63.5,33.016667,150,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19091170524347,1815.70142690838,1.29505304274606,-12.6841434352259,15.3067923399032,586.512286335354
5818,11590,20901,"SMPDSv1","Minitumba","Minitumba_SS",63.2333,33.0751,150,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1846754445185,1863.25782744292,1.55633998860499,-12.4693727353505,15.4867193904136,593.214823067907
5819,11591,15130,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-61","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15131,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-54","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15132,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-48","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15133,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-45","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15134,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-35","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15135,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-25","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15136,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-14","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15137,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-9","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15138,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","-4","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5819,11591,15139,"Neotoma","Minnesota Point","MNPOINT",46.73338,-92.06504,184,"not known","coastal, estuarine","core","20","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.934031474666141,3078.28768574228,5.81870913654298,-11.584423733712,20.7024326297295,739.473189778836
5820,11592,20902,"SMPDSv1","Minnevatnet","Bjune_a178",68.9333333333333,15.0666666666666,51,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.19706633773007,1389.30145891558,2.41174664745837,-4.47333681198139,11.2018369850775,1181.16727203016
5821,11593,13785,"Neotoma","Minnreg","MINNREG",44.693385,-93.3212,297,"not known","not known","core","22","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.853188778791734,3422.24962634116,6.81854880078597,-11.6254293430317,22.353649389093,732.861571262057
5821,11593,13786,"Neotoma","Minnreg","MINNREG",44.693385,-93.3212,297,"not known","not known","core","50","Umbanhowar, C.E., Jr. 2004. Interaction of fire, climate and vegetation change at a large landscape scale in the Big Woods of Minnesota, USA. The Holocene 14(5):661-676.","10.1191/0959683604hl745rp",13,"temperate deciduous broadleaf forest",0.853188778791734,3422.24962634116,6.81854880078597,-11.6254293430317,22.353649389093,732.861571262057
5822,11594,3818,"CMPD","Minshan","Minshan",35.38,102.89,1964,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.372882190783425,2926.68610079097,6.53571770809173,-7.14895865300616,18.1026115221644,392.723142448014
5823,11595,16701,"Neotoma","Mioxes Pond","PWD1",41.25,-70.133333,3,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.42464786358465,3995.27177679033,10.7585231988607,-1.49171040430535,22.4183676509924,1298.82607727604
5824,11596,20903,"SMPDSv1","Mire Johvika","EPDcoretop_E665",58.5,22.333333,32,"0.1","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0302613235511,2543.4349106723,6.13961424649044,-3.96783318993184,16.2679374941257,642.670725869848
5825,11597,20904,"SMPDSv1","Mire Pelisoo","EPDcoretop_E697",58.466667,22.383333,33,"7","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03041018168202,2545.24054212659,6.15226762723074,-3.94021861958978,16.260709853915,643.836867934996
5826,11598,20905,"SMPDSv1","Mire Saviku","EPDcoretop_E968",58.4,27.233333,30,"2.5","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.999028021549608,2447.8490911111,4.86754973731404,-7.60086814090969,16.8332180278744,604.46782688938
5827,11599,15657,"Neotoma","Miriam Lake","DLEF001",59.55,-63.88,1,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.62277796919734,762.395887318944,-5.58157200123425,-20.4258154441008,8.36232260220212,623.001818599619
5827,11600,15661,"Neotoma","Miriam Lake","DLEF002",59.55,-63.88,1,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.62277796919734,762.395887318944,-5.58157200123425,-20.4258154441008,8.36232260220212,623.001818599619
5827,11601,15659,"Neotoma","Miriam Lake","DLEF003",59.55,-63.88,1,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.62277796919734,762.395887318944,-5.58157200123425,-20.4258154441008,8.36232260220212,623.001818599619
5827,11602,15660,"Neotoma","Miriam Lake","DLEF004",59.55,-63.88,1,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.62277796919734,762.395887318944,-5.58157200123425,-20.4258154441008,8.36232260220212,623.001818599619
5827,11603,15658,"Neotoma","Miriam Lake","DLEF005",59.55,-63.88,1,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.62277796919734,762.395887318944,-5.58157200123425,-20.4258154441008,8.36232260220212,623.001818599619
5828,11604,1063,"Australian pollen","Mirriwinni","Mirriwinni",-17.417,145.9,60,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.22444800513991,8847.95467877199,24.240971722663,20.1217464852966,27.1270135437227,2073.14694967757
5829,11605,15068,"Neotoma","Mirror Lake","MIRORCO",38.743205,-106.4323,3347,"not known","lake","core","13","Del Priore, T.M. 2007. 4,000 years of environmental change in central Colorado: a Paleoecological perspective. Master's thesis. University of Colorado, Boulder, CO, USA.",,17,"temperate evergreen needleleaf open woodland",0.592528116543977,1024.22956405233,-1.99114390342903,-13.4985326832,9.66912909901654,553.005683477149
5830,11606,11980,"Neotoma","Missouri Lakes Adjacent","SM-MLA",39.39921,-106.51519,3524,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.584098856921787,846.032557932074,-2.97879903140475,-14.1616759400173,8.4953610951531,524.660865489659
5831,11607,11982,"Neotoma","Missouri Lakes Central","SM-MLC",39.391705,-106.51524,3488,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.578895043280561,882.382459254199,-2.76075157446764,-13.9744262813019,8.74114421967498,522.623387245749
5832,11608,11981,"Neotoma","Missouri Lakes North","SM-MLN",39.3961999999999,-106.511405,3513,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.582315673542239,857.21621944392,-2.91171555571417,-14.1047569214838,8.57140384095624,523.889880463307
5833,11609,11983,"Neotoma","Missouri Lakes South","SM-MLS",39.38712,-106.51555,3477,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.577344474079843,893.567864444669,-2.69451588428007,-13.9181358236913,8.81594750169732,522.041237024034
5834,11610,16479,"Neotoma","Mistake Bay","JTA301",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5834,11611,16481,"Neotoma","Mistake Bay","JTA302",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5834,11612,16483,"Neotoma","Mistake Bay","JTA303",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5834,11613,16480,"Neotoma","Mistake Bay","JTA304",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5834,11614,16478,"Neotoma","Mistake Bay","JTA305",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5834,11615,16482,"Neotoma","Mistake Bay","JTA306",62.13,-92.75,30,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.786201256949817,763.650072626901,-11.2431833990098,-31.1153795593299,9.82999481350608,277.913783408275
5835,11616,9658,"Gaillard et al., 1992","Misterfall","Misterfall A",58.161902,15.487688,184,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",15,"cold evergreen needleleaf forest",0.96863559800946,2419.50555294557,5.82628302551423,-3.66651774801747,15.6630601581385,601.758874453553
5835,11617,9659,"Gaillard et al., 1992","Misterfall","Misterfall B",58.161902,15.487688,184,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",15,"cold evergreen needleleaf forest",0.96863559800946,2419.50555294557,5.82628302551423,-3.66651774801747,15.6630601581385,601.758874453553
5836,11618,11080,"Bush et al., 2020","Misteriosa","Misteriosa",18.05,-90.48,73,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.990335570407638,9527.81338239989,26.1035983079449,22.7040722920533,28.5554747471315,1559.91979227548
5837,11619,14362,"Neotoma","Mitkof Island","MITKOF",56.81157,-132.93624,20,"not known","terrestrial, bog/fen/swamp","core","-55","Ager, T.A., Carrara, P.E., Smith, J.L., Anne, V. and Johnson, J., 2010. Postglacial vegetation history of Mitkof Island, Alexander Archipelago, southeastern Alaska. Quaternary Research, 73(2), pp.259-268.","10.1016/j.yqres.2009.12.005",9,"cool mixed forest",3.56908206077267,2361.34262902896,6.30408480042038,-1.44908176728494,13.7078191775305,1895.22517740943
5838,11620,8023,"EMPDv2","Mitsulevka","Mikishin-Gvozdeva_a84",46.8097222222222,142.757222222222,30,"not applicable","terrestrial","not known","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61519018168433,2225.08792591917,2.96824218214481,-11.7993148224115,16.9749995435573,1004.03407811325
5839,11621,20906,"SMPDSv1","Mittlere Hellelen","EPDcoretop_E1102",46.281994,7.843183,1535,"not known","terrestrial, bog/fen/swamp","peat core top","-14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.18495766082094,1849.4435713435,4.24251526625286,-3.7219571195555,12.5953429478344,1707.53492592405
5840,11622,10603,"BIOME6000 Japan","Miyatokooyachi moor","D7001",37.25,139.533333,850,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.8295361475158,3313.87804794753,8.38832934502012,-3.62702543622428,21.2933237617737,1532.65977896993
5841,11623,10563,"BIOME6000 Japan","Mizorogaike","MzrgkD0",35.05,135.77,75,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.64269426565688,5474.7856978645,14.9994128708617,4.08217520519012,26.8451440169708,1663.33601483382
5842,11624,9660,"Gaillard et al., 1992","Mjalastro","Mjalastro",55.868279,13.661904,114,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.03507276549773,2682.35992661249,6.98763935615723,-1.98820226194663,16.0934192656918,681.276459262754
5843,11625,9094,"EMPDv2","Mlynarska slat, Sumava","Svobodova_a12",49.022275,13.4585277777778,1070,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.8646603766131,2132.48531687137,4.98181554346428,-3.97815679646457,13.5043967495353,1354.90758895767
5844,11626,9839,"Herzschuh et al., 2019","Mo","Mo99_1",48.67,88.3,2083,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.316205641136616,1437.20462366122,-4.23426405975176,-23.3403314123232,12.606886003717,272.651567651072
5844,11627,9840,"Herzschuh et al., 2019","Mo","Mo99_10",47.95,93.12,1132,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.132604524523676,2781.20841272971,0.874484565417073,-23.6917476604155,20.2283741174269,128.702845611754
5844,11628,9841,"Herzschuh et al., 2019","Mo","Mo99_100",47.53,95.25,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.139947882866034,2390.10338321728,0.0768288575175745,-21.5374494935503,18.0758409540235,134.82292011513
5844,11629,9842,"Herzschuh et al., 2019","Mo","Mo99_101",47.55,95.3,1350,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.131857403379758,2470.49799621549,0.449997282391431,-21.274638118799,18.4900342629868,127.884786066472
5844,11630,9843,"Herzschuh et al., 2019","Mo","Mo99_102",47.4,95.95,1450,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.145434006027302,2304.03214199676,0.0219674467504559,-20.6971520827206,17.5949938615611,139.789803714251
5844,11631,9844,"Herzschuh et al., 2019","Mo","Mo99_11",48.03,93.28,1132,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.139971608255144,2741.93121266216,0.653835677378492,-23.8885963425989,20.0401688903089,134.672598829373
5844,11632,9845,"Herzschuh et al., 2019","Mo","Mo99_12",48.92,93.57,1030,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.242948158054497,2554.04160591468,-0.592087660777422,-25.5130497304692,19.1742138510355,216.825992709421
5844,11633,9846,"Herzschuh et al., 2019","Mo","Mo99_13",48.47,95.18,1491,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.22399009004548,2113.48210545255,-2.34331802215939,-25.7479296241368,16.7289889895691,200.14270290069
5844,11634,9847,"Herzschuh et al., 2019","Mo","Mo99_14",49.98,94.03,931,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.414517649666066,2466.00059991279,-1.36271980847204,-26.6335392332084,18.8340056198542,342.117617240124
5844,11635,9848,"Herzschuh et al., 2019","Mo","Mo99_15",51.27,99.4,1538,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.522795303552627,1364.48222034437,-4.58080552415934,-24.0967400058109,12.6668482813059,369.532369026853
5844,11636,9849,"Herzschuh et al., 2019","Mo","Mo99_16",51.2,99.45,1539,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.431169457163354,1480.05124326968,-3.89962628602151,-23.6006719926389,13.2635393747697,325.550703328234
5844,11637,9850,"Herzschuh et al., 2019","Mo","Mo99_17",51.38,99.37,1538,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.534555550256247,1352.37295479137,-4.68970955832689,-24.2521699823846,12.6041681152677,374.24630618934
5844,11638,9851,"Herzschuh et al., 2019","Mo","Mo99_18",50.4,100.15,1650,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.420861229309756,1482.83637781102,-3.67474302661795,-23.0418009041442,13.1888497431978,329.491003041496
5844,11639,9852,"Herzschuh et al., 2019","Mo","Mo99_19",50.4,100.15,1662,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.42352721329205,1468.71977063353,-3.7719654824326,-23.152204784918,13.1064816045159,330.783326737227
5844,11640,9853,"Herzschuh et al., 2019","Mo","Mo99_2",48.57,88.6,2072,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.300419324079886,1465.27925677262,-4.11725023835225,-23.3710238152872,12.7667868307844,261.168766964459
5844,11641,9854,"Herzschuh et al., 2019","Mo","Mo99_20",49.88,102.57,1000,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.433705885520536,2234.01894314404,0.197444480948176,-20.2497031125739,17.1182523844041,365.371657015137
5844,11642,9855,"Herzschuh et al., 2019","Mo","Mo99_21",48.82,102.93,1440,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.476182275956712,1790.59682443699,-1.60756509144538,-20.5322931967042,14.743133471744,390.449935761959
5844,11643,9856,"Herzschuh et al., 2019","Mo","Mo99_22",48.8,103.32,1540,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.484318541828787,1721.8044915017,-1.89884687251574,-20.6213101074693,14.3148265343738,398.423323713163
5844,11644,9857,"Herzschuh et al., 2019","Mo","Mo99_23",48.18,99.55,2060,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.334542548227191,1318.58040558584,-5.29185216731473,-25.4976140484833,12.007337777939,280.719710466493
5844,11645,9858,"Herzschuh et al., 2019","Mo","Mo99_24",48.13,99.83,2060,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.343257045934442,1315.62671281006,-4.90826180989679,-24.3480282849595,11.9420858029794,289.034831345591
5844,11646,9859,"Herzschuh et al., 2019","Mo","Mo99_25",48.18,99.62,2060,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.335007827946279,1319.28513951502,-5.25209192818784,-25.3925608410962,12.0087522791971,281.239348313099
5844,11647,9860,"Herzschuh et al., 2019","Mo","Mo99_26",47.38,101.85,1700,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.35954022914421,1706.69589587585,-1.44760899129062,-18.8888509666331,14.0365285025292,315.685233469696
5844,11648,9861,"Herzschuh et al., 2019","Mo","Mo99_27",47.33,101.93,1640,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.358698278611525,1760.23752736471,-1.17618077730584,-18.7109301773521,14.3316349855761,315.478493007053
5844,11649,9862,"Herzschuh et al., 2019","Mo","Mo99_28",47.45,101.92,1500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.364327664070989,1857.09853514598,-0.713061441904591,-18.468527642451,14.8613376673793,318.876304943979
5844,11650,9863,"Herzschuh et al., 2019","Mo","Mo99_29",47.42,101.92,1600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.361756036288506,1783.05920688491,-1.0732170333779,-18.6784519130448,14.4591637440173,317.186955402216
5844,11651,9864,"Herzschuh et al., 2019","Mo","Mo99_3",48.6,88.92,2493,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.335577395737356,1041.3944354729001,-6.68410848234928,-25.8273173725882,10.1397052517693,276.832140580053
5844,11652,9865,"Herzschuh et al., 2019","Mo","Mo99_30",47.35,101.87,1650,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.359470950777218,1747.44631332136,-1.23852433579635,-18.7477177732239,14.2610124170337,315.838656143101
5844,11653,9866,"Herzschuh et al., 2019","Mo","Mo99_31",46.58,105.67,1500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.225991163791887,2303.19788329116,0.694718479434869,-18.5813014919307,17.8278098399848,218.730609160559
5844,11654,9867,"Herzschuh et al., 2019","Mo","Mo99_32",46.75,105.95,1316,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.270323389474452,2180.3445671312,-0.160701688688309,-19.9403241138735,17.2572804959392,247.162200001466
5844,11655,9868,"Herzschuh et al., 2019","Mo","Mo99_33",46.9,105.92,1500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.254769104628395,2164.29269490424,-0.257065641295912,-19.923411707435,17.243779675904,236.629735729449
5844,11656,9869,"Herzschuh et al., 2019","Mo","Mo99_34",46.7,105.47,1550,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.22279198377146,2305.16266915201,0.770169924477075,-18.3753185647109,17.8064142187568,216.880757822294
5844,11657,9870,"Herzschuh et al., 2019","Mo","Mo99_35",45.95,106.28,1200,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.142374475686431,2794.66187348425,2.87282236399954,-16.8706265561277,20.5471926644402,148.863049267789
5844,11658,9871,"Herzschuh et al., 2019","Mo","Mo99_36",45.77,106.48,1350,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.183328193959305,2504.01654774858,1.46210301636647,-18.1869366166583,19.0440714949583,184.21993561752
5844,11659,9872,"Herzschuh et al., 2019","Mo","Mo99_37",45.77,106.73,1450,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.216740144572626,2292.19300194041,0.369707730336155,-19.2533323303261,17.9252779972375,210.398371390357
5844,11660,9873,"Herzschuh et al., 2019","Mo","Mo99_38",47.68,102.05,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.371986936202793,1925.89930457319,-0.436736814879317,-18.4513633749496,15.2453918296925,323.360526941575
5844,11661,9874,"Herzschuh et al., 2019","Mo","Mo99_39",47.72,101.85,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.373817727610706,1912.28862901504,-0.474592547574777,-18.4084694090846,15.1676037173358,324.257104511072
5844,11662,9875,"Herzschuh et al., 2019","Mo","Mo99_4",48.33,88.88,2232,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.290220098477851,1329.68185790597,-4.96637924624182,-24.3865511424306,11.9476314745579,250.92611935686
5844,11663,9876,"Herzschuh et al., 2019","Mo","Mo99_40",47.8,104.75,1050,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.431328325135812,2113.96138689267,-0.743707107546835,-21.5524877262489,16.8247680785248,351.218029784552
5844,11664,9877,"Herzschuh et al., 2019","Mo","Mo99_41",47.87,105.43,1000,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.447111375609512,2161.27530581394,-0.726815190015925,-22.1642714330097,17.1534038871045,357.064600070056
5844,11665,9878,"Herzschuh et al., 2019","Mo","Mo99_42",47.95,106.08,1195,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.386702571531212,2111.82564149906,-0.91642600564845,-21.9501672070541,16.961410305138,319.002613206021
5844,11666,9879,"Herzschuh et al., 2019","Mo","Mo99_43",48.35,106.57,1200,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.423053852561776,2061.97750392431,-1.32916824142478,-22.6522320164469,16.8375845206958,335.501885612174
5844,11667,9880,"Herzschuh et al., 2019","Mo","Mo99_44",48.45,106.62,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.408974278895409,1907.89523540914,-2.08761649294504,-23.0056053533317,16.0188862026646,327.140518318444
5844,11668,9881,"Herzschuh et al., 2019","Mo","Mo99_45",48.9,106.28,780,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.514955213557884,2338.88081668777,-0.0216969517323916,-22.0055530749278,18.3826751465016,380.2843452541
5844,11669,9882,"Herzschuh et al., 2019","Mo","Mo99_46",49.02,106.13,800,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.532592646626572,2308.59557388294,-0.126809941011544,-21.9676217087149,18.2066729317689,391.336978031385
5844,11670,9883,"Herzschuh et al., 2019","Mo","Mo99_47",49.37,105.72,750,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.572178590376781,2294.8422105568,-0.144516308363111,-21.7740282643145,18.2560420354499,404.503034171015
5844,11671,9884,"Herzschuh et al., 2019","Mo","Mo99_48",49.72,106.27,600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.595715864145051,2413.95494058056,0.470819838830196,-21.1913906627202,18.9784923226941,408.651245550864
5844,11672,9885,"Herzschuh et al., 2019","Mo","Mo99_49",50.2,106.08,560,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.52287206422547,2453.41721816887,0.634642385453861,-20.9981092111931,19.3405643618756,355.762429942588
5844,11673,9886,"Herzschuh et al., 2019","Mo","Mo99_5",48.58,90.1,2079,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.250406880160573,1445.41895592559,-4.71589971380872,-25.3880613517615,12.7026898674204,216.255510537585
5844,11674,9887,"Herzschuh et al., 2019","Mo","Mo99_50",50.27,106.17,550,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.53063868154832206,2444.90779647758,0.563013540236846,-21.1118949522153,19.3641981022227,356.222962773855
5844,11675,9888,"Herzschuh et al., 2019","Mo","Mo99_51",50.03,105.95,600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.534030337235736,2420.40333873244,0.480765844593354,-21.1327985271048,19.1150472249026,366.433562185267
5844,11676,9889,"Herzschuh et al., 2019","Mo","Mo99_52",49.52,106.92,570,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.549813704524202,2476.3904091179,0.676682912232119,-21.2837766949462,19.3580451276706,381.233723953929
5844,11677,9890,"Herzschuh et al., 2019","Mo","Mo99_53",50.25,106.62,600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.562673805737435,2387.17004290074,0.358719885891396,-21.1164732164111,19.003498678539,377.705465931607
5844,11678,9891,"Herzschuh et al., 2019","Mo","Mo99_54",47.8,106.87,1850,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.38097839683941,1556.22281552861,-3.91527433851849,-23.714478221763,14.0818544627602,312.330215420793
5844,11679,9892,"Herzschuh et al., 2019","Mo","Mo99_55",48.07,106.35,1800,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.345103147924504,1658.65768574012,-3.21293343839271,-22.8982556605912,14.6341715125487,289.644808104156
5844,11680,9893,"Herzschuh et al., 2019","Mo","Mo99_56",48.13,109.4,1326,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.353793995763144,2013.92960421622,-1.93461752644443,-23.1841696743165,16.8628124964748,296.366464259146
5844,11681,9894,"Herzschuh et al., 2019","Mo","Mo99_57",48.35,108.58,1600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.440021842131168,1667.10392687545,-3.63255786184494,-24.4364057170354,14.8482441873446,343.969712548921
5844,11682,9895,"Herzschuh et al., 2019","Mo","Mo99_58",48.32,108.67,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.423374214498644,1843.86524033681,-2.71613780619901,-23.809984538463,15.9037504740015,333.329427037468
5844,11683,9896,"Herzschuh et al., 2019","Mo","Mo99_59",47.4,109.92,1100,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.248795727128158,2467.53964326201,0.23464979123311,-21.4988705164533,19.3179591159535,231.085971017384
5844,11684,9897,"Herzschuh et al., 2019","Mo","Mo99_6",48.28,90.67,2094,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.235344251030898,1468.73562348809,-4.72575875038762,-25.9202357837447,12.8723473614802,205.153238783077
5844,11685,9898,"Herzschuh et al., 2019","Mo","Mo99_60",48.22,114.12,800,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.320657842779581,2404.87121807901,-0.00134445439163851,-21.5222653429385,19.4401922011141,277.929154839644
5844,11686,9899,"Herzschuh et al., 2019","Mo","Mo99_61",47.22,116.88,660,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.298076632439884,2629.74865775428,0.689403987511776,-21.8040664940244,20.7897558619694,267.317253744888
5844,11687,9900,"Herzschuh et al., 2019","Mo","Mo99_62",47.67,117.75,600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.325955387644945,2626.21295910518,0.403025050764557,-22.5816566093436,20.8668101427281,279.95943865133
5844,11688,9901,"Herzschuh et al., 2019","Mo","Mo99_63",46.6,109.33,1300,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.251570651337594,2281.50089263571,-0.452810382860041,-21.5914013260291,18.2491093818337,233.606656697225
5844,11689,9902,"Herzschuh et al., 2019","Mo","Mo99_64",47.53,118.88,700,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.356661441976434,2508.32772899604,-0.26953795494917,-23.4699652493191,20.1148976076598,304.931581714341
5844,11690,9903,"Herzschuh et al., 2019","Mo","Mo99_65",46.72,119.77,1050,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.448114491232488,2162.53633425934,-1.28385993036126,-23.0745301617619,17.8030627413719,378.60197828816
5844,11691,9904,"Herzschuh et al., 2019","Mo","Mo99_66",47.48,118.7,710,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.349432326846259,2514.14140805217,-0.173881391397452,-23.2409490577515,20.1444460447385,300.967136645583
5844,11692,9905,"Herzschuh et al., 2019","Mo","Mo99_67",46.33,108.35,1160,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.175692267104055,2630.55701370121,1.56581199945207,-19.156320323867,19.9813433571855,175.712169163535
5844,11693,9906,"Herzschuh et al., 2019","Mo","Mo99_68",45,110.22,900,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.126008645850949,3227.742974651,4.35786208030914,-16.8921459557882,23.0110911173074,139.310764605949
5844,11694,9907,"Herzschuh et al., 2019","Mo","Mo99_69",44.7,109.55,1000,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.13526281667171,3105.92924868953,3.94584843360609,-16.8904441054654,22.3450245826489,148.005219174762
5844,11695,9908,"Herzschuh et al., 2019","Mo","Mo99_7",49.5,89.8,2097,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.344447984591026,1301.40774006053,-5.72415606427804,-26.4932743150056,11.9357486358283,277.549301932334
5844,11696,9909,"Herzschuh et al., 2019","Mo","Mo99_70",44.75,111.25,1000,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.143155684820504,3004.99289841446,3.13756615136991,-18.5477153772304,22.0515209500337,156.083751185071
5844,11697,9910,"Herzschuh et al., 2019","Mo","Mo99_71",48.42,96.03,2100,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.306817490230295,1373.07795498414,-5.73586073458211,-27.1127341219405,12.410851779631,257.667182576388
5844,11698,9911,"Herzschuh et al., 2019","Mo","Mo99_72",47.53,98.52,2455,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.316816565045724,1039.90408982121,-7.12462749612655,-27.0553267478725,10.2008050219796,265.996060186833
5844,11699,9912,"Herzschuh et al., 2019","Mo","Mo99_73",47.58,97.52,2200,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.277741432415632,1265.28022004269,-5.64933188272569,-25.5392732616187,11.6905196713343,238.385516821707
5844,11700,9913,"Herzschuh et al., 2019","Mo","Mo99_74",48.6,95.43,1600,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.254912685324151,1929.17141726146,-3.2764315937775,-26.3939506391993,15.7087858419423,222.203865170886
5844,11701,9914,"Herzschuh et al., 2019","Mo","Mo99_75",46.52,100.1,2029,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.224968251364436,1739.58336719629,-2.07077701167576,-20.6884919527531,14.4339532513904,215.624465076294
5844,11702,9915,"Herzschuh et al., 2019","Mo","Mo99_76",46.52,101.85,2500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.350519450246359,1164.44275460225,-4.38852348795523,-20.7722306308019,10.8243443650803,312.685610308875
5844,11703,9916,"Herzschuh et al., 2019","Mo","Mo99_77",46.13,94.98,1013,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.0695769060455293,3045.50675786228,4.00534963118983,-16.2740565635622,21.1281909400937,72.8501837160358
5844,11704,9917,"Herzschuh et al., 2019","Mo","Mo99_78",46.25,95.37,1020,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.0704207633753054,3037.92348286006,3.76709786936753,-16.9697722093123,21.1534566832854,73.7162412618155
5844,11705,9918,"Herzschuh et al., 2019","Mo","Mo99_79",47.42,94.58,1400,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.141892625501648,2422.61378504956,-0.0303533646826053,-22.2962065498764,18.2807291645217,137.091864623322
5844,11706,9919,"Herzschuh et al., 2019","Mo","Mo99_8",49.5,90.6,1435,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.282516469777661,1979.08108386455,-2.59035578661865,-25.5059654201244,15.9885085882323,239.411036430813
5844,11707,9920,"Herzschuh et al., 2019","Mo","Mo99_80",51.42,99.33,1543,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.541207731214978,1341.69231461115,-4.78261974391065,-24.3832097604153,12.5436091059829,376.97407191443
5844,11708,9921,"Herzschuh et al., 2019","Mo","Mo99_81",51.43,99.33,1543,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",15,"cold evergreen needleleaf forest",0.542187687045966,1340.79666658657,-4.7901949146919,-24.3933404173458,12.5390807245452,377.362459629693
5844,11709,9922,"Herzschuh et al., 2019","Mo","Mo99_82",50.17,99.02,1750,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.400125180696356,1377.3949199387,-5.18388347871242,-26.0174852910368,12.5771797001805,310.316428552346
5844,11710,9923,"Herzschuh et al., 2019","Mo","Mo99_83",49.27,98.25,1700,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.385788745572758,1458.53020135567,-5.83707400025272,-28.733187529354,13.0885156331973,302.693524263955
5844,11711,9924,"Herzschuh et al., 2019","Mo","Mo99_84",48.73,98.02,1760,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.339874066425426,1539.60889233314,-5.78051812117627,-29.4718094318434,13.5394327614242,276.865172368455
5844,11712,9925,"Herzschuh et al., 2019","Mo","Mo99_85",48.48,100.57,1500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.374333796718244,1699.10749864255,-1.9331711892887,-20.3941348073742,14.2089570226705,314.855547117575
5844,11713,9926,"Herzschuh et al., 2019","Mo","Mo99_86",48.45,100.5,1790,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.365496446907507,1492.75442526033,-3.34614933350655,-22.0400510340613,13.0003859821728,306.823944790841
5844,11714,9927,"Herzschuh et al., 2019","Mo","Mo99_87",48.45,100.57,1500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.374293149235787,1698.63177505157,-1.92763845475585,-20.3694013632543,14.203030031498,314.95950596825
5844,11715,9928,"Herzschuh et al., 2019","Mo","Mo99_88",48.35,100.45,1780,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.365095206223957,1498.51142974153,-3.29702309829941,-21.9631179250754,13.0309036332071,306.942802274112
5844,11716,9929,"Herzschuh et al., 2019","Mo","Mo99_89",47.72,100.18,1900,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.327549461388258,1474.48070796062,-3.57704028015145,-22.3195028688695,12.8541816301047,283.200447635391
5844,11717,9930,"Herzschuh et al., 2019","Mo","Mo99_9",47.87,92.3,1157,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.120118481056998,2822.56909038577,1.14913717279723,-23.4729596986415,20.4153062181663,118.039415530571
5844,11718,9931,"Herzschuh et al., 2019","Mo","Mo99_90",47.7,100.32,1900,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.342405579250675,1464.07795551776,-3.35304210766475,-21.5581025440677,12.7429798613908,295.2721971058
5844,11719,9932,"Herzschuh et al., 2019","Mo","Mo99_91",47.62,100.3,1900,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.339357700068789,1470.76959264654,-3.31738236202884,-21.526108013027,12.7829417760615,293.55039719923
5844,11720,9933,"Herzschuh et al., 2019","Mo","Mo99_92",47.27,99.92,2250,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.315537119933076,1260.728596437,-5.07765150218223,-24.0262829509454,11.5635666107952,274.826126676757
5844,11721,9934,"Herzschuh et al., 2019","Mo","Mo99_93",47.18,99.83,2300,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.300084626433297,1276.31365187427,-4.97644572884857,-23.8751195913124,11.6637688148872,265.005813535013
5844,11722,9935,"Herzschuh et al., 2019","Mo","Mo99_94",47.17,99.92,2500,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.33724836132431,1047.44581874344,-6.4702410183448,-25.3593194041252,10.1780691457661,288.345955650958
5844,11723,9936,"Herzschuh et al., 2019","Mo","Mo99_95",47.1,100.53,2300,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.31497590869739,1299.88140217237,-4.41840495788389,-22.5607441662069,11.7622948686992,279.915510372351
5844,11724,9937,"Herzschuh et al., 2019","Mo","Mo99_96",46.48,102.62,1800,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.273668889502958,1969.80545531437,0.0399392996862563,-17.1844477841124,15.5279646252474,261.478315683843
5844,11725,9938,"Herzschuh et al., 2019","Mo","Mo99_97",46.32,101.2,2100,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.265816947146934,1676.28963721023,-1.80684855600212,-19.2529877768295,13.9813566440083,253.321745585141
5844,11726,9939,"Herzschuh et al., 2019","Mo","Mo99_98",45.45,100.63,1450,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.113662286969082,2803.78370708001,3.57703196350941,-14.8547820859485,20.0253588162849,123.896783263771
5844,11727,9940,"Herzschuh et al., 2019","Mo","Mo99_99",48.13,93.88,1200,"not applicable","terrestrial","surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.149762830528446,2624.60664091758,0.159818088896231,-24.0426766877252,19.4318008644882,142.548920184921
5845,11728,15196,"Neotoma","Mobile Bay, MB0810-GC20","MB080-GC20",30.291,-87.883,0,"not known","coastal, estuarine","core","-62","Smith, C.G., M.C. Jones, L.E. Osterman, and D.L. Passeri. 2020. Using multiple environmental proxies and hydrodynamic modeling to investigate late Holocene climate and coastal change within a large Gulf of Mexico estuarine system (Mobile Bay, Alabama, USA). Marine Geology.","10.1016/j.margeo.2020.106218",4,"warm-temperate evergreen and mixed forest",1.13877258752005,7367.19662890479,20.1841003531638,10.8459110203223,27.8274137022342,1518.50652319329
5845,11728,15197,"Neotoma","Mobile Bay, MB0810-GC20","MB080-GC20",30.291,-87.883,0,"not known","coastal, estuarine","core","-25","Smith, C.G., M.C. Jones, L.E. Osterman, and D.L. Passeri. 2020. Using multiple environmental proxies and hydrodynamic modeling to investigate late Holocene climate and coastal change within a large Gulf of Mexico estuarine system (Mobile Bay, Alabama, USA). Marine Geology.","10.1016/j.margeo.2020.106218",4,"warm-temperate evergreen and mixed forest",1.13877258752005,7367.19662890479,20.1841003531638,10.8459110203223,27.8274137022342,1518.50652319329
5845,11728,15198,"Neotoma","Mobile Bay, MB0810-GC20","MB080-GC20",30.291,-87.883,0,"not known","coastal, estuarine","core","8","Smith, C.G., M.C. Jones, L.E. Osterman, and D.L. Passeri. 2020. Using multiple environmental proxies and hydrodynamic modeling to investigate late Holocene climate and coastal change within a large Gulf of Mexico estuarine system (Mobile Bay, Alabama, USA). Marine Geology.","10.1016/j.margeo.2020.106218",4,"warm-temperate evergreen and mixed forest",1.13877258752005,7367.19662890479,20.1841003531638,10.8459110203223,27.8274137022342,1518.50652319329
5846,11729,9661,"Gaillard et al., 1992","Mocklo","Mocklo A",56.155348,15.767135,-1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.85515300497059,2813.45732964555,7.49987983524018,-1.24141701346469,16.6942330817097,571.488357433132
5847,11730,20907,"SMPDSv1","Moczadlo Lake","Swieta_c1",54.2166666666666,17.75,186,"0.062","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.9060804824716,2841.76208402698,7.45245260665486,-2.36529372786171,16.5756829006422,628.432394831579
5847,11731,20908,"SMPDSv1","Moczadlo Lake","Swieta_c2",54.2166666666666,17.75,186,"0.062","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.9060804824716,2841.76208402698,7.45245260665486,-2.36529372786171,16.5756829006422,628.432394831579
5847,11732,20909,"SMPDSv1","Moczadlo Lake","Swieta_c3",54.2166666666666,17.75,186,"0.062","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.9060804824716,2841.76208402698,7.45245260665486,-2.36529372786171,16.5756829006422,628.432394831579
5848,11733,14368,"Neotoma","Mod Pond","MODPOND",34.78767,-120.58619,21,"not known","lake","core","-58","Anderson, R.S., A. Ejarque, J. Rice, S.J. Smith, and C.G. Lebow. 2015. Historic and Holocene environmental change in the San Antonio Creek Basin, mid-coastal California. Quaternary Research 83(2):273-286.","10.1016/j.yqres.2014.11.005",20,"xerophytic woods/scrub",0.306864961457787,5667.9518304019,15.528635151786,10.8603386545247,20.159081511457,404.873659905808
5848,11733,14369,"Neotoma","Mod Pond","MODPOND",34.78767,-120.58619,21,"not known","lake","core","-43","Anderson, R.S., A. Ejarque, J. Rice, S.J. Smith, and C.G. Lebow. 2015. Historic and Holocene environmental change in the San Antonio Creek Basin, mid-coastal California. Quaternary Research 83(2):273-286.","10.1016/j.yqres.2014.11.005",20,"xerophytic woods/scrub",0.306864961457787,5667.9518304019,15.528635151786,10.8603386545247,20.159081511457,404.873659905808
5848,11733,14370,"Neotoma","Mod Pond","MODPOND",34.78767,-120.58619,21,"not known","lake","core","-27","Anderson, R.S., A. Ejarque, J. Rice, S.J. Smith, and C.G. Lebow. 2015. Historic and Holocene environmental change in the San Antonio Creek Basin, mid-coastal California. Quaternary Research 83(2):273-286.","10.1016/j.yqres.2014.11.005",20,"xerophytic woods/scrub",0.306864961457787,5667.9518304019,15.528635151786,10.8603386545247,20.159081511457,404.873659905808
5848,11733,14371,"Neotoma","Mod Pond","MODPOND",34.78767,-120.58619,21,"not known","lake","core","-11","Anderson, R.S., A. Ejarque, J. Rice, S.J. Smith, and C.G. Lebow. 2015. Historic and Holocene environmental change in the San Antonio Creek Basin, mid-coastal California. Quaternary Research 83(2):273-286.","10.1016/j.yqres.2014.11.005",20,"xerophytic woods/scrub",0.306864961457787,5667.9518304019,15.528635151786,10.8603386545247,20.159081511457,404.873659905808
5848,11733,14372,"Neotoma","Mod Pond","MODPOND",34.78767,-120.58619,21,"not known","lake","core","22","Anderson, R.S., A. Ejarque, J. Rice, S.J. Smith, and C.G. Lebow. 2015. Historic and Holocene environmental change in the San Antonio Creek Basin, mid-coastal California. Quaternary Research 83(2):273-286.","10.1016/j.yqres.2014.11.005",20,"xerophytic woods/scrub",0.306864961457787,5667.9518304019,15.528635151786,10.8603386545247,20.159081511457,404.873659905808
5849,11734,11081,"Bush et al., 2020","MOD1","MOD1",-11.909,-71.344,345,"not known","terrestrial","moss polster or moss","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.06131738691436,8994.54690794722,24.6425942683485,22.8554316155926,25.5647410240191,2979.55342415792
5850,11735,20910,"SMPDSv1","Modderpfuhl","Barssee_ss",52.6796,13.9084,29,"0.017","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.777616585468451,3257.02233580485,8.83289095146507,-0.842571686413658,17.9143495766891,555.299167421238
5851,11736,15553,"Neotoma","Mohawk Pond","DCG05",41.81115,-73.292685,360,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.32966398287413,3288.74386902806,7.72442143762435,-6.4758929136309,20.646990927803,1124.47446070597
5852,11737,20911,"SMPDSv1","Mohos","EPDcoretop_E36",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11738,6032,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_0",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","-17","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11739,6033,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_10",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","1","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11740,6034,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_15",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","10","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11741,6035,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_20",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","19","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11742,6036,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_25",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","29","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11743,6037,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_30",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","38","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5852,11744,6038,"EMBSeCBIO","Mohos","Mohos (EPDcoretop_E35)_35",46.083333,25.916667,1050,"0.08","terrestrial, bog/fen/swamp","core","47","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.01501837886603,2342.59629180661,4.91267599439609,-7.29357628722668,14.6206258806684,779.170502351932
5853,11745,20912,"SMPDSv1","MOKH","MOKH1",43.33,132.9,460,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.106047058468,2509.05586602,2.9009825998147,-15.0861786179416,18.5349836296799,813.372191823023
5853,11746,20919,"SMPDSv1","MOKH","MOKH10",43.22,133.25,170,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05958506978132,2877.03318790916,4.76059747950522,-12.8285180352398,20.2076209327143,807.754961297612
5853,11747,21001,"SMPDSv1","MOKH","MOKH100",42.9,134.05,170,"not applicable","coastal, other","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.14846969615046,2803.98615503116,4.75376017406518,-12.0007928395076,19.8952904428917,869.089144461183
5853,11748,21002,"SMPDSv1","MOKH","MOKH101",42.93,133.1,150,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03310060346906,2926.62088557455,4.97660496408412,-12.6344813182461,20.41579107751,796.563940372915
5853,11749,21003,"SMPDSv1","MOKH","MOKH102",43.05,133.15,130,"not applicable","fluvial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0260174301128,2953.869363829,5.08537622209835,-12.5499944943028,20.5331897294748,791.884212734831
5853,11750,21004,"SMPDSv1","MOKH","MOKH103",43.22,133.27,150,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06077837975876,2902.00445410016,4.90602057783997,-12.5957502074808,20.313090626841,810.487396097621
5853,11751,21005,"SMPDSv1","MOKH","MOKH104",43.27,133.3,170,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04044247218264,2873.67659258215,4.60556443384814,-13.285422995079,20.1773835539364,791.862564032182
5853,11752,21006,"SMPDSv1","MOKH","MOKH105",43.37,133.37,200,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04577163684322,2832.44542589057,4.39530031485058,-13.5506878220566,19.9938149294163,791.739774726557
5853,11753,21007,"SMPDSv1","MOKH","MOKH106",43.37,133.37,200,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04577163684322,2832.44542589057,4.39530031485058,-13.5506878220566,19.9938149294163,791.739774726557
5853,11754,21008,"SMPDSv1","MOKH","MOKH107",43.37,133.35,300,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07273216478204,2700.32168072988,3.80242713747252,-14.1303087971519,19.4058481936567,802.205336403171
5853,11755,21009,"SMPDSv1","MOKH","MOKH108",43.35,133.52,300,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07932205651554,2695.01467950642,3.80039047056738,-14.0760194230765,19.3833433087688,806.655987056351
5853,11756,21010,"SMPDSv1","MOKH","MOKH109",43.35,133.52,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09252943180979,2629.78377426255,3.50115508717663,-14.373524608037,19.0886161856713,811.458723481226
5853,11757,20920,"SMPDSv1","MOKH","MOKH11",43.3,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04881655359173,2832.2085592028,4.41655260446767,-13.480357752981,19.9947168934764,794.799275266098
5853,11758,21011,"SMPDSv1","MOKH","MOKH110",43.35,133.57,500,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13391311036899,2436.28365770614,2.59907871066176,-15.2646132080726,18.198370914481,826.229700715585
5853,11759,21012,"SMPDSv1","MOKH","MOKH111",43.35,133.58,600,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16142534049417,2310.87499203888,1.99821885016736,-15.8656769558487,17.6081027330005,835.461199479656
5853,11760,21013,"SMPDSv1","MOKH","MOKH112",43.35,133.6,700,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18936824644572,2187.59941656257,1.39546315319519,-16.4707706191699,17.0169078206464,844.462210483853
5853,11761,21014,"SMPDSv1","MOKH","MOKH113",43.35,133.53,400,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10615665283644,2564.85468758612,3.20129285878091,-14.6697143008855,18.7926130284662,816.407663599014
5853,11762,21015,"SMPDSv1","MOKH","MOKH114",43.35,133.53,450,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11966136485359,2500.79609427989,2.90193226408342,-14.967740234288,18.4979175530943,821.173618574412
5853,11763,21016,"SMPDSv1","MOKH","MOKH115",43.35,133.57,500,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13391311036899,2436.28365770614,2.59907871066176,-15.2646132080726,18.198370914481,826.229700715585
5853,11764,21017,"SMPDSv1","MOKH","MOKH116",43.35,133.57,550,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14756224760287,2373.41300033612,2.29921141822132,-15.5647578908899,17.9038083617079,830.846851008103
5853,11765,21018,"SMPDSv1","MOKH","MOKH117",43.35,133.58,650,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17538562869127,2249.12635032251,1.6982234118845,-16.1663601736442,17.3135749556559,840.040741344761
5853,11766,21019,"SMPDSv1","MOKH","MOKH118",43.35,133.52,300,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07932205651554,2695.01467950642,3.80039047056738,-14.0760194230765,19.3833433087688,806.655987056351
5853,11767,21020,"SMPDSv1","MOKH","MOKH119",43.37,133.88,325,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1184312665713,2627.19897360596,3.59410999842464,-14.0089271654024,19.0839461195087,828.443798365728
5853,11768,20921,"SMPDSv1","MOKH","MOKH12",43.3,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04881655359173,2832.2085592028,4.41655260446767,-13.480357752981,19.9947168934764,794.799275266098
5853,11769,21021,"SMPDSv1","MOKH","MOKH120",43.88,133.67,5,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.937615094526207,3106.46915138152,5.12928402820305,-13.9085325351941,21.16647599836,720.511629247221
5853,11770,21022,"SMPDSv1","MOKH","MOKH121",43.88,133.67,5,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.937615094526207,3106.46915138152,5.12928402820305,-13.9085325351941,21.16647599836,720.511629247221
5853,11771,21023,"SMPDSv1","MOKH","MOKH122",43.9,133.68,50,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.952231250758778,3043.08182154363,4.87297607017105,-14.1061531138427,20.8913048431266,727.494604996489
5853,11772,21024,"SMPDSv1","MOKH","MOKH123",42.98,133.7,90,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08388122776923,2964.80823874237,5.33184828584333,-11.7862936012162,20.5871864551781,834.051636065897
5853,11773,21025,"SMPDSv1","MOKH","MOKH124",43.03,133.72,140,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09053218997363,2897.76255736842,5.00574161567762,-12.1919380943027,20.297999450317,833.751929099073
5853,11774,21026,"SMPDSv1","MOKH","MOKH125",43.28,133.85,275,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11512765766055,2688.6566952859,3.91821956712219,-13.5879426425908,19.3649511244751,831.573770063926
5853,11775,21027,"SMPDSv1","MOKH","MOKH126",43.37,133.88,310,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11658848402825,2645.30878256103,3.68389443339211,-13.9040751114172,19.1666187128487,828.410421307292
5853,11776,21028,"SMPDSv1","MOKH","MOKH127",43.48,134.02,525,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14397603895485,2384.96288488081,2.36524194986291,-15.4429612808554,17.9548990163823,827.242388766722
5853,11777,21029,"SMPDSv1","MOKH","MOKH128",43.43,133.85,250,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10501914108714,2720.47730740952,4.02660900526789,-13.5601439530254,19.5042366650392,824.626190359226
5853,11778,21030,"SMPDSv1","MOKH","MOKH129",43.43,133.83,500,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13896794790326,2420.82077390586,2.54233884311746,-15.2618474778041,18.1252315885087,827.223088924434
5853,11779,20922,"SMPDSv1","MOKH","MOKH13",43.3,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04881655359173,2832.2085592028,4.41655260446767,-13.480357752981,19.9947168934764,794.799275266098
5853,11780,21031,"SMPDSv1","MOKH","MOKH130",43.43,133.83,500,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13896794790326,2420.82077390586,2.54233884311746,-15.2618474778041,18.1252315885087,827.223088924434
5853,11781,21032,"SMPDSv1","MOKH","MOKH131",43.43,133.83,450,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13182882777371,2479.79935649048,2.83928692201837,-14.9233874914428,18.401858464952,826.597694122482
5853,11782,21033,"SMPDSv1","MOKH","MOKH133",43.43,133.83,450,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13182882777371,2479.79935649048,2.83928692201837,-14.9233874914428,18.401858464952,826.597694122482
5853,11783,21034,"SMPDSv1","MOKH","MOKH134",43.12,133.75,150,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12307989812077,2868.16654721404,4.9423728433347,-12.0677539793296,20.1707818060375,853.940927712438
5853,11784,21035,"SMPDSv1","MOKH","MOKH135",43.42,133.85,200,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09900592029861,2782.24037396664,4.32704382774093,-13.2084728055045,19.7804489658432,824.619566446701
5853,11785,21036,"SMPDSv1","MOKH","MOKH136",42.88,133.67,5,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07386162345852,3080.40184275148,5.88866655511949,-11.0809558211939,21.0764149531004,835.509486548588
5853,11786,21037,"SMPDSv1","MOKH","MOKH137",43.42,133.85,220,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10160398934016,2757.4802403531,4.20803002400877,-13.3449772964563,19.6699111825249,824.815811682884
5853,11787,21038,"SMPDSv1","MOKH","MOKH138",43.42,133.85,200,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09900592029861,2782.24037396664,4.32704382774093,-13.2084728055045,19.7804489658432,824.619566446701
5853,11788,21039,"SMPDSv1","MOKH","MOKH139",43.42,133.85,180,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09642109799289,2807.21902233803,4.44605763147309,-13.0719683145527,19.8909867491615,824.423321210517
5853,11789,20923,"SMPDSv1","MOKH","MOKH14",43.3,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04881655359173,2832.2085592028,4.41655260446767,-13.480357752981,19.9947168934764,794.799275266098
5853,11790,21040,"SMPDSv1","MOKH","MOKH140",43.57,133.6,650,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17788925730701,2246.54186145305,1.68149017769123,-16.1852259776085,17.3006617089572,838.930815194612
5853,11791,21041,"SMPDSv1","MOKH","MOKH141",43.53,133.63,550,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1471654935036,2371.3025923707,2.27143442681323,-15.6233054468911,17.8910682602786,828.20838250786
5853,11792,21042,"SMPDSv1","MOKH","MOKH142",43.57,133.6,650,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17788925730701,2246.54186145305,1.68149017769123,-16.1852259776085,17.3006617089572,838.930815194612
5853,11793,21043,"SMPDSv1","MOKH","MOKH143",43.52,133.62,500,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13240292698003,2434.85137412308,2.56950235301063,-15.3372616034543,18.188401720282,822.983064810015
5853,11794,21044,"SMPDSv1","MOKH","MOKH144",43.47,133.72,400,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1074193974552,2559.92015515537,3.16531908132366,-14.7241521687561,18.7674768888009,815.335597148857
5853,11795,21045,"SMPDSv1","MOKH","MOKH145",43.42,133.85,250,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10552520658984,2720.38563269432,4.02950931841053,-13.549734032884,19.5041045075474,825.11017953716
5853,11796,21046,"SMPDSv1","MOKH","MOKH146",43.42,133.85,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09900592029861,2782.24037396664,4.32704382774093,-13.2084728055045,19.7804489658432,824.619566446701
5853,11797,21047,"SMPDSv1","MOKH","MOKH147",43.4,133.87,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10112379224432,2780.98574562118,4.33314328449209,-13.1745327397467,19.7756804107774,826.29109895363
5853,11798,21048,"SMPDSv1","MOKH","MOKH148",43.12,133.75,120,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1209334836458,2907.07610571287,5.1353713189279,-11.8192422243334,20.33921461307,855.10495725572
5853,11799,21049,"SMPDSv1","MOKH","MOKH149",43.08,133.73,100,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08339106249691,2952.02208075044,5.25697583810329,-11.9073368334033,20.5316690483049,831.690777710276
5853,11800,20924,"SMPDSv1","MOKH","MOKH15",43.3,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04881655359173,2832.2085592028,4.41655260446767,-13.480357752981,19.9947168934764,794.799275266098
5853,11801,21050,"SMPDSv1","MOKH","MOKH150",42.95,133.68,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07807337043989,3019.37475481856,5.59150547177269,-11.4689749400207,20.8196385064808,833.798795869363
5853,11802,21051,"SMPDSv1","MOKH","MOKH151",42.9,133.68,5,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07374140906658,3080.36570957945,5.88668958964032,-11.0874065394847,21.0762293077911,835.186855000651
5853,11803,21052,"SMPDSv1","MOKH","MOKH152",43.57,133.68,900,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.25679151980887,1941.84087374073,0.195163944090651,-17.5952728786862,15.8115364509554,865.528835113581
5853,11804,21053,"SMPDSv1","MOKH","MOKH153",43.58,133.57,720,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20079515542896,2160.54979388019,1.27410344177968,-16.562600970551,16.8884924934695,847.275224288612
5853,11805,21054,"SMPDSv1","MOKH","MOKH154",43.57,133.6,650,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17788925730701,2246.54186145305,1.68149017769123,-16.1852259776085,17.3006617089572,838.930815194612
5853,11806,21055,"SMPDSv1","MOKH","MOKH155",43.52,133.62,500,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13240292698003,2434.85137412308,2.56950235301063,-15.3372616034543,18.188401720282,822.983064810015
5853,11807,21056,"SMPDSv1","MOKH","MOKH156",43.42,133.85,250,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10552520658984,2720.38563269432,4.02950931841053,-13.549734032884,19.5041045075474,825.11017953716
5853,11808,21057,"SMPDSv1","MOKH","MOKH157",43.42,133.85,200,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
5853,11809,21058,"SMPDSv1","MOKH","MOKH158",43.12,133.75,120,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
5853,11810,21059,"SMPDSv1","MOKH","MOKH159",42.95,133.68,70,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
5853,11811,20925,"SMPDSv1","MOKH","MOKH16",43.32,133.37,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04856084195399,2831.82328643148,4.41026763986445,-13.4959658134228,19.9925558941196,794.32804722122
5853,11812,21060,"SMPDSv1","MOKH","MOKH160",42.88,133.67,5,"not applicable","coastal, other","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07386162345852,3080.40184275148,5.88866655511949,-11.0809558211939,21.0764149531004,835.509486548588
5853,11813,21061,"SMPDSv1","MOKH","MOKH161",42.88,133.67,5,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07386162345852,3080.40184275148,5.88866655511949,-11.0809558211939,21.0764149531004,835.509486548588
5853,11814,21062,"SMPDSv1","MOKH","MOKH162",42.9,133.68,50,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07993681213892,3018.54607979048,5.59744100179933,-11.4386780394923,20.8162148083009,835.676205207523
5853,11815,21063,"SMPDSv1","MOKH","MOKH163",42.95,133.68,80,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.0823428095508,2978.59855733491,5.3988572511452,-11.7019132190714,20.646103042818,834.200309079628
5853,11816,21064,"SMPDSv1","MOKH","MOKH164",43.42,133.85,200,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09900592029861,2782.24037396664,4.32704382774093,-13.2084728055045,19.7804489658432,824.619566446701
5853,11817,21065,"SMPDSv1","MOKH","MOKH165",43.42,133.85,250,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10552520658984,2720.38563269432,4.02950931841053,-13.549734032884,19.5041045075474,825.11017953716
5853,11818,21066,"SMPDSv1","MOKH","MOKH166",43.52,133.62,500,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13240292698003,2434.85137412308,2.56950235301063,-15.3372616034543,18.188401720282,822.983064810015
5853,11819,21067,"SMPDSv1","MOKH","MOKH167",43.57,133.6,670,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18421913460454,2221.7778645545,1.56386516100005,-16.2952794074897,17.1821426908889,841.21628638756
5853,11820,21068,"SMPDSv1","MOKH","MOKH168",42.88,133.67,5,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07386162345852,3080.40184275148,5.88866655511949,-11.0809558211939,21.0764149531004,835.509486548588
5853,11821,21069,"SMPDSv1","MOKH","MOKH169",43.42,133.85,250,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10552520658984,2720.38563269432,4.02950931841053,-13.549734032884,19.5041045075474,825.11017953716
5853,11822,20926,"SMPDSv1","MOKH","MOKH17",43.32,133.37,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04856084195399,2831.82328643148,4.41026763986445,-13.4959658134228,19.9925558941196,794.32804722122
5853,11823,21070,"SMPDSv1","MOKH","MOKH170",43.57,133.6,650,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.17788925730701,2246.54186145305,1.68149017769123,-16.1852259776085,17.3006617089572,838.930815194612
5853,11824,21071,"SMPDSv1","MOKH","MOKH171",43.37,133.92,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12275800510735,2595.28879572887,3.44218372565189,-14.1713942270962,18.938622348493,829.212849561467
5853,11825,21072,"SMPDSv1","MOKH","MOKH172",43.37,133.92,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12275800510735,2595.28879572887,3.44218372565189,-14.1713942270962,18.938622348493,829.212849561467
5853,11826,21073,"SMPDSv1","MOKH","MOKH173",43.37,133.92,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12275800510735,2595.28879572887,3.44218372565189,-14.1713942270962,18.938622348493,829.212849561467
5853,11827,21074,"SMPDSv1","MOKH","MOKH174",43.37,133.92,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12275800510735,2595.28879572887,3.44218372565189,-14.1713942270962,18.938622348493,829.212849561467
5853,11828,21075,"SMPDSv1","MOKH","MOKH175",43.37,133.92,350,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12275800510735,2595.28879572887,3.44218372565189,-14.1713942270962,18.938622348493,829.212849561467
5853,11829,21076,"SMPDSv1","MOKH","MOKH176",43.28,134.68,4,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.14650868994922,2951.3019193104,5.51673081686861,-10.8989924124853,20.5260884833668,869.663216036077
5853,11830,21077,"SMPDSv1","MOKH","MOKH177",43.17,131.88,10,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.94228155593024,3193.0670446801,6.04017880566418,-11.8524469723629,21.5128842325569,746.672910909366
5853,11831,21078,"SMPDSv1","MOKH","MOKH178",43.08,131.88,20,"not applicable","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.943876254512095,3181.09112114648,5.99293451171115,-11.8896734158326,21.4627039158197,748.440509982198
5853,11832,20927,"SMPDSv1","MOKH","MOKH18",43.32,133.37,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04856084195399,2831.82328643148,4.41026763986445,-13.4959658134228,19.9925558941196,794.32804722122
5853,11833,21079,"SMPDSv1","MOKH","MOKH180",43.17,131.88,9,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.942270093582782,3194.5511614498,6.04717122230299,-11.8440198629479,21.5189810081624,746.735043448168
5853,11834,21080,"SMPDSv1","MOKH","MOKH181",43.17,131.88,8,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.942258637934021,3196.0352782195,6.0541636389418,-11.8355927535329,21.525077783768,746.797175986969
5853,11835,21081,"SMPDSv1","MOKH","MOKH182",43.17,131.88,15,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.942338968050511,3185.64646083159,6.00521672247012,-11.8945825194379,21.4824003545291,746.36224821536
5853,11836,21082,"SMPDSv1","MOKH","MOKH183",42.65,131.45,100,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.93300631085599,3105.61604719281,5.65838943707264,-12.2405039402412,21.1350537534728,745.770908096732
5853,11837,21083,"SMPDSv1","MOKH","MOKH184",42.65,131.45,100,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.93300631085599,3105.61604719281,5.65838943707264,-12.2405039402412,21.1350537534728,745.770908096732
5853,11838,21084,"SMPDSv1","MOKH","MOKH185",42.65,131.45,80,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.935026634388174,3133.23166215411,5.79584668897435,-12.0647959802701,21.2506538145844,748.481877167152
5853,11839,21085,"SMPDSv1","MOKH","MOKH186",42.65,131.45,80,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.935026634388174,3133.23166215411,5.79584668897435,-12.0647959802701,21.2506538145844,748.481877167152
5853,11840,21086,"SMPDSv1","MOKH","MOKH187",42.9,131.72,50,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.938075260328719,3146.0892891405,5.8328466843339,-12.0694663027149,21.3151566119809,745.911443766139
5853,11841,21087,"SMPDSv1","MOKH","MOKH188",42.9,131.72,45,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.938652538789153,3152.95482626334,5.86720501775557,-12.0249879529515,21.3438830148402,746.622948124908
5853,11842,21088,"SMPDSv1","MOKH","MOKH189",42.9,131.72,45,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.938652538789153,3152.95482626334,5.86720501775557,-12.0249879529515,21.3438830148402,746.622948124908
5853,11843,20928,"SMPDSv1","MOKH","MOKH19",43.32,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04771500966749,2832.4552357107,4.41065480509548,-13.5019403901682,19.9952193283216,793.774052481141
5853,11844,21089,"SMPDSv1","MOKH","MOKH194",42.58,131.17,70,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.914944713749413,3187.35213584768,6.00502822525981,-11.9024979231732,21.4574567765761,741.770636432136
5853,11845,21090,"SMPDSv1","MOKH","MOKH195",42.58,131.17,75,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.914392949118232,3180.28173790955,5.96963657902289,-11.9484367398705,21.4280138711616,741.071318374896
5853,11846,21091,"SMPDSv1","MOKH","MOKH196",42.58,131.17,70,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.914944713749413,3187.35213584768,6.00502822525981,-11.9024979231732,21.4574567765761,741.770636432136
5853,11847,21092,"SMPDSv1","MOKH","MOKH197",42.58,131.17,70,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.914944713749413,3187.35213584768,6.00502822525981,-11.9024979231732,21.4574567765761,741.770636432136
5853,11848,21093,"SMPDSv1","MOKH","MOKH199",45.25,133.5,170,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.916258000652391,2888.42561848752,3.32905886965923,-17.4160604195229,20.3384647107356,670.598757121821
5853,11849,20913,"SMPDSv1","MOKH","MOKH2",43.33,132.75,350,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05147105403692,2673.7218764045,3.6157508816884,-14.5074512967152,19.2833412860243,787.60548463902
5853,11850,21094,"SMPDSv1","MOKH","MOKH200",45.25,133.5,170,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.916258000652391,2888.42561848752,3.32905886965923,-17.4160604195229,20.3384647107356,670.598757121821
5853,11851,21095,"SMPDSv1","MOKH","MOKH202",45.25,133.5,170,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.916258000652391,2888.42561848752,3.32905886965923,-17.4160604195229,20.3384647107356,670.598757121821
5853,11852,21096,"SMPDSv1","MOKH","MOKH204",45.25,133.5,170,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.916258000652391,2888.42561848752,3.32905886965923,-17.4160604195229,20.3384647107356,670.598757121821
5853,11853,21097,"SMPDSv1","MOKH","MOKH206",49.18,134,560,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20196307338487,2151.19988075928,-2.34616796563952,-26.4285090825136,18.0992241131694,718.562231094417
5853,11854,21098,"SMPDSv1","MOKH","MOKH207",49.1,133.83,415,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15463938327594,2336.48175295587,-1.2480903670782,-25.1837402646118,19.0293991329023,707.583571921987
5853,11855,21099,"SMPDSv1","MOKH","MOKH208",48.95,133.97,230,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10455837482983,2572.4028163707,0.170557230000058,-23.459421811703,20.1325807538345,697.979682346108
5853,11856,21100,"SMPDSv1","MOKH","MOKH209",48.88,134.08,165,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0889436667471,2656.85306247225,0.677275152319236,-22.8219214077405,20.5086027437159,695.652438151485
5853,11857,20929,"SMPDSv1","MOKH","MOKH21",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11858,21101,"SMPDSv1","MOKH","MOKH210",48.82,134.22,80,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0698563277311,2769.39459104565,1.33936492948064,-21.9901364070782,21.001293907767,692.871467003305
5853,11859,21102,"SMPDSv1","MOKH","MOKH211",50.07,136.88,38,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10964002814577,2413.80198011816,0.144535515498082,-22.1218697739063,18.6283154538399,660.460028423068
5853,11860,21103,"SMPDSv1","MOKH","MOKH212",50.07,136.9,34,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1079096448402,2417.20040856479,0.1576237860142,-22.1180010492541,18.647623278513,659.538370483591
5853,11861,21104,"SMPDSv1","MOKH","MOKH213",49.6,137.07,35,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12358894999709,2453.06318479993,0.449323581297127,-21.6039364720513,18.7829723831066,679.21863454077
5853,11862,21105,"SMPDSv1","MOKH","MOKH214",49.3,136.5,30,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.137868880919,2544.08437577303,0.897374716586728,-21.1621945629004,19.2930397781223,702.211855021964
5853,11863,21106,"SMPDSv1","MOKH","MOKH215",49,136.32,43,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14456701895516,2577.67091906269,1.06851495352538,-20.9729899459272,19.4837602665824,715.321740379563
5853,11864,21107,"SMPDSv1","MOKH","MOKH216",48.18,136.1,60,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12713610705683,2681.78376752424,1.63335402890773,-20.3042304775253,20.0133138105327,730.819345648286
5853,11865,21108,"SMPDSv1","MOKH","MOKH217",49.23,138.95,260,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.2895327297261,1910.32237078321,-0.261168484627672,-18.331805069003,15.5709159924764,748.954056854623
5853,11866,21109,"SMPDSv1","MOKH","MOKH218",49.33,138,336,"not applicable","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22454802033236,2019.81341078356,-1.00050584270475,-21.4856037905883,16.029374075316,715.134109073462
5853,11867,21110,"SMPDSv1","MOKH","MOKH219",49.32,137.6,250,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19826159706038,2168.19107436177,-0.486178609855411,-21.4844079008953,16.9820728746489,710.660112867262
5853,11868,20930,"SMPDSv1","MOKH","MOKH22",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11869,21111,"SMPDSv1","MOKH","MOKH220",49.53,137.27,137,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15515895781855,2303.12219973023,-0.0631350127064252,-21.6106989575179,17.8453639454598,689.559070806557
5853,11870,21112,"SMPDSv1","MOKH","MOKH221",49.17,139.23,351,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.32363842659053,1831.86005570685,-0.551528183099404,-18.3617719751385,15.1754935324587,766.19311431312
5853,11871,21113,"SMPDSv1","MOKH","MOKH223",49.17,140.22,110,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30589678386734,2006.84864133368,0.602486756913687,-16.8454743604086,16.0892073980101,766.683665559813
5853,11872,21114,"SMPDSv1","MOKH","MOKH224",49.33,138.25,480,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28061339756292,1830.03947444562,-1.65191980871141,-21.4254504400439,15.042717548933,735.243356212576
5853,11873,21115,"SMPDSv1","MOKH","MOKH225",53.77,140.23,5,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17706536586168,1895.62967628291,-1.83278325098935,-22.289108096372,15.8121806937954,620.365004149203
5853,11874,21116,"SMPDSv1","MOKH","MOKH226",53.53,140.2,30,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16807355940181,1898.24383390388,-1.80189053013838,-22.2261541494209,15.832808883077,619.442258755889
5853,11875,21117,"SMPDSv1","MOKH","MOKH227",53.53,140.2,30,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16807355940181,1898.24383390388,-1.80189053013838,-22.2261541494209,15.832808883077,619.442258755889
5853,11876,21118,"SMPDSv1","MOKH","MOKH228",44.67,132.6,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.82409286667539,3118.55620012513,4.53636503637803,-15.9072471641917,21.3435200469109,630.59411363182
5853,11877,20931,"SMPDSv1","MOKH","MOKH23",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11878,21119,"SMPDSv1","MOKH","MOKH231",44.67,132.6,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.82409286667539,3118.55620012513,4.53636503637803,-15.9072471641917,21.3435200469109,630.59411363182
5853,11879,21120,"SMPDSv1","MOKH","MOKH233",44.82,132.07,56,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828545572473614,3123.86068154282,4.50407752963381,-16.0467058679504,21.4580724736278,631.936237618507
5853,11880,21121,"SMPDSv1","MOKH","MOKH234",44.82,132.07,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828475332924479,3131.44752010314,4.53342713995763,-16.0309348501483,21.4931389287748,632.000365397508
5853,11881,21122,"SMPDSv1","MOKH","MOKH237",44.6,133.2,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837133517873419,3092.64843834435,4.36533240682597,-16.211356257503,21.2328528984133,636.845441905865
5853,11882,21123,"SMPDSv1","MOKH","MOKH238",44.62,133.23,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83763984188405,3091.85704827528,4.35044063449574,-16.250781224589,21.2381349174711,636.778362957376
5853,11883,21124,"SMPDSv1","MOKH","MOKH239",44.62,133.23,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83763984188405,3091.85704827528,4.35044063449574,-16.250781224589,21.2381349174711,636.778362957376
5853,11884,20932,"SMPDSv1","MOKH","MOKH24",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11885,21125,"SMPDSv1","MOKH","MOKH240",44.62,133.23,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83763984188405,3091.85704827528,4.35044063449574,-16.250781224589,21.2381349174711,636.778362957376
5853,11886,21126,"SMPDSv1","MOKH","MOKH241",44.62,133.23,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83763984188405,3091.85704827528,4.35044063449574,-16.250781224589,21.2381349174711,636.778362957376
5853,11887,21127,"SMPDSv1","MOKH","MOKH242",44.62,133.23,50,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83763984188405,3091.85704827528,4.35044063449574,-16.250781224589,21.2381349174711,636.778362957376
5853,11888,20933,"SMPDSv1","MOKH","MOKH25",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11889,20934,"SMPDSv1","MOKH","MOKH26",43.32,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04687629904601,2833.0820949091,4.41105776389416,-13.5078068452489,19.9978622069301,793.224827798913
5853,11890,20935,"SMPDSv1","MOKH","MOKH27",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11891,20936,"SMPDSv1","MOKH","MOKH28",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11892,20937,"SMPDSv1","MOKH","MOKH29",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11893,20914,"SMPDSv1","MOKH","MOKH3",43.35,132.75,450,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09101989070042,2541.18187112712,3.02414843369157,-15.053025849586,18.6863306107656,805.50557969841
5853,11894,20938,"SMPDSv1","MOKH","MOKH30",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11895,20939,"SMPDSv1","MOKH","MOKH31",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11896,20940,"SMPDSv1","MOKH","MOKH32",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11897,20941,"SMPDSv1","MOKH","MOKH33",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11898,20942,"SMPDSv1","MOKH","MOKH34",43.33,133.38,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05644291465656,2791.60173394403,4.22825352327505,-13.6795702568635,19.8145004021026,797.2059424611
5853,11899,20943,"SMPDSv1","MOKH","MOKH35",43.38,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04437396528112,2833.19758336056,4.39269359665465,-13.5675359218139,19.9967087619312,790.672920788065
5853,11900,20944,"SMPDSv1","MOKH","MOKH36",43.38,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04437396528112,2833.19758336056,4.39269359665465,-13.5675359218139,19.9967087619312,790.672920788065
5853,11901,20945,"SMPDSv1","MOKH","MOKH38",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11902,20946,"SMPDSv1","MOKH","MOKH39",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11903,20947,"SMPDSv1","MOKH","MOKH40",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11904,20948,"SMPDSv1","MOKH","MOKH41",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11905,20949,"SMPDSv1","MOKH","MOKH42",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11906,20950,"SMPDSv1","MOKH","MOKH43",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11907,20951,"SMPDSv1","MOKH","MOKH44",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11908,20952,"SMPDSv1","MOKH","MOKH45",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11909,20953,"SMPDSv1","MOKH","MOKH46",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11910,20954,"SMPDSv1","MOKH","MOKH47",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11911,20955,"SMPDSv1","MOKH","MOKH48",43.35,133.33,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04521736077516,2833.4506671274,4.40214194123412,-13.5403646649875,19.9986009303871,791.68264157201
5853,11912,20956,"SMPDSv1","MOKH","MOKH49",43.35,133.35,230,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05422899888378,2792.75272067702,4.22340650637698,-13.7081141157196,19.8188710902347,795.467838659101
5853,11913,20957,"SMPDSv1","MOKH","MOKH50",43.3,133.37,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.998938584279309,3101.27485413157,5.59935593733713,-12.3026830902659,21.1592810727215,775.287372082024
5853,11914,20958,"SMPDSv1","MOKH","MOKH51",43.08,131.88,17,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.943844385393384,3185.56200832283,6.01400970836599,-11.8642416207471,21.4810625251415,748.632762021023
5853,11915,20959,"SMPDSv1","MOKH","MOKH53",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11916,20960,"SMPDSv1","MOKH","MOKH54",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11917,20961,"SMPDSv1","MOKH","MOKH55",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11918,20962,"SMPDSv1","MOKH","MOKH56",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11919,20963,"SMPDSv1","MOKH","MOKH59",43.35,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04605092595708,2832.82608568652,4.40172316776602,-13.5345844323361,19.9959677434842,792.227980542506
5853,11920,20915,"SMPDSv1","MOKH","MOKH6",43.33,132.98,400,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08455008298292,2587.75031519493,3.25833442821295,-14.749947829152,18.893900342838,804.198006460899
5853,11921,20964,"SMPDSv1","MOKH","MOKH60",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11922,20965,"SMPDSv1","MOKH","MOKH61",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11923,20966,"SMPDSv1","MOKH","MOKH62",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11924,20967,"SMPDSv1","MOKH","MOKH63",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11925,20968,"SMPDSv1","MOKH","MOKH64",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11926,20969,"SMPDSv1","MOKH","MOKH65",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11927,20970,"SMPDSv1","MOKH","MOKH66",43.35,133.3,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0439809219686,2834.3776092049,4.40279929497939,-13.5488295763554,20.0025107248923,790.873939014001
5853,11928,20971,"SMPDSv1","MOKH","MOKH67",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11929,20972,"SMPDSv1","MOKH","MOKH68",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11930,20973,"SMPDSv1","MOKH","MOKH69",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11931,20916,"SMPDSv1","MOKH","MOKH7",43.22,133.25,170,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05958506978132,2877.03318790916,4.76059747950522,-12.8285180352398,20.2076209327143,807.754961297612
5853,11932,20974,"SMPDSv1","MOKH","MOKH71",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11933,20975,"SMPDSv1","MOKH","MOKH72",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11934,20976,"SMPDSv1","MOKH","MOKH73",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11935,20977,"SMPDSv1","MOKH","MOKH75",43.35,133.32,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04480334447819,2833.76098541418,4.40235722498823,-13.5432136546305,19.9999095802299,791.411823671654
5853,11936,20978,"SMPDSv1","MOKH","MOKH76",43.48,133.37,270,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05990970279041,2740.37838462139,3.95016668202345,-14.0585468547044,19.5819568218604,794.41901562518
5853,11937,20979,"SMPDSv1","MOKH","MOKH77",43.37,133.47,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05006382607005,2829.23017795412,4.393493027227,-13.5198602816274,19.9802788816992,794.548542861151
5853,11938,20980,"SMPDSv1","MOKH","MOKH78",43.37,133.37,250,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05949139475128,2765.79123465738,4.09842448791837,-13.8384992906013,19.6985465210205,797.179136169698
5853,11939,20981,"SMPDSv1","MOKH","MOKH79",43.37,133.42,350,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08890090241936,2632.84947962439,3.50194088522567,-14.4061317202785,19.101631458632,808.93304250588
5853,11940,20917,"SMPDSv1","MOKH","MOKH8",43.22,133.25,170,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05958506978132,2877.03318790916,4.76059747950522,-12.8285180352398,20.2076209327143,807.754961297612
5853,11941,20982,"SMPDSv1","MOKH","MOKH80",43.38,133.4,350,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08798092629955,2633.49304439501,3.50081938922373,-14.4169597760994,19.104218546969,808.219766985354
5853,11942,20983,"SMPDSv1","MOKH","MOKH81",43.48,133.35,310,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07110539204057,2688.11057799945,3.71614185538589,-14.2818570084408,19.3476251549294,798.862310622193
5853,11943,20984,"SMPDSv1","MOKH","MOKH82",43.48,133.35,310,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07110539204057,2688.11057799945,3.71614185538589,-14.2818570084408,19.3476251549294,798.862310622193
5853,11944,20985,"SMPDSv1","MOKH","MOKH83",43.48,133.35,310,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07110539204057,2688.11057799945,3.71614185538589,-14.2818570084408,19.3476251549294,798.862310622193
5853,11945,20986,"SMPDSv1","MOKH","MOKH84",43.48,133.35,310,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07110539204057,2688.11057799945,3.71614185538589,-14.2818570084408,19.3476251549294,798.862310622193
5853,11946,20987,"SMPDSv1","MOKH","MOKH85",43.48,133.35,310,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07110539204057,2688.11057799945,3.71614185538589,-14.2818570084408,19.3476251549294,798.862310622193
5853,11947,20988,"SMPDSv1","MOKH","MOKH86",43.47,133.8,400,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12283235813107,2540.6426698178,3.12984618284863,-14.6193804086018,18.6832032162338,824.226604325259
5853,11948,20989,"SMPDSv1","MOKH","MOKH87",43.47,133.8,400,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12283235813107,2540.6426698178,3.12984618284863,-14.6193804086018,18.6832032162338,824.226604325259
5853,11949,20990,"SMPDSv1","MOKH","MOKH88",43.65,133.38,900,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.27094878243954,1943.60176981522,0.26126348631788,-17.4295369230778,15.8350472817914,874.342511732191
5853,11950,20991,"SMPDSv1","MOKH","MOKH89",43.6,133.4,900,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26749832998772,1944.65960915684,0.253082755402274,-17.4649817641917,15.8373406650326,872.72317415858
5853,11951,20918,"SMPDSv1","MOKH","MOKH9",43.22,133.25,170,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05958506978132,2877.03318790916,4.76059747950522,-12.8285180352398,20.2076209327143,807.754961297612
5853,11952,20992,"SMPDSv1","MOKH","MOKH91",43.63,133.33,750,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21537396168632,2127.48475504175,1.13622898089141,-16.6584865154493,16.7345851418308,853.898706804907
5853,11953,20993,"SMPDSv1","MOKH","MOKH92",43.62,133.32,550,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14445945448104,2378.4206954155,2.29442304461796,-15.6358900739677,17.9253785428727,826.055935846506
5853,11954,20994,"SMPDSv1","MOKH","MOKH93",43.6,133.32,620,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16859525945378,2289.93055673519,1.89110921674088,-15.9912455925386,17.5101359905307,835.940134872037
5853,11955,20995,"SMPDSv1","MOKH","MOKH94",43.58,133.32,500,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12781014406502,2442.42539149024,2.58935191575712,-15.3637121109809,18.2236360844689,819.877968827814
5853,11956,20996,"SMPDSv1","MOKH","MOKH95",43.53,133.33,450,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11239665944604,2506.4425545948,2.88738982653119,-15.0761737857567,18.5201605797565,814.487041493363
5853,11957,20997,"SMPDSv1","MOKH","MOKH96",43.5,133.33,300,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06664671956472,2702.05041168445,3.77072427981967,-14.2484668212733,19.4095454653824,796.414706105542
5853,11958,20998,"SMPDSv1","MOKH","MOKH97",43.48,133.35,250,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05332022394771,2767.58161485882,4.06840080978202,-13.9532104792941,19.7029800705556,791.539973346854
5853,11959,20999,"SMPDSv1","MOKH","MOKH98",43.47,133.35,200,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03928043372492,2834.31185990104,4.36506554735423,-13.6680360898315,19.9988747954992,785.964344754912
5853,11960,21000,"SMPDSv1","MOKH","MOKH99",43.27,133.3,180,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0430724184536,2860.22459565142,4.54580549601131,-13.3446390077943,20.1184450107718,792.891340489625
5854,11961,21128,"SMPDSv1","Mokre louky (South)","EPDcoretop_E447",48.833333,14.833333,425,"4.5","terrestrial, blanket bog","peat core top","-26","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.828178241560308,3147.27031836623,8.30113831340829,-2.36652925042468,17.8101899938638,646.532899142424
5855,11962,11376,"Neotoma","Molas Lake","LMSJ13A",37.74759,-107.682735,3200,"0.1","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.605853505672006,1232.61422905848,-0.874303078842673,-12.8427502986591,10.9424895876753,599.460362974619
5855,11963,11375,"Neotoma","Molas Lake","LMSJ13B",37.74759,-107.682735,3200,"0.1","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.605853505672006,1232.61422905848,-0.874303078842673,-12.8427502986591,10.9424895876753,599.460362974619
5855,11964,11377,"Neotoma","Molas Lake","LMSJ13C",37.74759,-107.682735,3200,"0.1","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.605853505672006,1232.61422905848,-0.874303078842673,-12.8427502986591,10.9424895876753,599.460362974619
5855,11965,11378,"Neotoma","Molas Lake","LMSJ13GHI",37.74759,-107.682735,3200,"0.1","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.605853505672006,1232.61422905848,-0.874303078842673,-12.8427502986591,10.9424895876753,599.460362974619
5856,11966,11379,"Neotoma","Molas Pass Bog","LMSJMPB-5",37.737778,-107.6975,3220,"not known","terrestrial","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.613643854421747,1203.10025755508,-1.03453018682017,-12.9800562046311,10.762575826444,604.605322062965
5857,11967,11799,"Neotoma","Molas Pass Pond","LMSJ10",37.73787,-107.69644,3307,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.645876781077744,1073.72227753015,-1.75824116205516,-13.6119667038398,9.95664196149604,623.623448256438
5858,11968,7288,"EMPDv2","Molhasul Mare","Feurdean_a5",46.59,22.76417,1224,"0.08","terrestrial, bog/fen/swamp","peat","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.26715923110639,2101.6175702872,4.23186815380751,-6.95277481200924,13.4654693681635,963.270425500659
5859,11969,21129,"SMPDSv1","Molleso","Odgaard_a10",54.847431,11.980969,50,"0.1","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.945005179586415,2988.19163548112,8.10561424354393,-0.594932404052175,16.7780391742454,636.934768641547
5860,11970,21130,"SMPDSv1","MON1","Barboni_a468",41.7,-2.768889,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.519773817936209,3743.92448546489,10.2573273574381,2.61883061593108,19.6996669412774,586.345784542915
5861,11971,21131,"SMPDSv1","MON2","Barboni_a469",41.717222,-2.668889,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.520913756431681,3657.57656474649,10.0207577116342,2.37939422680137,19.5201286705203,586.793547808954
5862,11972,21132,"SMPDSv1","MON3","Barboni_a470",41.818889,-2.067222,1060,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.534371045897632,3713.4667067109,10.1738813882491,2.42647651353,19.5953061162139,596.796274917531
5863,11973,21133,"SMPDSv1","MON4","Barboni_a471",41.8,-2.117222,1144,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.509277342707707,3606.63135276219,9.88118178838957,2.10030116963185,19.4478527780624,573.583463200316
5864,11974,21134,"SMPDSv1","MON5","Barboni_a472",41.85,-1.968889,975,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.559837460742956,3821.11517577283,10.4688087007475,2.7483468543082,19.7491944067415,620.157136169124
5865,11975,21135,"SMPDSv1","MON6","Barboni_a473",41.818889,-1.85,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.526073954597867,3650.17079975171,10.0004679445252,2.22457462313089,19.4865293784309,589.479654708785
5866,11976,21136,"SMPDSv1","MON7","Barboni_a474",41.817222,-1.818889,1180,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.507488406079505,3537.71032608876,9.69235705777741,1.88996762147884,19.2983927088518,571.942873321291
5867,11977,21137,"SMPDSv1","MON8","Barboni_a475",41.8,-1.817222,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.456553987294047,3233.86013112322,8.8598907702006109,0.994163477338219,18.7926015376786,522.759926575514
5868,11978,21138,"SMPDSv1","MON9","Barboni_a476",41.768889,-1.817222,1620,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.409187452995666,2931.17008141212,8.03060296277293,0.113835207138889,18.2766021795509,475.631194575679
5869,11979,21139,"SMPDSv1","MONA","Barboni_a477",41.8,-1.818889,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.445170822303891,3164.59539266241,8.67012436345864,0.789326645108337,18.6777707145371,511.526987232749
5870,11980,21140,"SMPDSv1","MONB","Barboni_a478",41.817222,-1.817222,1130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.519409574448708,3607.04836774663,9.88232429519625,2.09546927039627,19.4129528037205,583.259149844336
5871,11981,21141,"SMPDSv1","MONC","Barboni_a479",41.817222,-1.8,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.5387462816074,3717.50049090438,10.1849328517928,2.42166018474221,19.5954308710862,601.480421510201
5872,11982,21142,"SMPDSv1","Moncalvo 1","Barboni_a1403",42.1343,-6.7848,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.592694295219493,2635.87576810538,6.97915018120364,-1.56479960054338,17.2006766775703,668.91747010084
5873,11983,21143,"SMPDSv1","MOND","Barboni_a480",41.85,-1.768889,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.577112266061141,3922.1323098764,10.7455679722641,3.02615044318001,19.9292039266636,636.798921033747
5874,11984,21144,"SMPDSv1","MONE","Barboni_a481",41.867222,-1.767222,720,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.623730750744615,4171.75944425951,11.4294779294781,3.770261918036,20.3370148359288,678.706250364046
5875,11985,12947,"Neotoma","Monhegan Island Meadow","MONHEGAN",43.766667,-69.3,3,"not known","terrestrial","core","0","Bostwick, L.G. 1978. An environmental framework for cultural change in Maine: pollen influx and percentage diagrams from Monhegan Island. Thesis. University of Maine, Orono, Maine, USA.",,9,"cool mixed forest",1.43233528926557,3221.25230143342,7.60070163106848,-6.1584229062911,20.4495781769439,1166.24564765129
5876,11986,14084,"Neotoma","Mono Lake","MONOLK",38.0079499999999,-119.0255,1945,"not known","lake","core","-36","Davis, O.K. 1999. Pollen analysis of a late-glacial and Holocene sediment core from Mono Lake, Mono County, California. Quaternary Research 52(2):243-249.","10.1006/qres.1999.2063",17,"temperate evergreen needleleaf open woodland",0.467589968004844,3146.54151883801,8.5778483412832,-0.243601388639079,19.5064014325909,587.176817882035
5877,11987,13567,"Neotoma","Monson Lake","MONSON",45.324,-95.27935,376,"not known","lake","core","-26","Unpublished data",,22,"steppe",0.756940201835015,3274.2014900802,5.98627530284069,-12.8098856850103,21.9284920343098,647.05490808149
5877,11987,13568,"Neotoma","Monson Lake","MONSON",45.324,-95.27935,376,"not known","lake","core","13","Unpublished data",,22,"steppe",0.756940201835015,3274.2014900802,5.98627530284069,-12.8098856850103,21.9284920343098,647.05490808149
5878,11988,16683,"Neotoma","Mont Albert Site 1","PJHR040",48.9,-66.183333,1045,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.95218499950121,1676.82916097224,0.329431549628297,-13.3664925654562,14.680563646063,1280.23282192981
5879,11989,16684,"Neotoma","Mont Albert Site 2","PJHR041",48.9,-66.183333,1061,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.9590336544208,1669.54328581096,0.295852648774114,-13.3667387952271,14.6427444434675,1284.26628456333
5880,11990,16685,"Neotoma","Mont Albert Site 3","PJHR042",48.9,-66.183333,1121,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.98476647012453,1642.29153479213,0.169931770570927,-13.3676621568677,14.5009224337347,1299.39176943903
5881,11991,17624,"Phelps et al., 2020","Mont Badda","BADDA_0.5",7.87,39.37,3797,"not known","not known","not known","8","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",1.00144833321735,2435.23743198025,6.67188337528836,5.55959528615301,8.06167268287309,1537.8351457368
5882,11992,16649,"Neotoma","Mont Jacques-Cartier","PJHR001",49,-65.95,1076,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.94085038526233,1685.53447659368,0.299842448633279,-13.5211542216864,14.7567632789899,1273.34724510649
5882,11993,16648,"Neotoma","Mont Jacques-Cartier","PJHR002",49,-65.95,1076,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.94085038526233,1685.53447659368,0.299842448633279,-13.5211542216864,14.7567632789899,1273.34724510649
5882,11994,16650,"Neotoma","Mont Jacques-Cartier","PJHR003",49,-65.95,1076,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.94085038526233,1685.53447659368,0.299842448633279,-13.5211542216864,14.7567632789899,1273.34724510649
5883,11995,16693,"Neotoma","Mont Logan","PJHR053",48.883333,-66.633333,1091,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",2.09827579594798,1626.03401043289,0.0729033282010455,-13.4436371234005,14.4327344088701,1363.70364333401
5884,11996,7086,"EMPDv2","Montbe","EPDcoretop_E1982",47.21,4.11,562,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.05327235117042,3390.22189788065,9.28827917227574,0.978295281956414,18.0341213561269,901.661643851794
5885,11997,10465,"IBERIA","Monte Areo mire","AREO core top",43.52888889,-5.768888889,200,"not known","terrestrial, bog/fen/swamp","core top","-35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",1.00456039636238,4704.99280273597,12.8903912403725,7.70871498152753,18.6934672611276,930.058716307307
5886,11998,21145,"SMPDSv1","Monte Areo XII","Barboni_a1274",43.52,-5.77,265,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.993033830914834,4607.22754519368,12.6225412197087,7.30057742042861,18.5844352234997,926.647396850289
5887,11999,24189,"Neotoma","Monte Blanco","MTBLANC2",-17.025,-67.35,4780,"not known","not known","core","38","Graf, K. 1992. Pollendiagramme aus den Anden: Eine Synthese zur Klimageschichte und Vegetationsentwicklung seit der letzten Eiszeit. Physische Geographie 34. Universität Zürich-Irchel, Geographisches Institut, Zürich, Switzerland.",,22,"steppe",0.0704042335257683,1823.57935413855,4.99610781955768,1.09151026332007,7.5240211716664,100.488612302995
5888,12000,21146,"SMPDSv1","Monte Guadagnolo","Sadori_e11",41.9086111111111,12.9480555555555,547,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.727360816410752,4710.31522613016,12.9049732222744,4.99432183957726,21.6651778083546,793.103457527953
5888,12001,21147,"SMPDSv1","Monte Guadagnolo","Sadori_e12",41.9086111111111,12.9480555555555,547,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.727360816410752,4710.31522613016,12.9049732222744,4.99432183957726,21.6651778083546,793.103457527953
5889,12002,21148,"SMPDSv1","Monte San Giorgio","EPDcoretop_E1093",45.909075,8.954139,990,"0.005","not known","core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.77353827084037,2691.42869519606,7.13309672304708,-1.7662115764829,16.0522901265583,1506.81209536647
5890,12003,6940,"EMPDv2","Monte Soratte","Di_Rita_a1",42.245649,12.501801,665,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.770008372277166,4371.40261995389,11.9764455341202,3.97380041462868,20.8548499542409,817.236588888573
5890,12004,6941,"EMPDv2","Monte Soratte","Di_Rita_a2",42.243201,12.504891,625,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.759223488221454,4456.10147249251,12.208497184911,4.22909102180759,21.0604652941056,809.59033397312
5890,12005,6942,"EMPDv2","Monte Soratte","Di_Rita_a3",42.242651,12.50768,550,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.739414678418352,4613.78036379538,12.6404941473846,4.70420240510838,21.4449486792343,795.269601000427
5890,12006,6943,"EMPDv2","Monte Soratte","Di_Rita_a4",42.239134,12.51107,508,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.728380706637434,4702.76852828874,12.8842973377774,4.97247871437333,21.6617992916003,787.237768252076
5890,12007,6944,"EMPDv2","Monte Soratte","Di_Rita_a5",42.258912,12.506,206,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.678796790802717,5227.89259136028,14.3229934009871,6.44092583666121,22.9696464287092,751.096212024325
5890,12008,6945,"EMPDv2","Monte Soratte","Di_Rita_a6",42.274665,12.51504,198,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.677959031630732,5240.14782825066,14.3565693924676,6.47112625530674,23.0022681741597,750.376114681829
5891,12009,21149,"SMPDSv1","Monte Terminillo","Sadori_g1",42.459748,12.963231,1460,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.93613300054087,2829.49403157671,7.71575879311578,-0.335810454207917,17.0085540521362,910.067097866228
5891,12010,21150,"SMPDSv1","Monte Terminillo","Sadori_g2",42.458442,12.966594,1530,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.950759395691134,2720.98545719408,7.36286622263398,-0.686565197525668,16.6904089990599,917.686893890694
5891,12011,21151,"SMPDSv1","Monte Terminillo","Sadori_g3",42.457637,12.968391,1550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.954906961747453,2691.22609957301,7.26316465252485,-0.78559230598107,16.6005248400821,919.838185174729
5891,12012,21152,"SMPDSv1","Monte Terminillo","Sadori_g4",42.457966,12.969783,1570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.95911340213589,2661.49985159766,7.16241750573388,-0.885264309108908,16.5095780063873,921.97723378508
5891,12013,21153,"SMPDSv1","Monte Terminillo","Sadori_g5",42.45546667,12.93626944,1070,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.858012310759483,3537.44979944416,9.69164328614839,1.62633858746021,18.7907259507465,867.526004140087
5891,12014,21154,"SMPDSv1","Monte Terminillo","Sadori_g6",42.45546667,12.93626944,1070,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.858012310759483,3537.44979944416,9.69164328614839,1.62633858746021,18.7907259507465,867.526004140087
5892,12015,11082,"Bush et al., 2020","Montebello","Montebello",16.11,-91.71,1541,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.50887357831648,7004.64559149461,19.1908098397113,16.9871001367858,20.9118397565228,2381.38806325808
5893,12016,8290,"EMPDv2","Montebruno","Montanari_b4",44.5250166666667,9.24753333333333,663,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.20251571951471,3662.57152739306,10.0344425408029,1.15925935324499,19.1392325776053,1164.62211086169
5894,12017,21155,"SMPDSv1","Montenegro de Cameros 1","Barboni_a781",42.07,-2.75,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39728160275697,3481.45914062924,9.53824422090202,1.47667444795358,19.6929389906053,465.859759269799
5895,12018,21156,"SMPDSv1","Montenegro de Cameros 2","Barboni_a782",42.08,-2.75,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.452983599748987,3578.72327548962,9.80472130271128,1.90149605094405,19.6296091835418,518.999840020491
5896,12019,21157,"SMPDSv1","Montes Toledo","Lopez_a428",39.7818888888888,-5.14719444444444,335,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383266837656129,5971.84897667828,16.3612300730912,8.15747253840945,26.3954930370831,485.975457335827
5896,12020,21158,"SMPDSv1","Montes Toledo","Lopez_a429",39.7464166666666,-5.11858333333333,427,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392228142338345,5763.91988555889,15.7915613302983,7.60706116944466,25.8516127363744,495.698979665398
5896,12021,21159,"SMPDSv1","Montes Toledo","Lopez_a430",39.7857777777777,-5.10052777777777,327,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.381631158844293,5997.46883624166,16.4314214691552,8.21231536572864,26.4838171267047,484.203380030896
5896,12022,21160,"SMPDSv1","Montes Toledo","Lopez_a431",39.8101944444444,-5.12136111111111,378,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384178617657668,5851.25834907799,16.0308447919945,7.83854757763341,26.0562580955133,485.99179781767
5896,12023,21161,"SMPDSv1","Montes Toledo","Lopez_a432",40.0075,-3.86230555555555,499,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.331633049438326,5674.17610728186,15.5456879651558,6.9754381743845,26.1259004442607,422.527016182422
5896,12024,21162,"SMPDSv1","Montes Toledo","Lopez_a433",39.8465833333333,-4.2215,440,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333478170668583,5829.75277763567,15.9719254181799,7.3742146686856,26.5569996892795,425.932360521542
5896,12025,21163,"SMPDSv1","Montes Toledo","Lopez_a434",39.8124166666666,-4.14713888888889,637,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.361793161398656,5260.76742931646,14.4130614501821,6.05217128137083,24.7869887414019,454.699008542324
5896,12026,21164,"SMPDSv1","Montes Toledo","Lopez_a435",39.7711111111111,-4.18786111111111,679,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.368845855609017,5137.95025026772,14.0765760281307,5.77018035216758,24.3988770206472,461.922942977841
5896,12027,21165,"SMPDSv1","Montes Toledo","Lopez_a436",39.4217222222222,-3.71766666666666,771,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374169452037909,5001.60400649369,13.7030246753252,5.39071178118056,24.1659756079209,467.975265479823
5896,12028,21166,"SMPDSv1","Montes Toledo","Lopez_a437",39.4437222222222,-3.68772222222222,775,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374382321488198,4991.27973524921,13.6747390006828,5.36680038420795,24.1335771929731,468.028666438585
5896,12029,21167,"SMPDSv1","Montes Toledo","Lopez_a438",39.4562222222222,-3.68783333333333,808,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.377289055462803,4908.93763242949,13.449144198437,5.17582520768982,23.876567989294,470.488768356165
5896,12030,21168,"SMPDSv1","Montes Toledo","Lopez_a439",39.4368333333333,-3.79222222222222,788,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379791352109361,4923.00975936804,13.4876979708713,5.23065118225641,23.8667588047627,474.047618530464
5896,12031,21169,"SMPDSv1","Montes Toledo","Lopez_a440",39.4240555555555,-3.83633333333333,861,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.385610735653746,4726.55025912524,12.9494527647267,4.76128135054573,23.2677735362518,478.81891460783
5896,12032,21170,"SMPDSv1","Montes Toledo","Lopez_a441",39.4113055555555,-3.87294444444444,869,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386276253915253,4703.2733703032,12.8856804665841,4.70532450343796,23.1951127692112,479.425802377098
5896,12033,21171,"SMPDSv1","Montes Toledo","Lopez_a442",39.3847777777777,-3.87602777777777,993,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.394920563651201,4377.77549145471,11.9939054560403,3.91955166719142,22.2171498069878,485.898647942013
5896,12034,21172,"SMPDSv1","Montes Toledo","Lopez_a443",39.4657777777777,-3.88511111111111,979,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.396188902295533,4397.41242097454,12.0477052629439,3.98241046997918,22.2523806939953,487.273424233836
5896,12035,21173,"SMPDSv1","Montes Toledo","Lopez_a444",39.4668333333333,-3.94547222222222,989,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.397312299098268,4362.01747523701,11.9507328088685,3.8996157625166,22.1364175958969,488.248749896087
5896,12036,21174,"SMPDSv1","Montes Toledo","Lopez_a445",39.5146111111111,-4.01861111111111,814,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384280847078004,4824.84575134056,13.2187554831248,5.01341096382218,23.5270316103246,478.07901521363
5896,12037,21175,"SMPDSv1","Montes Toledo","Lopez_a446",39.4420555555555,-4.10805555555555,1037,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.401059851550391,4213.08395177221,11.54269575828,3.54198124845412,21.6685177949498,491.21507950043
5896,12038,21176,"SMPDSv1","Montes Toledo","Lopez_a447",39.3641666666666,-4.09877777777777,1004,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.396303635984986,4319.71403910198,11.834832983841,3.7821551179426,22.0168096977766,487.242357496476
5896,12039,21177,"SMPDSv1","Montes Toledo","Lopez_a475",39.4408888888888,-3.67225,781,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374737831243942,4977.95930381888,13.6382446679969,5.33509467143036,24.0936330252396,468.315581221564
5896,12040,21178,"SMPDSv1","Montes Toledo","Lopez_a476",39.4309166666666,-3.6915,787,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37532340531314,4963.22704686623,13.5978823201814,5.30082201286607,24.0478060894704,468.880928038896
5896,12041,21179,"SMPDSv1","Montes Toledo","Lopez_a477",39.4524166666666,-3.70980555555555,794,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376236168402171,4942.18080794465,13.5402213916292,5.25371773897442,23.9786663720964,469.632607010921
5896,12042,21180,"SMPDSv1","Montes Toledo","Lopez_a478",39.4400555555555,-3.46713888888888,679,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.364524112524788,5232.35154648024,14.3352097163842,5.92290356644009,24.8916019422247,459.057391547344
5896,12043,21181,"SMPDSv1","Montes Toledo","Lopez_a479",39.4285833333333,-3.44636111111111,693,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.365543739698031,5200.44515157832,14.247794935831,5.84771692972011,24.7947887963419,459.981412447087
5896,12044,21182,"SMPDSv1","Montes Toledo","Lopez_a480",39.4319444444444,-3.43613888888888,695,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.365610871758625,5195.82093292323,14.2351258436253,5.83668774785263,24.7807646799028,460.001822949083
5896,12045,21183,"SMPDSv1","Montes Toledo","Lopez_a481",39.4308333333333,-3.42833333333333,694,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.365466330927247,5198.46515522003,14.2423702882741,5.84266701551281,24.7893221353312,459.866307332135
5896,12046,21184,"SMPDSv1","Montes Toledo","Lopez_a482",39.4421944444444,-3.33525,642,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.36032326774975,5321.66403488558,14.5799014654399,6.12867386933341,25.1717389537839,455.059554411096
5896,12047,21185,"SMPDSv1","Montes Toledo","Lopez_a483",39.4534722222222,-3.32538888888888,649,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.360727703953989,5305.13063874998,14.534604489726,6.08968477072992,25.1207445320135,455.325837060285
5896,12048,21186,"SMPDSv1","Montes Toledo","Lopez_a484",39.4704166666666,-3.655,744,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3715819123322,5066.30020393884,13.8802745313393,5.54158850285512,24.3657786753925,465.440691971495
5896,12049,21187,"SMPDSv1","Montes Toledo","Lopez_a485",39.4773611111111,-3.66938888888888,759,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373033465837365,5028.01653002575,13.7753877534952,5.45332494064466,24.2452948915821,466.706100113802
5896,12050,21188,"SMPDSv1","Montes Toledo","Lopez_a486",39.4943333333333,-3.67030555555555,746,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.371948989643168,5058.34177162203,13.8584706071837,5.52448165773219,24.3379114740239,465.686408922058
5896,12051,21189,"SMPDSv1","Montes Toledo","Lopez_a487",39.5083611111111,-3.64936111111111,743,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.371538435997562,5065.56433794192,13.8782584601149,5.54112212760203,24.3603722759034,465.228767124325
5896,12052,21190,"SMPDSv1","Montes Toledo","Lopez_a488",39.4326666666666,-3.67394444444444,854,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38078108852455,4801.17764428629,13.153911354209,4.92237777828666,23.5467699872585,473.47068242184
5896,12053,21191,"SMPDSv1","Montes Toledo","Lopez_a489",39.4346388888888,-3.70925,845,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380341170857289,4819.64772370011,13.2045143115071,4.96697393119314,23.6008611444468,473.157963766997
5896,12054,21192,"SMPDSv1","Montes Toledo","Lopez_a490",39.4338055555555,-3.67394444444444,886,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383500652464052,4723.1054568687,12.9400149503252,4.7404075028936,23.3046978472229,475.753283381527
5896,12055,21193,"SMPDSv1","Montes Toledo","Lopez_a491",39.4333333333333,-3.67977777777777,888,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383707270076642,4717.72609400421,12.9252769698745,4.72804982253355,23.2876050391486,475.93541052622
5896,12056,21194,"SMPDSv1","Montes Toledo","Lopez_a492",39.4353055555555,-3.70061111111111,855,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.381122575972209,4795.87270211166,13.1393772660593,4.91128013147372,23.5277417445543,473.801014559437
5896,12057,21195,"SMPDSv1","Montes Toledo","Lopez_a493",39.4358611111111,-3.7065,893,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384395466681009,4702.2709573694,12.8829341297792,4.69339876903853,23.2368858321741,476.554735960962
5896,12058,21196,"SMPDSv1","Montes Toledo","Lopez_a494",39.4373611111111,-3.709,873,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38274646124325,4750.69482182443,13.0156022515738,4.80651459885748,23.3865971117383,475.178741649169
5896,12059,21197,"SMPDSv1","Montes Toledo","Lopez_a495",39.4559722222222,-3.72369444444444,860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.382068199124378,4778.08309098672,13.0906386054431,4.87268202264772,23.4673763029725,474.622449016932
5896,12060,21198,"SMPDSv1","Montes Toledo","Lopez_a496",39.4144166666666,-3.68891666666666,789,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375335207485457,4960.54811610804,13.5905427838576,5.29350244031309,24.0416474724482,468.933371124716
5896,12061,21199,"SMPDSv1","Montes Toledo","Lopez_a497",39.4140833333333,-3.68305555555555,808,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376819012525004,4914.91655819329,13.4655248169679,5.18669918657174,23.9008907724366,470.176130104916
5896,12062,21200,"SMPDSv1","Montes Toledo","Lopez_a498",39.3348611111111,-3.72011111111111,990,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389518874396741,4488.1271349901,12.2962387260003,4.17899298974262,22.5948667076868,480.424733784487
5896,12063,21201,"SMPDSv1","Montes Toledo","Lopez_a499",39.3386388888888,-3.70227777777777,1037,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393026248693383,4377.63674155278,11.9935253193227,3.91901412186009,22.2558353039048,483.131115964612
5896,12064,21202,"SMPDSv1","Montes Toledo","Lopez_a500",39.3397777777777,-3.68052777777777,1035,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392752290864273,4385.50816717073,12.0150908689609,3.93662811695909,22.282293246318,482.893752704494
5896,12065,21203,"SMPDSv1","Montes Toledo","Lopez_a501",39.3373888888888,-3.66122222222222,999,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389813737363786,4474.47827709943,12.2588445947929,4.14450307216976,22.5586806817667,480.567852548133
5896,12066,21204,"SMPDSv1","Montes Toledo","Lopez_a502",39.3451944444444,-3.59947222222222,1038,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392571992908619,4389.2629109662,12.0253778382636,3.94249814856656,22.3014679370133,482.668363792159
5896,12067,21205,"SMPDSv1","Montes Toledo","Lopez_a503",39.3363611111111,-3.55477777777777,890,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380896490316206,4743.51434250531,12.995929705494,4.77318330224616,23.3948467336,473.33199884659
5896,12068,21206,"SMPDSv1","Montes Toledo","Lopez_a504",39.4449444444444,-3.70733333333333,886,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383985403217492,4717.67510857412,12.9251372837647,4.73030567266555,23.2830192819455,476.216065211532
5896,12069,21207,"SMPDSv1","Montes Toledo","Lopez_a505",39.4745277777777,-3.68130555555555,844,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380606585489766,4818.41847737066,13.2011465133443,4.96647221845579,23.5933752731475,473.289719880168
5896,12070,21208,"SMPDSv1","Montes Toledo","Lopez_a506",39.4684444444444,-3.65988888888888,818,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.378059956171724,4884.90895600636,13.3833122082366,5.1197869410239,23.8024132152402,471.077674379096
5896,12071,21209,"SMPDSv1","Montes Toledo","Lopez_a535",39.5004722222222,-3.66652777777777,832,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379755563500669,4845.41812144695,13.2751181409505,5.03071923846445,23.674806880399,472.490746996245
5896,12072,21210,"SMPDSv1","Montes Toledo","Lopez_a536",39.5132222222222,-3.66163888888888,796,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376533044342538,4933.17729330654,13.5155542282371,5.23489613444837,23.9468026984999,469.638636389673
5896,12073,21211,"SMPDSv1","Montes Toledo","Lopez_a537",39.5058333333333,-3.64861111111111,768,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373801690289072,5004.11276749545,13.7098979931382,5.39849689361742,24.1693689825791,467.239078192165
5896,12074,21212,"SMPDSv1","Montes Toledo","Lopez_a538",39.5969444444444,-3.8625,932,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.395015920048814,4505.09099022098,12.3427150417013,4.25895185505136,22.5525169581088,486.566626733981
5896,12075,21213,"SMPDSv1","Montes Toledo","Lopez_a539",39.5941666666666,-3.87027777777777,944,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.396136326678633,4471.74039295003,12.2513435423289,4.17996223088948,22.4496976746657,487.504363684069
5896,12076,21214,"SMPDSv1","Montes Toledo","Lopez_a540",39.6019444444444,-3.86777777777777,813,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383866378273481,4830.56347314424,13.2344204743678,5.02820666474347,23.5511855868547,477.170040988523
5897,12077,21215,"SMPDSv1","Montes Velhos","Barboni_a1402",37.9833,-8.2333,95,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.59701985915886,6141.59204217385,16.8262795675996,11.1451587916812,23.4692388637656,700.650264742191
5898,12078,11085,"Bush et al., 2020","monteverde","monteverde",10.3038,-84.795,1544,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35721744338739,7273.72743440694,19.9280203682382,19.2256463418863,20.6739878332512,4064.09856695861
5898,12078,11086,"Bush et al., 2020","monteverde","monteverde",10.3043,-84.7931,1544,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35702862445548,7273.62506495041,19.9277399039737,19.2254157400693,20.6736599171977,4063.76492782356
5898,12078,11087,"Bush et al., 2020","monteverde","monteverde",10.304,-84.7929,1544,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35701526334802,7273.57999900639,19.927616435634,19.2252912712901,20.6734860443478,4063.73039515121
5899,12079,11083,"Bush et al., 2020","Monteverde","Monteverde",10.3036,-84.7925,1544,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35698487118617,7273.50932108771,19.9274227975006,19.2250991660704,20.6732173615676,4063.66104614724
5899,12079,11084,"Bush et al., 2020","Monteverde","Monteverde",10.304,-84.7939,1544,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35710974725754,7273.659467989,19.927834158874,19.2254874323094,20.6737626222754,4063.90549707286
5899,12079,11088,"Bush et al., 2020","Monteverde","Monteverde",10.3118,-84.7905,1652,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.41679522812563,7104.64210005123,19.4647728768527,18.7825762720197,20.1561002585626,4166.74978932635
5900,12080,11089,"Bush et al., 2020","MonteVerde20","MonteVerde20",10.30200097,-84.79629298,1544,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35737266049306,7273.65530126134,19.9278227431818,19.2253888651458,20.6736347728213,4064.3276779269
5901,12081,11090,"Bush et al., 2020","MonteVerde21","MonteVerde21",10.30207297,-84.79631804,1544,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.35737372080603,7273.66428913392,19.9278473674902,19.2254142228479,20.6736701379656,4064.33198336931
5902,12082,11091,"Bush et al., 2020","MonteVerde22","MonteVerde22",10.29990097,-84.788833,1514,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34000343547894,7319.99512000384,20.0547811506954,19.3469517386776,20.8153218431735,4034.27574471109
5903,12083,11092,"Bush et al., 2020","MonteVerde23","MonteVerde23",10.29988596,-84.78886301,1514,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34000621472141,7319.99612080224,20.0547838926089,19.3469536247133,20.81532448124,4034.28051701379
5904,12084,12948,"Neotoma","Montezuma Well","MONTEZUM",34.6492,-111.75225,1081,"not known","lake","core","0","Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Davis, O.K., and D.S. Shafer. 1992. A Holocene climatic record for the Sonoran Desert from pollen analysis of Montezuma Well, Arizona, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 92(1-2):107-119.","10.1016/0031-0182(92)90137-T",22,"steppe",0.235056250298341,6040.56573775675,16.5494951719363,6.01118924078047,28.40044742518,368.319536456997
5904,12084,12949,"Neotoma","Montezuma Well","MONTEZUM",34.6492,-111.75225,1081,"not known","lake","core","34","Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Davis, O.K., and D.S. Shafer. 1992. A Holocene climatic record for the Sonoran Desert from pollen analysis of Montezuma Well, Arizona, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 92(1-2):107-119.","10.1016/0031-0182(92)90137-T",22,"steppe",0.235056250298341,6040.56573775675,16.5494951719363,6.01118924078047,28.40044742518,368.319536456997
5905,12085,17355,"Neotoma","Montfort","TW060",42.971667,-90.433056,335,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.89770589884571,3350.5774445103,6.93370189428266,-10.4390731235325,21.6802122703892,788.197672418581
5906,12086,21216,"SMPDSv1","Montfrague","Lopez_a154",39.8607777777777,-5.94916666666666,510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.460435185096448,5345.53904080087,14.6453124405503,6.90280781554339,24.0000466664868,564.492049643579
5906,12087,21217,"SMPDSv1","Montfrague","Lopez_a155",39.8604722222222,-5.94791666666666,520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459970822657095,5318.57074117225,14.5714266881431,6.82623949379114,23.9302720466683,563.83135427124
5906,12088,21218,"SMPDSv1","Montfrague","Lopez_a156",39.6430555555555,-5.91969444444444,530,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.451156801463622,5362.17081209275,14.6908789372404,6.91182311782641,24.1348671070981,557.651316235766
5907,12089,17246,"Neotoma","Moon Lake","LFR68090",50.8839,-100.045,659,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.65424145537021,2288.99382000507,0.842538140867858,-18.6650984876684,17.2968717203734,482.244277485316
5907,12090,12950,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","-35","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12090,12951,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","-16","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12090,12952,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","3","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12090,12953,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","22","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12090,12954,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","32","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12090,12955,"Neotoma","Moon Lake","MOONEHOL",46.85592,-98.15984,444,"not known","lake","core","42","Laird, K.R. 1996. A high-resolution paleoclimatic record of a closed-basin lake in the northern Great Plains. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Laird, K.R., S.C. Fritz, E.C. Grimm, and P.G. Mueller. 1996. Century-scale paleoclimatic reconstruction from Moon Lake, a closed-basin lake in the northern Great Plains. Limnology and Oceanography 41:890-902.; Laird, K.R., S.C. Fritz, K.A. Maasch, and B.F. Cumming. 1996. Greater drought intensity and frequency before AD 1200 in the Northern Great Plains, USA. Nature 384:552-554.",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5907,12091,11380,"Neotoma","Moon Lake","NDBAMO",46.85592,-98.15984,444,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.570238002124271,3030.29306633494,4.6612266633244,-14.5617223348361,21.1600904588313,475.893844572723
5908,12092,1064,"Australian pollen","Moon Point","Moon Point core_1",-25.2171,153.0613,4,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.809572214503222,7983.35698365411,21.8722109141208,16.9401884693236,25.6876542559909,1254.63934454882
5908,12093,1065,"Australian pollen","Moon Point","Moon Point core_10",-25.2171,153.0613,4,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.809572214503222,7983.35698365411,21.8722109141208,16.9401884693236,25.6876542559909,1254.63934454882
5908,12094,1066,"Australian pollen","Moon Point","Moon Point core_20",-25.2171,153.0613,4,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.809572214503222,7983.35698365411,21.8722109141208,16.9401884693236,25.6876542559909,1254.63934454882
5909,12095,21219,"SMPDSv1","Moor Alpenrose","EPDcoretop_E1201",47.024444,11.802361,1880,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.31245587619036,1144.56881617611,0.961218527856635,-6.79277645976807,8.88777244100284,1602.53673209422
5910,12096,21220,"SMPDSv1","Moor am Rofenberg","EPDcoretop_E1214",46.829167,10.825556,2760,"4e-04","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.89088565441108,186.833319319559,-4.35021588391709,-10.7176608059698,2.42885424497856,2299.87882740279
5911,12097,6987,"EMPDv2","Moor im Weissenstadter Forst","EPDcoretop_E1426",50.14,11.88,725,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06725278578915,2652.26707536666,6.69290113566518,-3.31970769571322,15.8965134051228,755.201004026632
5912,12098,17544,"Neotoma","Moose Lake","LFR65075",49.21085,-95.3108,350,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87.",,9,"cool mixed forest",0.775112673218483,2673.7229513528,2.73274592139254,-17.4444687483666,19.4122133092261,592.502212776623
5912,12099,13835,"Neotoma","Moose Lake","MOOSE",47.883685,-123.35093,1544,"not known","lake","core","-20","Gavin, D.G., J.S. McLachlan, L.B. Brubaker, and K.A. Young. 2001. Postglacial history of subalpine forests, Olympic Peninsula, Washington, USA. The Holocene 11:177-188.",,13,"temperate deciduous broadleaf forest",3.24804344943383,2310.70994915379,6.33071218946243,0.963148099077535,13.1433444537321,2553.20120991989
5913,12100,16527,"Neotoma","Moose Mountain Lake","KG024",46.58,-67.63,152,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.53465384506627,2568.7996387516,4.33960425449207,-10.965889301246,18.3426906809654,1128.38709488302
5913,12101,16528,"Neotoma","Moose Mountain Lake","RJM068",46.58,-67.63,152,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.53465384506627,2568.7996387516,4.33960425449207,-10.965889301246,18.3426906809654,1128.38709488302
5914,12102,21221,"SMPDSv1","MOR1","Barboni_a482",38.65,-4.318889,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374360987671176,5071.93118379608,13.8957018734139,5.42519530656513,24.7561995203033,471.550527383685
5915,12103,21222,"SMPDSv1","MOR2","Barboni_a483",38.568889,-4.367222,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.385679685717121,5423.70755143691,14.8594727436628,6.5600059602317,25.2791212664801,491.992763676914
5916,12104,21223,"SMPDSv1","MOR3","Barboni_a484",38.518889,-4.368889,902,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373122976826399,4998.60885304951,13.6948187754781,5.20106142318424,24.6540989586718,469.700367003511
5917,12105,21224,"SMPDSv1","MOR4","Barboni_a485",38.517222,-4.368889,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38092158404759,5258.34357027205,14.4064207404714,6.0338600457434,25.0365470293681,483.692736269816
5918,12106,21225,"SMPDSv1","MOR5","Barboni_a486",38.468889,-4.367222,760,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380810341680452,5247.33699650226,14.3762657438418,6.00354284161328,25.0209159939209,483.756677681809
5919,12107,21226,"SMPDSv1","MOR6","Barboni_a487",38.368889,-4.317222,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391090891044101,5613.26568086693,15.3788100845669,7.17908653127074,25.5670747725405,503.522487188508
5920,12108,15510,"Neotoma","Mora","CJH089",48.2,-124.15,168,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.92990733226079,3401.03003048218,9.31789049447171,3.41236304478969,15.9946300294249,2196.30044772611
5921,12109,14085,"Neotoma","Moraine Bog","MORAINBC",51.33,-124.9,891,"not known","terrestrial, bog/fen/swamp","core","-52","Arsenault, T.A., J.J. Clague, and R.W. Mathewes. 2007. Late Holocene vegetation and climate change at Moraine Bog, Tiedemann Glacier, southern Coast Mountains, British Columbia. Canadian Journal of Earth Sciences 44:707-719.",,15,"cold evergreen needleleaf forest",2.11866725428568,2023.07174290893,4.83822222845593,-3.47225555976063,13.4216172946623,1445.12624468145
5922,12110,14086,"Neotoma","Moraine Lake","MS-74-11",71.86,-124.47,30,"not known","lake","core","-74","Unpublished data",,31,"tundra",0.43027716310431,370.981141385778,-13.9498868829548,-30.7511310488555,5.91619458361922,112.85660677304
5923,12111,21227,"SMPDSv1","Mordovia 1","Mordovia 1_SS",54.78749,43.43349,129,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.85372298608055,2732.44303424822,4.53749479121757,-11.4785003939142,19.0767466599279,594.897840592295
5924,12112,9351,"EMPDv2","Mordovia 10","Novenko_c285",54.78755,43.43468,170,"0.01","terrestrial","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.818795010415261,2773.48940235467,4.58291682243998,-11.608873862317,19.3056543224597,579.959303971786
5925,12113,9352,"EMPDv2","Mordovia 11","Novenko_c286",54.75438,43.20075,172,"0.01","terrestrial","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.81459377384852,2782.33528827178,4.62729278869934,-11.5457145280405,19.3044678897398,579.278219993288
5926,12114,9353,"EMPDv2","Mordovia 12","Novenko_c287",54.76884,43.18677,174,"0.01","terrestrial","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.813507729422522,2783.87577586331,4.62818592320525,-11.5522631100422,19.3142141236033,578.745982301895
5927,12115,9354,"EMPDv2","Mordovia 13","Novenko_c288",54.78751,43.22162,176,"0.15","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.812844204669905,2784.61106607227,4.62530256163763,-11.5634122949854,19.3229683539411,578.326871102449
5928,12116,9355,"EMPDv2","Mordovia 14","Novenko_c289",54.7608,43.19599,175,"0.01","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.812535826880897,2784.8589232697,4.62898672265807,-11.5561954617017,19.3202569445886,578.341144306925
5929,12117,9356,"EMPDv2","Mordovia 15","Novenko_c290",54.73269,43.15776,173,"0.01","terrestrial","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.803598239667925,2796.75267032824,4.68318303135195,-11.4964194085141,19.3489767175713,574.155296108284
5930,12118,9343,"EMPDv2","Mordovia 2","Novenko_c277",54.78749,43.43349,175,"0.01","terrestrial, soil","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.814597245199544,2778.51434541265,4.58854738796709,-11.6246443155579,19.333564121483,578.136728013907
5931,12119,9344,"EMPDv2","Mordovia 3","Novenko_c278",54.77724,43.44663,172,"0.15","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.816830214009971,2775.64292842206,4.5853629044177,-11.6157335511198,19.3177783603048,579.139085293575
5932,12120,9345,"EMPDv2","Mordovia 4","Novenko_c279",54.78055,43.4008,180,"0.01","terrestrial, soil","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.810102480722238,2784.04290320443,4.59663254913208,-11.6372283166562,19.3617579448581,576.253277484254
5933,12121,9346,"EMPDv2","Mordovia 5","Novenko_c280",54.78019,43.45198,178,"0.01","terrestrial, soil","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.811908918087474,2781.5213853963,4.59141997384262,-11.6355053747867,19.351110895871,576.971259224523
5934,12122,9347,"EMPDv2","Mordovia 6","Novenko_c281",54.77668,43.43943,170,"0.25","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.818466327573485,2773.73863627615,4.58366228562271,-11.6086474786428,19.3065869983967,579.864651633143
5935,12123,9348,"EMPDv2","Mordovia 7","Novenko_c282",54.7764,43.43439,175,"0.2","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.814242868464496,2778.80612747571,4.58950561649001,-11.6241329721815,19.3345001000994,578.033818761804
5936,12124,9349,"EMPDv2","Mordovia 8","Novenko_c283",54.7743,43.40798,173,"0.15","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.815755473477656,2777.16306841851,4.58915231316429,-11.6151735407966,19.3232767941758,578.74351956728
5937,12125,9350,"EMPDv2","Mordovia 9","Novenko_c284",54.76783,43.4646,180,"0.01","terrestrial","soil sample","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.809870622242697,2783.72513162344,4.59396983223607,-11.6424469110228,19.3634610129386,576.117579608019
5938,12126,12957,"Neotoma","Mordsger Lake","MORDSGER",51.383333,-94.25,400,"not known","lake","core","22","McAndrews, J.H. 1986. Vegetation history of the Bloodvein River region in Woodland Caribou Provincial Park, Ontario. Unpublished report to Ontario Ministry of Natural Resources and Parks Canada. 12 pp.",,9,"cool mixed forest",0.8744911968381,2436.97162575915,1.36118896040593,-19.3362859811718,18.8105204088349,623.900587723662
5939,12127,7345,"EMPDv2","Moregna","Finsinger_a68",46.2665545471944,11.6380874752454,2058,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.61170233722476,839.492216080819,-0.500817326487997,-7.83660179042981,7.13802944110582,1734.84242809695
5940,12128,17625,"Phelps et al., 2020","Moreletta Stream","MORELE_5",-25.733333,28.3,1324,"not applicable","fluvial","not known","16","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.367281057315319,6504.27128788245,17.8199213366642,11.0081272025403,22.6059580726686,629.419362098406
5941,12129,24188,"Neotoma","Moreno Glacier Bog","MORENOGL",-50.466667,-73,200,"not known","terrestrial, bog/fen/swamp","core","0","Mercer, J.H., and T.A. Ager. 1983. Glacial and floral changes in southern Argentina since 14,000 years ago. National Geographic Society Research Reports 15:457-477.",,7,"cool-temperate rainforest",0.702663423183236,2306.30259740747,6.31863725317115,1.17985120789674,10.8715166527097,481.542129840656
5942,12130,10593,"BIOME6000 Japan","Morinjinuma","D10003",36.216667,139.533333,8,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.58755671422108,5307.38145492865,14.5407711093936,4.01224333269145,26.0772579248853,1533.51275190873
5943,12131,8021,"EMPDv2","Morjz","Mikishin-Gvozdeva_a82",46.8113888888889,143.239166666667,-2,"0.22","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.62197032915779,2249.6786336019,3.13439266901215,-11.519370973761,17.0624712339783,1007.90761017777
5944,12132,15225,"Neotoma","Morkill Lake","MOR",53.60655583,-120.6522789,780,"not known","lake","core","-16","Gavin, D.G., A. White, P.T. Sanborn, and R.J. Hebda. 2020. Deglacial landforms and Holocene vegetation trajectories in the northern interior cedar-hemlock forests of British Columbia. Pages 1-20 in R.B. Waitt, G.D. Thackray, and A.R. Gillespie, editors. Untangling the Quaternary Period: A Legacy of Stephen C. Porter. Geological Society of America Special Paper 548. Geological Society of America.","https://doi.org/10.1130/2020.2548(05)",15,"cold evergreen needleleaf forest",1.06914489969548,2062.68498107218,3.04406036739517,-10.737766755268,14.5252422705361,717.069153786565
5945,12133,21228,"SMPDSv1","Morktjarnen","Seppa_b164",59.4,14.167,145,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08767409606698,2263.89824300736,4.85065217021941,-5.41450899470301,15.3829652864224,641.855642279302
5946,12134,21229,"SMPDSv1","Moroc","Barboni_a1000",33.32,-5.12,1880,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.331946107389687,4778.90390012298,13.0928873975972,4.13453667661613,24.4705401005103,476.056809824143
5946,12135,21230,"SMPDSv1","Moroc","Barboni_a1001",33.32,-5.12,1860,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.33244542318904,4799.521496467,13.1493739629233,4.22346177734382,24.4770225361486,476.504075754178
5946,12136,21231,"SMPDSv1","Moroc","Barboni_a1002",33.32,-5.12,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.332695371615562,4809.83029463902,13.1776172455863,4.26792432770766,24.4802637539678,476.727708719196
5946,12137,21232,"SMPDSv1","Moroc","Barboni_a1003",33.32,-5.12,1840,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.332945514150574,4820.13909281103,13.2058605282494,4.3123868780715,24.483504971787,476.951341684214
5946,12138,21233,"SMPDSv1","Moroc","Barboni_a1004",33.32,-5.12,1830,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.333195851112163,4830.44789098304,13.2341038109124,4.35684942843534,24.4867461896061,477.174974649231
5946,12139,21234,"SMPDSv1","Moroc","Barboni_a1005",33.32,-5.12,1820,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.333446382818532,4840.75668915505,13.2623470935755,4.40131197879919,24.4899874074253,477.398607614249
5946,12140,21235,"SMPDSv1","Moroc","Barboni_a1006",29.95,-9.6,50,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.098599189470883,7191.15344400816,19.7017902575566,14.9953339309637,23.9622165427948,138.74015808503
5946,12141,21236,"SMPDSv1","Moroc","Barboni_a1007",33.32,-5.12,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.333948031739005,4861.37428549907,13.3188336589016,4.49023707952687,24.4964698430636,477.845873544284
5946,12142,21237,"SMPDSv1","Moroc","Barboni_a1008",33.42,-5.1,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.331295299304348,4758.41206559015,13.0367453851785,4.05157860096436,24.4796306435712,474.943138141966
5946,12143,21238,"SMPDSv1","Moroc","Barboni_a1009",33.42,-5.1,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.331295299304348,4758.41206559015,13.0367453851785,4.05157860096436,24.4796306435712,474.943138141966
5946,12144,21239,"SMPDSv1","Moroc","Barboni_a1010",33.42,-5.1,1910,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.331031652671218,4748.1627294975,13.0086650123219,4.00721083964595,24.4767466164939,474.702562763902
5946,12145,21240,"SMPDSv1","Moroc","Barboni_a1011",33.4,-5.1,1920,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330716676309857,4738.15676138853,12.9812514010645,3.96202671329748,24.4721364414137,474.496827561073
5946,12146,21241,"SMPDSv1","Moroc","Barboni_a1012",33.4,-5.12,1930,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330892739950085,4726.52251580157,12.9493767556207,3.91552773458146,24.461491803599,474.787622221936
5946,12147,21242,"SMPDSv1","Moroc","Barboni_a1013",33.38,-5.15,1950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330981415476325,4704.1772437942,12.8881568323129,3.8227414476486,24.442361263777,475.146883099048
5946,12148,21243,"SMPDSv1","Moroc","Barboni_a1014",33.38,-5.15,1960,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330727199925761,4693.90290324198,12.8600079540876,3.77830507595555,24.4393896344974,474.916579492437
5946,12149,21244,"SMPDSv1","Moroc","Barboni_a1015",33.4,-5.12,1960,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.330115906512969,4695.73788682726,12.8650353063761,3.78233226037677,24.4526903814037,474.080018658946
5946,12150,21245,"SMPDSv1","Moroc","Barboni_a1016",33.38,-5.15,1980,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.33021935510783,4673.35422213754,12.8037101976371,3.68943233256945,24.4334463759381,474.455972279214
5946,12151,21246,"SMPDSv1","Moroc","Barboni_a1017",29.95,-9.65,125,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.104365698626228,7104.86727406782,19.4653897919666,14.6230124444872,23.9342233649705,147.042150064583
5946,12152,21247,"SMPDSv1","Moroc","Barboni_a1018",33.38,-5.15,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.329712289841223,4652.8055410331,12.7474124411866,3.60055958918334,24.4275031173788,473.995365065992
5946,12153,21248,"SMPDSv1","Moroc","Barboni_a1019",33.52,-5.3,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.357922450198048,5380.53144838851,14.7411820503795,6.91056592884536,24.3767515177512,500.270289711726
5946,12154,21249,"SMPDSv1","Moroc","Barboni_a1020",33.62,-5.28,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.355982563700787,5221.49469570099,14.3054649197287,6.23802533201199,24.3373261964376,498.917662003014
5946,12155,21250,"SMPDSv1","Moroc","Barboni_a1021",35.14,-5.26,1350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387669542366557,5142.48756289679,14.089007021635,6.62659804202305,24.1205696887144,521.910506145517
5946,12156,21251,"SMPDSv1","Moroc","Barboni_a1022",33.48,-5.16,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.338146093712893,4957.96603718819,13.5834685950361,4.9349229702672,24.5135400771972,481.292155643457
5946,12157,21252,"SMPDSv1","Moroc","Barboni_a1023",33.48,-5.16,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.338146093712893,4957.96603718819,13.5834685950361,4.9349229702672,24.5135400771972,481.292155643457
5946,12158,21253,"SMPDSv1","Moroc","Barboni_a1024",33.5,-6.56,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.345598207245582,6274.47910971092,17.1903537252354,10.9074543753374,24.3363873035139,473.357509788854
5946,12159,21254,"SMPDSv1","Moroc","Barboni_a1025",33.68,-6.75,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.343553266481409,6356.0346311556,17.4137935100153,11.3855386456554,24.1908412135213,467.701640019285
5946,12160,21255,"SMPDSv1","Moroc","Barboni_a1026",33.72,-6.82,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.339221305622081,6362.11871597279,17.4304622355419,11.4228099095596,24.1926752202133,461.867039952694
5946,12161,21256,"SMPDSv1","Moroc","Barboni_a1027",33.72,-6.82,320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.339092651284487,6345.74614496538,17.3856058766175,11.3312707693992,24.2102830018033,462.120354408092
5946,12162,21257,"SMPDSv1","Moroc","Barboni_a1028",29.95,-9.7,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.106321055779312,7074.54871601946,19.3823252493684,14.5025257749563,23.9141105346718,149.807389322148
5946,12163,21258,"SMPDSv1","Moroc","Barboni_a1029",33.72,-6.85,350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.338197487352802,6322.11537260712,17.3208640345401,11.197833008184,24.2372759003485,461.586280644436
5946,12164,21259,"SMPDSv1","Moroc","Barboni_a1030",33.72,-6.85,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.337894311853203,6281.32670125419,17.2091142500115,10.9689466552476,24.2821956217188,462.246553440009
5946,12165,21260,"SMPDSv1","Moroc","Barboni_a1031",33.72,-6.88,450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.336921874892363,6241.77188127253,17.1007448801987,10.7438826036057,24.3296188387076,462.045750626293
5946,12166,21261,"SMPDSv1","Moroc","Barboni_a1032",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12167,21262,"SMPDSv1","Moroc","Barboni_a1033",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12168,21263,"SMPDSv1","Moroc","Barboni_a1034",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12169,21264,"SMPDSv1","Moroc","Barboni_a1035",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12170,21265,"SMPDSv1","Moroc","Barboni_a1036",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12171,21266,"SMPDSv1","Moroc","Barboni_a1037",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12172,21267,"SMPDSv1","Moroc","Barboni_a1038",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12173,21268,"SMPDSv1","Moroc","Barboni_a1039",30.6,-9.58,450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.16272892886771,6480.11092904515,17.7537285727264,12.5715009551609,23.006496928131,228.759097110904
5946,12174,21269,"SMPDSv1","Moroc","Barboni_a1040",34.1,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.370750932372267,6413.52869434985,17.5713114913695,11.8830172737503,23.9521630446242,495.370438743089
5946,12175,21270,"SMPDSv1","Moroc","Barboni_a1041",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12176,21271,"SMPDSv1","Moroc","Barboni_a1042",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12177,21272,"SMPDSv1","Moroc","Barboni_a1043",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12178,21273,"SMPDSv1","Moroc","Barboni_a1044",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12179,21274,"SMPDSv1","Moroc","Barboni_a1045",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12180,21275,"SMPDSv1","Moroc","Barboni_a1046",34.05,-6.6,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.369329227539768,6416.35108161423,17.5790440592171,11.8917612163817,23.9557416923267,493.897129847496
5946,12181,21276,"SMPDSv1","Moroc","Barboni_a1047",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12182,21277,"SMPDSv1","Moroc","Barboni_a1048",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12183,21278,"SMPDSv1","Moroc","Barboni_a1049",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12184,21279,"SMPDSv1","Moroc","Barboni_a1050",30.64,-9.55,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.166435697252424,6430.95888612197,17.6190654414301,12.3275969439393,23.0654054987682,234.234236675725
5946,12185,21280,"SMPDSv1","Moroc","Barboni_a1051",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12186,21281,"SMPDSv1","Moroc","Barboni_a1052",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12187,21282,"SMPDSv1","Moroc","Barboni_a1053",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12188,21283,"SMPDSv1","Moroc","Barboni_a1054",34.08,-6.55,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371335749098768,6414.43754397046,17.57380149033,11.8805163673879,23.9635742003033,496.292111030786
5946,12189,21284,"SMPDSv1","Moroc","Barboni_a1055",34.2,-6.65,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371868074146656,6534.05589009795,17.9015229865697,12.4682336844756,23.9134051998765,493.989676254108
5946,12190,21285,"SMPDSv1","Moroc","Barboni_a1056",34.2,-6.65,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371868074146656,6534.05589009795,17.9015229865697,12.4682336844756,23.9134051998765,493.989676254108
5946,12191,21286,"SMPDSv1","Moroc","Barboni_a1057",34.2,-6.65,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371868074146656,6534.05589009795,17.9015229865697,12.4682336844756,23.9134051998765,493.989676254108
5946,12192,21287,"SMPDSv1","Moroc","Barboni_a1058",34.2,-6.65,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.371868074146656,6534.05589009795,17.9015229865697,12.4682336844756,23.9134051998765,493.989676254108
5946,12193,21288,"SMPDSv1","Moroc","Barboni_a1059",34.22,-6.4,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.378243474493138,6533.85632886207,17.9009762434577,12.4346900894273,23.9750410228446,502.229687737553
5946,12194,21289,"SMPDSv1","Moroc","Barboni_a1060",34.25,-6.5,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.378338434770813,6530.09924153208,17.8906828535126,12.4363686202575,23.926411176505,502.001028533168
5946,12195,21290,"SMPDSv1","Moroc","Barboni_a1061",30.66,-9.48,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.167310819053768,6429.41939510895,17.6148476578327,12.3140806473326,23.0794833984458,235.513520154801
5946,12196,21291,"SMPDSv1","Moroc","Barboni_a1062",34.25,-6.5,20,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.378338434770813,6530.09924153208,17.8906828535126,12.4363686202575,23.926411176505,502.001028533168
5946,12197,21292,"SMPDSv1","Moroc","Barboni_a1063",34.7,-6,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.409096487132778,6408.67530595251,17.5580145368562,11.8442070245758,24.091705856699,539.188104802231
5946,12198,21293,"SMPDSv1","Moroc","Barboni_a1064",34.12,-5.02,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.380887598627611,5900.82284028499,16.166637918589,9.33729492230446,24.5208706133709,517.151757673146
5946,12199,21294,"SMPDSv1","Moroc","Barboni_a1065",34.12,-5.02,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.380887598627611,5900.82284028499,16.166637918589,9.33729492230446,24.5208706133709,517.151757673146
5946,12200,21295,"SMPDSv1","Moroc","Barboni_a1066",34.12,-5.02,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.380887598627611,5900.82284028499,16.166637918589,9.33729492230446,24.5208706133709,517.151757673146
5946,12201,21296,"SMPDSv1","Moroc","Barboni_a1067",34.12,-5.02,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.380887598627611,5900.82284028499,16.166637918589,9.33729492230446,24.5208706133709,517.151757673146
5946,12202,21297,"SMPDSv1","Moroc","Barboni_a1068",34.12,-5,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.397517233075378,6285.10557589854,17.2194673312289,11.072899579607,24.5638190817083,530.948175965764
5946,12203,21298,"SMPDSv1","Moroc","Barboni_a1069",34.12,-5.02,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.397688192523816,6284.31166966436,17.2172922456558,11.0716888853425,24.5567752231517,531.184311163856
5946,12204,21299,"SMPDSv1","Moroc","Barboni_a1070",34.26,-5.12,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.403638730858082,6254.62410745835,17.13595645879,11.0059740359067,24.4515920483355,537.642305063882
5946,12205,21300,"SMPDSv1","Moroc","Barboni_a1071",34.26,-5.12,270,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.404818636847094,6284.14980867996,17.216848790904,11.1343421571289,24.4566056988073,538.627346435369
5946,12206,21301,"SMPDSv1","Moroc","Barboni_a1072",30.52,-9.35,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.163425709608074,6456.45725381413,17.6889239830524,12.3410722005088,23.2016679990648,230.655794741361
5946,12207,21302,"SMPDSv1","Moroc","Barboni_a1073",34.26,-5.12,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.405606988799447,6303.83360949436,17.2707770123133,11.2199209046103,24.4599481324552,539.284040683027
5946,12208,21303,"SMPDSv1","Moroc","Barboni_a1074",34.26,-5.12,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.405606988799447,6303.83360949436,17.2707770123133,11.2199209046103,24.4599481324552,539.284040683027
5946,12209,21304,"SMPDSv1","Moroc","Barboni_a1075",34.26,-5.12,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.405606988799447,6303.83360949436,17.2707770123133,11.2199209046103,24.4599481324552,539.284040683027
5946,12210,21305,"SMPDSv1","Moroc","Barboni_a1076",34.26,-5.12,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.405606988799447,6303.83360949436,17.2707770123133,11.2199209046103,24.4599481324552,539.284040683027
5946,12211,21306,"SMPDSv1","Moroc","Barboni_a1077",34.46,-5.22,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.392009442291241,5845.45398201548,16.0149424164808,9.28023824426579,24.3172328799915,527.694541075983
5946,12212,21307,"SMPDSv1","Moroc","Barboni_a1078",34.46,-5.22,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.390089365653188,5796.67862715773,15.8813113072815,9.06744365557385,24.3113924539354,526.015988568103
5946,12213,21308,"SMPDSv1","Moroc","Barboni_a1079",34.46,-5.22,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.388177442384536,5747.90327229999,15.7476801980822,8.85464906688192,24.3055520278792,524.337436060223
5946,12214,21309,"SMPDSv1","Moroc","Barboni_a1080",34.78,-5.5,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400241098283629,5707.3683725708,15.6366256782762,8.8621788338597,24.2010895703455,536.022343971141
5946,12215,21310,"SMPDSv1","Moroc","Barboni_a1081",34.9,-5.55,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418717230073061,6192.92304178229,16.9669124432392,10.9293981414499,24.165616755196,552.349931154443
5946,12216,21311,"SMPDSv1","Moroc","Barboni_a1082",34.9,-5.55,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418717230073061,6192.92304178229,16.9669124432392,10.9293981414499,24.165616755196,552.349931154443
5946,12217,21312,"SMPDSv1","Moroc","Barboni_a1083",29.4,-9.48,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.126445970440354,6690.62701536795,18.3304849736108,11.94104978141,25.3088023614536,183.297303745134
5946,12218,21313,"SMPDSv1","Moroc","Barboni_a1084",30.52,-9.35,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.163425709608074,6456.45725381413,17.6889239830524,12.3410722005088,23.2016679990648,230.655794741361
5946,12219,21314,"SMPDSv1","Moroc","Barboni_a1085",34.85,-4.6,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.324674691649546,4854.98740408894,13.3013353536683,4.66252331076596,25.1871801296942,456.536583473864
5946,12220,21315,"SMPDSv1","Moroc","Barboni_a1086",34.85,-4.6,1780,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.325646573936813,4873.57308088162,13.352255016114,4.74825492478152,25.1741505366808,457.515956578308
5946,12221,21316,"SMPDSv1","Moroc","Barboni_a1087",34.85,-4.6,1760,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.326620318846113,4892.15875767429,13.4031746785597,4.83398653879708,25.1611209436673,458.495329682752
5946,12222,21317,"SMPDSv1","Moroc","Barboni_a1088",34.85,-4.6,1740,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.327595932957744,4910.74443446697,13.4540943410054,4.91971815281265,25.1480913506538,459.474702787195
5946,12223,21318,"SMPDSv1","Moroc","Barboni_a1089",34.85,-4.6,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.329552795209806,4947.91578805232,13.5559336658968,5.09118138084378,25.1220321646269,461.433448996083
5946,12224,21319,"SMPDSv1","Moroc","Barboni_a1090",34.85,-4.6,1680,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.330534056611581,4966.50146484499,13.6068533283424,5.17691299485934,25.1090025716134,462.412822100527
5946,12225,21320,"SMPDSv1","Moroc","Barboni_a1091",34.85,-4.6,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332009505285928,4994.37998003401,13.683232822011,5.30551041588269,25.0894581820932,463.881881757192
5946,12226,21321,"SMPDSv1","Moroc","Barboni_a1092",34.85,-4.6,1620,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.333489241913095,5022.25849522302,13.7596123156795,5.43410783690604,25.069913792573,465.350941413858
5946,12227,21322,"SMPDSv1","Moroc","Barboni_a1093",34.85,-4.6,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.334478126384518,5040.8441720157,13.8105319781252,5.5198394509216,25.0568841995596,466.330314518302
5946,12228,21323,"SMPDSv1","Moroc","Barboni_a1094",34.85,-4.6,1580,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.335468933428467,5059.42984880837,13.8614516405709,5.60557106493717,25.0438546065461,467.309687622745
5946,12229,21324,"SMPDSv1","Moroc","Barboni_a1095",30.55,-9.66,-2093,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",0.0259532455384306,8705.39291834023,23.8503915570965,19.4777046788605,27.8794035832476,33.6213359767829
5946,12230,21325,"SMPDSv1","Moroc","Barboni_a1096",34.85,-4.6,1540,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337456342306152,5096.60120239372,13.9632909654623,5.7770342929683,25.0177954205192,469.268433831633
5946,12231,21326,"SMPDSv1","Moroc","Barboni_a1097",34.85,-4.6,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.339451522896041,5133.77255597908,14.0651302903536,5.94849752099943,24.9917362344923,471.22718004052
5946,12232,21327,"SMPDSv1","Moroc","Barboni_a1098",34.88,-4.65,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340364806599972,5130.02007857245,14.0548495303355,5.95497196769499,24.9621997607748,471.809510127948
5946,12233,21328,"SMPDSv1","Moroc","Barboni_a1099",34.9,-4.62,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340540642966777,5129.30984189635,14.0529036764284,5.95058930426081,24.9636226583887,471.973217018315
5946,12234,21329,"SMPDSv1","Moroc","Barboni_a1100",34.95,-4.6,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.356479862173305,5405.23702918302,14.8088685731042,7.23346655471891,24.7560232744901,487.21530600057997
5946,12235,21330,"SMPDSv1","Moroc","Barboni_a1101",34.95,-4.6,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.356479862173305,5405.23702918302,14.8088685731042,7.23346655471891,24.7560232744901,487.21530600057997
5946,12236,21331,"SMPDSv1","Moroc","Barboni_a1102",35.1,-4.6,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379852961658258,5767.82456869078,15.8022590923035,8.94829552366821,24.5327964599414,508.566253947292
5946,12237,21332,"SMPDSv1","Moroc","Barboni_a1103",35.15,-4.68,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.38512566641652,5806.14288837612,15.9072407900716,9.15467210533799,24.4814562777376,513.879163741761
5946,12238,21333,"SMPDSv1","Moroc","Barboni_a1104",35.15,-4.68,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.38785091418469,5852.75695111104,16.0349505509892,9.36766132859186,24.4724316410562,516.447865447204
5946,12239,21334,"SMPDSv1","Moroc","Barboni_a1105",35,-4.9,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.358124575714961,5183.88479943442,14.2024241080395,6.45087013242424,24.6319598771173,489.14072514315
5946,12240,21335,"SMPDSv1","Moroc","Barboni_a1106",30.55,-9.3,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.182214502205241,6108.0345792077,16.7343413128978,10.501543652945,23.7565126638576,260.138513319001
5946,12241,21336,"SMPDSv1","Moroc","Barboni_a1107",35.02,-5.04,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.366152918906228,5267.6440485802,14.4319015029594,6.86293044463879,24.5234150433227,497.595936702895
5946,12242,21337,"SMPDSv1","Moroc","Barboni_a1108",35.14,-5.26,1460,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384073088472659,5033.38103975237,13.7900850404175,6.17740888633586,24.1379515591462,518.278496128918
5946,12243,21338,"SMPDSv1","Moroc","Barboni_a1109",35.14,-5.26,1490,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383097240039006,5003.62471525844,13.7085608637217,6.05490275296663,24.142692069264,517.287947942573
5946,12244,21339,"SMPDSv1","Moroc","Barboni_a1110",35.14,-5.26,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38277242968215,4993.70594042712,13.6813861381565,6.01406737517688,24.1442722393033,516.957765213792
5946,12245,21340,"SMPDSv1","Moroc","Barboni_a1111",35.18,-5.15,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.355225806396675,4914.96298831859,13.4656520227907,5.45018169384105,24.5235066590941,484.562951681738
5946,12246,21341,"SMPDSv1","Moroc","Barboni_a1112",35.18,-5.15,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.357583056555913,4962.22826623504,13.5951459348905,5.65350548480157,24.5036062327464,487.139847193618
5946,12247,21342,"SMPDSv1","Moroc","Barboni_a1113",35.18,-5.15,1570,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.359001441024789,4990.58743298492,13.6728422821505,5.77549975937789,24.4916659769378,488.685984500746
5946,12248,21343,"SMPDSv1","Moroc","Barboni_a1114",35.18,-5.15,1510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.361847363406776,5047.30576648467,13.8282349766703,6.01948830853052,24.4677854653207,491.778259115002
5946,12249,21344,"SMPDSv1","Moroc","Barboni_a1115",35.18,-5.28,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392402984976246,5236.63143473114,14.3469354376196,7.03809784701465,24.0717316845395,526.467829552323
5946,12250,21345,"SMPDSv1","Moroc","Barboni_a1116",35.18,-5.28,1280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391432556098526,5206.78675222668,14.2651691841827,6.91580052025944,24.075663014669,525.495253362679
5946,12251,21346,"SMPDSv1","Moroc","Barboni_a1117",30.58,-9.32,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.185136342344013,6060.61643414086,16.6044285866873,10.2698191802386,23.8059387708196,264.550204986476
5946,12252,21347,"SMPDSv1","Moroc","Barboni_a1118",35.18,-5.28,1290,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391109555484265,5196.83852472519,14.2379137663704,6.87503474467437,24.0769734580456,525.171061299465
5946,12253,21348,"SMPDSv1","Moroc","Barboni_a1119",35.18,-5.28,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390786792060535,5186.8902972237,14.2106583485581,6.8342689690893,24.0782839014221,524.84686923625
5946,12254,21349,"SMPDSv1","Moroc","Barboni_a1120",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12255,21350,"SMPDSv1","Moroc","Barboni_a1121",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12256,21351,"SMPDSv1","Moroc","Barboni_a1122",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12257,21352,"SMPDSv1","Moroc","Barboni_a1123",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12258,21353,"SMPDSv1","Moroc","Barboni_a1124",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12259,21354,"SMPDSv1","Moroc","Barboni_a1125",35.18,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390141975228926,5166.99384222072,14.1561475129335,6.75273741791916,24.0809047881751,524.19848510982
5946,12260,21355,"SMPDSv1","Moroc","Barboni_a1126",35.2,-5.28,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391328476726653,5184.80839915692,14.2049545182381,6.836425076989,24.063585670227,525.26484967594
5946,12261,21356,"SMPDSv1","Moroc","Barboni_a1127",35.2,-5.28,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391328476726653,5184.80839915692,14.2049545182381,6.836425076989,24.063585670227,525.26484967594
5946,12262,21357,"SMPDSv1","Moroc","Barboni_a1128",30.62,-9.28,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.185982803702871,6057.66493262405,16.5963422811618,10.2610453724745,23.8040437367612,265.7250694252
5946,12263,21358,"SMPDSv1","Moroc","Barboni_a1129",35.2,-5.28,1320,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.390686799513839,5164.8896327549,14.1503825554929,6.75496475256438,24.0659665308939,524.618172816262
5946,12264,21359,"SMPDSv1","Moroc","Barboni_a1130",35.3,-5.28,1350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429274320009299,4988.52437542805,13.6671900696659,6.62722011789838,23.2808653499469,564.857519419377
5946,12265,21360,"SMPDSv1","Moroc","Barboni_a1131",35.3,-5.28,1370,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429293355817475,4966.05409790299,13.6056276654876,6.54662044729178,23.2635999435092,564.865650087495
5946,12266,21361,"SMPDSv1","Moroc","Barboni_a1132",35.4,-5.28,1420,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430633765823979,4904.16330522692,13.4360638499368,6.35424971236862,23.1634950472784,565.847789840695
5946,12267,21362,"SMPDSv1","Moroc","Barboni_a1133",35.4,-5.28,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430659411424416,4870.39371983775,13.3435444379116,6.23385213994875,23.1425851256889,565.842039902959
5946,12268,21363,"SMPDSv1","Moroc","Barboni_a1134",35.4,-5.28,1480,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430686109178976,4836.62413444857,13.2510250258865,6.11345456752888,23.1218884240751,565.836289965224
5946,12269,21364,"SMPDSv1","Moroc","Barboni_a1135",35.4,-5.28,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430704491537402,4814.11107752246,13.1893454178697,6.03318951924896,23.1080906229993,565.832456673401
5946,12270,21365,"SMPDSv1","Moroc","Barboni_a1136",35.4,-5.28,1520,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430723340497957,4791.59802059634,13.127665809853,5.95292447096904,23.0942928219234,565.828623381577
5946,12271,21366,"SMPDSv1","Moroc","Barboni_a1137",35.4,-5.28,1620,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.43082456935424,4679.03273596576,12.8192677697692,5.55159922956946,23.0253038165443,565.809456922459
5946,12272,21367,"SMPDSv1","Moroc","Barboni_a1138",35.5,-5.28,1620,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432081947744797,4672.78333302136,12.8021461178668,5.56175184140915,22.9545831649272,566.74323544437
5946,12273,21368,"SMPDSv1","Moroc","Barboni_a1139",30.62,-9.25,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.183827743371479,6101.61896879094,16.7167642980574,10.4861034758449,23.7454716430038,262.336558475619
5946,12274,21369,"SMPDSv1","Moroc","Barboni_a1140",35.5,-5.28,1640,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432100859007529,4650.21934827629,12.7403269815789,5.48178348097134,22.9397716109545,566.729385341286
5946,12275,21370,"SMPDSv1","Moroc","Barboni_a1141",35.5,-5.28,1660,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432120229428051,4627.65536353121,12.678507845291,5.40181512053354,22.9249600569818,566.715535238202
5946,12276,21371,"SMPDSv1","Moroc","Barboni_a1142",35.6,-5.25,1680,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427924328152853,4609.54451132016,12.62888907211,5.35019626179733,22.8747873146616,560.835435760521
5946,12277,21372,"SMPDSv1","Moroc","Barboni_a1143",35.6,-5.25,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42784937828286,4587.09803720392,12.5673918827505,5.27082190486432,22.8595109012342,560.696184203579
5946,12278,21373,"SMPDSv1","Moroc","Barboni_a1144",35.6,-5.25,1730,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427737772706963,4553.42832602957,12.4751460987111,5.15176036946481,22.8365962810931,560.487306868167
5946,12279,21374,"SMPDSv1","Moroc","Barboni_a1145",35.6,-5.25,1760,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427627147908023,4519.75861485522,12.3829003146718,5.03269883406529,22.813681660952,560.278429532755
5946,12280,21375,"SMPDSv1","Moroc","Barboni_a1146",35.7,-5.25,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.429112187722026,4467.37578138218,12.2393857024169,4.87918928300712,22.7057008156015,561.562750490814
5946,12281,21376,"SMPDSv1","Moroc","Barboni_a1147",35.08,-5.22,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37586470194144,5345.3526192841,14.6448016966688,7.2717637765531,24.3822489340297,507.651833723158
5946,12282,21377,"SMPDSv1","Moroc","Barboni_a1148",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12283,21378,"SMPDSv1","Moroc","Barboni_a1149",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12284,21379,"SMPDSv1","Moroc","Barboni_a1150",30.68,-9.16,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.184631982274113,6111.18367417862,16.7429689703524,10.4034695285557,23.9113068556623,264.519272399136
5946,12285,21380,"SMPDSv1","Moroc","Barboni_a1151",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12286,21381,"SMPDSv1","Moroc","Barboni_a1152",35.15,-5.28,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391606988819282,5239.6383737891,14.3551736268194,7.03516003176497,24.092634860973,525.850148542484
5946,12287,21382,"SMPDSv1","Moroc","Barboni_a1153",35.15,-5.28,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389979218400773,5189.97840474099,14.2191189170986,6.83106353675043,24.1000722087273,524.222932701486
5946,12288,21383,"SMPDSv1","Moroc","Barboni_a1154",35.15,-5.28,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391606988819282,5239.6383737891,14.3551736268194,7.03516003176497,24.092634860973,525.850148542484
5946,12289,21384,"SMPDSv1","Moroc","Barboni_a1155",35.15,-5.28,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391606988819282,5239.6383737891,14.3551736268194,7.03516003176497,24.092634860973,525.850148542484
5946,12290,21385,"SMPDSv1","Moroc","Barboni_a1156",35.15,-5.28,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391606988819282,5239.6383737891,14.3551736268194,7.03516003176497,24.092634860973,525.850148542484
5946,12291,21386,"SMPDSv1","Moroc","Barboni_a1157",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12292,21387,"SMPDSv1","Moroc","Barboni_a1158",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12293,21388,"SMPDSv1","Moroc","Barboni_a1159",35.15,-5.28,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393240807629491,5289.29834283721,14.4912283365403,7.23925652677951,24.0851975132188,527.477364383483
5946,12294,21389,"SMPDSv1","Moroc","Barboni_a1160",35.15,-5.26,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392879804218368,5290.30996199554,14.4939998958782,7.24000811193554,24.0903031075714,527.064851316482
5946,12295,21390,"SMPDSv1","Moroc","Barboni_a1161",30.72,-9.14,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.185633390017613,6107.34856895882,16.7324618327639,10.3937199164849,23.9054729525351,265.87791026281
5946,12296,21391,"SMPDSv1","Moroc","Barboni_a1162",35.15,-5.26,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.391226976361875,5240.69009395987,14.3580550519449,7.03591989989966,24.0979160437983,525.415955332376
5946,12297,21392,"SMPDSv1","Moroc","Barboni_a1163",35.12,-5.32,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414638091311622,5935.78838231489,16.2624339241504,9.8921366834896,24.1383175649276,548.354763054223
5946,12298,21393,"SMPDSv1","Moroc","Barboni_a1164",35.25,-4.94,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.423228490533673,6243.59887273782,17.105750336268,11.1650128316813,24.2606805596182,554.245502309244
5946,12299,21394,"SMPDSv1","Moroc","Barboni_a1165",35.36,-5.1,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.424475545998219,6181.25605147012,16.9349480862195,10.8904751985317,24.2524670214146,558.399928864811
5946,12300,21395,"SMPDSv1","Moroc","Barboni_a1166",35.44,-5.2,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421824668431455,5959.81817972762,16.3282689855551,10.0675652806469,24.104909291682,555.272593711884
5946,12301,21396,"SMPDSv1","Moroc","Barboni_a1167",35.52,-5.54,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434857177779455,5925.30776944012,16.2337199162743,10.0253801531355,23.9420291778172,571.265447671928
5946,12302,21397,"SMPDSv1","Moroc","Barboni_a1168",35.74,-5.92,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434105352013333,6383.90355847234,17.4901467355407,11.5772882170408,24.4023320137046,571.354974726646
5946,12303,21398,"SMPDSv1","Moroc","Barboni_a1169",35.74,-5.92,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.436439460675272,6320.51154741689,17.316469992923,11.3771897204959,24.3154687507594,574.074984133456
5946,12304,21399,"SMPDSv1","Moroc","Barboni_a1170",35.74,-5.92,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438779188587807,6257.11953636144,17.1427932503053,11.177091223951,24.2286054878141,576.794993540266
5946,12305,21400,"SMPDSv1","Moroc","Barboni_a1171",35.74,-5.92,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438779188587807,6257.11953636144,17.1427932503053,11.177091223951,24.2286054878141,576.794993540266
5946,12306,21401,"SMPDSv1","Moroc","Barboni_a1172",30.62,-9.82,120,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.14488077356261,6751.32405104901,18.4967782220521,14.1093111550058,22.5938684428857,201.389858891451
5946,12307,21402,"SMPDSv1","Moroc","Barboni_a1173",35.74,-5.92,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434105352013333,6383.90355847234,17.4901467355407,11.5772882170408,24.4023320137046,571.354974726646
5946,12308,21403,"SMPDSv1","Moroc","Barboni_a1174",35.74,-5.92,250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.441124581504782,6193.72752530599,16.9691165076876,10.9769927274062,24.1417422248689,579.515002947076
5946,12309,21404,"SMPDSv1","Moroc","Barboni_a1175",35.74,-5.92,280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442534555413259,6155.69231867272,16.864910462117,10.8569336294792,24.0896242671018,581.147008591162
5946,12310,21405,"SMPDSv1","Moroc","Barboni_a1176",35.74,-5.92,280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442534555413259,6155.69231867272,16.864910462117,10.8569336294792,24.0896242671018,581.147008591162
5946,12311,21406,"SMPDSv1","Moroc","Barboni_a1177",35.74,-5.92,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443475684972244,6130.33551425054,16.79543976507,10.7768942308613,24.0548789619237,582.235012353886
5946,12312,21407,"SMPDSv1","Moroc","Barboni_a1178",30.58,-9.38,-1731,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",0.0578381235918555,8365.34820539317,22.9187622065566,20.0491901351127,26.1722689459237,75.8337895575072
5946,12313,21408,"SMPDSv1","Moroc","Barboni_a1179",29.42,-9.48,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.130870927838502,6619.34120844099,18.135181392989,11.6734720529824,25.2467035437266,189.773636975887
5946,12314,21409,"SMPDSv1","Moroc","Barboni_a1180",30.8,-9.78,280,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.170616845205839,6524.83553510378,17.8762617400103,13.189965969959,22.5173157681249,238.045374360192
5946,12315,21410,"SMPDSv1","Moroc","Barboni_a1181",30.82,-9.78,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.16727048111628,6597.47094973115,18.0752628759758,13.5371187094995,22.5105992743762,233.064473739242
5946,12316,21411,"SMPDSv1","Moroc","Barboni_a1182",30.82,-9.78,220,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.168284780385026,6578.65736262101,18.0237188017014,13.4486168142048,22.5114915168351,234.543223521497
5946,12317,21412,"SMPDSv1","Moroc","Barboni_a1183",31.16,-9.66,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.198158194838242,6160.89156885515,16.8791549831648,11.2134772929117,23.1066321778406,279.259026450219
5946,12318,21413,"SMPDSv1","Moroc","Barboni_a1184",31.3,-9.6,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.209004908241064,6242.11083017272,17.1016735073225,11.7172064715618,22.9355022964513,293.320386270369
5946,12319,21414,"SMPDSv1","Moroc","Barboni_a1185",31.44,-9.7,350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.20928362105732,6392.55911928808,17.5138606007893,12.5092377715396,22.8413746800724,291.746734371839
5946,12320,21415,"SMPDSv1","Moroc","Barboni_a1186",31.52,-9.68,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.21095634999655,6432.42779470327,17.6230898485021,12.6891881334063,22.8735438669737,293.626580914404
5946,12321,21416,"SMPDSv1","Moroc","Barboni_a1187",30.96,-9.12,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.205877624147556,5872.13375299117,16.0880376794279,9.35585352206282,23.9930274147249,295.908723958486
5946,12322,21417,"SMPDSv1","Moroc","Barboni_a1188",30.88,-9.05,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.200190883683322,6011.16716579497,16.4689511391643,10.0358508233741,23.872895992008,287.054044854895
5946,12323,21418,"SMPDSv1","Moroc","Barboni_a1189",30.88,-9.05,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.200190883683322,6011.16716579497,16.4689511391643,10.0358508233741,23.872895992008,287.054044854895
5946,12324,21419,"SMPDSv1","Moroc","Barboni_a1190",29.58,-9.35,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.177564397214748,5868.3330143395,16.0776246968206,8.76646516150229,24.740055891481,258.974185075883
5946,12325,21420,"SMPDSv1","Moroc","Barboni_a1191",31.02,-8.95,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.20812059834961,5833.7866471556,15.9829771154948,9.10545531393527,24.1225838680308,299.758604848573
5946,12326,21421,"SMPDSv1","Moroc","Barboni_a1192",30.72,-8.36,600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.165373867553225,6565.87487812753,17.9886982962398,11.7224446364094,24.8599308551086,240.093418490041
5946,12327,21422,"SMPDSv1","Moroc","Barboni_a1193",30.72,-8.36,600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.165373867553225,6565.87487812753,17.9886982962398,11.7224446364094,24.8599308551086,240.093418490041
5946,12328,21423,"SMPDSv1","Moroc","Barboni_a1194",30.28,-8.5,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.173524239732099,6181.40357729854,16.9353522665713,9.90925910707286,25.0224338350593,254.771767370118
5946,12329,21424,"SMPDSv1","Moroc","Barboni_a1195",30.5,-8.78,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.169148885485519,6363.36317866749,17.4338717223767,11.3525666297223,24.0915052893433,242.867639479569
5946,12330,21425,"SMPDSv1","Moroc","Barboni_a1196",30.78,-6.4,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.147397403248152,6876.72412418968,18.8403400662731,9.56230894989654,29.4769635314909,235.277914623316
5946,12331,21426,"SMPDSv1","Moroc","Barboni_a1197",30.72,-8.36,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.222199472314435,5288.47641690913,14.4889764846825,6.02640026445764,25.0766820614285,329.03144117686
5946,12332,21427,"SMPDSv1","Moroc","Barboni_a1198",30.8,-8.35,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.216821177496683,5313.90899815422,14.5586547894636,6.06044639853864,25.1542233266664,321.408639509692
5946,12333,21428,"SMPDSv1","Moroc","Barboni_a1199",30.8,-8.35,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.217969653359857,5266.22536476005,14.4280146979727,5.83246501195228,25.1791491264469,323.421762603841
5946,12334,21429,"SMPDSv1","Moroc","Barboni_a1200",30.8,-8.35,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.21911717931904,5218.54173136589,14.2973746064819,5.60448362536591,25.2040749262273,325.43488569799
5946,12335,21430,"SMPDSv1","Moroc","Barboni_a1201",29.68,-9.02,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.158579550797888,6173.54493774502,16.9138217472466,9.74687559969875,25.2034529540782,232.858021344362
5946,12336,21431,"SMPDSv1","Moroc","Barboni_a1202",30.84,-8.35,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.221637399299904,5121.5720544749,14.0317042588354,5.14848638262253,25.2423125109227,329.61463175589
5946,12337,21432,"SMPDSv1","Moroc","Barboni_a1203",30.88,-8.34,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.215448508382462,5405.23728230792,14.808869266597,6.51017215080195,25.0879321835133,318.44076876947
5946,12338,21433,"SMPDSv1","Moroc","Barboni_a1204",30.86,-8.32,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.21520492692317,5406.26588992264,14.8116873696511,6.50835236208865,25.0954088327095,318.205240664887
5946,12339,21434,"SMPDSv1","Moroc","Barboni_a1205",30.9,-8.3,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.205027816042063,5884.26667562359,16.1212785633523,8.77491210733699,24.8827981839589,300.151900995316
5946,12340,21435,"SMPDSv1","Moroc","Barboni_a1206",30.9,-8.22,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.218235483999696,5286.85951230809,14.4845466090633,5.96032413035497,25.0354445389334,323.449465158534
5946,12341,21436,"SMPDSv1","Moroc","Barboni_a1207",30.92,-8.2,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.215079501613007,5450.8047075067,14.9337115274156,6.63971312596748,25.1166293966152,318.492114247864
5946,12342,21437,"SMPDSv1","Moroc","Barboni_a1208",30.66,-8.18,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.155295835105063,6691.06252021163,18.3316781375661,11.2727713434578,26.2849926562762,231.394381243171
5946,12343,21438,"SMPDSv1","Moroc","Barboni_a1209",30.42,-7.48,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.23412283148943,5230.32237676483,14.3296503473009,5.69358977693115,25.0344586855374,349.895767848871
5946,12344,21439,"SMPDSv1","Moroc","Barboni_a1210",30.8,-7.3,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.216758693859524,5594.53405993474,15.3274905751637,6.64716893065648,25.9040380820756,326.846305780093
5946,12345,21440,"SMPDSv1","Moroc","Barboni_a1211",30.98,-7.03,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.190411748279226,6281.29638173531,17.2090311828365,8.51283931118498,27.5056606425426,292.912203638842
5946,12346,21441,"SMPDSv1","Moroc","Barboni_a1212",29.68,-9.02,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.158579550797888,6173.54493774502,16.9138217472466,9.74687559969875,25.2034529540782,232.858021344362
5946,12347,21442,"SMPDSv1","Moroc","Barboni_a1213",31.24,-8.18,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.204266640092344,6452.20217713202,17.6772662387179,10.8991025236722,25.5225725823682,299.004783562032
5946,12348,21443,"SMPDSv1","Moroc","Barboni_a1214",31.24,-8.18,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.204266640092344,6452.20217713202,17.6772662387179,10.8991025236722,25.5225725823682,299.004783562032
5946,12349,21444,"SMPDSv1","Moroc","Barboni_a1215",31.24,-8.18,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.205080516369356,6398.92400109408,17.5312986331345,10.6728135094501,25.5006489148469,300.346279390754
5946,12350,21445,"SMPDSv1","Moroc","Barboni_a1216",31.24,-8.18,650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.203453318611237,6505.48035316997,17.8232338443013,11.1253915378943,25.5444962498895,297.66328773331
5946,12351,21446,"SMPDSv1","Moroc","Barboni_a1217",31.24,-8.18,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.204266640092344,6452.20217713202,17.6772662387179,10.8991025236722,25.5225725823682,299.004783562032
5946,12352,21447,"SMPDSv1","Moroc","Barboni_a1218",31.24,-8.18,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.204266640092344,6452.20217713202,17.6772662387179,10.8991025236722,25.5225725823682,299.004783562032
5946,12353,21448,"SMPDSv1","Moroc","Barboni_a1219",31.15,-8.06,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.20602855629414,6161.6832757464,16.8813240431408,9.5487926350264,25.5488687083868,303.583460495303
5946,12354,21449,"SMPDSv1","Moroc","Barboni_a1220",31.28,-7.98,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.2228625501607,5698.37375264045,15.6119828839464,7.63453603915104,25.3108939240672,329.016748660869
5946,12355,21450,"SMPDSv1","Moroc","Barboni_a1221",31.22,-7.95,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.215499396065824,5728.85581641145,15.6954953874286,7.69165697773748,25.3996868666557,318.688657963957
5946,12356,21451,"SMPDSv1","Moroc","Barboni_a1222",31.22,-7.95,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.215499396065824,5728.85581641145,15.6954953874286,7.69165697773748,25.3996868666557,318.688657963957
5946,12357,21452,"SMPDSv1","Moroc","Barboni_a1223",29.78,-8.85,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.159849739561043,6229.89863030188,17.0682154254846,10.1403699760811,24.9810919644626,233.913056778577
5946,12358,21453,"SMPDSv1","Moroc","Barboni_a1224",31.35,-7.74,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.225768024062001,6016.43422855357,16.483381448092,8.63396797186648,25.9047950653752,334.97492463867
5946,12359,21454,"SMPDSv1","Moroc","Barboni_a1225",31.35,-7.74,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.225768024062001,6016.43422855357,16.483381448092,8.63396797186648,25.9047950653752,334.97492463867
5946,12360,21455,"SMPDSv1","Moroc","Barboni_a1226",31.3,-7.75,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.223275297639391,5949.72716292159,16.3006223641687,8.45628646846861,25.7588440622903,330.752857126986
5946,12361,21456,"SMPDSv1","Moroc","Barboni_a1227",31.32,-7.75,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.223692873001584,5948.23752970136,16.296541177264,8.45261117141408,25.7549871997983,331.274040570929
5946,12362,21457,"SMPDSv1","Moroc","Barboni_a1228",31.22,-7.8,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.202149240037729,6428.96218622658,17.6135950307578,10.4296659000147,26.0030118824882,298.908154552992
5946,12363,21458,"SMPDSv1","Moroc","Barboni_a1229",31.22,-7.8,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.20103973049138,6486.09746924458,17.7701300527249,10.6600052729201,26.0434011919353,297.192451363573
5946,12364,21459,"SMPDSv1","Moroc","Barboni_a1230",31.2,-7.84,2550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.241035030067559,4433.48442130087,12.1465326610983,2.38320212473011,24.598854292166,358.030265472363
5946,12365,21460,"SMPDSv1","Moroc","Barboni_a1231",31.2,-7.84,2550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.241035030067559,4433.48442130087,12.1465326610983,2.38320212473011,24.598854292166,358.030265472363
5946,12366,21461,"SMPDSv1","Moroc","Barboni_a1232",31.25,-7.72,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.216468719935492,6127.96399332364,16.788942447462,8.95505064463311,26.1712521390546,322.763176847902
5946,12367,21462,"SMPDSv1","Moroc","Barboni_a1233",31.25,-7.4,2400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.25122707197288,4554.28761904681,12.4775003261556,2.79642900511053,24.6593398777752,374.735030902999
5946,12368,21463,"SMPDSv1","Moroc","Barboni_a1234",29.85,-9.25,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.209704001399663,5477.46211381908,15.0067455173125,7.20153114903747,24.6642999753841,306.323546059965
5946,12369,21464,"SMPDSv1","Moroc","Barboni_a1235",31.18,-7.4,2400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.262224742053522,4477.83256472524,12.2680344239048,2.77664843179111,24.2706140255098,388.298273051135
5946,12370,21465,"SMPDSv1","Moroc","Barboni_a1236",31.28,-7.28,2200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.239993200107627,4864.32044800191,13.3269053369915,3.79170097945923,25.2424695420764,360.394755497126
5946,12371,21466,"SMPDSv1","Moroc","Barboni_a1237",31.28,-7.28,2250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.240760007378238,4806.77560905339,13.1692482439819,3.56322661333279,25.1938518998604,361.5920551531
5946,12372,21467,"SMPDSv1","Moroc","Barboni_a1238",31.38,-7.4,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.232592648517245,5540.69423737729,15.1799842119926,6.53762576734844,25.7443155108357,347.585622667994
5946,12373,21468,"SMPDSv1","Moroc","Barboni_a1239",31.38,-7.38,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.232108583072759,5598.03229238889,15.3370747736682,6.7608914451117,25.7974002895726,346.829952542472
5946,12374,21469,"SMPDSv1","Moroc","Barboni_a1240",31.4,-7.38,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.230783317099848,5765.09420820166,15.7947786526073,7.43786483185718,25.9218403090566,344.40252343937
5946,12375,21470,"SMPDSv1","Moroc","Barboni_a1241",31.41,-7.4,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.232136247951463,5650.57369729728,15.4810238282117,6.98573361397011,25.8226460149763,346.518901914962
5946,12376,21471,"SMPDSv1","Moroc","Barboni_a1242",31.41,-7.4,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.236305704985375,5258.09577940236,14.4057418613763,5.3989277442557,25.5256939286273,353.515754581616
5946,12377,21472,"SMPDSv1","Moroc","Barboni_a1243",31.41,-7.4,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.235108511859085,5370.23232737233,14.7129652804721,5.85230084988839,25.6105373818699,351.516653819715
5946,12378,21473,"SMPDSv1","Moroc","Barboni_a1244",31.41,-7.4,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.23391608309442,5482.36887534231,15.020188699568,6.30567395552108,25.6953808351124,349.517553057814
5946,12379,21474,"SMPDSv1","Moroc","Barboni_a1245",29.95,-8.64,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.208262151018694,5480.23443033019,15.0143409050142,7.03998540546404,24.8332556395675,307.844122139617
5946,12380,21475,"SMPDSv1","Moroc","Barboni_a1246",31.41,-7.4,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.232728361949391,5594.50542331229,15.3274121186638,6.75904706115377,25.780224288355,347.518452295912
5946,12381,21476,"SMPDSv1","Moroc","Barboni_a1247",31.41,-7.4,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.232728361949391,5594.50542331229,15.3274121186638,6.75904706115377,25.780224288355,347.518452295912
5946,12382,21477,"SMPDSv1","Moroc","Barboni_a1248",31.41,-7.4,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.231545287855213,5706.64197128227,15.6346355377596,7.21242016678645,25.8650677415975,345.519351534011
5946,12383,21478,"SMPDSv1","Moroc","Barboni_a1249",31.46,-7.38,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.230067780158564,5982.93379338152,16.391599433922,8.33138711957771,26.0705229616347,342.464955104056
5946,12384,21479,"SMPDSv1","Moroc","Barboni_a1250",31.46,-7.38,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.234686375622164,5535.63445633923,15.1661217981897,6.5197626696705004,25.7362588199844,350.366064903797
5946,12385,21480,"SMPDSv1","Moroc","Barboni_a1251",31.46,-7.38,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.233524941276612,5647.4592905998,15.4724912071227,6.97266878214731,25.819824855397,348.390787453862
5946,12386,21481,"SMPDSv1","Moroc","Barboni_a1252",31.54,-7.48,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.229033159402241,6295.65732523794,17.2483762335286,9.68019961716725,26.2069260500052,339.040160477064
5946,12387,21482,"SMPDSv1","Moroc","Barboni_a1253",32.54,-6.05,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.307709381495661,6438.42536340952,17.6395215435877,10.6333109131548,25.6004052399968,438.94128996494
5946,12388,21483,"SMPDSv1","Moroc","Barboni_a1254",32.54,-6.05,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.307709381495661,6438.42536340952,17.6395215435877,10.6333109131548,25.6004052399968,438.94128996494
5946,12389,21484,"SMPDSv1","Moroc","Barboni_a1255",32.54,-6.05,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.307709381495661,6438.42536340952,17.6395215435877,10.6333109131548,25.6004052399968,438.94128996494
5946,12390,21485,"SMPDSv1","Moroc","Barboni_a972",29.4,-9.48,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.126445970440354,6690.62701536795,18.3304849736108,11.94104978141,25.3088023614536,183.297303745134
5946,12391,21486,"SMPDSv1","Moroc","Barboni_a973",29.88,-9.5,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.2035806725097,5585.13291636333,15.3017340174338,7.694556277194,24.5989012003125,296.645172164098
5946,12392,21487,"SMPDSv1","Moroc","Barboni_a974",32.54,-6.05,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.307709381495661,6438.42536340952,17.6395215435877,10.6333109131548,25.6004052399968,438.94128996494
5946,12393,21488,"SMPDSv1","Moroc","Barboni_a975",33.04,-5.65,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.343463709770698,5504.74646304058,15.0814971590153,7.18826138253771,24.6242388627971,485.398725553286
5946,12394,21489,"SMPDSv1","Moroc","Barboni_a976",33.08,-5.58,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.344228192928407,5556.6009769648,15.2235643204515,7.40871812719483,24.654328415686,485.682975858491
5946,12395,21490,"SMPDSv1","Moroc","Barboni_a977",32.97,-5.48,1530,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340323493359639,5149.4072356268,14.1079650291145,5.68457832876579,24.4897745136821,484.795495947849
5946,12396,21491,"SMPDSv1","Moroc","Barboni_a978",33,-5.46,1530,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340670224684254,5147.60597168238,14.1030300594038,5.68259661483303,24.4864684861319,485.071823981276
5946,12397,21492,"SMPDSv1","Moroc","Barboni_a979",33.05,-5.42,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340501595584064,4957.63310275238,13.5825564458969,4.90807476013205,24.3790393902934,486.003627468258
5946,12398,21493,"SMPDSv1","Moroc","Barboni_a980",32.95,-5.5,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340193207734172,5183.8175700392,14.2022399179156,5.82266700379415,24.5099768704508,484.492725615793
5946,12399,21494,"SMPDSv1","Moroc","Barboni_a981",33.12,-5.44,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.341333484100617,4899.15683583928,13.4223474954501,4.68032341867191,24.3354229169152,487.108111237286
5946,12400,21495,"SMPDSv1","Moroc","Barboni_a982",33.12,-5.45,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340237785694273,4625.6055592659,12.6728919431942,3.54742816508815,24.1910154113784,487.793366830814
5946,12401,21496,"SMPDSv1","Moroc","Barboni_a983",33.12,-5.44,1800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.341090808158459,4844.45221963324,13.2724718346116,4.45371997766696,24.3067721987715,487.221041678275
5946,12402,21497,"SMPDSv1","Moroc","Barboni_a984",29.86,-9.44,175,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.105457277699493,7090.37833875886,19.4256940787914,14.3770872582359,24.1673720268732,149.399918217211
5946,12403,21498,"SMPDSv1","Moroc","Barboni_a985",33.12,-5.44,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.340611831921765,4735.04298722116,12.9727205129347,4.00051309565707,24.249470762484,487.446902560253
5946,12404,21499,"SMPDSv1","Moroc","Barboni_a986",32.68,-4.88,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.30102813809451,5433.40104879755,14.8860302706782,6.13212549442689,25.6067405945554,439.338286831288
5946,12405,21500,"SMPDSv1","Moroc","Barboni_a987",32.68,-4.92,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.310557561774252,5210.18989837454,14.274492872259,5.43043046857978,25.1932284542598,451.47776995816
5946,12406,21501,"SMPDSv1","Moroc","Barboni_a988",32.68,-4.95,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.31386002865392,5135.70056871245,14.0704125170204,5.19642854947195,25.0534317348614,455.654373748739
5946,12407,21502,"SMPDSv1","Moroc","Barboni_a989",32.7,-4.98,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.317479882438881,5059.74461075008,13.862314002055,4.96197833573717,24.9078905333821,460.1137291062
5946,12408,21503,"SMPDSv1","Moroc","Barboni_a990",32.86,-4.34,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.289008079771541,5763.318668812,15.7899141611288,7.28874138842178,26.2354647677911,421.556752232598
5946,12409,21504,"SMPDSv1","Moroc","Barboni_a991",33.21,-4.46,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.308778950519714,5072.10643430537,13.8961820117955,4.99377725309641,25.0888304128199,447.317718077965
5946,12410,21505,"SMPDSv1","Moroc","Barboni_a992",33.22,-4.48,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.309284700159476,5129.48664761788,14.0533880756654,5.21683614036912,25.1459927409637,447.552581232005
5946,12411,21506,"SMPDSv1","Moroc","Barboni_a993",33.22,-4.52,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.310674344640467,5064.11950902715,13.8743000247319,4.98608279680238,25.0478904558618,449.563075904347
5946,12412,21507,"SMPDSv1","Moroc","Barboni_a994",33.24,-4.55,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.311559354118032,5179.25397652401,14.1897369219836,5.43315123941292,25.1636921597817,449.876146431238
5946,12413,21508,"SMPDSv1","Moroc","Barboni_a995",29.86,-9.52,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.107627445251521,7055.52820525604,19.3302142609754,14.2582782064026,24.1283287464203,152.397796668844
5946,12414,21509,"SMPDSv1","Moroc","Barboni_a996",33.38,-4.72,1750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.320607170911869,4960.31126740191,13.5898938832929,4.77006927198758,24.7680187179636,461.123354807909
5946,12415,21510,"SMPDSv1","Moroc","Barboni_a997",33.4,-4.7,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.316302275705354,4805.80216400218,13.1665812712389,4.11515837944618,24.6929230906023,457.090913599403
5946,12416,21511,"SMPDSv1","Moroc","Barboni_a998",33.48,-4.96,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.335409731569116,5022.9240672477,13.7614358006786,5.17480197938729,24.6115756702385,477.602289525923
5946,12417,21512,"SMPDSv1","Moroc","Barboni_a999",33.32,-5.12,1900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.331447564210124,4758.28630377896,13.0364008322711,4.04561157588844,24.464057664872,475.609543894108
5947,12418,24171,"Neotoma","Morro da Igreja","IGREJA_0",-28.183333,-49.866667,1800,"not known","terrestrial, bog/fen/swamp","core","-39","Behling, H. 1993. Untersuchungen zur spätpleistozänen und holozänen Vegetations- und Klimageschichte der tropischen Küstenwälder und der Araukarienwälder in Santa Catarina (Südbrasilien). Dissertationes Botanicae 206. J Cramer, Berlin Stuttgart, Germany.;
Behling, H. 1995. Investigations into the Late Pleistocene and Holocene history of vegetation and climate in Santa Catarina (S Brazil). Vegetation History and Archaeobotany 4:127-152.",";
10.1007/BF00203932",4,"warm-temperate evergreen and mixed forest",1.67767823657445,4958.44460746762,13.5847797464866,8.98593431052409,17.9720405146578,1843.26787532278
5947,12419,24172,"Neotoma","Morro da Igreja","IGREJA_8",-28.183333,-49.866667,1800,"not known","terrestrial, bog/fen/swamp","core","-14","Behling, H. 1993. Untersuchungen zur spätpleistozänen und holozänen Vegetations- und Klimageschichte der tropischen Küstenwälder und der Araukarienwälder in Santa Catarina (Südbrasilien). Dissertationes Botanicae 206. J Cramer, Berlin Stuttgart, Germany.;
Behling, H. 1995. Investigations into the Late Pleistocene and Holocene history of vegetation and climate in Santa Catarina (S Brazil). Vegetation History and Archaeobotany 4:127-152.",";
10.1007/BF00203932",4,"warm-temperate evergreen and mixed forest",1.67767823657445,4958.44460746762,13.5847797464866,8.98593431052409,17.9720405146578,1843.26787532278
5948,12420,24173,"Neotoma","Morro de Itapeva","ITAPEVA",-22.783333,-45.533333,1850,"not known","terrestrial, bog/fen/swamp","core","-44","Behling, H. 1997. Late Quaternary vegetation, climate and fire history from the tropical mountain region of Morro de Itapeva, SE Brazil. Palaeogeography, Palaeoclimatology, Palaeoecology 129:407-422.","10.1016/S0031-0182(97)88177-1",4,"warm-temperate evergreen and mixed forest",1.00320824323686,5975.63833452879,16.3716118754214,12.0635356987808,19.2854132216555,1184.18115485663
5949,12421,21513,"SMPDSv1","Morrone Birkwoods","EPDcoretop_E456",57,-3.433333,425,"not known","terrestrial, blanket bog","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99791546491981,2095.35841632367,5.74061023856228,0.240415906429741,11.9558588414205,1469.60220547006
5950,12422,21514,"SMPDSv1","Mortsjon","Seppa_b169",59.87,17.08,87,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02625909797334,2173.94417497895,4.63226984806415,-5.2599871480131,15.1856410634073,589.35488278031
5951,12423,21515,"SMPDSv1","Morttjenn","Bjune_a298",59.0583333333333,11.6116666666666,227,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.31360579386476,2196.20549616717,4.55390599796723,-5.93364565134038,15.1455861814965,779.432440816499
5952,12424,21516,"SMPDSv1","Morttjern","Bjune_a83",59.29472418,11.7058611,130,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25036410454119,2377.47675756341,5.45284269000494,-4.61663489547927,15.7483003231382,755.111706084924
5953,12425,1067,"Australian pollen","Morwell Swamp","Morwell Swamp",-38.25,146.4167,40,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.779616915159583,5087.33739519425,13.9379106717651,9.04158610275127,19.075310136609,806.080042578754
5954,12426,21517,"SMPDSv1","Moselotte","EPDcoretop_E606",48.031944,7,1290,"1e-04","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.24202269862261,2143.47356243882,5.31622648198099,-3.0134968444036,13.8256158229662,1664.39404405147
5955,12427,21518,"SMPDSv1","Mosfell","EPDcoretop_E457",64.126111,-20.609722,80,"not known","terrestrial, blanket bog","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.36813389501414,1435.66533005593,3.59087212308837,-1.46006575332015,10.2088005824423,945.80182003182
5956,12428,8050,"EMPDv2","Moshnya","Mikishin-Gvozdeva_a112",52.2188888888889,141.377777777778,18,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16113002630866,1909.41544052453,-0.896044755573699,-20.0830741719654,15.6409347547917,630.11622690289
5957,12429,1068,"Australian pollen","Moss Bed Lake","Moss Bed Lake",-37.1167,148.0667,1170,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.957570422567437,3098.40604480823,8.48878368440612,1.12134685060692,15.7597359247622,1125.26254953733
5958,12430,21519,"SMPDSv1","Mossen","EPDcoretop_E459",60.116667,21.6,17,"0.2","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00940093196176,2310.82284625048,4.87495633180609,-5.96363051004244,16.0974539753459,574.64255598237
5959,12431,21520,"SMPDSv1","Mossjon","Seppa_b148",57.25,14.47,242,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04418400723736,2383.106981265,5.70983080211753,-3.69457308121851,15.3740813051273,652.474713431909
5960,12432,11890,"Neotoma","Mott 1974 Site 1","MOTT74-01",53.967,-64.567,473,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.73963933808254,1248.13711259036,-4.27718622932028,-22.1166815355168,12.8042528650457,857.718642101824
5961,12433,11899,"Neotoma","Mott 1974 Site 10","MOTT74-10",53.85,-63.2666666666667,516,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.80716044472691,1208.44957139291,-4.25376726074657,-21.5784200495178,12.5633486682171,887.757351006577
5962,12434,11891,"Neotoma","Mott 1974 Site 2","MOTT74-02",53.8166666666667,-65.0333333333333,480,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.71756992856463,1256.74725099293,-4.30482140662169,-22.3091524059613,12.8555505889217,851.265133046832
5963,12435,11892,"Neotoma","Mott 1974 Site 3","MOTT74-03",53.6055555555556,-64.4611111111111,429,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.76188972761827,1300.72954141689,-3.92967099581229,-21.7805357550373,13.1375959441938,883.351106398191
5964,12436,11893,"Neotoma","Mott 1974 Site 4","MOTT74-04",53.4777777777778,-64.6333333333333,483,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.72921744628203,1299.38819240144,-3.96146106853623,-21.8883842650745,13.1231378432798,875.095839511275
5965,12437,11894,"Neotoma","Mott 1974 Site 5","MOTT74-05",53.4222222222222,-64.75,480,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.72001803774063,1300.0587358636,-4.00770814929053,-22.0191993082215,13.1267558895449,870.641223115444
5966,12438,11895,"Neotoma","Mott 1974 Site 6","MOTT74-06",53.5916666666667,-64.3,399,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.775349338058,1306.37048230997,-3.87602420515772,-21.6863469155915,13.1728368988463,888.290100716771
5967,12439,11896,"Neotoma","Mott 1974 Site 7","MOTT74-07",53.5541666666667,-63.875,435,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.7820434257388,1299.08214441348,-3.79616517773524,-21.4256253962345,13.1230320844016,896.139434700909
5968,12440,11897,"Neotoma","Mott 1974 Site 8","MOTT74-08",53.65,-63.65,519,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.80528630770758,1281.608527068,-3.84164310354712,-21.3493779732646,13.032789033192,911.36739267198
5969,12441,11898,"Neotoma","Mott 1974 Site 9","MOTT74-09",53.7083333333333,-63.4958333333333,493,"not known","terrestrial, bog/fen/swamp","surface sample","-21","Mott, R.J. 1974. Modern pollen spectra from Labrador. Pages 232-234 in Report of activities Part B, November 1973 to March 1974. Paper 74-1, Part B. Geological Survey of Canada, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.81187211511118,1280.97324976454,-3.81137743538304,-21.2674322402479,13.0214677269649,910.786732279102
5970,12442,7111,"EMPDv2","Moulin de Thevalles","EPDcoretop_E2078",47.97,-0.42,58,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.850605525841879,4159.30484197974,11.3953557314513,4.81534701391631,18.53817567428,705.721026103325
5971,12443,21521,"SMPDSv1","Moulouya Basin","Moulouya Basin_18",33.0775154213,-4.10745029466,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.280734679142601,5546.60799537831,15.1961862887077,6.43637724612653,26.0863070982274,411.067393314684
5971,12444,21522,"SMPDSv1","Moulouya Basin","Moulouya Basin_19",32.9547352334,-4.2045323037,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.261128615789208,6184.06642038849,16.9426477270918,8.50292481689818,27.2250757592052,383.956857948193
5971,12445,21523,"SMPDSv1","Moulouya Basin","Moulouya Basin_20",32.8448041349,-4.46579712214,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.300927288535343,5348.26370949584,14.65277728629,5.89069005881089,25.5364649745257,438.056134260961
5971,12446,21524,"SMPDSv1","Moulouya Basin","Moulouya Basin_21",32.8062568666,-4.55288539495,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.304172167945845,5274.04290770917,14.4494326238607,5.64838039781192,25.3920766571694,442.47067325975
5971,12447,21525,"SMPDSv1","Moulouya Basin","Moulouya Basin_22",32.7248793002,-4.62997993154,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.313065842710869,5058.9227296356,13.8600622729742,4.94976671514132,24.9712871994398,454.285869202428
5971,12448,21526,"SMPDSv1","Moulouya Basin","Moulouya Basin_23",32.7303044713,-4.69993608512,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.308691736257443,5142.02141146917,14.0877298944361,5.18410982204685,25.1526291402759,448.86160252081
5972,12449,12958,"Neotoma","Moulton Pond","MOULTON",44.6275,-68.639167,143,"not known","lake","core","0","Davis, R.B., T.E. Bradstreet, R. Stuckenrath, Jr., and H.W. Borns, Jr. 1975. Vegetation and associated environments during the past 14,000 years near Moulton Pond, Maine. Quaternary Research 5(3):436-465. http://www.sciencedirect.com/science/article/pii/0033589475900411.",,9,"cool mixed forest",1.47387279741879,2746.66113617415,5.44018276116095,-9.02884536667258,18.880600250587,1133.73506449154
5973,12450,1069,"Australian pollen","Mount Burr Swamp","Mount Burr Swamp",-37.6,140.3167,150,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.509390244293062,5193.05256012938,14.2275412606284,8.82511835122999,20.1670749899748,550.916981127582
5974,12451,1070,"Australian pollen","Mount Chambers, MC1","MC1 in_1995",-30.9621666666667,139.219666666667,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144747757334864,6806.50571076629,18.6479608514145,10.4119037772736,26.6106746226595,238.546059059959
5974,12452,1071,"Australian pollen","Mount Chambers, MC1","MC1 in_1996",-30.9621666666667,139.219666666667,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144747757334864,6806.50571076629,18.6479608514145,10.4119037772736,26.6106746226595,238.546059059959
5974,12453,1072,"Australian pollen","Mount Chambers, MC1","MC1 out_1996",-30.9621666666667,139.219666666667,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144747757334864,6806.50571076629,18.6479608514145,10.4119037772736,26.6106746226595,238.546059059959
5975,12454,1073,"Australian pollen","Mount Chambers, MC2","MC2 in_1995",-30.9623333333333,139.220666666667,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144751546048848,6806.42103147672,18.6477288533609,10.4117085049426,26.6104207612313,238.551390186205
5975,12455,1074,"Australian pollen","Mount Chambers, MC2","MC2 in_1996",-30.9623333333333,139.220666666667,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144751546048848,6806.42103147672,18.6477288533609,10.4117085049426,26.6104207612313,238.551390186205
5975,12456,1075,"Australian pollen","Mount Chambers, MC2","MC2 out_1995",-30.9623333333333,139.220666666667,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144751546048848,6806.42103147672,18.6477288533609,10.4117085049426,26.6104207612313,238.551390186205
5975,12457,1076,"Australian pollen","Mount Chambers, MC2","MC2 out_1996",-30.9623333333333,139.220666666667,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.144751546048848,6806.42103147672,18.6477288533609,10.4117085049426,26.6104207612313,238.551390186205
5976,12458,12003,"Neotoma","Mount Evans Surface Sample 2682 m","MTEV2682",39.6970972222222,-105.613180555556,2682,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.438918639953599,1870.30709376868,2.6320672503682,-8.66535628985376,14.5860150649965,437.843519115552
5977,12459,12004,"Neotoma","Mount Evans Surface Sample 2743 m","MTEV2743",39.6933166666667,-105.615361111111,2743,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.445592944172428,1785.63412764743,2.23042062161783,-9.04080043349055,14.1360113832804,441.39315706948
5978,12460,12005,"Neotoma","Mount Evans Surface Sample 2804 m","MTEV2804",39.6925166666667,-105.614772222222,2804,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.452392001281951,1702.36434667587,1.82868968713587,-9.41548215103682,13.6858595838779,444.922018173306
5979,12461,12006,"Neotoma","Mount Evans Surface Sample 2865 m","MTEV2865",39.6872555555556,-105.611386111111,2865,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.459182172651617,1620.89515608937,1.42886048099229,-9.78816868908706,13.237074439004,448.384476736483
5980,12462,12007,"Neotoma","Mount Evans Surface Sample 2926 m","MTEV2926",39.677325,-105.610036111111,2926,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.466067913595527,1540.87427386316,1.02912389080726,-10.1619393353594,12.788352325152,451.86791819195
5981,12463,12008,"Neotoma","Mount Evans Surface Sample 2987 m","MTEV2987",39.6781166666667,-105.605458333333,2987,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.473184788098925,1461.87795075517,0.628088231792582,-10.5346286728899,12.338387824023,455.341785519254
5982,12464,12009,"Neotoma","Mount Evans Surface Sample 3048 m","MTEV3048",39.6764138888889,-105.611386111111,3048,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.48062377532629,1383.97881299708,0.223902741860106,-10.9137873607174,11.8865700114498,458.99433581869
5983,12465,12010,"Neotoma","Mount Evans Surface Sample 3109 m","MTEV3109",39.6722916666667,-105.593738888889,3109,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.487629273464956,1308.43533127303,-0.171725822419275,-11.2776934788242,11.4396881661434,462.212052030706
5984,12466,12011,"Neotoma","Mount Evans Surface Sample 3170 m","MTEV3170",39.6668944444444,-105.596661111111,3170,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.495230419298848,1233.38353226359,-0.574629409083896,-11.6553386418433,10.9885223805352,465.810443518308
5985,12467,12012,"Neotoma","Mount Evans Surface Sample 3231 m","MTEV3231",39.6616861111111,-105.602708333333,3231,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.50306893098826,1159.54533713785,-0.979016957606382,-12.0357159497529,10.5365197894539,469.481760460511
5986,12468,12013,"Neotoma","Mount Evans Surface Sample 3292 m","MTEV3292",39.6548305555556,-105.597247222222,3292,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.510757984088603,1087.40249700434,-1.37926122531274,-12.4084022886139,10.0865751596078,472.935657687217
5987,12469,12014,"Neotoma","Mount Evans Surface Sample 3353 m","MTEV3353",39.6518472222222,-105.606947222222,3353,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.519044268264781,1015.98568800435,-1.78579085227286,-12.7922774137957,9.63342160654642,476.703951138505
5988,12470,12015,"Neotoma","Mount Evans Surface Sample 3414 m","MTEV3414",39.6500416666667,-105.596694444444,3414,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.526960481782637,946.572110844422,-2.18471927320197,-13.1607453518758,9.18390726774956,480.059385930425
5989,12471,12016,"Neotoma","Mount Evans Surface Sample 3475 m","MTEV3475",39.6651277777778,-105.594666666667,3475,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.535372333791221,878.22115772908,-2.58675541513392,-13.5315802028353,8.73343593852995,483.537387013525
5990,12472,12017,"Neotoma","Mount Evans Surface Sample 3536 m","MTEV3536",39.64445,-105.59255,3536,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.543699908517993,811.427772421371,-2.98915412284537,-13.9108400773946,8.28139910238966,487.119406448
5991,12473,12018,"Neotoma","Mount Evans Surface Sample 3597 m","MTEV3597",39.6448027777778,-105.599691666667,3597,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.552620447842976,745.794364869986,-3.39523465704518,-14.2930946098162,7.8285846913732,490.849576788244
5992,12474,12019,"Neotoma","Mount Evans Surface Sample 3658 m","MTEV3658",39.6368861111111,-105.605922222222,3658,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.561670786000768,681.770687329595,-3.80169383900556,-14.6776582802122,7.37509957929891,494.609308953381
5993,12475,12020,"Neotoma","Mount Evans Surface Sample 3780 m","MTEV3780",39.6227694444444,-105.600091666667,3780,"not known","terrestrial","surface sample","-41","Doerner, J.P. 1994. The late-Quaternary environmental history of Mt. Evans: Pollen and stratigraphic evidence from Clear Creek, Colorado. Doctoral dissertation. University of Denver, Denver, Colorado, USA.",,17,"temperate evergreen needleleaf open woodland",0.579782422785504,559.416323653849,-4.60772960981208,-15.4313603079311,6.47043711474921,501.725192996334
5994,12476,24488,"Southern Hemisphere pollen","Mount Field","CMF_1 surface sample",-42.6667,146.5,150,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.25473757573418,4010.6998151529,10.9882186716518,6.95770739177232,15.1778374295584,1112.70782341153
5994,12477,24497,"Southern Hemisphere pollen","Mount Field","CMF_10 moss polster",-42.6667,146.6,990,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,16,"temperate sclerophyll woodland and shrubland",1.40476168867394,2514.18302774849,6.88817267876298,1.7928668229996,12.6287404938265,1317.63221498337
5994,12478,24498,"Southern Hemisphere pollen","Mount Field","CMF_11 moss polster",-42.6667,146.5,975,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.4105721886242,2536.92116487676,6.95046894486783,1.87793426146268,12.6649549975113,1321.28190402412
5994,12479,24499,"Southern Hemisphere pollen","Mount Field","CMF_12 mud",-42.6667,146.5,1010,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.41707453914608,2474.39722213777,6.77917047161033,1.66242873472227,12.5583478640305,1330.13050138344
5994,12480,24500,"Southern Hemisphere pollen","Mount Field","CMF_13 mud",-42.6667,146.5,1070,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.42820768770489,2367.2133202995,6.48551594602604,1.29299068888157,12.3755927780634,1345.29952542799
5994,12481,24501,"Southern Hemisphere pollen","Mount Field","CMF_14 moss sample",-42.6833,146.5833,1040,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.41546323815763,2424.75020947344,6.64315125883135,1.48351210595468,12.4779280024974,1331.43190157345
5994,12482,24502,"Southern Hemisphere pollen","Mount Field","CMF_15 mud",-42.6667,146.5,1190,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.45042718463237,2152.84551662297,5.89820689485746,0.55411459720017,12.0100826061293,1375.63757351709
5994,12483,24503,"Southern Hemisphere pollen","Mount Field","CMF_16 mud",-42.6667,146.5,1280,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.46705832723379,1993.62804743921,5.45772510648103,-4.24715608812085e-5,11.7359499771787,1398.39110958392
5994,12484,24504,"Southern Hemisphere pollen","Mount Field","CMF_17 moss polster",-42.6667,146.5,1280,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.46705832723379,1993.62804743921,5.45772510648103,-4.24715608812085e-5,11.7359499771787,1398.39110958392
5994,12485,24489,"Southern Hemisphere pollen","Mount Field","CMF_2 moss polster",-42.6667,146.5,170,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.25859346515232,3974.97184787348,10.8903338297904,6.83456137649209,15.1169190675694,1117.76416475971
5994,12486,24490,"Southern Hemisphere pollen","Mount Field","CMF_3 moss polster",-42.6667,146.5,245,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.27301011429221,3840.99197057565,10.52326567281,6.37276381919121,14.8884752101105,1136.7254448154
5994,12487,24491,"Southern Hemisphere pollen","Mount Field","CMF_4 moss polster",-42.6667,146.5,580,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.33667638864052,3242.54851864534,8.88369457163106,4.3100680632473,13.8680926467944,1221.41916239748
5994,12488,24492,"Southern Hemisphere pollen","Mount Field","CMF_5 moss polster",-42.6667,146.5,580,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.33667638864052,3242.54851864534,8.88369457163106,4.3100680632473,13.8680926467944,1221.41916239748
5994,12489,24493,"Southern Hemisphere pollen","Mount Field","CMF_6 moss polster",-42.6667,146.5,610,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.34232749652234,3188.9565677262,8.73686730883891,4.12534904032695,13.7767151038109,1229.00367441976
5994,12490,24494,"Southern Hemisphere pollen","Mount Field","CMF_7 moss polster",-42.6667,146.5,640,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,7,"cool-temperate rainforest",1.34797140075852,3135.36461680707,8.59004004604677,3.9406300174066,13.6853375608274,1236.58818644204
5994,12491,24495,"Southern Hemisphere pollen","Mount Field","CMF_8 moss polster",-42.6667,146.6,850,"very small (<0.01 km2)","terrestrial","moss polster or moss","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,16,"temperate sclerophyll woodland and shrubland",1.37578766643953,2764.3620323851,7.57359460927425,2.65141878212698,13.0581975384217,1279.58928314259
5994,12492,24496,"Southern Hemisphere pollen","Mount Field","CMF_9 lacustrine mud",-42.6667,146.6333,990,"very small (<0.01 km2)","terrestrial","surface sample","-24","Macphail, M.K., 1975. The history of the vegetation and climate in southern Tasmania since the late Pleistocene (ca. 13. 000-0 BP (Doctoral dissertation, University of Tasmania).",,16,"temperate sclerophyll woodland and shrubland",1.40177629930911,2515.5386248979,6.89188664355589,1.79513550014157,12.6320395046876,1315.04711383684
5995,12493,1077,"Australian pollen","Mount Kernot","Mount Kernot",-37.867,146.333,1372,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.27385006912568,2588.89064433476,6.99328671439571,-0.932588842102638,15.3829933771697,1503.03858770448
5996,12494,15500,"Neotoma","Mount Octopus 1","CJH079",47.8,-124.05,122,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.89334656747041,3473.23980129572,9.51572548300197,3.71308816635192,16.0351641012662,2182.69634165579
5997,12495,15501,"Neotoma","Mount Octopus 2","CJH080",47.75,-124,122,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.91487790199757,3497.03104724431,9.58090697875154,3.89594429718273,15.9593668918767,2199.16217110703
5998,12496,1078,"Australian pollen","Mount Oga","Mount Oga 1",-6,145.75,2190,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.24103299514385,7308.260584992,20.0226317397041,19.0146321851688,20.6235721503594,1763.72313022067
5998,12497,1079,"Australian pollen","Mount Oga","Mount Oga 2",-6,145.75,1980,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.34984006148382,7562.77989709378,20.7199449235446,19.7421507408494,21.2948024174073,1918.90709464046
5999,12498,7846,"EMPDv2","Mount Paggeo","Lopez_b1",40.911263,24.234829,220,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.49507095046479,5007.96739843547,13.7204586258506,3.59826078011612,23.720895232971,580.172888816568
5999,12499,7855,"EMPDv2","Mount Paggeo","Lopez_b10",40.911979,24.105875,1632,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.817071991742396,2285.54106452852,4.80628260220823,-6.48795112019604,15.0506585228788,729.380101666615
5999,12500,7856,"EMPDv2","Mount Paggeo","Lopez_b11",40.888285,24.02453,1340,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.73399623813643,2727.39244430315,6.64601407711318,-4.41513929074777,16.8322446139531,696.505242321629
5999,12501,7857,"EMPDv2","Mount Paggeo","Lopez_b12",40.885992,24.018957,1310,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.72592676078266,2775.64063093388,6.83643876397834,-4.1998910703771,17.0170105578669,693.146871690951
5999,12502,7858,"EMPDv2","Mount Paggeo","Lopez_b13",40.886283,24.014451,1260,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.712777087602733,2857.44808552197,7.15484164620704,-3.83940671990417,17.3261705357363,687.667335627632
5999,12503,7859,"EMPDv2","Mount Paggeo","Lopez_b14",40.887443,24.008898,1165,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.688494602492045,3017.14689004244,7.76026348466305,-3.153602790276,17.9143921841478,677.28847434585
5999,12504,7860,"EMPDv2","Mount Paggeo","Lopez_b15",40.89248,23.99679,1005,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.649502842573362,3300.4471988814,8.78015652916574,-1.99852204896076,18.9052707997021,659.747818567752
5999,12505,7861,"EMPDv2","Mount Paggeo","Lopez_b16",40.894157,23.997663,960,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.639007156388399,3383.91333365926,9.06697235905852,-1.67336947104374,19.1843783486721,654.871445550958
5999,12506,7862,"EMPDv2","Mount Paggeo","Lopez_b17",40.894121,23.999245,945,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.63555758859371,3412.16143935797,9.16258564501826,-1.56485522597977,19.2775398070026,653.263053426635
5999,12507,7863,"EMPDv2","Mount Paggeo","Lopez_b18",40.895715,23.99911,880,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.62075769917914,3537.32474267409,9.57679347310661,-1.09539156243574,19.6805463705862,646.186751388693
5999,12508,7864,"EMPDv2","Mount Paggeo","Lopez_b19",40.900582,24.001352,750,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.592277910768172,3803.2535323531,10.4043942485594,-0.157496855607001,20.4860763098662,632.069384507195
5999,12509,7847,"EMPDv2","Mount Paggeo","Lopez_b2",40.91899,24.214323,540,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.5539967431858,4272.55099802823,11.7056191726801,1.32112594306452,21.7644280671181,613.738699362406
5999,12510,7865,"EMPDv2","Mount Paggeo","Lopez_b20",40.904086,23.998842,660,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.573265294124571,4006.68890373806,10.9772298732549,0.491326926981232,21.0435088767906,622.200050671765
5999,12511,7866,"EMPDv2","Mount Paggeo","Lopez_b21",40.904905,23.998474,615,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.563988083456717,4111.25669737838,11.2637169791188,0.815935691411617,21.3223562335737,617.277369027647
5999,12512,7867,"EMPDv2","Mount Paggeo","Lopez_b22",40.907142,23.996628,550,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.550830954788453,4262.22881524781,11.677339219857,1.28440478952133,21.7249688517078,610.131474846913
5999,12513,7868,"EMPDv2","Mount Paggeo","Lopez_b23",40.930175,23.973587,320,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.506320824845777,4795.06515323154,13.1371648033741,2.93490081626163,23.1474436394388,584.234370268431
5999,12514,7869,"EMPDv2","Mount Paggeo","Lopez_b24",40.963194,24.105463,605,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.565144581347304,4123.90510611514,11.2983701537401,0.852354347695402,21.3648735985841,618.314289904608
5999,12515,7848,"EMPDv2","Mount Paggeo","Lopez_b3",40.916898,24.203636,645,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.57468927492187,4031.7833878607,11.0459818845499,0.575886734698223,21.1230562771325,624.737311877689
5999,12516,7849,"EMPDv2","Mount Paggeo","Lopez_b4",40.919752,24.191348,910,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.63107640545246,3475.37093086335,9.37560663564616,-1.31233065014094,19.499729997742,652.871585670206
5999,12517,7850,"EMPDv2","Mount Paggeo","Lopez_b5",40.921004,24.173487,1080,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.670169607206314,3164.77124121853,8.30351212894843,-2.52526286979573,18.4565513527987,670.829224304008
5999,12518,7851,"EMPDv2","Mount Paggeo","Lopez_b6",40.918644,24.16736,1130,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.682118947391659,3077.84825602947,7.98784083593233,-2.88251356909739,18.149342660136,676.087375636736
5999,12519,7852,"EMPDv2","Mount Paggeo","Lopez_b7",40.903053,24.119292,1515,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.782866319968561,2458.0201397077,5.54728167097673,-5.64807045812043,15.7737765287277,716.691317700926
5999,12520,7853,"EMPDv2","Mount Paggeo","Lopez_b8",40.909386,24.11551,1595,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.806066253605618,2339.54756139291,5.04149712685997,-6.22061568810921,15.280929166067,725.407884857842
5999,12521,7854,"EMPDv2","Mount Paggeo","Lopez_b9",40.910661,24.1132,1610,"not applicable","terrestrial","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.810505297056416,2317.63107724515,4.94647201430861,-6.32838451248798,15.188088280178,727.034504328864
6000,12522,6039,"EMBSeCBIO","Mount Paiko","Paiko",41.051667,22.274722,1080,"0.0025","terrestrial, bog/fen/swamp","core","-44","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.638516297959258,3209.05076729223,8.4568435159029,-2.43952553696309,18.3702237762025,667.631397981765
6001,12523,6040,"EMBSeCBIO","Mount Voras","Voras",41.0179,21.9122,1640,"8e-04","terrestrial, bog/fen/swamp","core top","49","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.868799275035638,2414.51480498835,5.66434803567974,-4.87063106486679,15.3224814339321,870.397745145863
6002,12524,15527,"Neotoma","Mount Walker","CJH106",47.8,-124.12,183,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.92545496869415,3418.12616644598,9.36472922313966,3.59215652964201,15.891124538681,2209.70547248344
6003,12525,1080,"Australian pollen","Mount Whitelaw","Mount Whitelaw",-37.817,146.283,1448,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.30340571075969,2470.29970079482,6.5738986651587,-1.5178864149656,15.1403136639264,1547.24285299734
6004,12526,14210,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-49","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14211,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-42","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14212,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-34","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14213,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-26","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14214,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-19","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14215,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-11","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14216,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","-3","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14217,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","5","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14218,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","13","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14219,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","20","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14220,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","28","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14221,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","36","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6004,12526,14222,"Neotoma","Mountain Lake","MOUNTAIN",37.78826,-122.470765,37,"not known","lake","core","42","Reidy, L.M. 2001. Evidence of environmental change over the last 2000 years at Mountain Lake, in the northern San Francisco Peninsula, California. Master's thesis. University of California at Berkeley, Berkeley, California, USA.",,20,"xerophytic woods/scrub",0.503006161028888,5393.94090678676,14.7779202925665,8.49836524339625,20.3681230162073,639.337681283818
6005,12527,15739,"Neotoma","Mountain Pond","MONT_C90",44.544495,-74.076205,482,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.35639753118504,2683.5052994889,4.9243448532777,-10.0979953299309,18.4136948578146,1039.04143553968
6006,12528,1081,"Australian pollen","Mowbray Swamp","Mowbray Swamp",-40.9167,145.0833,35,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.27552574243397,4515.00797770101,12.3698848704137,8.45831671095852,16.7409648033663,1198.39596639157
6007,12529,1082,"Australian pollen","Moxon Saddle Swamp","MSS",-41.9,145.62,760,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57404581858309,2838.54369060079,7.77683202904327,3.21542908914055,12.9597640517465,1455.99459403914
6008,12530,8027,"EMPDv2","Mramornaya","Mikishin-Gvozdeva_a89",46.2744444444444,143.400555555556,50,"not applicable","terrestrial, soil","litter","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.56995004310995,2272.8954607851,3.48046101053737,-10.4736032769685,17.1220185278092,1001.78078847005
6009,12531,9099,"EMPDv2","Mrtvy luh, Sumava","Svobodova_a16",48.8733527777778,13.8668305555556,735,"2.5","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.29930164277936,2656.85102730629,6.74221400812114,-3.12201782488555,15.7911297718276,982.022145669254
6009,12532,9100,"EMPDv2","Mrtvy luh, Sumava","Svobodova_a22",48.8733527777778,13.8668305555556,735,"2.5","terrestrial, bog/fen/swamp","peat","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.29930164277936,2656.85102730629,6.74221400812114,-3.12201782488555,15.7911297718276,982.022145669254
6010,12533,7178,"EMPDv2","Mshinskoye raised bog","EPDcoretop_E2332",59.01,29.98,79,"300","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.05608690805652,2451.63875027612,4.6590674394872,-8.4902176021821,17.0632796523332,637.215603013042
6011,12534,1083,"Australian pollen","Mt Anne","MtA1",-42.95,146.31,400,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.37223956815803,3518.01613880972,9.63840038030062,5.34918772032943,14.2205329679649,1225.22349626668
6011,12535,1084,"Australian pollen","Mt Anne","MtA2",-42.95,146.31,500,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.37710284605673,3349.30855526958,9.17618782265637,4.74011976069749,13.9665814642269,1240.32891611432
6011,12536,1085,"Australian pollen","Mt Anne","MtA4",-42.95,146.31,750,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.38949651404588,2927.5395964192,8.02065642854576,3.21744986161766,13.3317027048819,1278.09246573342
6011,12537,1086,"Australian pollen","Mt Anne","MtA7",-42.95,146.31,600,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.38201982883455,3180.60097172943,8.71397526501213,4.13105180106556,13.7126299604889,1255.43433596196
6012,12538,1087,"Australian pollen","Mt Arrowsmith","Mt Arrowsmith",-42.2,145.98,450,"not applicable","terrestrial","surface sample","-63","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41872640174871,3496.58229890029,9.57967753123368,5.26822459559532,14.330521755163,1299.72828857905
6013,12539,8523,"EMPDv2","Mt Cholomontas","Panajiotidis_a1",40.4327222222222,23.4909444444444,779,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.559140558384919,3814.48119379451,10.4414111922627,-0.0591197616987848,20.5237632425782,610.571678812073
6013,12540,8532,"EMPDv2","Mt Cholomontas","Panajiotidis_a10",40.4436944444444,23.50625,813,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.566452140129744,3737.19907449517,10.2105381306787,-0.323762768867557,20.3033164780875,614.037594126695
6013,12541,8533,"EMPDv2","Mt Cholomontas","Panajiotidis_a11",40.45825,23.5034166666667,907,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.585537424581542,3533.86488265798,9.57003523678937,-1.05938192387264,19.6912926043348,622.22971289135
6013,12542,8534,"EMPDv2","Mt Cholomontas","Panajiotidis_a12",40.4346111111111,23.5039166666667,842,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.571836826643949,3673.0479641628,10.013464092,-0.548804315995779,20.1151885496818,616.29738086306
6013,12543,8535,"EMPDv2","Mt Cholomontas","Panajiotidis_a13",40.4387777777778,23.5316944444444,807,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.565884346392338,3751.63780790298,10.2544678717458,-0.271117930523909,20.3455820313528,614.198012523184
6013,12544,8536,"EMPDv2","Mt Cholomontas","Panajiotidis_a14",40.4375,23.5342777777778,792,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.56299953603968,3785.82292574321,10.3569196972321,-0.153383740411317,20.4434165347333,612.974355249679
6013,12545,8537,"EMPDv2","Mt Cholomontas","Panajiotidis_a15",40.4698333333333,23.5637222222222,907,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.587751565302057,3535.84707575467,9.57698881469702,-1.04836756154913,19.698957709391,624.295289962326
6013,12546,8538,"EMPDv2","Mt Cholomontas","Panajiotidis_a16",40.5054722222222,23.5331111111111,393,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.491600982150844,4763.86518459912,13.0516854372579,2.9272719459797,23.0177742096405,578.267084867906
6013,12547,8539,"EMPDv2","Mt Cholomontas","Panajiotidis_a17",40.5017222222222,23.5259166666667,381,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.489409286607229,4793.81228671798,13.133732292378,3.02102482341861,23.0962736819755,577.09064050237
6013,12548,8524,"EMPDv2","Mt Cholomontas","Panajiotidis_a2",40.4330833333333,23.491,781,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.559535682268244,3809.82551285725,10.4277537689446,-0.0748043695152364,20.5107173270564,610.746332435953
6013,12549,8525,"EMPDv2","Mt Cholomontas","Panajiotidis_a3",40.4322222222222,23.4959166666667,791,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.56158047190936,3786.98859073066,10.360213681384,-0.151758597380792,20.4462588073138,611.71942557621
6013,12550,8526,"EMPDv2","Mt Cholomontas","Panajiotidis_a4",40.4325,23.4961388888889,790,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.561400819844693,3789.28014550977,10.3670256230345,-0.143967153617004,20.4527639913156,611.645062253
6013,12551,8527,"EMPDv2","Mt Cholomontas","Panajiotidis_a5",40.4318333333333,23.4941388888889,798,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.562873229764969,3770.95456768754,10.3123607807943,-0.206674784046994,20.4005462364818,612.253277077809
6013,12552,8528,"EMPDv2","Mt Cholomontas","Panajiotidis_a6",40.4321388888889,23.4945555555556,796,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.56250602118336,3775.51312387966,10.3260068624174,-0.191041828973577,20.4135797559788,612.100787040815
6013,12553,8529,"EMPDv2","Mt Cholomontas","Panajiotidis_a7",40.4354166666667,23.4912777777778,765,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.556533711231477,3847.19759244975,10.5365624705132,0.0496412237938399,20.6146282422214,609.432572787008
6013,12554,8530,"EMPDv2","Mt Cholomontas","Panajiotidis_a8",40.4149166666667,23.4955277777778,854,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.573391487935124,3646.87374538136,9.93189664171192,-0.640739325408794,20.0374462757177,616.734092376389
6013,12555,8531,"EMPDv2","Mt Cholomontas","Panajiotidis_a9",40.3990555555556,23.4951666666667,726,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.548394523848564,3944.64422055071,10.807244439865,0.36410890649205,20.8732180184406,605.890097416993
6014,12556,1088,"Australian pollen","Mt Field","CMF_1 surface sample",-42.6667,146.5,150,"not applicable","terrestrial","surface sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.25473757573418,4010.6998151529,10.9882186716518,6.95770739177232,15.1778374295584,1112.70782341153
6014,12557,1089,"Australian pollen","Mt Field","CMF_10 moss polster",-42.6667,146.6,990,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.40476168867394,2514.18302774849,6.88817267876298,1.7928668229996,12.6287404938265,1317.63221498337
6014,12558,1090,"Australian pollen","Mt Field","CMF_11 moss polster",-42.6667,146.5,975,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.4105721886242,2536.92116487676,6.95046894486783,1.87793426146268,12.6649549975113,1321.28190402412
6014,12559,1091,"Australian pollen","Mt Field","CMF_12 mud",-42.6667,146.5,1010,"not applicable","terrestrial","sediment sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41707453914608,2474.39722213777,6.77917047161033,1.66242873472227,12.5583478640305,1330.13050138344
6014,12560,1092,"Australian pollen","Mt Field","CMF_13 mud",-42.6667,146.5,1070,"not applicable","terrestrial","sediment sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.42820768770489,2367.2133202995,6.48551594602604,1.29299068888157,12.3755927780634,1345.29952542799
6014,12561,1093,"Australian pollen","Mt Field","CMF_14 moss sample",-42.6833,146.5833,1040,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41546323815763,2424.75020947344,6.64315125883135,1.48351210595468,12.4779280024974,1331.43190157345
6014,12562,1094,"Australian pollen","Mt Field","CMF_15 mud",-42.6667,146.5,1190,"not applicable","terrestrial","sediment sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.45042718463237,2152.84551662297,5.89820689485746,0.55411459720017,12.0100826061293,1375.63757351709
6014,12563,1095,"Australian pollen","Mt Field","CMF_16 mud",-42.6667,146.5,1280,"not applicable","terrestrial","sediment sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.46705832723379,1993.62804743921,5.45772510648103,-4.24715608812085e-5,11.7359499771787,1398.39110958392
6014,12564,1096,"Australian pollen","Mt Field","CMF_17 moss polster",-42.6667,146.5,1280,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.46705832723379,1993.62804743921,5.45772510648103,-4.24715608812085e-5,11.7359499771787,1398.39110958392
6014,12565,1097,"Australian pollen","Mt Field","CMF_2 moss polster",-42.6667,146.5,170,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.25859346515232,3974.97184787348,10.8903338297904,6.83456137649209,15.1169190675694,1117.76416475971
6014,12566,1098,"Australian pollen","Mt Field","CMF_3 moss polster",-42.6667,146.5,245,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.27301011429221,3840.99197057565,10.52326567281,6.37276381919121,14.8884752101105,1136.7254448154
6014,12567,1099,"Australian pollen","Mt Field","CMF_4 moss polster",-42.6667,146.5,580,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33667638864052,3242.54851864534,8.88369457163106,4.3100680632473,13.8680926467944,1221.41916239748
6014,12568,1100,"Australian pollen","Mt Field","CMF_5 moss polster",-42.6667,146.5,580,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33667638864052,3242.54851864534,8.88369457163106,4.3100680632473,13.8680926467944,1221.41916239748
6014,12569,1101,"Australian pollen","Mt Field","CMF_6 moss polster",-42.6667,146.5,610,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34232749652234,3188.9565677262,8.73686730883891,4.12534904032695,13.7767151038109,1229.00367441976
6014,12570,1102,"Australian pollen","Mt Field","CMF_7 moss polster",-42.6667,146.5,640,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34797140075852,3135.36461680707,8.59004004604677,3.9406300174066,13.6853375608274,1236.58818644204
6014,12571,1103,"Australian pollen","Mt Field","CMF_8 moss polster",-42.6667,146.6,850,"not applicable","terrestrial","moss polster or moss","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.37578766643953,2764.3620323851,7.57359460927425,2.65141878212698,13.0581975384217,1279.58928314259
6014,12572,1104,"Australian pollen","Mt Field","CMF_9 lacustrine mud",-42.6667,146.6333,990,"not applicable","terrestrial","lake surface sample","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.40177629930911,2515.5386248979,6.89188664355589,1.79513550014157,12.6320395046876,1315.04711383684
6014,12573,1105,"Australian pollen","Mt Field","MtFAthro",-42.7,146.63,1000,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40262426962382,2498.46719897073,6.84511561361844,1.7306864489182,12.6078971751124,1316.44461560412
6014,12574,1106,"Australian pollen","Mt Field","MtFDis",-42.7,146.63,1000,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40262426962382,2498.46719897073,6.84511561361844,1.7306864489182,12.6078971751124,1316.44461560412
6014,12575,1107,"Australian pollen","Mt Field","MtFSwamp",-42.7,146.63,1000,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40262426962382,2498.46719897073,6.84511561361844,1.7306864489182,12.6078971751124,1316.44461560412
6015,12576,1108,"Australian pollen","Mt Read","Mt Read o",-41.9,145.55,800,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.59015954235632,2751.42349184443,7.53814655299845,2.93288940995709,12.7829660235567,1471.64323128214
6015,12577,1109,"Australian pollen","Mt Read","Mt Read/H",-41.9,145.55,960,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.62517738691247,2412.81944329996,6.61046422821907,1.81182920151874,12.1064510429084,1507.1850621455
6016,12578,21527,"SMPDSv1","Mt Shipchenska","Atanassova_a1",42.7411111111111,25.3413888888888,1310,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823949280880897,2683.14221309047,6.59541705885431,-4.05351049060597,16.8160682301779,773.831543255398
6016,12579,21528,"SMPDSv1","Mt Shipchenska","Atanassova_a2",42.7555555555555,25.3275,1195,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.802382541725808,2820.2702107215,7.06547456380932,-3.75826565038095,17.3784003995849,753.154430556741
6016,12580,21529,"SMPDSv1","Mt Shipchenska","Atanassova_a3",42.76,25.3275,1061,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.769778479936967,2993.1272555014,7.65090682816755,-3.36965654287521,18.0442810914532,729.730841711037
6016,12581,21530,"SMPDSv1","Mt Shipchenska","Atanassova_a4",42.7205555555555,25.3408333333333,895,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725173084451645,3230.62037987281,8.4642119733588,-2.69451994378637,18.9124699622965,701.788997677439
6016,12582,21531,"SMPDSv1","Mt Shipchenska","Atanassova_a5",42.7244444444444,25.3372222222222,639,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.667900286793685,3587.84837219895,9.6129870431565,-1.85959686701672,20.2009653254078,657.510198874235
6016,12583,21532,"SMPDSv1","Mt Shipchenska","Atanassova_b1",42.7411111111111,25.3413888888888,1310,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823949280880897,2683.14221309047,6.59541705885431,-4.05351049060597,16.8160682301779,773.831543255398
6016,12584,21533,"SMPDSv1","Mt Shipchenska","Atanassova_b2",42.7555555555555,25.3275,1195,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.802382541725808,2820.2702107215,7.06547456380932,-3.75826565038095,17.3784003995849,753.154430556741
6016,12585,21534,"SMPDSv1","Mt Shipchenska","Atanassova_b3",42.76,25.3275,1061,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.769778479936967,2993.1272555014,7.65090682816755,-3.36965654287521,18.0442810914532,729.730841711037
6016,12586,21535,"SMPDSv1","Mt Shipchenska","Atanassova_b4",42.7205555555555,25.3408333333333,895,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725173084451645,3230.62037987281,8.4642119733588,-2.69451994378637,18.9124699622965,701.788997677439
6016,12587,21536,"SMPDSv1","Mt Shipchenska","Atanassova_b5",42.7244444444444,25.3372222222222,639,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.667900286793685,3587.84837219895,9.6129870431565,-1.85959686701672,20.2009653254078,657.510198874235
6016,12588,21537,"SMPDSv1","Mt Shipchenska","Atanassova_c1",42.7411111111111,25.3413888888888,1310,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823949280880897,2683.14221309047,6.59541705885431,-4.05351049060597,16.8160682301779,773.831543255398
6016,12589,21538,"SMPDSv1","Mt Shipchenska","Atanassova_c2",42.7555555555555,25.3275,1195,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.802382541725808,2820.2702107215,7.06547456380932,-3.75826565038095,17.3784003995849,753.154430556741
6016,12590,21539,"SMPDSv1","Mt Shipchenska","Atanassova_c3",42.76,25.3275,1061,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.769778479936967,2993.1272555014,7.65090682816755,-3.36965654287521,18.0442810914532,729.730841711037
6016,12591,21540,"SMPDSv1","Mt Shipchenska","Atanassova_c4",42.7205555555555,25.3408333333333,895,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725173084451645,3230.62037987281,8.4642119733588,-2.69451994378637,18.9124699622965,701.788997677439
6016,12592,21541,"SMPDSv1","Mt Shipchenska","Atanassova_c5",42.7244444444444,25.3372222222222,639,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.667900286793685,3587.84837219895,9.6129870431565,-1.85959686701672,20.2009653254078,657.510198874235
6016,12593,21542,"SMPDSv1","Mt Shipchenska","Atanassova_d1",42.7555555555555,25.3275,1195,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.802382541725808,2820.2702107215,7.06547456380932,-3.75826565038095,17.3784003995849,753.154430556741
6016,12594,21543,"SMPDSv1","Mt Shipchenska","Atanassova_d2",42.76,25.3275,1061,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.769778479936967,2993.1272555014,7.65090682816755,-3.36965654287521,18.0442810914532,729.730841711037
6017,12595,1110,"Australian pollen","Mt. Gambier (Blue Lake)","Mt. Gambier (Blue Lake)",-37.8333,140.75,100,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.60053441530492,5139.53130217729,14.080907677198,9.27477985407928,19.3488489483165,632.610834834984
6018,12596,1111,"Australian pollen","Mt. Glorius","Mt Glorius",-28.2,153.167,650,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.549651782991466,6079.74466596284,16.656834701268,9.74234334797694,22.3370397305437,840.06318762613
6019,12597,1112,"Australian pollen","Mt. Hagen","Hagen Summit 12",-5.75,144,3330,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.72362652503243,6151.15231248653,16.8524720890042,15.7944317927765,17.5084550599503,2413.69509142813
6019,12598,1113,"Australian pollen","Mt. Hagen","Hagen Summit 3",-5.75,144,3640,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.64653012187809,5810.9505290464,15.9204124083463,14.8369776968095,16.6038807689673,2304.14726475614
6019,12599,1114,"Australian pollen","Mt. Hagen","Hagen Summit 4",-5.75,144,3700,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.63161963305442,5745.10502257411,15.740013760477,14.6516640008159,16.4288018739383,2282.94445959382
6019,12600,1115,"Australian pollen","Mt. Hagen","Hagen Summit 9",-5.75,144,3395,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.70745209132083,6079.81968047489,16.6570402204791,15.5936752887834,17.3187862570022,2390.72538583561
6019,12601,1116,"Australian pollen","Mt. Hagen","HF10",-5.75,144,2280,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.98586247528986,7303.44867575149,20.0094484267164,19.0374214726645,20.5723357229572,2784.74418176873
6019,12602,1117,"Australian pollen","Mt. Hagen","HF15",-5.75,144,2740,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.87072389812483,6798.6331261306505,18.6263921263853,17.6166831367136,19.2300641944018,2622.18934219094
6019,12603,1118,"Australian pollen","Mt. Hagen","HF2",-5.75,144,3190,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.75848244693849,6304.79182758852,17.2734022673658,16.2268304167615,17.9169724816845,2463.16830347354
6019,12604,1119,"Australian pollen","Mt. Hagen","HF3",-5.75,144,3055,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.79211998179301,6452.94421715116,17.6792992250717,16.6437862327471,18.3108999954997,2510.87461508876
6019,12605,1120,"Australian pollen","Mt. Hagen","HF5",-5.75,144,2740,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.87072389812483,6798.6331261306505,18.6263921263853,17.6166831367136,19.2300641944018,2622.18934219094
6019,12606,1121,"Australian pollen","Mt. Hagen","HF6",-5.75,144,2400,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.95578116135413,7171.75766280693,19.6486511309779,18.6667940806773,20.2221779328992,2742.33857144409
6019,12607,1122,"Australian pollen","Mt. Hagen","HF7",-5.75,144,2585,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.90946986211496,6968.73401785072,19.0924219667143,18.095410184697,19.6823513398933,2676.96325552694
6020,12608,1123,"Australian pollen","Mt. Latrobe","Mt. Latrobe",-39.0167,146.3667,597,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.06897807040279,4028.66217024323,11.0374306034061,5.11135272715629,17.3914657728917,1143.98795831956
6021,12609,1124,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 10",-5.75,145.017,3570,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.09009067820593,5660.6329078498,15.5085833091775,14.2702400271404,16.3012171524911,1529.95222383875
6021,12610,1125,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 11",-5.75,145.017,3530,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.10542526444282,5708.12474965624,15.6386979442637,14.4070105110714,16.4251835273513,1551.6952307538
6021,12611,1126,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 12",-5.75,145.017,3570,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.09009067820593,5660.6329078498,15.5085833091775,14.2702400271404,16.3012171524911,1529.95222383875
6021,12612,1127,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 13",-5.75,145.017,3570,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.09009067820593,5660.6329078498,15.5085833091775,14.2702400271404,16.3012171524911,1529.95222383875
6021,12613,1128,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 14",-5.75,145.017,3490,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.12075853595832,5755.61659146267,15.7688125793498,14.5437809950023,16.5491499022114,1573.43823766885
6021,12614,1129,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 15",-5.75,145.017,3470,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.12842471923791,5779.36251236589,15.8338698968929,14.6121662369677,16.6111330896415,1584.30974112637
6021,12615,1130,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 17",-5.75,145.017,3510,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.11309205643191,5731.87067055945,15.7037552618067,14.4753957530368,16.4871667147813,1562.56673421132
6021,12616,1131,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 18",-5.75,145.017,3360,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.1705841563435,5909.96507733359,16.1916851433797,14.9882850677778,16.9520406205071,1644.10301014276
6021,12617,1132,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 20",-5.75,145.017,3680,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04791272765795,5530.0303428821,15.1507680626907,13.8941211963304,15.9603096216255,1470.15895482236
6021,12618,1133,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 21",-5.75,145.017,3680,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04791272765795,5530.0303428821,15.1507680626907,13.8941211963304,15.9603096216255,1470.15895482236
6021,12619,1134,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 22",-5.75,145.017,3680,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04791272765795,5530.0303428821,15.1507680626907,13.8941211963304,15.9603096216255,1470.15895482236
6021,12620,1135,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 23",-5.75,145.017,3710,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.03640739951225,5494.41146152727,15.0531820863761,13.7915433333822,15.8673348404804,1453.85169963608
6021,12621,1136,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 25",-5.75,145.017,3760,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.01722945219821,5435.04665926922,14.8905387925184,13.6205802284685,15.7123768719051,1426.67294099227
6021,12622,1137,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 27",-5.75,145.017,3630,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.06708604990861,5589.39514514014,15.3134113565483,14.065084301244,16.1152675902008,1497.33771346618
6021,12623,1138,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 29",-5.75,145.017,3660,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.05558238011779,5553.77626378532,15.2158253802337,13.9625064382958,16.0222928090556,1481.03045827989
6021,12624,1139,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 30",-5.75,145.017,3670,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.05174760916636,5541.90330333371,15.1832967214622,13.9283138173131,15.9913012153406,1475.59470655113
6021,12625,1140,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 31",-5.75,145.017,3460,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.13225770485217,5791.2354728175,15.8663985556644,14.6463588579505,16.6421246833566,1589.74549285514
6021,12626,1141,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 34",-5.75,145.017,3330,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.18208106903782,5945.58395868842,16.2892711196943,15.090862930726,17.0450154016522,1660.41026532905
6021,12627,1142,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 36",-5.75,145.017,3320,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.18591328727397,5957.45691914003,16.3217997784658,15.1250555517087,17.0760069953673,1665.84601705781
6021,12628,1143,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 37",-5.75,145.017,3740,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.02490100335126,5458.79258017244,14.9555961100615,13.688965470434,15.7743600593352,1437.54444444979
6021,12629,1144,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 39",-5.75,145.017,3910,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.959675275500036,5256.95225249509,14.4026089109454,13.1076909137276,15.2475029661794,1345.13666506083
6021,12630,1145,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 41",-5.75,145.017,3680,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04791272765795,5530.0303428821,15.1507680626907,13.8941211963304,15.9603096216255,1470.15895482236
6021,12631,1146,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 43",-5.75,145.017,3320,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.18591328727397,5957.45691914003,16.3217997784658,15.1250555517087,17.0760069953673,1665.84601705781
6021,12632,1147,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 45",-5.75,145.017,3680,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04791272765795,5530.0303428821,15.1507680626907,13.8941211963304,15.9603096216255,1470.15895482236
6021,12633,1148,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 46",-5.75,145.017,3750,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.02106529116447,5446.91961972083,14.92306745129,13.6547728494513,15.7433684656202,1432.10869272103
6021,12634,1149,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 47",-5.75,145.017,3590,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.08242285151975,5636.88698694658,15.4435259916345,14.201854785175,16.239233965061,1519.08072038123
6021,12635,1150,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 49",-5.75,145.017,3580,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.08625681101641,5648.75994739819,15.476054650406,14.2360474061577,16.270225558776,1524.51647210999
6021,12636,1151,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 51",-5.75,145.017,3700,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.04024262485875,5506.28442197888,15.0857107451476,13.8257359543649,15.8983264341954,1459.28745136484
6021,12637,1152,"Australian pollen","Mt. Wilhelm","Mt. Wilhelm Site 54",-5.75,145.017,3800,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.00188478798568,5387.55481746279,14.7604241574323,13.4838097445376,15.5884104970449,1404.92993407722
6022,12638,17626,"Phelps et al., 2020","Mubwindi Swamp II","MB6_26",-1.08,29.75,2200,"not known","terrestrial, bog/fen/swamp","core","25","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.28092009488001,5572.56279780036,15.2672953364394,14.7229212479978,15.5060127904163,1501.04009549673
6022,12639,17627,"Phelps et al., 2020","Mubwindi Swamp II","MB6_36",-1.08,29.75,2200,"not known","terrestrial, bog/fen/swamp","core","34","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.28092009488001,5572.56279780036,15.2672953364394,14.7229212479978,15.5060127904163,1501.04009549673
6022,12640,17628,"Phelps et al., 2020","Mubwindi Swamp II","MB6_43",-1.08,29.75,2200,"not known","terrestrial, bog/fen/swamp","core","41","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.28092009488001,5572.56279780036,15.2672953364394,14.7229212479978,15.5060127904163,1501.04009549673
6023,12641,17629,"Phelps et al., 2020","Muchoya Swamp I","MC2_2",-1.28,29.8,2459,"not known","terrestrial, bog/fen/swamp","not known","23","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.47859310827246,5059.7629420875,13.8623642248973,13.2469734111096,14.2000610630967,1667.88668033343
6024,12642,17630,"Phelps et al., 2020","Muchoya Swamp II","MC4_3",-1.282778,29.8,2404,"not known","terrestrial, bog/fen/swamp","not known","38","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.44065480612063,5183.26342971543,14.2007217252478,13.5928838974229,14.5264853853074,1640.09868612515
6025,12643,12959,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-42","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12960,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-35","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12961,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-29","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12962,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-23","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12963,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-16","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12964,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","-10","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12965,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","5","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12966,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","20","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12967,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","35","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6025,12643,12968,"Neotoma","Mud Creek Site 1","MUDCRK1",25.219722,-80.604722,5,"not known","terrestrial","core","50","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.; Willard, D.A., G.L. Brewster-Wingard, C. Fellman, and S.E. Ishman. 1997. Paleontological data from Mud Creek Core 1, southern Florida. U.S. Geological Survey Open-File Report 97-736.",,17,"temperate evergreen needleleaf open woodland",1.03171820677951,8754.55762554613,23.9850893850579,18.6219519243214,28.2215185889511,1487.24513426003
6026,12644,13591,"Neotoma","Mud Lake","MNDLML",45.8576,-95.4609,415,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.767748013070348,3115.43524858071,5.22933077593619,-13.8022708299184,21.2117168427882,640.495911960927
6026,12644,13592,"Neotoma","Mud Lake","MNDLML",45.8576,-95.4609,415,"not known","lake","core","-19","Unpublished data",,9,"cool mixed forest",0.767748013070348,3115.43524858071,5.22933077593619,-13.8022708299184,21.2117168427882,640.495911960927
6026,12644,13593,"Neotoma","Mud Lake","MNDLML",45.8576,-95.4609,415,"not known","lake","core","-7","Unpublished data",,9,"cool mixed forest",0.767748013070348,3115.43524858071,5.22933077593619,-13.8022708299184,21.2117168427882,640.495911960927
6026,12644,13594,"Neotoma","Mud Lake","MNDLML",45.8576,-95.4609,415,"not known","lake","core","16","Unpublished data",,9,"cool mixed forest",0.767748013070348,3115.43524858071,5.22933077593619,-13.8022708299184,21.2117168427882,640.495911960927
6026,12644,13595,"Neotoma","Mud Lake","MNDLML",45.8576,-95.4609,415,"not known","lake","core","40","Unpublished data",,9,"cool mixed forest",0.767748013070348,3115.43524858071,5.22933077593619,-13.8022708299184,21.2117168427882,640.495911960927
6026,12645,12969,"Neotoma","Mud Lake","MUDLAKE",29.29993,-81.8660099999999,9,"not known","lake","core","0","Bradley, W.H. 1966. Tropical lakes, copropel, and oil shale. Geological Society of America Bulletin 77(12):1333-1337. Watts, W.A. 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642. Watts, W.A. 1971. Postglacial and interglacial vegetation history of southern Georgia and central Florida. Ecology 52(4):676-690.","10.1130/0016-7606(1966)77[1333:TLCAOS]2.0.CO;2;
10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2;
10.2307/1934159",4,"warm-temperate evergreen and mixed forest",0.967328194271658,7837.01906978374,21.4712851226952,13.9245168761665,27.7086433517903,1321.05634281205
6026,12646,11960,"Neotoma","Mud Lake","MUDLAKP1",36.62441,-112.27394,2487,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.337442164603297,2579.09476976244,6.29873158687885,-3.93378473807938,17.9682889003627,415.937892794162
6026,12647,12970,"Neotoma","Mud Lake","MUDLKMN1",44.226105,-93.829815,308,"not known","lake","core","-12","Unpublished data",,13,"temperate deciduous broadleaf forest",0.844376190420429,3496.99909457632,7.11353586874405,-11.3091616705145,22.6497082679048,739.835209242279
6026,12647,12971,"Neotoma","Mud Lake","MUDLKMN1",44.226105,-93.829815,308,"not known","lake","core","14","Unpublished data",,13,"temperate deciduous broadleaf forest",0.844376190420429,3496.99909457632,7.11353586874405,-11.3091616705145,22.6497082679048,739.835209242279
6026,12647,12972,"Neotoma","Mud Lake","MUDLKMN1",44.226105,-93.829815,308,"not known","lake","core","42","Unpublished data",,13,"temperate deciduous broadleaf forest",0.844376190420429,3496.99909457632,7.11353586874405,-11.3091616705145,22.6497082679048,739.835209242279
6026,12648,12973,"Neotoma","Mud Lake","MUDLKMN2",46.858935,-94.75542,424,"not known","lake","core","-30","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.808209010363826,2982.02322508612,4.59605989050582,-14.6522952964168,20.5815146102815,653.872774259574
6027,12649,17526,"Neotoma","Mud Lake stand C","WAW002",29.300255,-81.8643199999999,10,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.967894316843614,7828.65203668406,21.4483617443399,13.882331305345,27.701433384722,1321.1970038984
6028,12650,17527,"Neotoma","Mud Lake stand D","WAW003",29.29815,-81.85135,10,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.967739206117686,7829.18621147032,21.449825236905,13.885583499533,27.7018054466571,1320.98774509075
6029,12651,17528,"Neotoma","Mud Lake stand E","WAW004",29.291275,-81.854035,10,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.967644826456972,7830.10284583827,21.4523365639405,13.8898146045243,27.7023315654998,1321.0198515693
6030,12652,17529,"Neotoma","Mud Lake stand F","WAW005",29.297775,-81.855105,9,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.967192934608922,7837.49332488963,21.4725844517524,13.927374187463,27.7089797778596,1320.87917109793
6031,12653,16517,"Neotoma","Mud Pond","KG014",45.55,-68.13,96,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50589372877316,2724.03022001532,5.42374962958919,-8.86343761506584,18.6540199379535,1142.07428969239
6032,12654,14833,"Neotoma","Muddy Cove Pond","MUDDYCV",41.375955,-70.6680399999999,2,"not known","lake","core","-42","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36060388366047,3937.78897746236,10.5429687583674,-1.81948680770652,22.4332608889157,1236.79964397123
6032,12654,14834,"Neotoma","Muddy Cove Pond","MUDDYCV",41.375955,-70.6680399999999,2,"not known","lake","core","-27","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36060388366047,3937.78897746236,10.5429687583674,-1.81948680770652,22.4332608889157,1236.79964397123
6032,12654,14835,"Neotoma","Muddy Cove Pond","MUDDYCV",41.375955,-70.6680399999999,2,"not known","lake","core","-8","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36060388366047,3937.78897746236,10.5429687583674,-1.81948680770652,22.4332608889157,1236.79964397123
6032,12654,14836,"Neotoma","Muddy Cove Pond","MUDDYCV",41.375955,-70.6680399999999,2,"not known","lake","core","20","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36060388366047,3937.78897746236,10.5429687583674,-1.81948680770652,22.4332608889157,1236.79964397123
6032,12654,14837,"Neotoma","Muddy Cove Pond","MUDDYCV",41.375955,-70.6680399999999,2,"not known","lake","core","44","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36060388366047,3937.78897746236,10.5429687583674,-1.81948680770652,22.4332608889157,1236.79964397123
6033,12655,17335,"Neotoma","Mueller","TW038",45.16,-88.914167,441,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.007682309245,2720.49278332042,4.35049322260694,-12.3535660013281,19.2025721632177,789.257410154729
6034,12656,3819,"CMPD","Muhuaheke","Muhuaheke",40.6,112.8,1232,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.39065092829815,3069.32554448563,5.5870787934443,-11.7949530053862,20.5018515678987,409.175165838182
6035,12657,21544,"SMPDSv1","Muikkulampi","Seppa_b60",62.43,25.43,172,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.982946356656374,2044.32981282433,2.88458083768578,-9.94184472077369,15.8252929959336,521.925702441715
6036,12658,17631,"Phelps et al., 2020","Mujimbeji (ZAM/11/1)","MUJIM_18",-11.81949,24.8971,1497,"not known","not known","not known","-4","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.864626797799708,7329.84734741853,20.0817735545713,16.5828413573994,22.4308813779816,1301.21066364983
6036,12659,17632,"Phelps et al., 2020","Mujimbeji (ZAM/11/1)","MUJIM_22",-11.81949,24.8971,1497,"not known","not known","not known","-4","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.864626797799708,7329.84734741853,20.0817735545713,16.5828413573994,22.4308813779816,1301.21066364983
6037,12660,21545,"SMPDSv1","Mukkavaara","EPDcoretop_E462",68.916667,21,535,"0.2","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.79082934410038,985.657446261538,-3.24457942254801,-15.5627791523324,10.5577078713296,655.705640975844
6038,12661,17633,"Phelps et al., 2020","Mulele (ZAM/11/8)","MULELE_1",-16.75373,23.27353,1011,"not known","terrestrial, bog/fen/swamp","core","-4","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.403160077400417,8226.99667884175,22.5397169283336,16.7558798176442,25.9703603964879,689.409093393266
6038,12662,17634,"Phelps et al., 2020","Mulele (ZAM/11/8)","MULELE_3",-16.75373,23.27353,1011,"not known","terrestrial, bog/fen/swamp","core","4","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.403160077400417,8226.99667884175,22.5397169283336,16.7558798176442,25.9703603964879,689.409093393266
6038,12663,17635,"Phelps et al., 2020","Mulele (ZAM/11/8)","MULELE_5",-16.75373,23.27353,1011,"not known","terrestrial, bog/fen/swamp","core","20","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.403160077400417,8226.99667884175,22.5397169283336,16.7558798176442,25.9703603964879,689.409093393266
6038,12664,17636,"Phelps et al., 2020","Mulele (ZAM/11/8)","MULELE_7",-16.75373,23.27353,1011,"not known","terrestrial, bog/fen/swamp","core","36","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.403160077400417,8226.99667884175,22.5397169283336,16.7558798176442,25.9703603964879,689.409093393266
6039,12665,1153,"Australian pollen","Mulgrave River","M1",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6039,12666,1154,"Australian pollen","Mulgrave River","M2",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6039,12667,1155,"Australian pollen","Mulgrave River","M3",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6039,12668,1156,"Australian pollen","Mulgrave River","M4",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6039,12669,1157,"Australian pollen","Mulgrave River","M5",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6039,12670,1158,"Australian pollen","Mulgrave River","M7",-17.21,145.94,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.1152955683968,8617.83836880376,23.6105160789144,19.5088145002371,26.4592923786763,1910.57312201462
6040,12671,21546,"SMPDSv1","Muljokjauratj","Bjune_a154",68.35,21.25,483,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39446881320501,1101.71909908772,-2.98742803696474,-16.3177876357361,11.3562400463514,541.575223318141
6041,12672,17409,"Neotoma","Mullenkin Lake","TW116",42.8,-84.88,260,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.964502796361456,3487.21566682859,8.35825939148472,-6.07810746952497,21.5851146456873,840.145866266546
6042,12673,1159,"Australian pollen","Mulloon Creek Swamp","Mulloon Creek Swamp RV3",-35.3966666666667,149.585,799,"not known","terrestrial, bog/fen/swamp","core","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.772589561926944,4136.39997943158,11.3326026833742,4.17742146008854,18.3015805323353,942.87168913117
6042,12673,1160,"Australian pollen","Mulloon Creek Swamp","Mulloon Creek Swamp RV3",-35.3966666666667,149.585,799,"not known","terrestrial, bog/fen/swamp","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.772589561926944,4136.39997943158,11.3326026833742,4.17742146008854,18.3015805323353,942.87168913117
6042,12673,1161,"Australian pollen","Mulloon Creek Swamp","Mulloon Creek Swamp RV3",-35.3966666666667,149.585,799,"not known","terrestrial, bog/fen/swamp","core","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.772589561926944,4136.39997943158,11.3326026833742,4.17742146008854,18.3015805323353,942.87168913117
6043,12674,8734,"EMPDv2","Mummelsee","Roesch_a8",48.598849,8.201765,1028,"0.033","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.90192586811301,2595.11709100846,6.84206007021241,-1.88550546434814,15.5190222453631,1404.90685391793
6044,12675,21547,"SMPDSv1","MUN1","Barboni_a488",42.968889,-5.518889,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.725656506123828,3333.59270196151,9.1331306903055,1.55840378050953,18.0087870253109,788.829200467511
6045,12676,21548,"SMPDSv1","MUN2","Barboni_a489",42.75,-6.75,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.956555492811656,3829.1805394124,10.4909055874312,3.7673510126869,18.1710035772605,960.889358274554
6046,12677,21549,"SMPDSv1","MUN3","Barboni_a490",42.85,-6.9,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.981994894759947,3743.52195309538,10.2562245290284,3.43686077722708,18.0721525096077,987.180620856076
6047,12678,12974,"Neotoma","Munday Creek","MUNDAY",60.033333,-141.966667,88,"not known","terrestrial","core","-30","Peteet, D.M. 1986. Modern pollen rain and vegetational history of the Malaspina Glacier District, Alaska. Quaternary Research 25:100-120.",,9,"cool mixed forest",3.18614400219467,1550.9516763789,0.718346816069555,-11.431678498906,12.3726342749473,1499.87467491265
6048,12679,21550,"SMPDSv1","Munkovskii peatland","Munkovskii_SS (Novenko_c164)",56.8939,50.5581,106,"0.01","terrestrial, bog/fen/swamp","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.909582500622182,2663.1578487853,3.64403807901382,-13.5983053449075,19.6943481909051,572.557529155029
6049,12680,21551,"SMPDSv1","Muntes-Osnabruck","Barboni_a354",52.1,8.8,100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10931394755454,3170.15633685683,8.685359827005,0.354767791757303,16.6917348259756,730.214141113878
6050,12681,21552,"SMPDSv1","Muotkaseljanlampi","Seppa_b9",67.3,29.27,267,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.33936368121029,1394.13034459664,-1.12178608349906,-14.4865855592168,13.3562166645177,532.809519846322
6051,12682,21553,"SMPDSv1","Murati","Seppa_b127",57.58,27.1,175,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.984937261424632,2515.28793216007,5.15280851300804,-7.2883600261027,16.533202742082,620.262147605517
6052,12683,8081,"EMPDv2","Muraveiskoye","Mikishin-Gvozdeva_a144",46.505,143.313055555556,1,"0.05","coastal, lacustrine","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60443413371556,2324.71717591618,3.71761604548166,-10.2607796288335,17.3427689183133,1017.52874610634
6053,12684,16691,"Neotoma","Murdochville","PJHR051",48.983333,-65.533333,606,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.70622473307083,1921.99116851479,1.33094258104317,-13.5444712570282,15.9047915125482,1137.37368482597
6054,12685,12975,"Neotoma","Murphy Lake","MURPHY",44.711625,-93.341105,280,"not known","lake","core","-14","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847002879689576,3424.89650056865,6.81619166498191,-11.7005051330207,22.3886455394247,725.735901564317
6054,12685,12976,"Neotoma","Murphy Lake","MURPHY",44.711625,-93.341105,280,"not known","lake","core","-3","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847002879689576,3424.89650056865,6.81619166498191,-11.7005051330207,22.3886455394247,725.735901564317
6054,12685,12977,"Neotoma","Murphy Lake","MURPHY",44.711625,-93.341105,280,"not known","lake","core","8","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847002879689576,3424.89650056865,6.81619166498191,-11.7005051330207,22.3886455394247,725.735901564317
6054,12685,12978,"Neotoma","Murphy Lake","MURPHY",44.711625,-93.341105,280,"not known","lake","core","26","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847002879689576,3424.89650056865,6.81619166498191,-11.7005051330207,22.3886455394247,725.735901564317
6054,12685,12979,"Neotoma","Murphy Lake","MURPHY",44.711625,-93.341105,280,"not known","lake","core","40","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847002879689576,3424.89650056865,6.81619166498191,-11.7005051330207,22.3886455394247,725.735901564317
6055,12686,1162,"Australian pollen","Murphys Glen","Murphys Glen 1",-33.77,150.5,485,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.724413934050822,5258.50268651818,14.4068566753923,7.66232603271097,20.5982314046621,941.576093242559
6055,12687,1163,"Australian pollen","Murphys Glen","Murphys Glen 2",-33.77,150.5,485,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.724413934050822,5258.50268651818,14.4068566753923,7.66232603271097,20.5982314046621,941.576093242559
6056,12688,1164,"Australian pollen","Murrawijinie","Murrawijinie No. 1",-31.317,130.9,100,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.157991619001177,6565.82693408006,17.9885669426851,11.4933559090968,23.9070265427708,234.017174177226
6056,12689,1165,"Australian pollen","Murrawijinie","Murrawijinie No. 3",-31.383,130.95,100,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.158649197903779,6562.85773558757,17.9804321522947,11.4903510648996,23.8940783463047,234.781044529578
6057,12690,17419,"Neotoma","Murray Lake","TW127",42.33,-83.616667,271,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.932974620858809,3585.30821860234,8.73035642567254,-5.74416113008694,21.8151263218009,830.771182357937
6058,12691,11093,"Bush et al., 2020","MuruKkota","MuruKkota",-16.42715,-68.142583,4266,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.279672912859509,2604.70615175469,7.13618123768408,3.89083237615611,9.35444684386161,407.010163726789
6059,12692,17637,"Phelps et al., 2020","Musisi-Karashoma","MUSISI_5",-2.271111,28.660278,2344,"not known","terrestrial, bog/fen/swamp","not known","8","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",1.2980689473473,5502.25727561792,15.0746774674464,14.413109077802,15.5012754637117,1584.88390512116
6060,12693,12980,"Neotoma","Muskox Lake","MUSKOX",71.783333,-122.666667,305,"not known","lake","core","-50","Gajewski, K., R.J. Mott, J.C. Ritchie, and K. Hadden. 2000. Holocene vegetation history of Banks Island, Northwest Territories, Canada. Canadian Journal of Botany 78:430-436.",,31,"tundra",0.480166405961488,225.604359678859,-14.7654203119038,-30.7991461912188,4.02416110805844,118.495104098706
6061,12694,1166,"Australian pollen","Mustering Flat","Mustering Flat",-37.8,146.3,1448,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.30153748200243,2470.75208146826,6.57680693133214,-1.50818860906746,15.1342650505166,1545.20633292159
6062,12695,21554,"SMPDSv1","Mustjarv","Seppa_b130",57.93,27.3,71,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987478894683772,2471.91213839197,4.93288322718248,-7.62730719438909,16.7604103276777,611.273778217222
6063,12696,9203,"EMPDv2","Mustjarve bog","EPDcoretop_E2556",59.08,24.1,39,"2.05","terrestrial, bog/fen/swamp","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06153670337851,2428.89038691299,5.19926815354631,-6.02526313027806,16.5009476465983,630.816982064066
6064,12697,1167,"Australian pollen","Mutchero","MRI_I1",-17.23,145.96,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11552938904014,8616.2881580715,23.6062689262233,19.498952919303,26.4597457588378,1911.03794863117
6064,12698,1168,"Australian pollen","Mutchero","MRI_I2",-17.23,145.96,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11552938904014,8616.2881580715,23.6062689262233,19.498952919303,26.4597457588378,1911.03794863117
6064,12699,1169,"Australian pollen","Mutchero","MRI_I5",-17.23,145.96,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11552938904014,8616.2881580715,23.6062689262233,19.498952919303,26.4597457588378,1911.03794863117
6064,12700,1170,"Australian pollen","Mutchero","MRI_I7",-17.23,145.96,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11552938904014,8616.2881580715,23.6062689262233,19.498952919303,26.4597457588378,1911.03794863117
6065,12701,21555,"SMPDSv1","Mutorog Peat Bog","EPDcoretop_E465",43.516667,23.616667,1700,"0.004","terrestrial, blanket bog","peat core top","-39","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.900149493873573,2297.56787365721,5.3318330635342,-4.62412633910095,14.739204533808,769.144412631535
6066,12702,16612,"Neotoma","MV01","MV01",56.943333,-74.9,300,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.40753358262161,946.555887812603,-6.13255066434699,-24.1231509264671,9.87323747972844,595.886893741372
6067,12703,11473,"Neotoma","MW Lake","WYWEMW",43.614165,-104.11841,1180,"not known","lake","surface sample","-54","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.398105347353527,3357.90319039942,8.15323197176627,-5.37635432348017,22.3577657389366,397.012469906119
6068,12704,8396,"EMPDv2","MW_32AP+4NAP","Nakagawa_c1",33.3494111111111,133.262063888889,23.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.7871878318258,6020.71323818782,16.4951047621584,6.19810413843274,27.3238181407573,1924.07607646552
6068,12705,8405,"EMPDv2","MW_32AP+4NAP","Nakagawa_c10",44.8610194444444,142.513544444444,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.627594451198,2701.32396706202,5.58245805351215,-7.63710943343979,19.0145776779119,1106.217905055
6068,12706,8406,"EMPDv2","MW_32AP+4NAP","Nakagawa_c11",44.44085,143.047008333333,29,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6258264308423,2716.56824324557,5.72671544114503,-7.4175806051431,18.953998011431,1113.5382474817
6068,12707,8407,"EMPDv2","MW_32AP+4NAP","Nakagawa_c12",42.8530944444444,143.797272222222,65,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6829205433375,2655.31649531721,5.77615550187869,-6.76012296493471,18.2548378913318,1178.90455654505
6068,12708,8408,"EMPDv2","MW_32AP+4NAP","Nakagawa_c13",42.6118611111111,143.463002777778,39.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.69659153011247,2811.3699859556,6.37641671809021,-6.10380759637308,18.9746198227588,1218.19337614836
6068,12709,8409,"EMPDv2","MW_32AP+4NAP","Nakagawa_c14",42.2312722222222,143.295155555556,94.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.74286000970396,2780.75253530251,6.23905796318936,-6.22575546940147,18.9148177176919,1257.60343616372
6068,12710,8410,"EMPDv2","MW_32AP+4NAP","Nakagawa_c15",42.3608166666667,143.050413888889,498,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.68996210433262,2377.01775636188,4.10868835468627,-9.39295469335279,17.5426630879124,1186.88516511119
6068,12711,8411,"EMPDv2","MW_32AP+4NAP","Nakagawa_c16",42.6039194444444,142.983233333333,349.6,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.69308714056529,2537.85311313767,4.90587144042643,-8.35952685354487,18.1967452533984,1199.02461361216
6068,12712,8412,"EMPDv2","MW_32AP+4NAP","Nakagawa_c17",42.1069527777778,143.05145,67.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.74721455105305,2885.40975905571,6.6197389511047,-5.87327845233742,19.4667546449,1277.1096442758
6068,12713,8413,"EMPDv2","MW_32AP+4NAP","Nakagawa_c18",42.2586722222222,142.624477777778,15.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.729714178399,3052.517921246,7.22774637154327,-5.39200823791363,20.3168211598841,1282.42724865107
6068,12714,8414,"EMPDv2","MW_32AP+4NAP","Nakagawa_c19",42.3234916666667,142.555144444444,82,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.72558333649179,2965.85554621739,6.83804255299377,-5.92560137045825,20.0124258997314,1270.79295550351
6068,12715,8397,"EMPDv2","MW_32AP+4NAP","Nakagawa_c2",32.7685888888889,133.006086111111,61.4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.92656736891328,6011.60126438341,16.4701404503655,6.20469273461371,27.0657887215291,2095.09770998944
6068,12716,8398,"EMPDv2","MW_32AP+4NAP","Nakagawa_c3",32.9222916666667,132.622541666667,38.3,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.8637988670802,6029.89314563776,16.5202551935281,6.20350421481025,27.2172962654081,2036.3102829274
6068,12717,8399,"EMPDv2","MW_32AP+4NAP","Nakagawa_c4",35.620275,135.839311111111,17,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.67784750201595,5483.95250530548,15.0245274117958,3.97694955700711,27.1199969260456,1679.76538191924
6068,12718,8400,"EMPDv2","MW_32AP+4NAP","Nakagawa_c5",44.2942916666667,142.285922222222,312,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65809361694892,2529.44422663218,4.69959244514289,-8.86255591957091,18.3244319044976,1135.36123675061
6068,12719,8401,"EMPDv2","MW_32AP+4NAP","Nakagawa_c6",44.2158583333333,141.887902777778,72,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65873127054557,2881.44135582746,6.34281647867678,-6.76402977989158,19.8699854064999,1169.5289397833
6068,12720,8402,"EMPDv2","MW_32AP+4NAP","Nakagawa_c7",44.4970333333333,141.807591666667,46,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65783792200518,2839.90895247802,6.18125212784306,-6.91055577222126,19.6774462882698,1154.81059284521
6068,12721,8403,"EMPDv2","MW_32AP+4NAP","Nakagawa_c8",44.7658138888889,141.83795,13,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63241623441296,2747.36796983706,5.78103071099902,-7.41635799837236,19.2535057515779,1117.95706698442
6068,12722,8404,"EMPDv2","MW_32AP+4NAP","Nakagawa_c9",44.6851666666667,142.263572222222,48.5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.64807615113641,2768.23928060504,5.88431956173117,-7.25368710289981,19.321187953602,1134.4535978655
6069,12723,8415,"EMPDv2","MW_alltaxa","Nakagawa_d1",35.4240680555556,133.409475,37.7,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.51160404834252,5349.34749281122,14.6557465556472,3.57901911488711,26.6215218738209,1554.21858241076
6069,12724,8424,"EMPDv2","MW_alltaxa","Nakagawa_d10",39.5891791666667,141.668965277778,199,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.73556976279988,3675.36969847152,9.76013378294047,-1.91278569983804,22.6139457880966,1423.29823505008
6069,12725,8425,"EMPDv2","MW_alltaxa","Nakagawa_d11",34.2660638888889,134.832569444444,302,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.83300286095923,5061.45321044404,13.866995097107,2.99214067708642,25.5130084036026,1846.27500201155
6069,12726,8426,"EMPDv2","MW_alltaxa","Nakagawa_d12",34.1304194444444,133.966352777778,263.4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.73862883671813,5207.58821612405,14.2673649756823,3.51379115048985,25.7807159986158,1786.02636444014
6069,12727,8427,"EMPDv2","MW_alltaxa","Nakagawa_d13",33.5846888888889,134.330647222222,5.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.62486635216704,5966.61091845464,16.3468792286429,6.04320762183931,27.4315498766324,1730.9880552311
6069,12728,8428,"EMPDv2","MW_alltaxa","Nakagawa_d14",33.5956611111111,134.106113888889,518.5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.94632568738915,4785.22025716785,13.1101924853914,2.33902932973034,24.3760582217517,2009.00948431438
6069,12729,8429,"EMPDv2","MW_alltaxa","Nakagawa_d15",33.5545416666667,133.1323,131.1,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.81177072168631,5695.6611082327,15.6045509814595,5.11406797862501,26.6193927361586,1930.76387268247
6069,12730,8430,"EMPDv2","MW_alltaxa","Nakagawa_d16",33.05155,133.097644444444,12.2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.88969407985819,6110.80661958482,16.741935944068,6.49628826011189,27.3575149501673,2055.57154733923
6069,12731,8431,"EMPDv2","MW_alltaxa","Nakagawa_d17",32.7685888888889,133.006086111111,61.4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.92656736891328,6011.60126438341,16.4701404503655,6.20469273461371,27.0657887215291,2095.09770998944
6069,12732,8416,"EMPDv2","MW_alltaxa","Nakagawa_d2",35.7023516666667,136.869557222222,306,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.95712264896694,4775.82248140732,13.0844451545406,1.59978430694976,25.2951386640137,1867.79251324009
6069,12733,8417,"EMPDv2","MW_alltaxa","Nakagawa_d3",35.9127052777778,137.142672222222,602.4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.93656288167045,4050.4576882872,10.965086450494,-1.0348287942246,23.5687139942679,1764.7273701786
6069,12734,8418,"EMPDv2","MW_alltaxa","Nakagawa_d4",36.2700988888889,136.9442275,1158,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.96122079406012,3179.32026496753,7.74689554603086,-4.78312336360356,20.603717224383,1662.66712856249
6069,12735,8419,"EMPDv2","MW_alltaxa","Nakagawa_d5",36.9883986111111,138.396770555556,1047,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.82188259358477,3243.83418400038,8.07117185004706,-4.19631253379216,20.9448070039233,1546.17192056054
6069,12736,8420,"EMPDv2","MW_alltaxa","Nakagawa_d6",40.5652016666667,139.981182777778,218,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.81707590626359,3525.4176644676,9.10792435005492,-3.03714498204572,22.4826489688353,1448.61669425402
6069,12737,8421,"EMPDv2","MW_alltaxa","Nakagawa_d7",40.1917511111111,141.428820277778,292,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.77869366287833,3432.73152211199,8.83710090515671,-3.10815244553582,21.9159783576014,1417.26107403655
6069,12738,8422,"EMPDv2","MW_alltaxa","Nakagawa_d8",39.9380275,141.547835277778,550,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.85843672248851,3166.44103389985,7.78178252675435,-4.4250883927606,21.0232520688861,1451.37656557924
6069,12739,8423,"EMPDv2","MW_alltaxa","Nakagawa_d9",39.8406616666667,141.751200833333,116.8,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.66993993514867,3654.62043313644,9.69026562253348,-1.94627589459652,22.4851373424916,1364.94026533035
6070,12740,17638,"Phelps et al., 2020","Mwamgongo River","LT98-37M_1",-4.622778,29.633056,767,"not applicable","fluvial","not known","11","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.709592226112333,8626.65432894461,23.6346693943688,22.2547688626326,24.7810658834478,1086.9410146134
6070,12741,17639,"Phelps et al., 2020","Mwamgongo River","LT98-37M_3",-4.622778,29.633056,767,"not applicable","fluvial","not known","32","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.709592226112333,8626.65432894461,23.6346693943688,22.2547688626326,24.7810658834478,1086.9410146134
6071,12742,1171,"Australian pollen","Myalup Swamp","Myalup Swamp",-33.117,115.717,10,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.627721934446224,6287.10851166133,17.2249548264694,12.8049642968433,22.7359872257311,847.792159302833
6072,12743,1172,"Australian pollen","Myora Springs","Myora Springs core",-27.4689,153.4247,2,"not applicable","terrestrial","core","-61","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",1.0064685703883,7353.96859207121,20.1478591563595,14.8454539910889,24.3871373651275,1478.66885951812
6072,12743,1173,"Australian pollen","Myora Springs","Myora Springs core",-27.4689,153.4247,2,"not applicable","terrestrial","core","-21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",1.0064685703883,7353.96859207121,20.1478591563595,14.8454539910889,24.3871373651275,1478.66885951812
6072,12743,1174,"Australian pollen","Myora Springs","Myora Springs core",-27.4689,153.4247,2,"not applicable","terrestrial","core","32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",1.0064685703883,7353.96859207121,20.1478591563595,14.8454539910889,24.3871373651275,1478.66885951812
6073,12744,7445,"EMPDv2","Myravatnet","Hjelle_a34",60.3327987,5.3576386,31,"0.059","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.15848739634801,2650.57091452999,7.26183812199998,1.06589561148286,14.0870989103469,2176.88828731513
6074,12745,8131,"EMPDv2","Myrchan","Mikishin-Gvozdeva_a194",53.5377777777778,140.334722222222,50,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17258801594391,1882.46969647407,-1.77088111119051,-22.0264743337764,15.6525027131911,620.339670650998
6075,12746,12981,"Neotoma","Myrtle Lake","MYRTLE",47.982605,-93.3853,393,"not known","lake","core","5","Janssen, C.R. 1968. Myrtle Lake: a late- and post-glacial pollen diagram from northern Minnesota. Canadian Journal of Botany 46(11):1397-1410. Janssen, C.R. 1984. Modern pollen assemblages and vegetation in the Myrtle Lake Peatland, Minnesota. Ecological Monographs 54(2):213-252. Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658.","10.1139/b68-190;
10.2307/1942662;
10.1017/S0033822200011413",9,"cool mixed forest",0.902868841818318,2718.05738442997,3.48497652409612,-15.6310391103186,19.4596641003165,692.615024029379
6075,12746,12982,"Neotoma","Myrtle Lake","MYRTLE",47.982605,-93.3853,393,"not known","lake","core","17","Janssen, C.R. 1968. Myrtle Lake: a late- and post-glacial pollen diagram from northern Minnesota. Canadian Journal of Botany 46(11):1397-1410. Janssen, C.R. 1984. Modern pollen assemblages and vegetation in the Myrtle Lake Peatland, Minnesota. Ecological Monographs 54(2):213-252. Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658.","10.1139/b68-190;
10.2307/1942662;
10.1017/S0033822200011413",9,"cool mixed forest",0.902868841818318,2718.05738442997,3.48497652409612,-15.6310391103186,19.4596641003165,692.615024029379
6075,12746,12983,"Neotoma","Myrtle Lake","MYRTLE",47.982605,-93.3853,393,"not known","lake","core","50","Janssen, C.R. 1968. Myrtle Lake: a late- and post-glacial pollen diagram from northern Minnesota. Canadian Journal of Botany 46(11):1397-1410. Janssen, C.R. 1984. Modern pollen assemblages and vegetation in the Myrtle Lake Peatland, Minnesota. Ecological Monographs 54(2):213-252. Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658.","10.1139/b68-190;
10.2307/1942662;
10.1017/S0033822200011413",9,"cool mixed forest",0.902868841818318,2718.05738442997,3.48497652409612,-15.6310391103186,19.4596641003165,692.615024029379
6076,12747,21556,"SMPDSv1","Myrvatn","Bjune_a2",70.55866661,30.07015357,102,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.47822954783429,1186.82010940563,-0.947150356162487,-11.6020532929894,11.7266708957768,505.958892905704
6077,12748,21557,"SMPDSv1","Myrvatnet","Bjune_a183",68.65,16.3833333333333,200,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.02402190815231,1322.13258007051,1.46179675825238,-6.71107381620676,11.4171106686136,1123.35389645921
6078,12749,7182,"EMPDv2","Myshetskoe-Dolgoe","EPDcoretop_E2339",56.07,37.33,198,"0.52","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.00435456113723,2638.21212200771,4.84426499704289,-9.78459382367517,18.0697712251062,672.25086610609
6079,12750,21558,"SMPDSv1","N. of Delnice","Barboni_a1462",45.45,14.8666,900,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.8446002028064,2518.02724033332,6.21030296472835,-3.74878532460556,15.3178424951162,1549.56261043936
6080,12751,23243,"SMPDSv1","N/CJ/S1_S2_S3","N/CJ/S1_S2_S3",78.542,12.718,10,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.11471135526459,241.984920007983,-6.70401585231882,-14.4304912141235,3.79942972329359,471.608113805043
6081,12752,6545,"EMPDv2","N1","Binney2017_E3209",68.83,53.22,9,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.40207968770456,1126.9257459803,-4.2492225579228,-19.6438200278889,13.0283592033624,450.076751006002
6082,12753,6546,"EMPDv2","N2","Binney2017_E3210",68.83,53.22,9,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.40207968770456,1126.9257459803,-4.2492225579228,-19.6438200278889,13.0283592033624,450.076751006002
6083,12754,7028,"EMPDv2","Na bahne","EPDcoretop_E1595",50.2,15.96,237,"0.01","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.811966811489018,3202.63012573999,8.49289717098148,-2.19996786745536,17.971035928097,607.391107743961
6084,12755,21559,"SMPDSv1","Naarajarvi","Seppa_b82",61.6,22.67,110,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03450203689063,2166.54571063461,3.79813851727621,-8.02611553516385,15.9300028116184,546.425481757887
6085,12756,9069,"EMPDv2","Naava forest-hollow","Stivrins_a7",61.242999,25.056462,174,"0.001","small hollow","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.988940127756501,2082.01566484465,3.04266307948988,-9.79844291817558,15.9713669346292,534.482243501867
6086,12757,7974,"EMPDv2","Nabil_1","Mikishin-Gvozdeva_a34",51.6366666666667,143.318333333333,-1,"141","coastal, lagoon","sediment sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22694193281076,1886.74419004114,-0.317977644006756,-18.3448388384633,15.4921375140493,664.859574565494
6087,12758,7978,"EMPDv2","Nabil_2","Mikishin-Gvozdeva_a38",51.5783333333333,143.262222222222,-2,"141","coastal, lagoon","sediment sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22373582456538,1890.33706011827,-0.300968185540231,-18.3377374291377,15.5094204027632,664.315029266207
6088,12759,7985,"EMPDv2","Nabil_3","Mikishin-Gvozdeva_a45",51.5177777777778,143.333333333333,-2,"141","coastal, lagoon","sediment sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22431239516278,1892.39435711019,-0.275392076974604,-18.2921782121072,15.5180736724837,665.514962014889
6089,12760,7029,"EMPDv2","Nad Dolskem mlenem","EPDcoretop_E1596",50.85,14.34,240,"5e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.816019348541485,3205.52803394903,8.56771055821026,-1.70240648628733,17.9222591892309,595.473887995322
6090,12761,21560,"SMPDSv1","Naestarjavri","Bjune_a4",70.29950701,25.09131761,60,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.95525191804171,1242.75231282423,-0.840820872003696,-12.0408530487942,12.0333809360247,680.300023619216
6091,12762,10562,"BIOME6000 Japan","Naganoyama","NgnymC0",35,137.45,550,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.88879737481698,4310.39445799332,11.8089087394618,0.274579442018159,23.8402794667752,1791.98050433216
6092,12763,1175,"Australian pollen","Nairn River Valley","Nairn River Valley pit face A",-43.99,-176.58,300,"not applicable","archaeological site","profile top","-22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.783827110961789,4494.61316888467,12.3140086818758,7.27744671935109,18.2650263308745,693.949140510247
6092,12764,1176,"Australian pollen","Nairn River Valley","Nairn River Valley ss",-43.99,-176.58,300,"not applicable","archaeological site","surface sample","-28","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.783827110961789,4494.61316888467,12.3140086818758,7.27744671935109,18.2650263308745,693.949140510247
6093,12765,21561,"SMPDSv1","Nakri","Meltsov_a1",57.89463,26.27323,61,"0.01","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00728817475251,2466.98264969973,5.07073783914793,-7.02301990339361,16.6830675747043,618.358952019097
6094,12766,15668,"Neotoma","Nakvak Lake","DLEF012",58.63,-63.75,260,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.86052965175626,710.81681992378,-5.97345089453397,-20.8044210769736,8.21780914735043,725.048860117302
6094,12767,15669,"Neotoma","Nakvak Lake","DLEF013",58.63,-63.75,260,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.86052965175626,710.81681992378,-5.97345089453397,-20.8044210769736,8.21780914735043,725.048860117302
6094,12768,15670,"Neotoma","Nakvak Lake","DLEF014",58.63,-63.75,260,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.86052965175626,710.81681992378,-5.97345089453397,-20.8044210769736,8.21780914735043,725.048860117302
6095,12769,3820,"CMPD","Namocuo","Namocuo 1",30.71,90.87,4710,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.481082545544978,1216.20105309908,0.0822903193047946,-10.4834995764691,9.52191669722734,550.260840322506
6095,12770,3821,"CMPD","Namocuo","Namocuo 2",30.68,90.86,4718,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.48246354809648,1210.43397261831,0.0578440193247201,-10.4930700507423,9.48898439572338,551.831135598451
6095,12771,3822,"CMPD","Namocuo","Namocuo 3",30.68,90.85,4712,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482934970103614,1216.68829746084,0.0934882522006714,-10.4565524394721,9.5203035557851,552.70345372935
6095,12772,3823,"CMPD","Namocuo","Namocuo 4",30.68,90.85,4710,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.483050122668796,1218.76008249774,0.105305140120695,-10.4445354923005,9.53058185151849,552.943106771932
6096,12773,3824,"CMPD","Nanbanjiang","Nanbanjiang",19.4,109.7,35,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39713378890443,8968.57002724306,24.5714247321728,18.3512038592007,28.8804602707578,1856.63205759052
6097,12774,3825,"CMPD","Nandu Mt","Nandu Mt 1",31.57,120.3,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11858783463263,5614.27693867428,15.3815806539021,2.92898846648348,27.5155216939974,1224.47905579921
6098,12775,3826,"CMPD","Nangong","Nangong",37.8,115.5,40,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.485803540842992,5033.08146512367,13.4744726223646,-2.46882956077856,26.9791535694555,552.82443147013
6099,12776,3827,"CMPD","Nanhai","Nanhai",23.33,113.13,15,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50716104131605,8244.33832857192,22.5872282974573,14.5497641695621,28.8048383025658,1904.8578436644
6100,12777,3828,"CMPD","Nanhuasi","Nanhuasi",24.68,113.58,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45459687823487,7974.81372930912,21.8488047378332,13.0995244257115,28.745649537879,1794.56052619923
6101,12778,3837,"CMPD","Nanjin","Nanjing g",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6102,12779,3829,"CMPD","Nanjing","Nanjing 1",24.91,117.21,415,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30093777698795,7054.39184442238,19.327100943623,10.4190291192101,27.1602379788084,1560.76667793253
6102,12780,3830,"CMPD","Nanjing","Nanjing 2",24.91,117.21,415,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30093777698795,7054.39184442238,19.327100943623,10.4190291192101,27.1602379788084,1560.76667793253
6102,12781,3832,"CMPD","Nanjing","Nanjing b",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6102,12782,3833,"CMPD","Nanjing","Nanjing c",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6102,12783,3834,"CMPD","Nanjing","Nanjing d",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6102,12784,3835,"CMPD","Nanjing","Nanjing e",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6102,12785,3836,"CMPD","Nanjing","Nanjing f",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6103,12786,3838,"CMPD","Nanping","Nanping 1",26.7,118.08,866,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40499121144534,5850.36731856199,16.0284036124986,6.58034541291144,24.7549978606019,1590.36131977883
6103,12787,3839,"CMPD","Nanping","Nanping 2",26.72,118.12,835,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40507463271823,5887.8736564664,16.1311607026477,6.63862096094692,24.9097649639003,1591.94897111566
6103,12788,3840,"CMPD","Nanping","Nanping 3",26.7,118.07,786,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40232520798477,5979.45046805344,16.3820560768587,6.85612285161689,25.1763840165311,1593.73429842133
6103,12789,3841,"CMPD","Nanping","Nanping QNs-01",29.0833333333333,107.000833333333,674,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08121987500924,6020.86388263716,16.4955174866771,5.72987741753718,26.5157292653814,1141.09437168095
6103,12790,3842,"CMPD","Nanping","Nanping QNs-02",29.0822222222222,107.000833333333,666,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08066948577536,6032.75525504394,16.5280965891615,5.7629087460377,26.5472912738148,1140.75167934285
6103,12791,3843,"CMPD","Nanping","Nanping QNs-03",29.0836111111111,107.000277777778,679,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08154618865336,6013.4652546069,16.4752472728956,5.70935774613802,26.4960257362197,1141.29284487849
6103,12792,3844,"CMPD","Nanping","Nanping QNs-04",29.0838888888889,107,683,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08181214546787,6007.53526870909,16.4590007361893,5.69290245036003,26.4802517530109,1141.45613167159
6103,12793,3845,"CMPD","Nanping","Nanping QNs-05",29.0855555555556,107.001111111111,695,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08266890381245,5989.62209630881,16.409923551531,5.64309245180966,26.4328203553237,1142.00030497397
6103,12794,3846,"CMPD","Nanping","Nanping QNs-06",29.0841666666667,107.001666666667,670,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08098004490222,6026.76353023728,16.5116809047597,5.74621071885996,26.5315096251851,1140.9507373295
6103,12795,3847,"CMPD","Nanping","Nanping QNs-07",29.0838888888889,107.001666666667,665,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08064044149826,6034.19847913005,16.5320506277536,5.76685896717466,26.5512549274868,1140.73842238579
6103,12796,3848,"CMPD","Nanping","Nanping QNs-08",29.0841666666667,107.0025,667,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08079835441957,6031.16980856596,16.5237529001807,5.75840412906365,26.5432984500822,1140.84473525462
6103,12797,3849,"CMPD","Nanping","Nanping QNs-09",29.0822222222222,107.003055555556,639,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07891075496543,6072.75893701372,16.6376957178458,5.87388262420812,26.653796993087,1139.66937606804
6103,12798,3850,"CMPD","Nanping","Nanping QNs-10",29.0816666666667,107.005277777778,611,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07708498499289,6114.23319644481,16.7513238258762,5.98894324603463,26.776959518886,1138.54215585534
6103,12799,3851,"CMPD","Nanping","Nanping QNs-11",29.0813888888889,107.005277777778,607,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07681540071241,6120.17786764885,16.7676105962982,6.00545454680535,26.7963325266874,1138.3730391773
6103,12800,3852,"CMPD","Nanping","Nanping QNs-12",29.0808333333333,107.005,602,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0764703698381,6127.62641285546,16.788017569467,6.02616054216744,26.820555512443,1138.15469140155
6103,12801,3853,"CMPD","Nanping","Nanping QNs-13",29.0711111111111,106.998055555556,580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07476880793796,6160.73449075022,16.8787246321924,6.11861817963849,26.9269930965986,1137.05365206307
6103,12802,3854,"CMPD","Nanping","Nanping QNs-14",29.0697222222222,106.998055555556,575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0744286237028,6168.15082135396,16.8990433461752,6.13923873822555,26.9511052446967,1136.84465528706
6103,12803,3855,"CMPD","Nanping","Nanping QNs-15",29.0713888888889,106.9975,585,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07508831802939,6153.34474996932,16.8584787670392,6.09811852676819,26.9028206488412,1137.24861940803
6103,12804,3856,"CMPD","Nanping","Nanping QNs-16",29.0697222222222,106.998055555556,575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0744286237028,6168.15082135396,16.8990433461752,6.13923873822555,26.9511052446967,1136.84465528706
6103,12805,3857,"CMPD","Nanping","Nanping QNs-17",29.0697222222222,106.998055555556,575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0744286237028,6168.15082135396,16.8990433461752,6.13923873822555,26.9511052446967,1136.84465528706
6103,12806,3858,"CMPD","Nanping","Nanping QNs-18",29.0697222222222,106.998055555556,575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0744286237028,6168.15082135396,16.8990433461752,6.13923873822555,26.9511052446967,1136.84465528706
6103,12807,3859,"CMPD","Nanping","Nanping2 NP-1-1",29.0808,107.0023,719,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08426075908835,5953.8287582955,16.3118596117685,5.54366943877077,26.3376901836432,1143.00900061459
6103,12808,3860,"CMPD","Nanping","Nanping2 NP-1-2",29.0808,107.0023,719,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08426075908835,5953.8287582955,16.3118596117685,5.54366943877077,26.3376901836432,1143.00900061459
6103,12809,3861,"CMPD","Nanping","Nanping2 NP-1-3",29.0808,107.0023,719,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08426075908835,5953.8287582955,16.3118596117685,5.54366943877077,26.3376901836432,1143.00900061459
6103,12810,3862,"CMPD","Nanping","Nanping2 NP-1-4",29.0808,107.0023,719,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08426075908835,5953.8287582955,16.3118596117685,5.54366943877077,26.3376901836432,1143.00900061459
6103,12811,3863,"CMPD","Nanping","Nanping2 NP-2-1",29.07905,106.998516666667,742,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08569833755305,5919.84992490346,16.2187669175437,5.44949950625393,26.2469793079808,1143.86462106616
6103,12812,3864,"CMPD","Nanping","Nanping2 NP-2-2",29.07905,106.998516666667,742,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08569833755305,5919.84992490346,16.2187669175437,5.44949950625393,26.2469793079808,1143.86462106616
6103,12813,3865,"CMPD","Nanping","Nanping2 NP-2-3",29.07905,106.998516666667,742,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08569833755305,5919.84992490346,16.2187669175437,5.44949950625393,26.2469793079808,1143.86462106616
6103,12814,3866,"CMPD","Nanping","Nanping2 NP-2-4",29.07905,106.998516666667,742,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08569833755305,5919.84992490346,16.2187669175437,5.44949950625393,26.2469793079808,1143.86462106616
6103,12815,3867,"CMPD","Nanping","Nanping2 NP-3-1",29.0719,106.9893,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07861152554757,6070.64765081759,16.631911372103,5.86884254362918,26.646549501849,1139.37828037115
6103,12816,3868,"CMPD","Nanping","Nanping2 NP-3-2",29.0719,106.9893,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07861152554757,6070.64765081759,16.631911372103,5.86884254362918,26.646549501849,1139.37828037115
6103,12817,3869,"CMPD","Nanping","Nanping2 NP-3-3",29.0719,106.9893,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07861152554757,6070.64765081759,16.631911372103,5.86884254362918,26.646549501849,1139.37828037115
6103,12818,3870,"CMPD","Nanping","Nanping2 NP-3-4",29.0719,106.9893,641,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07861152554757,6070.64765081759,16.631911372103,5.86884254362918,26.646549501849,1139.37828037115
6103,12819,3871,"CMPD","Nanping","Nanping2 NP-4-1",29.0756833333333,107.001633333333,732,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0850544684084,5934.52006217576,16.2589590744541,5.49010458393521,26.2861514060925,1143.49797821515
6103,12820,3872,"CMPD","Nanping","Nanping2 NP-4-2",29.0756833333333,107.001633333333,732,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0850544684084,5934.52006217576,16.2589590744541,5.49010458393521,26.2861514060925,1143.49797821515
6103,12821,3873,"CMPD","Nanping","Nanping2 NP-4-3",29.0756833333333,107.001633333333,732,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0850544684084,5934.52006217576,16.2589590744541,5.49010458393521,26.2861514060925,1143.49797821515
6103,12822,3874,"CMPD","Nanping","Nanping2 NP-4-4",29.0756833333333,107.001633333333,732,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0850544684084,5934.52006217576,16.2589590744541,5.49010458393521,26.2861514060925,1143.49797821515
6103,12823,3875,"CMPD","Nanping","Nanping2 NP-5-1",29.0831,107.000566666667,735,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08533103293518,5930.14780677305,16.2469802925289,5.47798165327177,26.2746783208659,1143.65618544927
6103,12824,3876,"CMPD","Nanping","Nanping2 NP-5-2",29.0831,107.000566666667,735,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08533103293518,5930.14780677305,16.2469802925289,5.47798165327177,26.2746783208659,1143.65618544927
6103,12825,3877,"CMPD","Nanping","Nanping2 NP-5-3",29.0831,107.000566666667,735,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08533103293518,5930.14780677305,16.2469802925289,5.47798165327177,26.2746783208659,1143.65618544927
6103,12826,3878,"CMPD","Nanping","Nanping2 NP-5-4",29.0831,107.000566666667,735,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08533103293518,5930.14780677305,16.2469802925289,5.47798165327177,26.2746783208659,1143.65618544927
6103,12827,3879,"CMPD","Nanping","Nanping2 NP-6-1",29.0792166666667,106.999616666667,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08559274006043,5922.75813503678,16.2267346165391,5.45752230591763,26.2548198718852,1143.8102444192
6103,12828,3880,"CMPD","Nanping","Nanping2 NP-6-2",29.0792166666667,106.999616666667,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08559274006043,5922.75813503678,16.2267346165391,5.45752230591763,26.2548198718852,1143.8102444192
6103,12829,3881,"CMPD","Nanping","Nanping2 NP-6-3",29.0792166666667,106.999616666667,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08559274006043,5922.75813503678,16.2267346165391,5.45752230591763,26.2548198718852,1143.8102444192
6103,12830,3882,"CMPD","Nanping","Nanping2 NP-6-4",29.0792166666667,106.999616666667,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08559274006043,5922.75813503678,16.2267346165391,5.45752230591763,26.2548198718852,1143.8102444192
6103,12831,3883,"CMPD","Nanping","Nanping2 NP-6-5",29.0792166666667,106.999616666667,740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.08559274006043,5922.75813503678,16.2267346165391,5.45752230591763,26.2548198718852,1143.8102444192
6103,12832,3884,"CMPD","Nanping","Nanping2 NP-7-1",29.0713333333333,106.994666666667,628,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07787142340055,6089.60449587971,16.683847933917,5.92122591168274,26.6974456930232,1138.96706645174
6103,12833,3885,"CMPD","Nanping","Nanping2 NP-7-2",29.0713333333333,106.994666666667,628,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07787142340055,6089.60449587971,16.683847933917,5.92122591168274,26.6974456930232,1138.96706645174
6103,12834,3886,"CMPD","Nanping","Nanping2 NP-7-3",29.0713333333333,106.994666666667,628,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07787142340055,6089.60449587971,16.683847933917,5.92122591168274,26.6974456930232,1138.96706645174
6103,12835,3887,"CMPD","Nanping","Nanping2 NP-7-4",29.0713333333333,106.994666666667,628,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07787142340055,6089.60449587971,16.683847933917,5.92122591168274,26.6974456930232,1138.96706645174
6103,12836,3888,"CMPD","Nanping","Nanping2 NP-8-1",29.0716666666667,107.000566666667,629,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0780835526226,6087.70410108859,16.6786413728454,5.91563631935854,26.692992397018,1139.15285172298
6103,12837,3889,"CMPD","Nanping","Nanping2 NP-8-2",29.0716666666667,107.000566666667,629,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0780835526226,6087.70410108859,16.6786413728454,5.91563631935854,26.692992397018,1139.15285172298
6103,12838,3890,"CMPD","Nanping","Nanping2 NP-8-3",29.0716666666667,107.000566666667,629,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0780835526226,6087.70410108859,16.6786413728454,5.91563631935854,26.692992397018,1139.15285172298
6103,12839,3891,"CMPD","Nanping","Nanping2 NP-8-4",29.0716666666667,107.000566666667,629,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0780835526226,6087.70410108859,16.6786413728454,5.91563631935854,26.692992397018,1139.15285172298
6104,12840,3892,"CMPD","Nanshan","Nanshan",40.8,111.7,1063,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.311875185922909,3349.9198861745,6.49782214694271,-11.6285462018239,22.0170975886984,340.688189259534
6105,12841,9941,"Herzschuh et al., 2019","Nanwangzhuang","Nanwangzhuang",38.135,115.405,32,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.483170492242414,5031.87517012189,13.4609807542455,-2.52223303139851,27.0110263566076,547.987147124043
6106,12842,16530,"Neotoma","Napadogan Lake","KG025",46.42,-66.95,274,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.53942204385529,2380.40213798846,3.34068196074082,-12.3577015631269,17.7615473223301,1116.33582337567
6106,12843,16529,"Neotoma","Napadogan Lake","RJM075",46.42,-66.95,274,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.53942204385529,2380.40213798846,3.34068196074082,-12.3577015631269,17.7615473223301,1116.33582337567
6107,12844,3893,"CMPD","Napahai","Napahai 34",27.8,99.6,3260,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.754396074115216,2358.96285735475,6.29470025556804,-1.34253166954342,12.7722103538109,864.245942687141
6108,12845,17141,"Neotoma","Napaktok (Black Duck) Bay","SKS166",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6108,12846,17139,"Neotoma","Napaktok (Black Duck) Bay","SKS167",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6108,12847,17138,"Neotoma","Napaktok (Black Duck) Bay","SKS168",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6108,12848,17137,"Neotoma","Napaktok (Black Duck) Bay","SKS169",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6108,12849,17136,"Neotoma","Napaktok (Black Duck) Bay","SKS170",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6108,12850,17140,"Neotoma","Napaktok (Black Duck) Bay","SKS171",57.93,-62.58,100,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9455752892457,887.316546306102,-4.35135918499248,-19.1734809284806,9.39897399835765,805.744160721639
6109,12851,3894,"CMPD","Naqu","Naqu 1",30.62,91.54,4654,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.480320102559052,1275.34281806965,0.450693020262498,-10.0729597244297,9.77349940030439,552.405224021889
6109,12852,3895,"CMPD","Naqu","Naqu 2",31.32,91.87,4510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.368044966525792,1156.97983291817,-0.924894247861055,-12.7542327385329,9.52256118710136,406.034313569854
6109,12853,3896,"CMPD","Naqu","Naqu 3",31.4,91.4,4700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.37740845537398,1050.62855693151,-1.40236474523312,-12.8876909254118,8.89287707367208,415.193767858236
6109,12854,3897,"CMPD","Naqu","Naqu 4",31.61,92.25,4580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.369292725925013,1092.19726742213,-1.20921673113495,-12.9222191915284,9.11954186732045,403.657163216771
6110,12855,1177,"Australian pollen","Naracoopa","Naracoopa",-39.883,144.083,2,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.07752797704973,4714.00771237917,12.9150896229566,8.61324642599963,17.6940452088883,1043.11693047203
6111,12856,1178,"Australian pollen","Nardello's Lagoon","Nardello's Lagoon",-17.117,145.417,550,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.823244903045156,8209.42813107024,22.4915839207404,17.98275428939,25.6759691663466,1461.32195472595
6112,12857,3898,"CMPD","Naripingcuo","Naripingcuo",31.29,91.47,4520,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.364936618285252,1191.12391453484,-0.736167597724618,-12.5378211400341,9.72333743564907,406.161062889324
6113,12858,17414,"Neotoma","Narrow Lake","TW121",42.45,-84.78,285,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.980792423151594,3609.44285923732,8.78431478738099,-5.82214163954167,21.9300685931846,867.365109029615
6114,12859,8970,"EMPDv2","Narsarsuaq","Schofield_a1",61.1579,-45.4094,113,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5687127527614,933.450485380199,0.382818862115095,-5.89094703208789,8.0513743585798,1101.31938155211
6114,12860,8979,"EMPDv2","Narsarsuaq","Schofield_a10",61.1601,-45.4106,201,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.61671810463419,859.481071132243,-0.0154321688101656,-6.15081446558415,7.69373625954706,1110.4279055436
6114,12861,8980,"EMPDv2","Narsarsuaq","Schofield_a11",61.1576,-45.4095,104,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.56380618318643,941.164222313378,0.423538706803379,-5.86439829724868,8.0879396892521,1100.36593546251
6114,12862,8981,"EMPDv2","Narsarsuaq","Schofield_a12",61.1578,-45.4094,112,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.56818368383428,934.302644961098,0.387331966420811,-5.88799747416114,8.0554151663371,1101.2217022609
6114,12863,8971,"EMPDv2","Narsarsuaq","Schofield_a2",61.158,-45.4094,128,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.57693981971253,920.600083166239,0.31489014852485,-5.93522303374604,7.9903173051353,1102.92612714904
6114,12864,8972,"EMPDv2","Narsarsuaq","Schofield_a3",61.1582,-45.4094,123,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5741485920774,924.89478528711,0.337571319561774,-5.92045914587599,8.01074320367223,1102.36706352726
6114,12865,8973,"EMPDv2","Narsarsuaq","Schofield_a4",61.1582,-45.4094,131,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.57855360436105,918.048081623664,0.301333574430628,-5.94407438731133,7.97816212905558,1103.22945225455
6114,12866,8974,"EMPDv2","Narsarsuaq","Schofield_a5",61.1584,-45.4096,129,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.57734970575848,919.765927327152,0.310431152835632,-5.93818840651406,7.98638628301161,1102.96630698963
6114,12867,8975,"EMPDv2","Narsarsuaq","Schofield_a6",61.1586,-45.4098,139,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.58276399109758,911.299606093103,0.26517120028298,-5.96772577737281,7.94573780849609,1103.99701512992
6114,12868,8976,"EMPDv2","Narsarsuaq","Schofield_a7",61.1588,-45.4098,158,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.59324077483615,895.233056668216,0.179136411575977,-6.02380905423752,7.86841713454161,1106.02588728547
6114,12869,8977,"EMPDv2","Narsarsuaq","Schofield_a8",61.1592,-45.4099,158,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.59313255507546,895.253375986676,0.179202140891391,-6.02381257370468,7.86854770811106,1105.97261163887
6114,12870,8978,"EMPDv2","Narsarsuaq","Schofield_a9",61.1596,-45.4101,181,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.60578707848907,876.027201269187,0.0750806222364849,-6.0917244552466,7.77500783394488,1108.386806447
6115,12871,21562,"SMPDSv1","Naruskajarvi","Seppa_b8",67.42,29.25,311,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.31384058416429,1422.98399804471,-1.10770401984077,-14.7869477424954,13.5419292572391,527.567586270324
6116,12872,8240,"EMPDv2","Narva_Ustje","Mikishin-Gvozdeva_b71",42.9977777777778,131.485277777778,0,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.937228731009629,3220.08390658361,6.1837664892665,-11.6486465353193,21.6195398659983,748.181131531881
6117,12873,11809,"Neotoma","Nary Draw Fen","LMSJ21",37.5353049999999,-107.816835,2484,"not known","terrestrial, bog/fen/swamp","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.39270431750249,2494.39881037835,5.17120260096285,-7.53157146997702,17.6798622241047,454.848020329689
6118,12874,14373,"Neotoma","Naskak","NASKAK",63.6410116666666,-171.454009999999,1,"not known","terrestrial, bog/fen/swamp","excavation","-41","Lozhkin, A.V., P. Anderson, W.R. Eisner, and T.B. Solomatkina. 2011. Late glacial and holocene landscapes of central Beringia. Quaternary Research 76:383-392.",,31,"tundra",1.65264946806313,817.586356833356,-3.85871011388217,-15.8328770615791,8.25790816390839,569.451222697519
6119,12875,7099,"EMPDv2","Nataloup","EPDcoretop_E2013",47.23,4.04,515,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.02759480837532,3458.6420509807,9.47573164652247,1.1885063498925,18.1789650021737,877.976449127033
6120,12876,1179,"Australian pollen","Native Companion Lagoon","Native Companion Lagoon_NCL",-27.68,153.41,20,"small (0.01-1 km2)","coastal, lagoon","core top","-58","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",1.00175695596268,7312.49398509206,20.0342300961426,14.6761130639198,24.3254639303564,1469.67737051465
6121,12877,11987,"Neotoma","Native Lake","SM-NTV",39.225235,-106.45926,3403,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.578947573183663,976.552486828866,-2.2365925503469,-13.6181599073242,9.3713120909977,532.778352054433
6122,12878,24412,"Neotoma","Nativo do Flamengo","FLAMENGO_3",-19.1635,-39.9395277777778,25,"not known","terrestrial","core","-60","Buso Jr, A.A., L.C.R. Pessenda, F.E. Mayle, F.L. Lorente, C. Volkmer-Ribeiro, J.A. Schiavo, M.G. Pereira, J.A. Bendassolli, K.C.D. Macario, and G.S. Siqueira. 2019. Paleovegetation and paleoclimate dynamics during the last 7000 years in the Atlantic forest of Southeastern Brazil based on palynology of a waterlogged sandy soil. Review of Palaeobotany and Palynology 264:1-10.","10.1016/j.revpalbo.2019.02.002",18,"tropical savanna",0.856226846980236,9006.01503492676,24.6740137943199,22.120873125222,27.1252273762583,1194.30216559309
6122,12879,24413,"Neotoma","Nativo do Flamengo","FLAMENGO_4",-19.1635,-39.9395277777778,25,"not known","terrestrial","core","-24","Buso Jr, A.A., L.C.R. Pessenda, F.E. Mayle, F.L. Lorente, C. Volkmer-Ribeiro, J.A. Schiavo, M.G. Pereira, J.A. Bendassolli, K.C.D. Macario, and G.S. Siqueira. 2019. Paleovegetation and paleoclimate dynamics during the last 7000 years in the Atlantic forest of Southeastern Brazil based on palynology of a waterlogged sandy soil. Review of Palaeobotany and Palynology 264:1-10.","10.1016/j.revpalbo.2019.02.002",18,"tropical savanna",0.856226846980236,9006.01503492676,24.6740137943199,22.120873125222,27.1252273762583,1194.30216559309
6123,12880,21563,"SMPDSv1","natural reserve area near Moscow","Severova_a1",55.6833333333333,36.75,210,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6123,12881,21564,"SMPDSv1","natural reserve area near Moscow","Severova_a2",55.6833333333333,36.75,210,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6123,12882,21565,"SMPDSv1","natural reserve area near Moscow","Severova_a3",55.6833333333333,36.75,210,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6123,12883,21566,"SMPDSv1","natural reserve area near Moscow","Severova_a4",55.6833333333333,36.75,210,"not applicable","terrestrial","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6123,12884,21567,"SMPDSv1","natural reserve area near Moscow","Severova_a5",55.6833333333333,36.75,210,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6123,12885,21568,"SMPDSv1","natural reserve area near Moscow","Severova_b1",55.6833333333333,36.75,210,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.990158793811214,2660.33147458836,4.94156585675349,-9.64417296173451,18.0444243327482,670.678680202261
6124,12886,21569,"SMPDSv1","Naumanjarvi","Seppa_b17",66.2,28.22,264,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29731397098182,1513.24106721297,-0.72204438164496,-14.7961539633833,14.0165733281648,545.072017418914
6125,12887,8722,"EMPDv2","Nautgardsbreen","Pardoe_c192",61.39,8.37,1800,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34527399170933,816.16904545676,-2.20130349619261,-12.1830710887836,7.90884324428451,665.809233494285
6125,12888,8723,"EMPDv2","Nautgardsbreen","Pardoe_c193",61.37,8.44,1680,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.44658252368135,873.992259551464,-1.7960331398173,-11.727469626017,8.25838389143367,714.033945679758
6125,12889,8724,"EMPDv2","Nautgardsbreen","Pardoe_c194",61.37,8.44,1600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.49201532249561,919.877662705982,-1.50425160342749,-11.4353716709715,8.53517889289701,736.813072633749
6125,12890,8725,"EMPDv2","Nautgardsbreen","Pardoe_c195",61.37,8.44,1550,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.52041060732636,948.998905544196,-1.32188814318386,-11.2528104490682,8.7081757688116,751.050026979993
6125,12891,8726,"EMPDv2","Nautgardsbreen","Pardoe_c196",61.37,8.44,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.54880689380683,978.470053836611,-1.13952468294023,-11.0702492271648,8.88117264472619,765.286981326237
6125,12892,8727,"EMPDv2","Nautgardsbreen","Pardoe_c197",61.37,8.44,1480,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56016568035182,990.339480195571,-1.06657929884278,-10.9972247384034,8.95037139509203,770.981763064734
6126,12893,10403,"IBERIA","Navamuno","Navamuno_S3_0.12",40.3213,-5.7786,1505,"not known","terrestrial, bog/fen/swamp","core","-28","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.398896735343461,2698.25784873063,7.30121329133995,-0.714888667404539,16.8701606971329,478.983215075154
6126,12894,10404,"IBERIA","Navamuno","Navamuno_S3_0.22",40.3213,-5.7786,1505,"not known","terrestrial, bog/fen/swamp","core","8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.398896735343461,2698.25784873063,7.30121329133995,-0.714888667404539,16.8701606971329,478.983215075154
6127,12895,21570,"SMPDSv1","Navnso","Odgaard_a13",56.882447,9.447989,50,"0.2","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30041697498854,2735.26208269771,7.36146047779703,-0.859986918563089,15.583704272139,811.801554361473
6128,12896,6160,"EMPDv2","near Aguelman Azigza N Park","AlbaSanchez_a88",32.885662,-5.257908,1743,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.33675065299166,4920.8494652711,13.4817793569071,4.71224822450274,24.4125661559925,482.519343436221
6129,12897,6154,"EMPDv2","near Aguelman Azigza N Park, Khenifra","AlbaSanchez_a82",32.943043,-5.435338,1677,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339251370321948,4988.58645289516,13.6673601449182,5.01564039639688,24.4097262787812,484.786112794397
6129,12898,6155,"EMPDv2","near Aguelman Azigza N Park, Khenifra","AlbaSanchez_a83",32.936991,-5.496605,1531,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339892176620915,5150.40657383239,14.1107029420065,5.68211947314624,24.4942439347736,484.440141852558
6129,12899,6156,"EMPDv2","near Aguelman Azigza N Park, Khenifra","AlbaSanchez_a84",32.942474,-5.477006,1503,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.33989937805688,5181.38903720295,14.1955864032957,5.80840221337574,24.5155846184347,484.204302250689
6130,12900,21571,"SMPDSv1","Near Duruelo De LaSierra 1","Barboni_a770",42,-2.83,2050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.0513891602675164,2899.30241140091,7.62322913895184,-1.62309534078417,20.2502559133247,71.2210093323728
6131,12901,21572,"SMPDSv1","Near Duruelo De LaSierra 2","Barboni_a771",42.01,-2.83,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.0699015522788353,2927.8363231916,7.75254718107143,-1.41973860047916,20.2180820188523,95.9000549723287
6132,12902,21573,"SMPDSv1","Near Duruelo De LaSierra 3","Barboni_a772",42.01,-2.82,1950,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.0900197856096275,2956.96168293399,7.88262669615332,-1.20662521394612,20.1791135794558,122.201113693256
6133,12903,21574,"SMPDSv1","Near Duruelo De LaSierra 4","Barboni_a773",42.02,-2.81,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.109680851732993,2986.51503927528,8.00912904260283,-1.00269216041943,20.1401889932478,147.325106699595
6134,12904,21575,"SMPDSv1","Near Duruelo De LaSierra 5","Barboni_a774",42.02,-2.8,1850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.130671078374544,3018.2198910934,8.13974862754771,-0.789502891816957,20.1024545782219,173.653614302197
6135,12905,21576,"SMPDSv1","Near Duruelo De LaSierra 6","Barboni_a775",42.03,-2.79,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.151335934284324,3050.60127326121,8.26679659667084,-0.58484851797202,20.0642031907125,198.971106525447
6136,12906,21577,"SMPDSv1","Near Duruelo De LaSierra 7","Barboni_a776",42.03,-2.78,1750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.17324071602848,3085.73284678083,8.39797541949986,-0.371560309720793,20.0277145558555,225.32450658966
6137,12907,6516,"EMPDv2","near Labaz Lake10","Binney2017_E2973",72.52,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01250952313508,803.994328283138,-14.1793376326291,-35.2812577056712,11.8373765010085,265.032323826503
6138,12908,6517,"EMPDv2","near Labaz Lake11","Binney2017_E2974",72.5,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01220373209824,804.378062479785,-14.1755254493244,-35.2781724134562,11.8413931869368,265.06627042479
6139,12909,6518,"EMPDv2","near Labaz Lake12","Binney2017_E2975",72.5,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01220373209824,804.378062479785,-14.1755254493244,-35.2781724134562,11.8413931869368,265.06627042479
6140,12910,6519,"EMPDv2","near Labaz Lake13","Binney2017_E2976",72.5,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01220373209824,804.378062479785,-14.1755254493244,-35.2781724134562,11.8413931869368,265.06627042479
6141,12911,6520,"EMPDv2","near Labaz Lake14","Binney2017_E2977",72.5,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01220373209824,804.378062479785,-14.1755254493244,-35.2781724134562,11.8413931869368,265.06627042479
6142,12912,6521,"EMPDv2","near Labaz Lake15","Binney2017_E2978",72.5,99.83,100,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01220373209824,804.378062479785,-14.1755254493244,-35.2781724134562,11.8413931869368,265.06627042479
6143,12913,6522,"EMPDv2","near Levinson-Lessing Lake1","Binney2017_E2979",74.58,98.83,350,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.1861083212232,505.315865422179,-17.0838255135732,-37.6970159696906,8.61450914373214,265.246855344327
6144,12914,6523,"EMPDv2","near Levinson-Lessing Lake2","Binney2017_E2980",74.58,98.83,65,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04922878844832,741.833538297791,-14.7918345123611,-35.8325675967309,11.184424350875,258.039994462315
6145,12915,6524,"EMPDv2","near Levinson-Lessing Lake3","Binney2017_E2981",74.58,98.83,50,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04259882825061,755.113014069104,-14.6712034070342,-35.7344387349962,11.3196830459878,257.66068599484
6146,12916,6525,"EMPDv2","near Levinson-Lessing Lake4","Binney2017_E2982",74.58,98.83,70,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.05145104922342,737.448355525204,-14.8320448808034,-35.8652772173091,11.1393381191708,258.166430618139
6147,12917,6526,"EMPDv2","near Levinson-Lessing Lake5","Binney2017_E2983",74.58,98.83,50,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04259882825061,755.113014069104,-14.6712034070342,-35.7344387349962,11.3196830459878,257.66068599484
6148,12918,6527,"EMPDv2","near Levinson-Lessing Lake6","Binney2017_E2984",74.58,98.83,50,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04259882825061,755.113014069104,-14.6712034070342,-35.7344387349962,11.3196830459878,257.66068599484
6149,12919,6528,"EMPDv2","near Levinson-Lessing Lake7","Binney2017_E2985",74.58,98.83,60,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04701281006795,746.253159056116,-14.7516241439188,-35.7998579761526,11.2295105825793,257.91355830649
6150,12920,6529,"EMPDv2","near Levinson-Lessing Lake8","Binney2017_E2986",74.58,98.83,50,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04259882825061,755.113014069104,-14.6712034070342,-35.7344387349962,11.3196830459878,257.66068599484
6151,12921,6530,"EMPDv2","near Levinson-Lessing Lake9","Binney2017_E2987",74.58,98.83,60,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.04701281006795,746.253159056116,-14.7516241439188,-35.7998579761526,11.2295105825793,257.91355830649
6152,12922,23188,"SMPDSv1","near Litlvatnet","Bjune_a34",64.93345778,11.56644607,74,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.41768799870132,1887.79325294706,4.71376339898658,-2.29068604017015,12.6817254351861,1481.96551973473
6153,12923,21578,"SMPDSv1","Near Rio Iregua 1","Barboni_a777",42.04,-2.78,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.194800327775575,3123.03234886897,8.52807891382046,-0.165482604030068,19.9949264583806,250.675677353687
6154,12924,21579,"SMPDSv1","Near Rio Iregua 2","Barboni_a778",42.04,-2.77,1650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.217672921893504,3163.34764503293,8.65970181287623,0.0479875659169957,19.9593244759153,277.065513852237
6155,12925,21580,"SMPDSv1","Near Rio Iregua 3","Barboni_a779",42.05,-2.76,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.24050766410222,3207.55698154561,8.78782734670031,0.254271801943444,19.9221431198422,302.768362337928
6156,12926,21581,"SMPDSv1","Near Rio Iregua 4","Barboni_a780",42.06,-2.76,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338405729471862,3402.29664342575,9.32136066691986,1.106436592467,19.7960289195014,407.616447906395
6157,12927,3899,"CMPD","NECT","NECT 01",41.8054,118.472,932,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44275463299311,2915.68134102867,4.59501937699997,-13.2360510712068,20.2511863660132,432.455534766837
6157,12928,3900,"CMPD","NECT","NECT 02",42.8751,118.483,1024,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.401275692098812,2783.84021937828,3.66159890828553,-14.6625190236527,19.9973377375808,389.499873735856
6157,12929,3901,"CMPD","NECT","NECT 03",43.6429,119.021,781,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.388142436605947,3009.36059448622,4.4967178019814,-14.1065455665068,21.2340529823176,377.837489678608
6157,12930,3902,"CMPD","NECT","NECT 04",43.0219,129.775,136,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.76905215396347,3057.99504003296,4.99670879462459,-13.7798815964653,20.8857782007257,625.862053493901
6157,12931,3903,"CMPD","NECT","NECT 05",42.9837,130.081,114,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.788308250828655,3092.66857956161,5.24495389577619,-13.3397306782889,21.0416135389911,642.129590263914
6157,12932,3904,"CMPD","NECT","NECT 06",43.2962,131.148,289,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.868656455083049,2848.58070102997,4.09825487910298,-14.6158865415052,19.9858911790369,681.78286568947
6157,12933,3905,"CMPD","NECT","NECT 07",43.1176,130.998,244,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.882302919175283,2922.64415101321,4.5667859011397,-13.8928694680045,20.3233895041837,698.860493744411
6157,12934,3906,"CMPD","NECT","NECT 08",43.3853,129.67,224,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.774655830233821,2950.00445209591,4.24500232607152,-15.079494385450401,20.3806478731848,622.142445697895
6157,12935,3907,"CMPD","NECT","NECT 09",43.2495,128.643,601,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.829182980634393,2667.37906173528,2.48757465819969,-17.8903805136264,19.5697181870039,672.442314284401
6157,12936,3908,"CMPD","NECT","NECT 10",43.7346,127.033,390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.742804430353753,3060.22600639204,3.80594073443704,-17.988743784612,21.7481485933537,638.210891730193
6157,12937,3909,"CMPD","NECT","NECT 11",43.8086,125.683,252,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.673059188133394,3318.6390421147,5.01210185733668,-16.616113885439,22.9268571932812,599.646772538827
6157,12938,3910,"CMPD","NECT","NECT 12",44.5934,123.506,146,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.503875676391149,3473.84954726858,5.80997523632307,-15.0947329048023,23.6893435320382,459.162689419775
6157,12939,3911,"CMPD","NECT","NECT 13",44.4328,123.269,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.502822792316324,3484.28321290387,5.89610008956727,-14.9076053087366,23.7011191993484,460.545573748915
6157,12940,3912,"CMPD","NECT","NECT 14",43.5958,121.843,203,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.477502080655909,3503.03098072123,6.41668995565763,-13.2197407504673,23.4605483836325,452.607487441978
6157,12941,3913,"CMPD","NECT","NECT 15",44.1218,121.766,202,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.454935253165619,3481.22946583795,6.21182260466005,-13.6295470259954,23.4945934077659,428.037523196565
6157,12942,3914,"CMPD","NECT","NECT 16",44.3873,120.549,448,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.40530612520792,3235.53318876752,5.22957268925649,-14.0676844689766,22.4539953697099,386.094641914789
6157,12943,3915,"CMPD","NECT","NECT 17",44.2157,120.37,372,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.408073554936712,3399.69526376589,6.09505401196081,-12.9448514545298,23.0609397110229,393.159969999466
6157,12944,3916,"CMPD","NECT","NECT 18",43.884,119.382,601,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.388428455311413,3202.12200169989,5.29199876718353,-13.4720076444676,22.1684633210578,378.993043545824
6157,12945,3917,"CMPD","NECT","NECT 19",43.7565,119.12,729,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.382852275780491,3036.40305187269,4.52031348184029,-14.2618299734012,21.4391164319445,372.626047685263
6157,12946,3918,"CMPD","NECT","NECT 20",43.3372,118.494,707,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.383192006789613,3145.00315219213,5.19067381226326,-13.257501027939,21.7923573056874,378.177189579502
6157,12947,3919,"CMPD","NECT","NECT 21",43.1903,117.762,889,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.388174055100295,2924.93614258959,4.2499157389314,-14.1575171409737,20.7186442644699,379.471644586291
6157,12948,3920,"CMPD","NECT","NECT 22",43.2237,117.236,1259,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.369862568683717,2514.51600228218,1.99444160766128,-17.2795338170008,18.9279781022725,356.168144751928
6157,12949,3921,"CMPD","NECT","NECT 23",43.3891,116.886,1267,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.352353447701374,2498.94371535485,1.70430343276496,-17.9985957028082,18.9873165230456,340.298548200412
6157,12950,3922,"CMPD","NECT","NECT 24",43.5539,116.676,1261,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.336638346802863,2519.30228747338,1.64426575823965,-18.4208549508178,19.1750784397812,326.87169321401
6157,12951,3923,"CMPD","NECT","NECT 25",43.6948,116.635,1211,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.323820076714748,2538.20792671594,1.57393437586814,-18.7878726156335,19.3771925234905,315.185610836344
6157,12952,3924,"CMPD","NECT","NECT 26",43.9111,116.312,1199,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.314422616749476,2531.97784431213,1.41249327708308,-19.1930510285839,19.4266294241508,306.046798281469
6157,12953,3925,"CMPD","NECT","NECT 27",43.8995,115.321,1196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.272581646686901,2640.29965385213,1.66702198658551,-19.5857562603032,20.0724420157392,273.212318692984
6157,12954,3926,"CMPD","NECT","NECT 28",43.9367,114.612,1123,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.233055803383716,2800.37746397162,2.34316447685065,-19.1192467393303,20.9047041665611,241.014047939093
6157,12955,3927,"CMPD","NECT","NECT 29",43.8331,113.83,1166,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214467780649886,2784.81955462958,2.18692871990964,-19.3883629146625,20.8795013300303,225.05638315698
6157,12956,3928,"CMPD","NECT","NECT 30",43.802,113.358,1017,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.190952487831168,3014.21249589487,3.53174228598221,-17.5982137236526,21.8800739271573,205.828597967981
6157,12957,3929,"CMPD","NECT","NECT 31",43.7231,112.589,974,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.159364035826399,3049.24926609488,3.54927091603779,-17.9203504307888,22.1788545596498,175.646784638883
6157,12958,3930,"CMPD","NECT","NECT 32",43.6322,112.167,999,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.154041954840135,3057.85670684414,3.62973814168535,-17.7401138452067,22.2115236725033,170.913356321608
6157,12959,3931,"CMPD","NECT","NECT 33",43.6628,111.916,1005,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152424153221289,3062.87594921345,3.66006438594595,-17.6902113965497,22.2339531921404,169.347670550135
6157,12960,3932,"CMPD","NECT","NECT 34",43.8331,113.83,1166,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214467780649886,2784.81955462958,2.18692871990964,-19.3883629146625,20.8795013300303,225.05638315698
6158,12961,21582,"SMPDSv1","Nedre Bakkebergtjonn","Bjune_a284",61.66,8.14666666666666,994,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.17740221049486,1283.4307525034,0.9171230474616,-8.42453432632407,10.4347578922472,1056.89859910507
6159,12962,21583,"SMPDSv1","Neheivatn","Bjune_a143",58.4369445,6.48710976,407,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.89133227375076,2116.69100929525,5.33679559349559,-2.51749542033119,13.3832772385184,1631.79049215131
6160,12963,21584,"SMPDSv1","Neittamojarvi","Seppa_b81",61.08,22.02,66,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03287952147357,2226.25714358194,4.26748361157485,-7.04460090441723,16.0261477094681,561.261370621996
6161,12964,14363,"Neotoma","NEL03","NEL03",49.4964049999999,-116.905,2074,"not known","lake","core","-49","Courtney Mustaphi, C.J., and M.F.J. Pisaric. 2014. Holocene climate–fire–vegetation interactions at a subalpine watershed in southeastern British Columbia, Canada. Quaternary Research 81:228-239.",,8,"cool evergreen needleleaf forest",1.91376524901385,1062.82282509396,-1.14358956986178,-11.6341158913298,9.79618626606523,1310.78629852431
6161,12964,14364,"Neotoma","NEL03","NEL03",49.4964049999999,-116.905,2074,"not known","lake","core","-1","Courtney Mustaphi, C.J., and M.F.J. Pisaric. 2014. Holocene climate–fire–vegetation interactions at a subalpine watershed in southeastern British Columbia, Canada. Quaternary Research 81:228-239.",,8,"cool evergreen needleleaf forest",1.91376524901385,1062.82282509396,-1.14358956986178,-11.6341158913298,9.79618626606523,1310.78629852431
6162,12965,21585,"SMPDSv1","Nellim","FIN/SPH/N7",68.863175,28.3664888888889,121,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30569602584819,1292.35481173624,-1.18934416097178,-13.4836783117954,12.7589516229918,467.638119762723
6163,12966,12984,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-33","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12985,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-28","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12986,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-21","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12987,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12988,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-9","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12989,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","-4","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12990,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","3","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12991,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","12","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12992,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","16","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12993,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","27","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12994,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","34","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12995,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","39","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6163,12966,12996,"Neotoma","Nels Lake","NELSLK",48.024,-91.89195,428,"not known","lake","core","44","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",0.992053252296654,2462.45693235442,2.63736939864645,-15.8441797741689,18.1929718581171,731.901157119859
6164,12967,13834,"Neotoma","Nelson Lake","NELSONMI",46.2287,-85.380295,251,"not known","lake","core","-46","Delcourt, P.A., P.L. Nester, H.R. Delcourt, C.I. Mora, and K.H. Orvis. 2002. Holocene lake-effect precipitation in northern Michigan. Quaternary Research 57:225-233.",,9,"cool mixed forest",1.12762853829382,2708.62237795111,4.89068852885876,-10.2617134587365,18.5206261796402,863.693378944734
6165,12968,11094,"Bush et al., 2020","Nelson.1","Nelson.1",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6166,12969,11095,"Bush et al., 2020","Nelson.2","Nelson.2",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6167,12970,11096,"Bush et al., 2020","Nelson.3","Nelson.3",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6168,12971,11097,"Bush et al., 2020","Nelson.4","Nelson.4",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6169,12972,11098,"Bush et al., 2020","Nelson.5","Nelson.5",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6170,12973,11099,"Bush et al., 2020","Nelson.6","Nelson.6",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6171,12974,11100,"Bush et al., 2020","Nelson.8","Nelson.8",8.681429,-82.225041,1024,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.92497249337252,7701.42332186509,21.0997899229181,20.1995892138521,21.9130467732818,3207.02857677051
6172,12975,10614,"BIOME6000 Japan","Nembutsugahara","D6003",38.516667,140.1,1100,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.9817643809278,2794.2632432257,6.16668477246586,-6.38467928363021,19.4551346897155,1513.61935579498
6173,12976,10612,"BIOME6000 Japan","Nenoshiroishi","D4003",38.35,140.8,270,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.72911041644194,3806.19518664916,10.2012721882695,-1.49816664866845,23.1179321125374,1454.95562987018
6174,12977,21586,"SMPDSv1","Neristjern","Bjune_a86",58.84478672,8.44897132,564,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84789423657661,1839.42871338459,3.45043215964351,-6.2228838323575,13.1406193866329,1053.7847509182
6175,12978,21587,"SMPDSv1","Nero lake","Nero lake_SS",57.1833,39.4514,95,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.902636236210877,2536.28619588053,4.00236140915392,-11.7138919367169,18.2502413393662,577.483109906468
6176,12979,8197,"EMPDv2","Nesterovka","Mikishin-Gvozdeva_b28",44.3633333333333,131.626666666667,120,"not known","fluvial","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.83882506058504,3031.61532828593,4.50580114328748,-15.1279265022077,20.7724831757171,645.896366583709
6177,12980,8198,"EMPDv2","Nesterovka_2","Mikishin-Gvozdeva_b29",44.3616666666667,131.649722222222,120,"not known","fluvial","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.839360941013706,3031.34189310443,4.50593110643054,-15.1256143185798,20.7717868073057,646.258745343861
6178,12981,8190,"EMPDv2","Nesterovka_Staritsa","Mikishin-Gvozdeva_b21",44.3677777777778,131.625277777778,120,"0.006","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838654480729383,3031.81967368919,4.50495118944119,-15.1323054072825,20.7730886478712,645.739385382302
6179,12982,7427,"EMPDv2","Nesvatn","Hjelle_a16",60.1654444,5.9374817,31,"0.069","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.35716336859195,2696.45508462629,7.38754817705834,1.08465067074288,14.2694408817666,2302.80581965767
6180,12983,21588,"SMPDSv1","Netlandsstemmen","Bjune_a144",58.4224717,7.23480793,329,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73912062784399,2204.41899457346,5.538045625924,-2.69393657258251,13.8804837107342,1579.76948704642
6181,12984,21589,"SMPDSv1","NEV1","Barboni_a491",37.05,-3.317222,3085,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.472589753979388,2095.85309756986,3.89521487973697,-6.03324543678163,18.6190472571777,561.061367911852
6182,12985,21590,"SMPDSv1","NEV2","Barboni_a492",37.067222,-3.317222,3025,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.468413294346134,2142.51180609841,4.18304774139312,-5.67319214353421,18.7571971802875,557.463692669454
6183,12986,21591,"SMPDSv1","NEV3","Barboni_a493",37.067222,-3.317222,2860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459405842767746,2281.96624528857,4.9704030062871,-4.72255324471815,19.1870330843427,550.854859601114
6184,12987,21592,"SMPDSv1","NEV4","Barboni_a494",37.067222,-3.317222,2820,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.457249236756314,2317.6915629503,5.16127700989777,-4.49209532985366,19.29123572775,549.252718251213
6185,12988,21593,"SMPDSv1","NEV5","Barboni_a495",37.068889,-3.367222,2790,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.449435308601802,2348.07345602861,5.33418121898753,-4.25802993513466,19.360886460807,540.74115657658
6186,12989,21594,"SMPDSv1","NEV6","Barboni_a496",37.1,-3.4,2390,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.426157478385787,2777.20074653617,7.25451292474017,-1.92083241479927,20.3850941099846,521.55003115137
6187,12990,21595,"SMPDSv1","NEV7","Barboni_a497",37.118889,-3.318889,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384333920414524,4443.35637205744,12.1735791015272,3.97518695327193,23.1191619633533,489.673227199593
6188,12991,21596,"SMPDSv1","NEV8","Barboni_a498",37.117222,-3.318889,1420,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387448283016509,4321.58498809542,11.8399588714943,3.57384523361284,22.9347658441188,492.373837789272
6189,12992,21597,"SMPDSv1","NEV9","Barboni_a499",37.118889,-3.35,1405,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38617445117244,4349.92586485689,11.917605109197,3.66929907846621,22.9763742673245,491.089518423667
6190,12993,21598,"SMPDSv1","NEVA","Barboni_a500",37.118889,-3.35,1360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384278272763189,4428.07949288131,12.131724638031,3.92640543186311,23.0952066289108,489.491855335851
6191,12994,21599,"SMPDSv1","Nevalahdenjarvet","Seppa_b3",68.82,26.82,177,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08736959844386,1403.33462490106,-1.30789488844708,-14.969118674312,13.5708964187227,407.476599970172
6192,12995,21600,"SMPDSv1","NEVB","Barboni_a501",37.118889,-3.367222,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.382371083697502,4498.66417310194,12.3251073235669,4.15923421839476,23.2023381424587,487.81783059207
6193,12996,7967,"EMPDv2","Nevelskoy_1","Mikishin-Gvozdeva_a27",52.1697222222222,141.629444444444,-10,"not applicable","marine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6194,12997,8048,"EMPDv2","Nevelskoy_2","Mikishin-Gvozdeva_a110",52.0908333333333,141.3575,-1,"not known","coastal, other","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15449304792417,1924.6410583246,-0.796591703070238,-19.9606538993447,15.720689306761,628.57338740826
6195,12998,8051,"EMPDv2","Nevelskoy_3","Mikishin-Gvozdeva_a113",52.2272222222222,141.624722222222,-3,"not known","coastal, other","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16169486427019,1915.39178181634,-0.793361427453383,-19.8520639293566,15.6790515610128,629.424107685617
6196,12999,8066,"EMPDv2","Nevelskoy_4","Mikishin-Gvozdeva_a119",52.19,141.536944444444,-2,"not applicable","marine","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6197,13000,11536,"Neotoma","New Konza Pond","FH-18",38.9483149999999,-96.441615,392,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.755472743578549,4724.16170260905,12.6008851163286,-2.72702474616266,26.4865942445455,843.125394135097
6198,13001,11474,"Neotoma","New Underwood Dam","SDPNNU",44.107485,-102.841905,888,"not known","lake","surface sample","-54","Unpublished data",,22,"steppe",0.417133668417625,3486.77712892311,8.29258875543497,-6.3351658315029,22.9959823653569,409.567285795896
6199,13002,1180,"Australian pollen","Newall Creek","Newall Creek",-42.15,145.5167,140,"not applicable","terrestrial","sediment sample","assumed modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.48683408572669,4118.53110490436,11.2836468627517,7.50473791130412,15.4451864261813,1346.64705128025
6200,13003,14603,"Neotoma","Newark Valley Pond","NEWARKVP",39.67283,-115.77398,1750,"3.8e-05","lake","core","-51","Mensing, S., J. Smith, K.B. Norman, and M. Allan. 2008. Extended drought in the Great Basin of western North America in the last two millennia reconstructed from pollen records. Quaternary International 188(1):79-89. Mensing, S., S. Livingston, and P. Barker. 2006. Long-term fire history in Great Basin sagebrush reconstructed from macroscopic charcoal in spring sediments, Newark Valley Nevada. Western North American Naturalist 66(1):64-77.","10.1016/j.quaint.2007.06.009;
10.3398/1527-0904(2006)66[64:LFHIGB]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.24093261836472,3262.42268422354,8.52029259055753,-2.60440417151547,21.4866109509858,283.352064055311
6200,13003,14604,"Neotoma","Newark Valley Pond","NEWARKVP",39.67283,-115.77398,1750,"3.8e-05","lake","core","2","Mensing, S., J. Smith, K.B. Norman, and M. Allan. 2008. Extended drought in the Great Basin of western North America in the last two millennia reconstructed from pollen records. Quaternary International 188(1):79-89. Mensing, S., S. Livingston, and P. Barker. 2006. Long-term fire history in Great Basin sagebrush reconstructed from macroscopic charcoal in spring sediments, Newark Valley Nevada. Western North American Naturalist 66(1):64-77.","10.1016/j.quaint.2007.06.009;
10.3398/1527-0904(2006)66[64:LFHIGB]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.24093261836472,3262.42268422354,8.52029259055753,-2.60440417151547,21.4866109509858,283.352064055311
6201,13004,11585,"Neotoma","Newell Lake","NEW-1C",44.84181,-103.393914999999,846,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.422095715423839,3353.96187706986,7.60610731700261,-7.58533725129208,22.5671657681973,400.572588810881
6201,13005,11586,"Neotoma","Newell Lake","NEW-1M",44.84181,-103.393914999999,846,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.422095715423839,3353.96187706986,7.60610731700261,-7.58533725129208,22.5671657681973,400.572588810881
6202,13006,1181,"Australian pollen","Newnes Swamp","N1",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13007,1182,"Australian pollen","Newnes Swamp","N10",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13008,1183,"Australian pollen","Newnes Swamp","N11",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13009,1184,"Australian pollen","Newnes Swamp","N2",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13010,1185,"Australian pollen","Newnes Swamp","N3",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13011,1186,"Australian pollen","Newnes Swamp","N4",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13012,1187,"Australian pollen","Newnes Swamp","N5",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13013,1188,"Australian pollen","Newnes Swamp","N6",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13014,1189,"Australian pollen","Newnes Swamp","N7",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13015,1190,"Australian pollen","Newnes Swamp","N8",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13016,1191,"Australian pollen","Newnes Swamp","N9",-33.73,150.4,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.511450317634354,4029.15050068461,11.0387684950263,3.10317310187656,18.918016450134,694.779905312755
6202,13017,1192,"Australian pollen","Newnes Swamp","Newnes Swamp_JC91",-33.38,150.22,1060,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.496993472259635,4077.1878166558,11.1703775798789,3.14762568537695,19.2016770559809,683.213779494217
6203,13018,3933,"CMPD","Niangziguan","Niangziguan",37.96,113.83,500,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.473449879319855,4315.49956678531,11.0263163626916,-4.77457255345813,24.5185597452085,526.214835229844
6204,13019,3934,"CMPD","Nianqing","Nianqing 1",30.54,91.4,4440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513902176318855,1512.98633308937,1.77500092282102,-8.5919212939395,10.8458931880861,603.640266685899
6204,13020,3935,"CMPD","Nianqing","Nianqing 2",30.56,91.12,4443,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.509644047763517,1519.89282232416,1.78555303393322,-8.62382868679634,10.8965438167392,599.604932109469
6204,13021,3936,"CMPD","Nianqing","Nianqing 3",30.59,91.11,4463,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.505667855227081,1493.91748415784,1.63968681327024,-8.79787464636056,10.7895760733948,593.414005634869
6204,13022,3937,"CMPD","Nianqing","Nianqing 4",30.61,91.11,4625,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.490826210572255,1312.41411750015,0.655469112139468,-9.84245955527269,9.96417460958408,567.085625957726
6204,13023,3938,"CMPD","Nianqing","Nianqing 5",30.62,91.11,4870,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.469676199278437,1062.2601813922,-0.811774321894424,-11.3832727611921,8.72074463874191,529.800548368326
6204,13024,3939,"CMPD","Nianqing","Nianqing 6",30.67,91.09,5000,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.457808498037907,937.707907393691,-1.60996666712399,-12.2265469052235,8.04987876322142,509.161679519048
6204,13025,3940,"CMPD","Nianqing","Nianqing 7",30.68,91.1,5152,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.444820006346574,804.695185802771,-2.51305542801039,-13.1669887009516,7.27765094806147,486.953615010306
6205,13026,11917,"Neotoma","Nichicun Lake Site 1","NICHICUN1A",53.19288,-70.87688,532,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64577347459738,1298.6474002162,-4.46777435777364,-23.6214034532762,12.9883622630536,836.411174669769
6205,13027,11916,"Neotoma","Nichicun Lake Site 1","NICHICUN1B",53.19288,-70.87688,532,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64577347459738,1298.6474002162,-4.46777435777364,-23.6214034532762,12.9883622630536,836.411174669769
6206,13028,11919,"Neotoma","Nichicun Lake Site 2","NICHICUN2A",53.2,-71,527,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64336298546098,1295.05072145732,-4.49418597728893,-23.6500665812377,12.9624694159423,833.891164698608
6206,13029,11918,"Neotoma","Nichicun Lake Site 2","NICHICUN2B",53.2,-71,527,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64336298546098,1295.05072145732,-4.49418597728893,-23.6500665812377,12.9624694159423,833.891164698608
6207,13030,11920,"Neotoma","Nichicun Lake Site 3","NICHICUN3A",53.036945,-71.054375,534,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64854481458366,1302.24405942182,-4.43631045764175,-23.5848022094811,12.9996503683393,841.461107806452
6207,13031,11921,"Neotoma","Nichicun Lake Site 3","NICHICUN3B",53.036945,-71.054375,534,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64854481458366,1302.24405942182,-4.43631045764175,-23.5848022094811,12.9996503683393,841.461107806452
6208,13032,11923,"Neotoma","Nichicun Lake Site 4","NICHICUN4A",53.15211,-71.019975,536,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64967223077041,1300.74121345163,-4.44853368734612,-23.5976457381418,12.9938786276466,840.074288029498
6208,13033,11922,"Neotoma","Nichicun Lake Site 4","NICHICUN4B",53.15211,-71.019975,536,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64967223077041,1300.74121345163,-4.44853368734612,-23.5976457381418,12.9938786276466,840.074288029498
6209,13034,11925,"Neotoma","Nichicun Lake Site 5","NICHICUN5A",53.1833333333333,-70.8333333333333,532,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64543040116599,1299.2045640627,-4.46417896500406,-23.6180586472739,12.993325473035,836.463062409368
6209,13035,11924,"Neotoma","Nichicun Lake Site 5","NICHICUN5B",53.1833333333333,-70.8333333333333,532,"not known","terrestrial, bog/fen/swamp","surface sample","-12","Terasmae, J., and R.J. Mott. 1965. Modern pollen deposition in the Nichicun Lake area, Quebec. Canadian Journal of Botany 43(3):393-404.","10.1139/b65-042",15,"cold evergreen needleleaf forest",1.64543040116599,1299.2045640627,-4.46417896500406,-23.6180586472739,12.993325473035,836.463062409368
6210,13036,14002,"Neotoma","Nichols Meadow","NICHOLSM",37.4235,-119.578499999999,1515,"not known","terrestrial","core","-39","Koehler, P.A., and R.S. Anderson. 1994. The paleoecology and stratigraphy of Nichols Meadow, Sierra National Forest, California, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 112:1-17.",,8,"cool evergreen needleleaf forest",0.484246751601582,3802.91950039408,10.4189575353263,1.9598205521249,20.4662164860309,631.04945427191706
6211,13037,15740,"Neotoma","Nick's Pond","NICK_C90",44.142495,-74.9678199999999,515,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34089307716661,2742.98300764021,5.2586421431854,-9.54266151253625,18.5897540152208,1039.43318276154
6212,13038,21601,"SMPDSv1","Niemijarvi","Seppa_b94",60.77,27.07,68,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0517250080986,2275.58301360818,3.952262684252,-8.86154719616116,16.7338886768779,587.429559954444
6213,13039,3941,"CMPD","Nieniexiongla","Nieniexiongla",28.17,85.95,4850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.911826352568652,593.933300998583,-3.21795114394348,-12.5967496826811,5.9081562803607,949.693120412045
6214,13040,8595,"EMPDv2","Nigardsbreen","Pardoe_c43",61.41,7.12,320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.14662798059276,1968.25389211249,5.00116364274275,-1.95916157117596,12.6584709697591,2011.60803190088
6214,13041,8596,"EMPDv2","Nigardsbreen","Pardoe_c44",61.41,7.12,300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.19421443838274,1988.22932477103,5.08896696594944,-1.82687904962109,12.7081084103078,2032.58286895235
6214,13042,8597,"EMPDv2","Nigardsbreen","Pardoe_c45",61.41,7.12,280,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.24190525926593,2008.49267555051,5.17677028915613,-1.69459652806621,12.7577458508565,2053.55770600382
6214,13043,8598,"EMPDv2","Nigardsbreen","Pardoe_c46",61.41,7.12,280,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.24190525926593,2008.49267555051,5.17677028915613,-1.69459652806621,12.7577458508565,2053.55770600382
6214,13044,8599,"EMPDv2","Nigardsbreen","Pardoe_c47",61.41,7.12,270,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.26579004051613,2018.74416337602,5.22067195075947,-1.62845526728878,12.7825645711309,2064.04512452955
6214,13045,8600,"EMPDv2","Nigardsbreen","Pardoe_c48",61.41,7.12,270,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.26579004051613,2018.74416337602,5.22067195075947,-1.62845526728878,12.7825645711309,2064.04512452955
6214,13046,8601,"EMPDv2","Nigardsbreen","Pardoe_c49",61.41,7.12,260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.28970106333692,2029.07241211571,5.26457361236282,-1.56231400651134,12.8073832914053,2074.53254305529
6214,13047,8602,"EMPDv2","Nigardsbreen","Pardoe_c50",61.41,7.12,260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.28970106333692,2029.07241211571,5.26457361236282,-1.56231400651134,12.8073832914053,2074.53254305529
6214,13048,8603,"EMPDv2","Nigardsbreen","Pardoe_c51",61.41,7.12,260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",4.28970106333692,2029.07241211571,5.26457361236282,-1.56231400651134,12.8073832914053,2074.53254305529
6215,13049,21602,"SMPDSv1","Nigny dubik","Nigny dubik_SS",53.6411,38.7033,173,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.773845704650884,2835.75351186737,5.20910925167235,-10.1241215911809,18.9626708062686,562.287615573819
6216,13050,21603,"SMPDSv1","Nigula","EPDcoretop_E482",58,24.666667,55,"24.5","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03668388781534,2521.57948903117,5.53251135454341,-5.87597452043573,16.6464344108763,639.945702509715
6217,13051,8049,"EMPDv2","Nigyr","Mikishin-Gvozdeva_a111",52.1033333333333,141.305,1,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15448664282175,1924.43606732286,-0.810804343116466,-19.9975362874523,15.7191077655634,628.576827726644
6218,13052,21604,"SMPDSv1","Nihu","Meltsov_a7",57.87755,25.89322,73,"0.055","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02276310009258,2484.03681041245,5.21458397870411,-6.66050520258808,16.6356824933166,629.792474155886
6218,13053,21605,"SMPDSv1","Nihu","Seppa_b119",57.87,25.88,77,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02280641377141,2483.68265240067,5.20794566229505,-6.68490174148065,16.625143687442,630.111937844849
6219,13054,7208,"EMPDv2","Niinsaare","EPDcoretop_E2561",59.25,27.54,46,"0.065","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03407594977046,2413.21906082178,4.69908086461399,-7.81789729279454,16.7612586293019,612.257452339225
6220,13055,6246,"EMPDv2","Nikel Kola Penninsula","Binney2017_E2230",69.45,30.75,185,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.61142042356823,1203.90716299768,-0.700767326220417,-11.1788384815636,11.9142769754059,578.804128341512
6221,13056,7179,"EMPDv2","Nikokolsko-Lutinskoye bog","EPDcoretop_E2333",58.12,31,41,"37.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.982633963144362,2506.07677425174,4.77587736381118,-8.79487053575152,17.2211081847912,599.413297919327
6222,13057,8040,"EMPDv2","Nikolaevsk","Mikishin-Gvozdeva_a102",53.1425,140.673888888889,0,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15756916832023,1937.36232212292,-1.25960479144739,-21.2533276619615,15.801001669061,620.421017817178
6223,13058,7062,"EMPDv2","Nikolay Lake","EPDcoretop_E1795",73.33,124.2,35,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.780080776441272,948.640861592592,-16.3662435827753,-43.975331287503,12.5507888355432,242.758301523596
6224,13059,12997,"Neotoma","Nina Lake","NINA",46.6,-81.5,380,"not known","lake","core","18","Liu, K.-B. 1990. Holocene paleoecology of the boreal forest and Great Lakes-St. Lawrence forest in northern Ontario. Ecological Monographs 60:179-212.",,9,"cool mixed forest",1.11597601458547,2501.8857225067,3.14740898891524,-14.0155625014367,18.3956893412241,848.905391295284
6225,13060,3942,"CMPD","Ningbo","Ningbo 1",29.92,122.33,20,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.24277188367566,5942.5313322231,16.2809077595153,5.15744399669217,27.2978809072247,1377.087832124
6225,13061,3943,"CMPD","Ningbo","Ningbo 2",29.67,121.25,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.23588230475506,5965.91412458443,16.3449702043409,4.88004327583816,27.6613329852718,1364.26284680327
6225,13062,3944,"CMPD","Ningbo","Ningbo 3",29.67,121.25,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.24984436754731,5942.4436138893,16.2806674353131,4.8548510837069,27.5652551454848,1376.55304300103
6225,13063,3945,"CMPD","Ningbo","Ningbo 4",29.67,121.33,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2402977897392,5964.51751861348,16.3411438866123,4.93327741810155,27.5864703160598,1370.21642069854
6226,13064,9150,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a11",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13065,9151,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a12",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13066,9152,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a13",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13067,9153,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a14",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13068,9154,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a15",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13069,9155,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a16",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13070,9156,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a17",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13071,9157,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a18",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13072,9158,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a19",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13073,9159,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a20",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6226,13074,9160,"EMPDv2","Nishneye and Verkhneye Ozero lakes; Juglans forests","Tinner_a21",41.3,72.95,1406.5,"0.01","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.346371552844973,3355.75097128611,7.7033808293765,-7.45906792635961,21.1086028153515,410.711864414401
6227,13075,3946,"CMPD","Niyang River Basin","Niyang River Basin Ny01",29.68,92.23,4931,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.532618295355689,1046.09563828744,-0.490883695455352,-10.3980297520809,8.42236484778561,607.027055724325
6227,13076,3947,"CMPD","Niyang River Basin","Niyang River Basin Ny02",29.68,92.23,4787,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.561703474953042,1177.03075849648,0.324886728164303,-9.45451224240653,9.07183818875945,647.477161119013
6227,13077,3948,"CMPD","Niyang River Basin","Niyang River Basin Ny03",29.82,92.37,4458,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.582783912369636,1491.01079149689,2.07609922571903,-7.47821027220542,10.5171347939599,685.591524383746
6227,13078,3949,"CMPD","Niyang River Basin","Niyang River Basin Ny04",29.9,92.35,4207,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.633562651315134,1791.96901551222,3.61168953518091,-5.63976752665205,11.7000944748973,759.417414806302
6227,13079,3950,"CMPD","Niyang River Basin","Niyang River Basin Ny05",29.87,92.52,3979,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.686853979875012,2086.54622107856,4.9843629335113,-3.89086520844879,12.6861380956212,835.189575779886
6227,13080,3951,"CMPD","Niyang River Basin","Niyang River Basin Ny06",29.87,92.68,3979,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.691338552076462,2078.73830688943,4.97498377276622,-3.83732937944034,12.6357966168742,839.16453103638
6227,13081,3952,"CMPD","Niyang River Basin","Niyang River Basin Ny07",29.87,92.68,3539,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.785082741454202,2811.56337617976,7.65714723434471,-0.528267919581287,14.6361245654457,979.899212856402
6227,13082,3953,"CMPD","Niyang River Basin","Niyang River Basin Ny08",29.98,93.08,3462,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.762213442242727,2688.53560313679,7.29128565780403,-0.791333467747745,14.2104351310403,933.860995564822
6227,13083,3954,"CMPD","Niyang River Basin","Niyang River Basin Ny09",29.9,93.17,3377,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.776467084832154,2815.00344188483,7.68737209402423,-0.291936142210583,14.4948676610023,954.47785756271
6227,13084,3955,"CMPD","Niyang River Basin","Niyang River Basin Ny10",29.88,93.35,3206,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.762844071373955,2999.25936229368,8.20817552791935,-0.0525798836542681,15.1707240463581,943.996714442132
6227,13085,3956,"CMPD","Niyang River Basin","Niyang River Basin Ny11",29.82,93.75,3149,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.763694409216582,3079.32537422339,8.43467213443946,0.107904327833747,15.4212814886825,948.652588392822
6227,13086,3957,"CMPD","Niyang River Basin","Niyang River Basin Ny12",29.78,93.9,3112,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.745889332186815,3161.8579783302,8.66262459816493,0.28431779058533,15.68163800684,930.532524275114
6227,13087,3958,"CMPD","Niyang River Basin","Niyang River Basin Ny13",29.73,94.07,3044,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.795550625720125,3224.78026633551,8.83501442831645,0.34957863943123,15.8922743379785,994.630035931652
6227,13088,3959,"CMPD","Niyang River Basin","Niyang River Basin Ny14",29.75,94.25,3044,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.749947881601145,3269.84136596483,8.95846949579406,0.568735954170938,15.9596865823808,938.59880639141
6227,13089,3960,"CMPD","Niyang River Basin","Niyang River Basin Ny15",29.75,94.25,3021,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.753499784593997,3312.58498085928,9.07557529002544,0.701921392815568,16.0548210158673,943.999261403173
6227,13090,3961,"CMPD","Niyang River Basin","Niyang River Basin Ny16",29.57,94.48,3312,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.734262893478192,2746.82018048654,7.38624468766728,-1.24928334813997,14.6936635337297,905.198484143265
6227,13091,3962,"CMPD","Niyang River Basin","Niyang River Basin Ny17",29.55,94.53,3429,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.711860329487495,2568.35976232264,6.78236178160929,-1.91647524915547,14.1911883854539,872.345042552666
6227,13092,3963,"CMPD","Niyang River Basin","Niyang River Basin Ny18",29.55,94.55,3515,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.695512288087968,2443.57428985533,6.33978743268601,-2.40597226674691,13.8231650585322,848.397093826634
6228,13093,21606,"SMPDSv1","Nizhneosinovskoye peat bog","Nizhneosinovskoye_core top",60.687778,29.143333,27,"not known","terrestrial, bog/fen/swamp","peat core top","-33","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05284712460624,2358.1126042098,4.20472559007112,-9.0888357106992,17.1256951900016,599.387303960773
6229,13094,6221,"EMPDv2","Nizhnevartovsk","Antipina_a13",61.0227,76.4512,42,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15806863946207,1750.60625214257,-2.66157392613264,-21.8667177267054,17.3830825156625,520.520558840014
6229,13095,6264,"EMPDv2","Nizhnevartovsk","Binney2017_E2334",60.93,76.63,49,"not known","terrestrial, bog/fen/swamp","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15160277834031,1762.42408601952,-2.59619794328916,-21.8070952481599,17.4299962549894,519.963717891515
6229,13096,21608,"SMPDSv1","Nizhnevartovsk","NIZHNIVA_core top",62,76.666667,56,"not known","terrestrial, bog/fen/swamp","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1776406572026,1732.10931558046,-2.77333771521369,-21.9445827052068,17.2601827489882,520.905975474735
6229,13097,21607,"SMPDSv1","Nizhnevartovsk","Novenko_b9",60.933333,76.633333,58,"not known","terrestrial, bog/fen/swamp","peat core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14665286503668,1772.73261438509,-2.53349992455835,-21.7463585705561,17.4643344371951,520.307894469511
6230,13098,7078,"EMPDv2","Nizhnevartovskoye","EPDcoretop_E1901",61.25,77,55,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15395047512541,1776.1617155989,-2.53761417740217,-21.7574664018799,17.49169422478,518.14137036583
6231,13099,21609,"SMPDSv1","Njusakjaurasj","Bjune_a158",68.266667,19.416667,407,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.84486078800062,1118.20962763697,-1.71683061022446,-13.0666465352263,11.2485224415914,693.151565369033
6232,13100,21610,"SMPDSv1","Njusakjaurasj 2","Bjune_a173",68.266667,19.383333,407,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.85403608911745,1117.73055703992,-1.70454446993293,-13.027175544772,11.242900957233,696.214870241391
6233,13101,3831,"CMPD","Nnjing","Nanjing a",32.05,119.32,5,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.951927750503523,5580.19333129996,15.2882009076711,2.32845162918015,27.6602949161218,1058.35650775722
6234,13102,12998,"Neotoma","No Bottom Pond","NOBOTTOM",41.283333,-70.208333,6,"not known","lake","core","-35","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40823690078843,3973.42517784933,10.6778859694196,-1.61277314649128,22.4203041466572,1282.32636565285
6234,13102,12999,"Neotoma","No Bottom Pond","NOBOTTOM",41.283333,-70.208333,6,"not known","lake","core","28","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40823690078843,3973.42517784933,10.6778859694196,-1.61277314649128,22.4203041466572,1282.32636565285
6235,13103,14199,"Neotoma","No Name East midden","NNE2",35.4333333333333,-116.566666666667,1220,"not known","midden","surface sample","0","Koehler, P.A., R.S. Anderson, and W.G. Spaulding. 2005. Development of vegetation in the central Mojave Desert of California during the late Quaternary. Palaeogeography, Palaeoclimatology, Palaeoecology 215(3-4):297-311.","10.1016/j.palaeo.2004.09.010",27,"desert",0.210435280780141,5405.36015330646,14.8092058994698,5.29447647143544,26.0513501478971,307.174957259259
6236,13104,16725,"Neotoma","No Name Lake","RBD004",45.85,-88.366667,396,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.02301643944232,2683.37157439142,4.30695368760326,-12.0917899690634,18.9739451488463,787.572415541193
6237,13105,10590,"BIOME6000 Japan","Noda","D12002",35.95,139.85,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.56672670162104,5333.63718383316,14.6127046132415,4.20873961368557,26.0020860614516,1523.12493581313
6238,13106,10589,"BIOME6000 Japan","Noda swamp","D12001",35.95,139.85,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.56672670162104,5333.63718383316,14.6127046132415,4.20873961368557,26.0020860614516,1523.12493581313
6239,13107,7971,"EMPDv2","Nogliky","Mikishin-Gvozdeva_a31",51.8172222222222,143.144166666667,4,"not known","fluvial","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2098474460985,1877.67868377932,-0.531992345526091,-18.7916509814823,15.4645587884705,652.894428463553
6240,13108,11101,"Bush et al., 2020","Nohbec","Nohbec",19.15,-88.18,4,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.881787858145318,9470.4493413556,25.9464365516592,23.2342097507275,27.7625621709739,1358.86352258262
6241,13109,21611,"SMPDSv1","Nohipalu Valgjarv","Meltsov_a3",57.94109,27.34659,64,"0.066","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987646803116136,2471.08495077391,4.92632255008276,-7.6453823485804,16.783855254082,610.894306757979
6242,13110,21612,"SMPDSv1","Nordalsvatn","Bjune_a3",70.393964,23.606852,110,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.15198619080781,1180.74236684814,-1.46166379799826,-12.8736555200413,11.7803588616006,740.107278426595
6243,13111,7429,"EMPDv2","Nordbovatn","Hjelle_a18",60.3806331,5.6544924,26,"0.039","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.28805835079137,2676.5715214224,7.33307266143123,1.14973467318297,14.1480510584853,2243.98762612903
6244,13112,21613,"SMPDSv1","Norddalsvatn","Bjune_a106",61.347219,5.493782,302,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.08610772484079,2126.99399848149,5.67902782821105,-0.932946040411664,12.9450139372011,2041.91469840268
6245,13113,7438,"EMPDv2","Nordre Tindelandstjorna","Hjelle_a27",59.6524592,5.5770836,70,"0.033","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.68258115448043,2636.8462540491,7.22423631246329,0.645988429418144,14.2832723583308,1989.99960310941
6246,13114,21614,"SMPDSv1","Nordschwarzwald","Dambach_a100",48.4956,8.4856,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40823048012598,2988.18347825836,8.08164631099754,-0.949659491969231,16.9323861069226,1068.00027748648
6246,13115,21615,"SMPDSv1","Nordschwarzwald","Dambach_a101",48.4956,8.4856,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40823048012598,2988.18347825836,8.08164631099754,-0.949659491969231,16.9323861069226,1068.00027748648
6246,13116,21616,"SMPDSv1","Nordschwarzwald","Dambach_a102",48.4956,8.4856,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40823048012598,2988.18347825836,8.08164631099754,-0.949659491969231,16.9323861069226,1068.00027748648
6246,13117,21617,"SMPDSv1","Nordschwarzwald","Dambach_a103",48.5007,8.4841,675,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41426431262742,2982.14061653252,8.06272850986048,-0.965572767608377,16.9114937184447,1072.16722432389
6246,13118,21618,"SMPDSv1","Nordschwarzwald","Dambach_a104",48.5007,8.4841,675,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41426431262742,2982.14061653252,8.06272850986048,-0.965572767608377,16.9114937184447,1072.16722432389
6246,13119,21619,"SMPDSv1","Nordschwarzwald","Dambach_a105",48.5007,8.4841,675,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41426431262742,2982.14061653252,8.06272850986048,-0.965572767608377,16.9114937184447,1072.16722432389
6246,13120,21620,"SMPDSv1","Nordschwarzwald","Dambach_a106",48.5007,8.4841,675,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.41426431262742,2982.14061653252,8.06272850986048,-0.965572767608377,16.9114937184447,1072.16722432389
6246,13121,21621,"SMPDSv1","Nordschwarzwald","Dambach_a107",48.5008,8.4868,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40799643166,2987.98426889135,8.08095811305839,-0.950594219364588,16.9317948342802,1067.7405869004
6246,13122,21622,"SMPDSv1","Nordschwarzwald","Dambach_a108",48.5008,8.4868,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40799643166,2987.98426889135,8.08095811305839,-0.950594219364588,16.9317948342802,1067.7405869004
6246,13123,21623,"SMPDSv1","Nordschwarzwald","Dambach_a109",48.5008,8.4868,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40799643166,2987.98426889135,8.08095811305839,-0.950594219364588,16.9317948342802,1067.7405869004
6246,13124,21624,"SMPDSv1","Nordschwarzwald","Dambach_a110",48.5008,8.4868,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40799643166,2987.98426889135,8.08095811305839,-0.950594219364588,16.9317948342802,1067.7405869004
6246,13125,21625,"SMPDSv1","Nordschwarzwald","Dambach_a111",48.5015,8.4826,685,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42655047307984,2970.39335961726,8.02593010794437,-0.996346444529348,16.8707920794066,1080.83502324601
6246,13126,21626,"SMPDSv1","Nordschwarzwald","Dambach_a112",48.5015,8.4826,685,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42655047307984,2970.39335961726,8.02593010794437,-0.996346444529348,16.8707920794066,1080.83502324601
6246,13127,21627,"SMPDSv1","Nordschwarzwald","Dambach_a113",48.5015,8.4826,685,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42655047307984,2970.39335961726,8.02593010794437,-0.996346444529348,16.8707920794066,1080.83502324601
6246,13128,21628,"SMPDSv1","Nordschwarzwald","Dambach_a114",48.5015,8.4826,685,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42655047307984,2970.39335961726,8.02593010794437,-0.996346444529348,16.8707920794066,1080.83502324601
6246,13129,21629,"SMPDSv1","Nordschwarzwald","Dambach_a115",48.5015,8.4826,685,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42655047307984,2970.39335961726,8.02593010794437,-0.996346444529348,16.8707920794066,1080.83502324601
6246,13130,21630,"SMPDSv1","Nordschwarzwald","Dambach_a116",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13131,21631,"SMPDSv1","Nordschwarzwald","Dambach_a117",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13132,21632,"SMPDSv1","Nordschwarzwald","Dambach_a118",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13133,21633,"SMPDSv1","Nordschwarzwald","Dambach_a119",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13134,21634,"SMPDSv1","Nordschwarzwald","Dambach_a120",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13135,21635,"SMPDSv1","Nordschwarzwald","Dambach_a121",48.5034,8.4914,660,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39544442318602,2999.60872843867,8.11716934365316,-0.920848766720016,16.9721177341174,1058.81794305936
6246,13136,21636,"SMPDSv1","Nordschwarzwald","Dambach_a122",48.5046,8.4822,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44483433393669,2952.72663785538,7.97039401453126,-1.04310281303919,16.8095245994684,1093.68580250637
6246,13137,21637,"SMPDSv1","Nordschwarzwald","Dambach_a123",48.5046,8.4822,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44483433393669,2952.72663785538,7.97039401453126,-1.04310281303919,16.8095245994684,1093.68580250637
6246,13138,21638,"SMPDSv1","Nordschwarzwald","Dambach_a124",48.5046,8.4822,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44483433393669,2952.72663785538,7.97039401453126,-1.04310281303919,16.8095245994684,1093.68580250637
6246,13139,21639,"SMPDSv1","Nordschwarzwald","Dambach_a125",48.5046,8.4822,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44483433393669,2952.72663785538,7.97039401453126,-1.04310281303919,16.8095245994684,1093.68580250637
6246,13140,21640,"SMPDSv1","Nordschwarzwald","Dambach_a126",48.5046,8.4822,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44483433393669,2952.72663785538,7.97039401453126,-1.04310281303919,16.8095245994684,1093.68580250637
6246,13141,21641,"SMPDSv1","Nordschwarzwald","Dambach_a127",48.5138,8.4829,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43224969592146,2964.07988466341,8.00602147957317,-1.01361437865835,16.8490602704915,1084.62427950212
6246,13142,21642,"SMPDSv1","Nordschwarzwald","Dambach_a128",48.5138,8.4829,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43224969592146,2964.07988466341,8.00602147957317,-1.01361437865835,16.8490602704915,1084.62427950212
6246,13143,21643,"SMPDSv1","Nordschwarzwald","Dambach_a129",48.5138,8.4829,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43224969592146,2964.07988466341,8.00602147957317,-1.01361437865835,16.8490602704915,1084.62427950212
6246,13144,21644,"SMPDSv1","Nordschwarzwald","Dambach_a130",48.5138,8.4829,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43224969592146,2964.07988466341,8.00602147957317,-1.01361437865835,16.8490602704915,1084.62427950212
6246,13145,21645,"SMPDSv1","Nordschwarzwald","Dambach_a131",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13146,21646,"SMPDSv1","Nordschwarzwald","Dambach_a132",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13147,21647,"SMPDSv1","Nordschwarzwald","Dambach_a133",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13148,21648,"SMPDSv1","Nordschwarzwald","Dambach_a134",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13149,21649,"SMPDSv1","Nordschwarzwald","Dambach_a135",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13150,21650,"SMPDSv1","Nordschwarzwald","Dambach_a136",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13151,21651,"SMPDSv1","Nordschwarzwald","Dambach_a137",48.5147,8.4833,690,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.43219672613689,2964.043092523,8.0058902301566,-1.0138104557835,16.8489573622887,1084.57126843305
6246,13152,21652,"SMPDSv1","Nordschwarzwald","Dambach_a138",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13153,21653,"SMPDSv1","Nordschwarzwald","Dambach_a139",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13154,21654,"SMPDSv1","Nordschwarzwald","Dambach_a140",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13155,21655,"SMPDSv1","Nordschwarzwald","Dambach_a141",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13156,21656,"SMPDSv1","Nordschwarzwald","Dambach_a142",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13157,21657,"SMPDSv1","Nordschwarzwald","Dambach_a143",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13158,21658,"SMPDSv1","Nordschwarzwald","Dambach_a144",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13159,21659,"SMPDSv1","Nordschwarzwald","Dambach_a145",48.516,8.4816,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44449299072178,2952.31423961507,7.96902176153487,-1.04464984070664,16.8081856707616,1093.21753826692
6246,13160,21660,"SMPDSv1","Nordschwarzwald","Dambach_a146",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13161,21661,"SMPDSv1","Nordschwarzwald","Dambach_a147",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13162,21662,"SMPDSv1","Nordschwarzwald","Dambach_a148",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13163,21663,"SMPDSv1","Nordschwarzwald","Dambach_a149",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13164,21664,"SMPDSv1","Nordschwarzwald","Dambach_a150",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13165,21665,"SMPDSv1","Nordschwarzwald","Dambach_a151",48.5244,8.4568,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48862937657977,2911.42202706958,7.84033390912311,-1.15025989424357,16.6648398657015,1123.98756858751
6246,13166,21666,"SMPDSv1","Nordschwarzwald","Dambach_a152",48.5247,8.4549,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48873277623269,2911.42441877839,7.84038451409017,-1.1500037474732001,16.6647857378203,1124.04403141679
6246,13167,21667,"SMPDSv1","Nordschwarzwald","Dambach_a153",48.5247,8.4549,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48873277623269,2911.42441877839,7.84038451409017,-1.1500037474732001,16.6647857378203,1124.04403141679
6246,13168,21668,"SMPDSv1","Nordschwarzwald","Dambach_a154",48.5247,8.4549,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48873277623269,2911.42441877839,7.84038451409017,-1.1500037474732001,16.6647857378203,1124.04403141679
6246,13169,21669,"SMPDSv1","Nordschwarzwald","Dambach_a155",48.5247,8.4549,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48873277623269,2911.42441877839,7.84038451409017,-1.1500037474732001,16.6647857378203,1124.04403141679
6246,13170,21670,"SMPDSv1","Nordschwarzwald","Dambach_a156",48.5247,8.4549,735,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48873277623269,2911.42441877839,7.84038451409017,-1.1500037474732001,16.6647857378203,1124.04403141679
6246,13171,21671,"SMPDSv1","Nordschwarzwald","Dambach_a157",48.5294,8.3852,760,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52359344634564,2882.66661016856,7.75066836581726,-1.21755937982176,16.561782221134,1148.00405344215
6246,13172,21672,"SMPDSv1","Nordschwarzwald","Dambach_a158",48.5294,8.3852,760,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52359344634564,2882.66661016856,7.75066836581726,-1.21755937982176,16.561782221134,1148.00405344215
6246,13173,21673,"SMPDSv1","Nordschwarzwald","Dambach_a159",48.5294,8.3852,760,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52359344634564,2882.66661016856,7.75066836581726,-1.21755937982176,16.561782221134,1148.00405344215
6246,13174,21674,"SMPDSv1","Nordschwarzwald","Dambach_a160",48.5294,8.3852,760,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52359344634564,2882.66661016856,7.75066836581726,-1.21755937982176,16.561782221134,1148.00405344215
6246,13175,21675,"SMPDSv1","Nordschwarzwald","Dambach_a161",48.5294,8.3852,760,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52359344634564,2882.66661016856,7.75066836581726,-1.21755937982176,16.561782221134,1148.00405344215
6246,13176,21676,"SMPDSv1","Nordschwarzwald","Dambach_a167",48.5428,8.4919,730,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4797461350201,2916.27567930554,7.8547246321089,-1.14311301028734,16.6832256623679,1117.55981614906
6246,13177,21677,"SMPDSv1","Nordschwarzwald","Dambach_a168",48.5428,8.4919,730,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4797461350201,2916.27567930554,7.8547246321089,-1.14311301028734,16.6832256623679,1117.55981614906
6246,13178,21678,"SMPDSv1","Nordschwarzwald","Dambach_a169",48.5428,8.4919,730,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4797461350201,2916.27567930554,7.8547246321089,-1.14311301028734,16.6832256623679,1117.55981614906
6246,13179,21679,"SMPDSv1","Nordschwarzwald","Dambach_a170",48.5428,8.4919,730,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4797461350201,2916.27567930554,7.8547246321089,-1.14311301028734,16.6832256623679,1117.55981614906
6246,13180,21680,"SMPDSv1","Nordschwarzwald","Dambach_a171",48.5428,8.4919,730,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4797461350201,2916.27567930554,7.8547246321089,-1.14311301028734,16.6832256623679,1117.55981614906
6246,13181,21681,"SMPDSv1","Nordschwarzwald","Dambach_a172",48.5454,8.3632,820,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59871353746358,2812.93658551497,7.52769861590956,-1.4038925566604,16.3153337129318,1199.86366993424
6246,13182,21682,"SMPDSv1","Nordschwarzwald","Dambach_a173",48.5454,8.3632,820,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59871353746358,2812.93658551497,7.52769861590956,-1.4038925566604,16.3153337129318,1199.86366993424
6246,13183,21683,"SMPDSv1","Nordschwarzwald","Dambach_a174",48.5454,8.3632,820,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59871353746358,2812.93658551497,7.52769861590956,-1.4038925566604,16.3153337129318,1199.86366993424
6246,13184,21684,"SMPDSv1","Nordschwarzwald","Dambach_a175",48.5454,8.3632,820,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59871353746358,2812.93658551497,7.52769861590956,-1.4038925566604,16.3153337129318,1199.86366993424
6246,13185,21685,"SMPDSv1","Nordschwarzwald","Dambach_a176",48.5454,8.3632,820,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59871353746358,2812.93658551497,7.52769861590956,-1.4038925566604,16.3153337129318,1199.86366993424
6246,13186,21686,"SMPDSv1","Nordschwarzwald","Dambach_a177",48.5486,8.4988,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45461670890064,2939.28320957541,7.92727919905073,-1.08319719720795,16.7638285390825,1099.79794245792
6246,13187,21687,"SMPDSv1","Nordschwarzwald","Dambach_a178",48.5486,8.4988,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45461670890064,2939.28320957541,7.92727919905073,-1.08319719720795,16.7638285390825,1099.79794245792
6246,13188,21688,"SMPDSv1","Nordschwarzwald","Dambach_a179",48.5486,8.4988,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45461670890064,2939.28320957541,7.92727919905073,-1.08319719720795,16.7638285390825,1099.79794245792
6246,13189,21689,"SMPDSv1","Nordschwarzwald","Dambach_a180",48.5486,8.4988,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45461670890064,2939.28320957541,7.92727919905073,-1.08319719720795,16.7638285390825,1099.79794245792
6246,13190,21690,"SMPDSv1","Nordschwarzwald","Dambach_a181",48.5486,8.4988,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45461670890064,2939.28320957541,7.92727919905073,-1.08319719720795,16.7638285390825,1099.79794245792
6246,13191,21691,"SMPDSv1","Nordschwarzwald","Dambach_a195",48.5606,8.3555,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69853425142367,2721.21889904242,7.22994242500715,-1.65522472696645,15.9875898310388,1268.38615325809
6246,13192,21692,"SMPDSv1","Nordschwarzwald","Dambach_a196",48.5606,8.3555,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69853425142367,2721.21889904242,7.22994242500715,-1.65522472696645,15.9875898310388,1268.38615325809
6246,13193,21693,"SMPDSv1","Nordschwarzwald","Dambach_a197",48.5606,8.3555,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69853425142367,2721.21889904242,7.22994242500715,-1.65522472696645,15.9875898310388,1268.38615325809
6246,13194,21694,"SMPDSv1","Nordschwarzwald","Dambach_a198",48.5606,8.3555,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69853425142367,2721.21889904242,7.22994242500715,-1.65522472696645,15.9875898310388,1268.38615325809
6246,13195,21695,"SMPDSv1","Nordschwarzwald","Dambach_a199",48.5606,8.3555,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69853425142367,2721.21889904242,7.22994242500715,-1.65522472696645,15.9875898310388,1268.38615325809
6246,13196,21696,"SMPDSv1","Nordschwarzwald","Dambach_a200",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13197,21697,"SMPDSv1","Nordschwarzwald","Dambach_a201",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13198,21698,"SMPDSv1","Nordschwarzwald","Dambach_a202",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13199,21699,"SMPDSv1","Nordschwarzwald","Dambach_a203",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13200,21700,"SMPDSv1","Nordschwarzwald","Dambach_a204",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13201,21701,"SMPDSv1","Nordschwarzwald","Dambach_a205",48.5607,8.3777,865,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65325899579032,2760.87783515331,7.35870630282671,-1.5488420953483,16.1304546147572,1237.35207386858
6246,13202,21702,"SMPDSv1","Nordschwarzwald","Dambach_a232",48.5692,8.3478,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69869252727298,2720.8237803711,7.22878295800379,-1.65571726206784,15.9860867591512,1268.23835513284
6246,13203,21703,"SMPDSv1","Nordschwarzwald","Dambach_a233",48.5692,8.3478,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69869252727298,2720.8237803711,7.22878295800379,-1.65571726206784,15.9860867591512,1268.23835513284
6246,13204,21704,"SMPDSv1","Nordschwarzwald","Dambach_a234",48.5692,8.3478,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69869252727298,2720.8237803711,7.22878295800379,-1.65571726206784,15.9860867591512,1268.23835513284
6246,13205,21705,"SMPDSv1","Nordschwarzwald","Dambach_a235",48.5692,8.3478,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69869252727298,2720.8237803711,7.22878295800379,-1.65571726206784,15.9860867591512,1268.23835513284
6246,13206,21706,"SMPDSv1","Nordschwarzwald","Dambach_a236",48.5692,8.3478,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69869252727298,2720.8237803711,7.22878295800379,-1.65571726206784,15.9860867591512,1268.23835513284
6246,13207,21707,"SMPDSv1","Nordschwarzwald","Dambach_a237",48.5704,8.3491,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6985558490247,2720.77139414142,7.22856288632401,-1.65609001130046,15.9859372893443,1268.12435588212
6246,13208,21708,"SMPDSv1","Nordschwarzwald","Dambach_a238",48.5704,8.3491,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6985558490247,2720.77139414142,7.22856288632401,-1.65609001130046,15.9859372893443,1268.12435588212
6246,13209,21709,"SMPDSv1","Nordschwarzwald","Dambach_a239",48.5704,8.3491,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6985558490247,2720.77139414142,7.22856288632401,-1.65609001130046,15.9859372893443,1268.12435588212
6246,13210,21710,"SMPDSv1","Nordschwarzwald","Dambach_a240",48.5704,8.3491,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6985558490247,2720.77139414142,7.22856288632401,-1.65609001130046,15.9859372893443,1268.12435588212
6246,13211,21711,"SMPDSv1","Nordschwarzwald","Dambach_a241",48.5704,8.3491,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6985558490247,2720.77139414142,7.22856288632401,-1.65609001130046,15.9859372893443,1268.12435588212
6246,13212,21712,"SMPDSv1","Nordschwarzwald","Dambach_a242",48.5713,8.3483,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69857205055634,2720.72967927596,7.22844035147959,-1.65614231413133,15.9857782703947,1268.10863546495
6246,13213,21713,"SMPDSv1","Nordschwarzwald","Dambach_a243",48.5713,8.3483,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69857205055634,2720.72967927596,7.22844035147959,-1.65614231413133,15.9857782703947,1268.10863546495
6246,13214,21714,"SMPDSv1","Nordschwarzwald","Dambach_a244",48.5713,8.3483,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69857205055634,2720.72967927596,7.22844035147959,-1.65614231413133,15.9857782703947,1268.10863546495
6246,13215,21715,"SMPDSv1","Nordschwarzwald","Dambach_a245",48.5713,8.3483,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69857205055634,2720.72967927596,7.22844035147959,-1.65614231413133,15.9857782703947,1268.10863546495
6246,13216,21716,"SMPDSv1","Nordschwarzwald","Dambach_a246",48.5713,8.3483,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69857205055634,2720.72967927596,7.22844035147959,-1.65614231413133,15.9857782703947,1268.10863546495
6246,13217,21717,"SMPDSv1","Nordschwarzwald","Dambach_a99",48.4956,8.4856,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40823048012598,2988.18347825836,8.08164631099754,-0.949659491969231,16.9323861069226,1068.00027748648
6247,13218,15844,"Neotoma","Norfolk Lake","GMP15",36.58,-92.28,244,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.952812478509051,5445.7614945532,14.9198945056252,1.68811105641385,26.6302876611002,1145.67590925066
6248,13219,17288,"Neotoma","Norman Wells","RLF67007",65.283333,-126.85,30,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.640913266490116,1598.46688995646,-6.80651128479311,-28.5724473760725,15.8209834259108,281.994184158045
6249,13220,17339,"Neotoma","Norrie","TW042",44.884722,-89.263333,392,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.983176218587804,2883.185092935,5.04029622743122,-11.8085780487597,19.9064044264832,787.830757466006
6250,13221,17324,"Neotoma","North (WI1)","TW027",45.9,-88.2,403,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02898655090377,2666.65926043918,4.25735482770049,-12.059338323197,18.8875009411372,789.330370612736
6251,13222,17346,"Neotoma","North (WI2)","TW048",44.6,-89.1,314,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.95347905979373,3098.48517869779,6.06167845294163,-10.6025306366161,20.7482717755849,783.478681651089
6252,13223,15482,"Neotoma","North Bay","CJH061",47.05,-124.08,15,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.73164425303314,3635.59081963758,9.96052279352761,4.54480934355212,15.9925578977359,2077.95856165934
6252,13224,15110,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-63","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15111,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-59","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15112,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-54","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15113,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-48","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15114,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-44","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15115,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-40","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15116,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-36","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15117,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-32","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15118,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-27","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15119,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-22","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15120,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-17","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15121,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-11","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15122,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","-5","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15123,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","0","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15124,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","6","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15125,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","11","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15126,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","17","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15127,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","23","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15128,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","33","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6252,13224,15129,"Neotoma","North Bay","NORBAY",46.652475,-92.23825,183,"not known","coastal, estuarine","core","46","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.926041580872524,3133.24695042702,6.01602582256617,-11.4644941927567,20.9524487491067,738.386443881886
6253,13225,14762,"Neotoma","North Flat Lake","NORTHFLT",53.611475,-106.49524,522,"not known","lake","core","-22","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.610255880425256,2226.0226992159,0.470562374359747,-19.3981383306613,16.9163554919684,420.519740234511
6253,13225,14763,"Neotoma","North Flat Lake","NORTHFLT",53.611475,-106.49524,522,"not known","lake","core","4","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.610255880425256,2226.0226992159,0.470562374359747,-19.3981383306613,16.9163554919684,420.519740234511
6253,13225,14764,"Neotoma","North Flat Lake","NORTHFLT",53.611475,-106.49524,522,"not known","lake","core","30","Hart, C.L. 2009. High-resolution pollen analysis of two lakes at the boreal forest-aspen parkland ecotone in central Saskatchewan, Canada. Master's thesis. University of Regina, Regina, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.610255880425256,2226.0226992159,0.470562374359747,-19.3981383306613,16.9163554919684,420.519740234511
6254,13226,11853,"Neotoma","North Fort pond","KKMFA01",39.40433,-84.09076,276,"not known","artificial water body","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.04958295095451,4214.14405855275,11.1498643326015,-2.92187281851824,23.3873612076292,1010.76447429176
6255,13227,11950,"Neotoma","North Glenn Lake","GLENNNP1",36.56381,-112.17716,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.373871239204136,2290.33377064662,5.29648592107563,-4.28301056398992,16.6408345868451,452.593780574665
6256,13228,11970,"Neotoma","North Halfmoon Lakes","SM-HFM-N",39.1813549999999,-106.496135,3705,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.642742142409244,663.017741156131,-4.17520137854373,-15.3198221444489,7.23050805597294,565.806825891103
6257,13229,17388,"Neotoma","North Lake","TW095",43.98,-86.32,186,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.950691936239812,3325.11039051799,7.55141502554747,-7.4890607167037,21.2192196046181,805.596637775945
6258,13230,11953,"Neotoma","North Lookout Lake","LOOKNP1",36.46514,-112.186624999999,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.382764659663694,2276.5745575174,5.26014482860287,-4.25380296528906,16.5580335980625,464.000430119031
6259,13231,11948,"Neotoma","North Murrays Lake","MURRNP1",36.630965,-112.175424999999,2597,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.356800958490069,2410.52099697295,5.75007195339131,-3.99638991493449,17.1897662667616,435.650565021343
6260,13232,15154,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-63","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15155,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-60","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15156,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-58","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15157,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-55","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15158,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-52","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15159,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-49","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15160,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-45","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15161,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-42","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15162,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-38","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15163,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-35","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15164,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-31","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15165,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-27","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15166,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-23","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15167,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-19","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15168,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-14","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15169,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-10","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15170,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-5","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15171,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","-1","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15172,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","4","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6260,13232,15173,"Neotoma","North of Clough Island","CLOUGH",46.71387,-92.1867499999999,193,"not known","coastal, estuarine","core","8","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.93059108410785,3095.4330581792,5.86504827574128,-11.5974276291957,20.787814877263,738.748002134629
6261,13233,16607,"Neotoma","North Pamet Bog Pond","MGW011",42,-70.03,3,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.40069764168458,3924.41499284268,10.4742382451314,-2.00485768603806,22.4331049535614,1258.86918130426
6261,13234,16608,"Neotoma","North Pamet Bog Pond","WAP001",42,-70.03,3,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.40069764168458,3924.41499284268,10.4742382451314,-2.00485768603806,22.4331049535614,1258.86918130426
6262,13235,13000,"Neotoma","North Pond","NORTHPND",42.6517099999999,-73.053365,586,"not known","lake","core","0","Huvane, J.K., and D.R. Whitehead. 1996. The paleolimnology of North Pond: watershed-lake interactions. Journal of Paleolimnology 16(3):323-354. Whitehead, D.R., and T.L. Crisman. 1978. Paleolimnological studies of small New England (U.S.A.) ponds. Part I. Late-glacial and postglacial trophic oscillations. Polskie Archiwum Hydrobiologii 25:471-481.","10.1007/BF00207576",9,"cool mixed forest",1.41704748861034,2661.86043624917,4.86025159142818,-10.1864073475153,18.3319965695172,1092.13913093855
6263,13236,16557,"Neotoma","North Pond (US:Maine)","KG051",44.62,-69.83,77,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47265432803046,2998.42050412021,6.55208979695774,-7.72531818859353,19.839607157045,1157.38877337776
6264,13237,16712,"Neotoma","North Raylene's Bog","PWD8",41.283333,-70.016667,9,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40137420468468,3952.68605024739,10.5981142718656,-1.74939016907504,22.4009463858415,1274.28875971092
6265,13238,17258,"Neotoma","North Shoal Lake","LFR68104",50.48905,-97.65225,265,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.675174671374702,2588.93160732097,1.93527121442146,-18.7242890879202,19.133667378943,505.053476365238
6266,13239,1193,"Australian pollen","North Torbreck","North Torbreck",-37.4814,146.9472,564,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.91387080515198,4174.90356263048,11.4380919524123,5.11665320339595,18.00245237076,1022.14521355929
6267,13240,7046,"EMPDv2","North Twitchen Springs","EPDcoretop_E1682",51.12,-3.83,366,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.75521309274161,2907.38838299077,7.96544762463226,2.38722321760684,14.0465907110699,1644.25231150715
6268,13241,1194,"Australian pollen","North Well Creek 2","North Well Creek 2 inside cave_1995",-30.296,139.431833333333,500,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155571478793449,6512.93453349488,17.8436562561504,9.374770232065,26.0506961010072,261.723645351086
6268,13242,1195,"Australian pollen","North Well Creek 2","North Well Creek 2 inside cave_1996",-30.296,139.431833333333,500,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155571478793449,6512.93453349488,17.8436562561504,9.374770232065,26.0506961010072,261.723645351086
6268,13243,1196,"Australian pollen","North Well Creek 2","North Well Creek 2 outside cave_1995",-30.296,139.431833333333,500,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155571478793449,6512.93453349488,17.8436562561504,9.374770232065,26.0506961010072,261.723645351086
6268,13244,1197,"Australian pollen","North Well Creek 2","North Well Creek 2 outside cave_1996",-30.296,139.431833333333,500,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155571478793449,6512.93453349488,17.8436562561504,9.374770232065,26.0506961010072,261.723645351086
6269,13245,1198,"Australian pollen","North Well Creek, NWCK1","NWCK1 in_1995",-30.2708333333333,139.260333333333,500,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155660178363953,6511.42767598401,17.8395278794083,9.37236667722721,26.0454071349789,261.891912744618
6269,13246,1199,"Australian pollen","North Well Creek, NWCK1","NWCK1 in_1996",-30.2708333333333,139.260333333333,500,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155660178363953,6511.42767598401,17.8395278794083,9.37236667722721,26.0454071349789,261.891912744618
6269,13247,1200,"Australian pollen","North Well Creek, NWCK1","NWCK1 out_1995",-30.2708333333333,139.260333333333,500,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155660178363953,6511.42767598401,17.8395278794083,9.37236667722721,26.0454071349789,261.891912744618
6269,13248,1201,"Australian pollen","North Well Creek, NWCK1","NWCK1 out_1996",-30.2708333333333,139.260333333333,500,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.155660178363953,6511.42767598401,17.8395278794083,9.37236667722721,26.0454071349789,261.891912744618
6270,13249,7515,"EMPDv2","North Yakutia","Klemm_a70",69.104,145.225,47,"2","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.678752324964944,1052.44347912933,-14.4399873745314,-39.5020157488211,12.5236454478259,218.631393062626
6270,13250,7516,"EMPDv2","North Yakutia","Klemm_a71",68.582,145.403,35,"6.25","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.678425711739429,1081.60975931023,-14.0904868871503,-39.0470453244357,12.7220386225246,223.125579999515
6270,13251,7517,"EMPDv2","North Yakutia","Klemm_a72",68.455,145.47,24,"0.008","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.676811772433036,1089.07569961933,-13.9984063961205,-38.9129976758806,12.7764221488242,223.445225169025
6270,13252,7518,"EMPDv2","North Yakutia","Klemm_a73",68.393,145.521,38,"0.06","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.676351253905136,1086.45874738015,-14.0474772904877,-39.0161621479692,12.7526162010107,223.724950132997
6270,13253,7519,"EMPDv2","North Yakutia","Klemm_a74",68.333,146.142,35,"0.105","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.687411685480704,1060.32542312082,-13.9485624775848,-38.395077420653,12.5297534296861,225.971841471112
6270,13254,7520,"EMPDv2","North Yakutia","Klemm_a75",68.334,146.101,31,"0.056","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.687574448687387,1061.12134707853,-13.9437846278749,-38.3909383105358,12.5373746853331,225.933143010922
6270,13255,7521,"EMPDv2","North Yakutia","Klemm_a76",68.354,146.094,27,"0.3","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.688353517390915,1060.14965100702,-13.9401672232318,-38.3637881600301,12.5311282695126,225.88670545364
6270,13256,7522,"EMPDv2","North Yakutia","Klemm_a77",67.443,144.223,57,"0.045","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.61270973579613,1184.46197852887,-14.3541302818486,-41.2453825732835,13.5424733993571,211.764184030621
6270,13257,7523,"EMPDv2","North Yakutia","Klemm_a78",67.451,144.026,54,"0.077","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.608207752695075,1189.20547141571,-14.3741790557435,-41.3627128996812,13.5839962624016,210.366861282588
6270,13258,7524,"EMPDv2","North Yakutia","Klemm_a79",67.455,144.331,48,"0.12","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.623539659941476,1177.9975575597,-14.2002089466888,-40.7460108640304,13.4789655784996,215.095263466124
6270,13259,7525,"EMPDv2","North Yakutia","Klemm_a80",67.452,144.344,35,"0.075","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.621605256881394,1185.55258245751,-14.1321219760278,-40.6639883614909,13.5390007110531,214.636544723385
6270,13260,7526,"EMPDv2","North Yakutia","Klemm_a81",68.184,145.302,26,"0.12","lake","sediment sample","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.661055675209019,1129.57187955051,-13.8775604787853,-39.1943453127883,13.0822311236818,222.396581641608
6271,13261,9942,"Herzschuh et al., 2019","North-BE","North-BE1",37.885,111.435,1980,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.477106176324863,2309.55831102493,2.86929423266045,-12.9850255260126,16.6702137713421,489.404886498596
6271,13262,9943,"Herzschuh et al., 2019","North-BE","North-BE2",40.585,117.475,1660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.440594308645239,1716.16017963485,-1.54651353655689,-20.028533691108,14.6733373879288,390.435647270564
6271,13263,9944,"Herzschuh et al., 2019","North-BE","North-BE3",42.445,117.225,1465,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.37623298575799,2434.5865536125,1.7526895742968,-17.3537192751854,18.4142496261987,365.515506442544
6272,13264,9945,"Herzschuh et al., 2019","North-BH","North-BH01",40.555,117.485,1660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.440500044631205,1714.79269178301,-1.55483068051446,-20.0394284986946,14.6670145554313,390.358520841299
6272,13265,9946,"Herzschuh et al., 2019","North-BH","North-BH02",40.545,117.495,1550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.443925556856485,1871.84322122085,-0.647727266438194,-19.0060937926095,15.4333792184613,399.674557753263
6272,13266,9947,"Herzschuh et al., 2019","North-BH","North-BH03",36.145,113.715,743,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.526138322165317,4209.37675988744,10.9404103630266,-3.74176761522802,23.7855752820369,580.739132366361
6272,13267,9948,"Herzschuh et al., 2019","North-BH","North-BH04",37.325,114.185,472,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.485940182488038,4430.84672579985,11.515708350813,-3.99333119855406,24.787582279944,543.50331787197
6272,13268,9949,"Herzschuh et al., 2019","North-BH","North-BH05",40.515,119.295,1320,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.429498780576931,2349.73259815413,1.76871647382598,-16.404808511747,17.6754227368186,403.898597759884
6272,13269,9950,"Herzschuh et al., 2019","North-BH","North-BH06",40.515,119.295,1220,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.438392960578967,2471.97846296359,2.42235465698269,-15.6575793832122,18.2182804553398,415.777983305332
6272,13270,9951,"Herzschuh et al., 2019","North-BH","North-BH07",40.515,119.295,1120,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.447179283071363,2596.97688480429,3.07599284013939,-14.9103502546774,18.761138173861,427.657368850781
6272,13271,9952,"Herzschuh et al., 2019","North-BH","North-BH08",40.515,119.285,1020,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.455992911980073,2724.5979255091,3.72983591155136,-14.1614304982176,19.3028632564008,439.659390013785
6272,13272,9953,"Herzschuh et al., 2019","North-BH","North-BH09",40.515,119.295,920,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.464454559258596,2855.44772546627,4.3832692064528,-13.4158919976077,19.8468536109033,451.416139941679
6272,13273,9954,"Herzschuh et al., 2019","North-BH","North-BH10",40.135,119.415,545,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.492425022656378,3406.51562255292,6.96661250183553,-10.5373386930712,21.9847040946683,495.802848179643
6272,13274,9955,"Herzschuh et al., 2019","North-BH","North-BH11",40.515,119.295,885,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.467439882341957,2901.87001618457,4.61204257055765,-13.1543618026205,20.0368538123857,455.573924882586
6272,13275,9956,"Herzschuh et al., 2019","North-BH","North-BH12",36.145,113.705,885,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.52282258795618,4005.94281778089,10.2236223638713,-4.43224925179759,23.0612702646338,574.094248193726
6273,13276,9957,"Herzschuh et al., 2019","North-CA","North-CA1",37.835,114.135,680,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.477271894398336,4047.15167111164,10.0635166556831,-5.69431256425481,23.5629185038046,525.690763659481
6273,13277,9958,"Herzschuh et al., 2019","North-CA","North-CA2",36.145,113.715,885,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.522828686950074,4005.53280781277,10.2220126828771,-4.43442768584318,23.059824352735,574.092340304457
6273,13278,9959,"Herzschuh et al., 2019","North-CA","North-CA3",36.145,113.715,887,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.522782492383615,4002.68613308752,10.2118944056919,-4.44418346148565,23.0496025086603,573.998723514853
6274,13279,9960,"Herzschuh et al., 2019","North-DA","North-DA1",38.705,100.665,1699,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.133730856194469,2854.80939931966,5.24758894411468,-10.7735704524998,19.0771857968056,143.804054959929
6274,13280,9961,"Herzschuh et al., 2019","North-DA","North-DA2",38.705,100.665,1699,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.133730856194469,2854.80939931966,5.24758894411468,-10.7735704524998,19.0771857968056,143.804054959929
6274,13281,9962,"Herzschuh et al., 2019","North-DA","North-DA3",38.705,100.665,1699,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.133730856194469,2854.80939931966,5.24758894411468,-10.7735704524998,19.0771857968056,143.804054959929
6274,13282,9963,"Herzschuh et al., 2019","North-DA","North-DA4",38.725,100.385,1752,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.134147072791551,2792.43480011909,5.01365248727627,-10.9341362053399,18.7625216197487,143.854988434484
6274,13283,9964,"Herzschuh et al., 2019","North-DA","North-DA5",38.725,100.385,1752,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.134147072791551,2792.43480011909,5.01365248727627,-10.9341362053399,18.7625216197487,143.854988434484
6274,13284,9965,"Herzschuh et al., 2019","North-DA","North-DA6",38.725,100.385,1752,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.134147072791551,2792.43480011909,5.01365248727627,-10.9341362053399,18.7625216197487,143.854988434484
6275,13285,9966,"Herzschuh et al., 2019","North-DB","North-DB1",36.835,99.005,3126,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.217070744537271,1709.92018317875,1.28322878798547,-12.1997351647581,12.9410737701737,230.602407743282
6275,13286,9967,"Herzschuh et al., 2019","North-DB","North-DB2",36.835,99.005,3126,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.217070744537271,1709.92018317875,1.28322878798547,-12.1997351647581,12.9410737701737,230.602407743282
6275,13287,9968,"Herzschuh et al., 2019","North-DB","North-DB3",36.835,99.005,3126,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.217070744537271,1709.92018317875,1.28322878798547,-12.1997351647581,12.9410737701737,230.602407743282
6275,13288,9969,"Herzschuh et al., 2019","North-DB","North-DB4",37.315,98.305,3437,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.182199785670227,1325.44240010234,-0.816639258163837,-14.2949958812142,11.1993945144858,188.246053635672
6275,13289,9970,"Herzschuh et al., 2019","North-DB","North-DB5",37.315,98.305,3437,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.182199785670227,1325.44240010234,-0.816639258163837,-14.2949958812142,11.1993945144858,188.246053635672
6275,13290,9971,"Herzschuh et al., 2019","North-DB","North-DB6",37.315,98.305,3437,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.182199785670227,1325.44240010234,-0.816639258163837,-14.2949958812142,11.1993945144858,188.246053635672
6276,13291,9972,"Herzschuh et al., 2019","North-DC","North-DC1",36.965,98.415,3016,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.187037251177598,2038.60150798861,2.72080290866836,-10.9818255141897,14.6814280067274,208.631788491456
6276,13292,9973,"Herzschuh et al., 2019","North-DC","North-DC2",36.965,98.415,3016,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.187037251177598,2038.60150798861,2.72080290866836,-10.9818255141897,14.6814280067274,208.631788491456
6276,13293,9974,"Herzschuh et al., 2019","North-DC","North-DC3",36.965,98.415,3016,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.187037251177598,2038.60150798861,2.72080290866836,-10.9818255141897,14.6814280067274,208.631788491456
6276,13294,9975,"Herzschuh et al., 2019","North-DC","North-DC4",38.925,105.655,1505,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.171439330023157,3479.43987102115,7.49787426946041,-9.22996189842787,22.1999195111559,193.144613269771
6276,13295,9976,"Herzschuh et al., 2019","North-DC","North-DC5",39.355,106.955,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.180785890944295,3470.96494414443,7.26618390493443,-10.135238475145,22.4754979734184,204.740548951975
6277,13296,9977,"Herzschuh et al., 2019","North-DD","North-DD1",36.635,95.515,3225,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.123939378101211,2104.24189603804,2.71657516114678,-11.4387711681531,15.2913514636884,141.509978126656
6277,13297,9978,"Herzschuh et al., 2019","North-DD","North-DD2",36.635,95.515,3225,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.123939378101211,2104.24189603804,2.71657516114678,-11.4387711681531,15.2913514636884,141.509978126656
6277,13298,9979,"Herzschuh et al., 2019","North-DD","North-DD3",36.615,98.755,3585,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.216848776570952,1220.66976041431,-1.2018819493767,-14.3939920792753,10.4665500418729,222.196429729198
6277,13299,9980,"Herzschuh et al., 2019","North-DD","North-DD4",36.615,98.755,3585,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.216848776570952,1220.66976041431,-1.2018819493767,-14.3939920792753,10.4665500418729,222.196429729198
6277,13300,9981,"Herzschuh et al., 2019","North-DD","North-DD5",36.615,98.755,3585,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.216848776570952,1220.66976041431,-1.2018819493767,-14.3939920792753,10.4665500418729,222.196429729198
6278,13301,9982,"Herzschuh et al., 2019","North-DF","North-DF1",36.365,95.035,2811,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.105441745041208,2591.64463332227,4.6964073154669,-9.95042292109996,17.5844916317352,124.20310385131
6278,13302,9983,"Herzschuh et al., 2019","North-DF","North-DF2",36.365,95.035,2811,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.105441745041208,2591.64463332227,4.6964073154669,-9.95042292109996,17.5844916317352,124.20310385131
6278,13303,9984,"Herzschuh et al., 2019","North-DF","North-DF3",36.365,95.035,2811,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.105441745041208,2591.64463332227,4.6964073154669,-9.95042292109996,17.5844916317352,124.20310385131
6279,13304,9985,"Herzschuh et al., 2019","North-DG","North-DG1",36.025,97.785,3023,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.169469176967124,2171.3872550733,3.26425813216047,-10.5622819144661,15.3969471818083,195.690841517419
6279,13305,9986,"Herzschuh et al., 2019","North-DG","North-DG2",36.025,97.785,3023,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.169469176967124,2171.3872550733,3.26425813216047,-10.5622819144661,15.3969471818083,195.690841517419
6279,13306,9987,"Herzschuh et al., 2019","North-DG","North-DG3",36.025,97.785,3023,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.169469176967124,2171.3872550733,3.26425813216047,-10.5622819144661,15.3969471818083,195.690841517419
6279,13307,9988,"Herzschuh et al., 2019","North-DG","North-DG4",38.955,105.655,1490,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.170178139207983,3490.8562549864,7.52906920500462,-9.24141979016096,22.2666759312348,191.869897077419
6279,13308,9989,"Herzschuh et al., 2019","North-DG","North-DG5",39.185,105.665,1310,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.158210914710111,3606.02194826407,7.84258342199657,-9.37133468412489,22.9432904573245,179.622217014015
6279,13309,9990,"Herzschuh et al., 2019","North-DG","North-DG6",39.355,105.855,1260,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.151016017516756,3613.60762782384,7.75963456851952,-9.77556323029288,23.1387706438675,172.737475698638
6280,13310,9991,"Herzschuh et al., 2019","North-DH","North-DH1",36.025,97.985,3145,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.176057342432413,1998.56880235262,2.51563545301704,-11.1737836995711,14.5713887205464,200.264014779115
6280,13311,9992,"Herzschuh et al., 2019","North-DH","North-DH2",36.025,97.985,3145,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.176057342432413,1998.56880235262,2.51563545301704,-11.1737836995711,14.5713887205464,200.264014779115
6280,13312,9993,"Herzschuh et al., 2019","North-DH","North-DH3",36.025,97.985,3145,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.176057342432413,1998.56880235262,2.51563545301704,-11.1737836995711,14.5713887205464,200.264014779115
6281,13313,9994,"Herzschuh et al., 2019","North-DJ","North-DJ1",39.235,106.845,1690,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.239774995887426,3181.55862241235,6.48428052598388,-9.7801857492054,20.7872970295113,263.872738165775
6281,13314,9995,"Herzschuh et al., 2019","North-DJ","North-DJ2",39.365,107.105,1440,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.201166673106424,3347.69008167797,6.88987745150709,-10.1366037779781,21.8124627720009,225.502182604132
6281,13315,9996,"Herzschuh et al., 2019","North-DJ","North-DJ3",38.475,105.685,1390,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.189892281021198,3502.49436731661,7.70974587954484,-8.79384158418663,22.1416280224805,212.273742695991
6281,13316,9997,"Herzschuh et al., 2019","North-DJ","North-DJ4",38.625,105.635,1400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.187232484015594,3497.56032952982,7.67214146816184,-8.86605456183327,22.1466615393745,209.200568589596
6281,13317,9998,"Herzschuh et al., 2019","North-DJ","North-DJ5",38.375,105.955,1200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.179395274256835,3640.53398413996,8.10500967379625,-8.87657559098779,22.8775185102729,203.17772396089
6282,13318,9999,"Herzschuh et al., 2019","North-DK","North-DK1",39.465,106.765,1130,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.164295331241804,3569.91816357422,7.55693167873417,-10.1680356963241,23.0244110540581,187.367735694006
6282,13319,10000,"Herzschuh et al., 2019","North-DK","North-DK2",39.435,106.785,1180,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.169125939317955,3538.47187087961,7.46589941421368,-10.1503926029475,22.8469955866996,192.4571810754
6282,13320,10001,"Herzschuh et al., 2019","North-DK","North-DK3",39.425,106.835,1200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.171609116996408,3522.90910066521,7.4181535084376,-10.1534586671892,22.7635738261611,195.080675125514
6283,13321,10002,"Herzschuh et al., 2019","North-EL","North-EL1",37.655,107.525,1175,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.239774075666064,3679.4047042866,8.28652202273355,-8.67983074313966,22.9597817787177,274.726449275704
6283,13322,10003,"Herzschuh et al., 2019","North-EL","North-EL2",37.655,107.525,1170,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.238452657815333,3685.85930916536,8.30282692056685,-8.69014327298883,22.9941288918889,273.446889797852
6284,13323,10004,"Herzschuh et al., 2019","North-F","North-F1",39.055,114.735,360,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.462887647163775,4357.04855885782,11.00978503173,-5.34626700016544,24.9757213100909,508.032240146285
6285,13324,10005,"Herzschuh et al., 2019","North-HA","North-HA1",39.355,106.955,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.180785890944295,3470.96494414443,7.26618390493443,-10.135238475145,22.4754979734184,204.740548951975
6285,13325,10006,"Herzschuh et al., 2019","North-HA","North-HA2",39.225,107.185,1330,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.202791558115743,3424.60376859664,7.20728235597977,-9.85421088867314,22.1294718223667,227.525418664203
6285,13326,10007,"Herzschuh et al., 2019","North-HA","North-HA3",39.155,108.015,1400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.248881750109686,3316.24119923903,6.83943176477079,-10.0142653189104,21.6062360373845,277.485115011509
6286,13327,10008,"Herzschuh et al., 2019","North-HB","North-HB1",38.375,105.955,1205,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.179950905166537,3636.60861748816,8.09403060326825,-8.87414126613095,22.856451600503,203.739878626967
6286,13328,10009,"Herzschuh et al., 2019","North-HB","North-HB2",39.235,107.515,1400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.233045835825829,3330.97144828082,6.89922815420855,-9.96708866215836,21.6721327055287,259.638481597991
6286,13329,10010,"Herzschuh et al., 2019","North-HB","North-HB3",39.175,107.935,1550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.271506896111951,3170.08886798291,6.37783599907807,-10.0700815395036,20.8761234294046,298.589789588367
6287,13330,10011,"Herzschuh et al., 2019","North-HC","North-HC1",39.605,108.545,1450,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.257859300884902,3325.86831237975,6.83294728682424,-10.1213026953381,21.6559606566273,288.630287286895
6288,13331,10012,"Herzschuh et al., 2019","North-HD","North-HD1",37.775,107.045,1375,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.253796125961338,3424.28912241921,7.56713246878441,-8.56150632029631,21.6802410399281,282.054234386621
6288,13332,10013,"Herzschuh et al., 2019","North-HD","North-HD2",38.195,106.575,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.21054882735069,3559.4490481526,7.92849104097119,-8.694222508766,22.3710830041313,236.545059868068
6288,13333,10014,"Herzschuh et al., 2019","North-HD","North-HD3",38.675,105.765,1830,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.23803756745989,3178.09530064371,6.76366388372767,-8.72140863496537,20.4101669145431,259.426604619444
6288,13334,10015,"Herzschuh et al., 2019","North-HD","North-HD4",38.355,105.865,1495,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.212019487530969,3413.29937286499,7.47535088992506,-8.70835914197861,21.6448676671329,235.478531485502
6288,13335,10016,"Herzschuh et al., 2019","North-HD","North-HD5",38.415,105.735,1570,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.211605693715833,3345.52167357742,7.27856757445899,-8.67828367099627,21.2736121072083,233.110065254122
6288,13336,10017,"Herzschuh et al., 2019","North-HD","North-HD7",39.325,108.215,1450,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.253995684974619,3290.56945619559,6.72801022153724,-10.1241796327543,21.4908699744733,283.006114978071
6289,13337,10018,"Herzschuh et al., 2019","North-HG","North-HG1",39.855,109.665,1510,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.259657481383664,3226.98568589736,6.1642051245071,-11.3659532057585,21.5022883953178,294.139683749121
6289,13338,10019,"Herzschuh et al., 2019","North-HG","North-HG2",39.785,110.155,1530,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.262191308004106,3163.52440812358,5.82940846086925,-11.8413228598671,21.2892068214104,296.7331446842
6289,13339,10020,"Herzschuh et al., 2019","North-HG","North-HG3",39.795,110.825,1245,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.329082676766465,3332.75643712843,6.63321155850859,-10.984932030454,21.697796916346,364.283190371277
6290,13340,10021,"Herzschuh et al., 2019","North-HJ","North-HJ1",39.725,108.625,1440,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.257643948787657,3335.8509063956,6.85345080092724,-10.154716356346,21.714577974065,288.583829060474
6290,13341,10022,"Herzschuh et al., 2019","North-HJ","North-HJ2",39.115,107.955,1530,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.268031681202184,3191.37299272604,6.45203900709371,-10.0373956864038,20.9785398962819,295.454946318303
6291,13342,10023,"Herzschuh et al., 2019","North-HK","North-HK1",41.555,112.295,1540,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.300852804481561,2795.96044162182,4.00465528281265,-14.02693444032,19.825474558465,320.091351451448
6291,13343,10024,"Herzschuh et al., 2019","North-HK","North-HK2",42.055,116.315,1280,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.391992724228749,2640.42681126575,2.9695999794576,-15.7616799879357,19.1772753096419,384.5344862702
6291,13344,10025,"Herzschuh et al., 2019","North-HK","North-HK3",40.985,111.565,1850,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.291327201570066,2564.92471811003,2.95913971388931,-14.9596909415756,18.8207514919675,311.800308569227
6292,13345,10026,"Herzschuh et al., 2019","North-HL","North-HL1",41.725,111.775,1450,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.275520970927359,2882.17804309039,4.22136847241304,-14.2048700662785,20.3880130855324,296.549814832371
6292,13346,10027,"Herzschuh et al., 2019","North-HL","North-HL2",41.705,111.765,1480,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.279324726685625,2860.80527061348,4.15868658606374,-14.1925216029088,20.2611556612403,300.129597075292
6293,13347,10028,"Herzschuh et al., 2019","North-HR","North-HR1",42.515,117.235,1520,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.370112974333807,2402.14235509366,1.53504488244743,-17.6884740563423,18.2962460101799,359.925150115992
6293,13348,10029,"Herzschuh et al., 2019","North-HR","North-HR2",41.915,115.865,1330,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.373780942584524,2662.36768940924,3.03509667135382,-15.7739911368665,19.2945749788467,371.532638426638
6293,13349,10030,"Herzschuh et al., 2019","North-HR","North-HR3",41.335,112.865,1640,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.3226205192457,2705.9476913821,3.78288895543571,-13.8197861664704,19.2487215220752,340.143356857323
6294,13350,10031,"Herzschuh et al., 2019","North-HS","North-HS1",38.675,105.845,2290,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.290429354251134,2834.87475409445,5.78186500103565,-8.53827262516858,18.5333796428737,307.366162158533
6294,13351,10032,"Herzschuh et al., 2019","North-HS","North-HS2",38.675,105.815,2175,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.276893054709914,2921.18449315109,6.03177304730044,-8.5780332689777,19.0030489845319,295.232519269029
6294,13352,10033,"Herzschuh et al., 2019","North-HS","North-HS3",41.965,116.005,1390,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.369082801286095,2603.57699749384,2.70432297231415,-16.2182522434779,19.0592086629636,366.153140653213
6295,13353,10034,"Herzschuh et al., 2019","North-HY","North-HY1",38.305,106.485,1160,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.185425196052435,3642.07882649125,8.09659929934636,-8.9769456269352,22.9030808302273,210.419534840278
6295,13354,10035,"Herzschuh et al., 2019","North-HY","North-HY2",39.675,108.625,1000,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.202014245017976,3504.63826888105,7.08222710954332,-11.1835024346076,22.9361231522779,231.185774396447
6295,13355,10036,"Herzschuh et al., 2019","North-HY","North-HY3",39.335,108.215,1455,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.254871105979487,3287.50313095842,6.72016749845991,-10.1186923371929,21.4727325881954,283.852079780247
6296,13356,10037,"Herzschuh et al., 2019","North-HZ","North-HZ1",41.455,114.955,1330,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.363525630778783,2769.64710060243,3.77468134198612,-14.4765436482987,19.6212301577127,369.53227802419
6296,13357,10038,"Herzschuh et al., 2019","North-HZ","North-HZ2",41.565,115.035,1340,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.361633492859632,2756.88949673845,3.68172608397788,-14.645023267201699,19.5889576082107,367.065500485519
6296,13358,10039,"Herzschuh et al., 2019","North-HZ","North-HZ3",41.585,115.485,1375,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.370831765953393,2676.40838563627,3.24461327885782,-15.245276515271,19.2520663342805,372.200759767912
6296,13359,10040,"Herzschuh et al., 2019","North-HZ","North-HZ5",42.505,117.235,1520,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.370124994767085,2402.70375070625,1.53911495837726,-17.6820918881949,18.2980517768,359.996778730573
6297,13360,10041,"Herzschuh et al., 2019","North-J","North-J2",37.505,110.305,750,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.406877156480332,4452.62554214071,11.3631372633466,-5.08183446069004,25.17956290389,467.871364054882
6297,13361,10042,"Herzschuh et al., 2019","North-J","North-J3",37.405,109.265,1170,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.392839330232457,3688.38434108622,8.63084201700715,-7.48006390325042,22.4319768806373,439.211641755173
6297,13362,10043,"Herzschuh et al., 2019","North-J","North-J4",37.515,107.825,1300,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.316602728124941,3506.38538191861,7.88909144679815,-8.25174325439954,21.9692775093571,353.808089313623
6297,13363,10044,"Herzschuh et al., 2019","North-J","North-J5",37.575,108.655,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.36093839457496,3525.16052158406,8.00481598279632,-8.04712731157915,21.9089423379534,401.228878965945
6297,13364,10045,"Herzschuh et al., 2019","North-J","North-J6",37.705,107.345,1245,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.25095552963876,3590.11880895503,8.05808011040408,-8.55306464531518,22.4868560294831,284.011763724006
6297,13365,10046,"Herzschuh et al., 2019","North-J","North-J7",39.025,113.515,2740,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.438787951068869,1417.38932503464,-2.40056888091978,-19.6492431774278,12.679233439458,420.246560950947
6298,13366,10047,"Herzschuh et al., 2019","North-JA","North-JA2",40.565,117.485,1050,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.459163869657112,2655.65765095356,3.50141179390312,-14.2803366229982,18.9388502345763,442.114317208817
6299,13367,10048,"Herzschuh et al., 2019","North-LA","North-LA1",37.855,111.465,1660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.456162452858587,2783.23030280589,4.96464363553396,-11.0298299395683,18.7751567734415,483.010492224365
6299,13368,10049,"Herzschuh et al., 2019","North-LA","North-LA2",38.985,113.495,2245,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.441790463450405,1930.62347631015,0.48702780296495,-16.5106984642974,15.2684433218816,439.144705926275
6299,13369,10050,"Herzschuh et al., 2019","North-LA","North-LA3",39.015,113.505,2275,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.441105747270069,1896.53110922255,0.298521916170868,-16.7282416045079,15.1095447111163,437.353346115412
6299,13370,10051,"Herzschuh et al., 2019","North-LA","North-LA4",40.595,117.485,1790,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.436610565294607,1536.39875173957,-2.62475769367714,-21.2541238197807,13.7613627527213,379.450526788597
6299,13371,10052,"Herzschuh et al., 2019","North-LA","North-LA5",42.465,117.275,1520,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.379991754812516,2347.1177137786,1.31077005991568,-17.8220647360664,18.0001670108676,366.304361336766
6299,13372,10053,"Herzschuh et al., 2019","North-LA","North-LA6",40.985,111.565,1845,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.291395808863144,2569.55732626566,2.98097203803169,-14.9398197033676,18.8412250842191,311.919861824774
6300,13373,10054,"Herzschuh et al., 2019","North-O","North-O1",40.925,111.555,1460,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.298025853512612,2939.11192356865,4.68417769779317,-13.3695972005655,20.4181850602694,322.647717405527
6300,13374,10055,"Herzschuh et al., 2019","North-O","North-O2",40.595,117.905,670,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.477613936256221,3256.33220107854,6.34568246104166,-11.057080311875,21.3454510356561,477.246942914125
6301,13375,10056,"Herzschuh et al., 2019","North-PA","North-PA1",38.665,105.845,2400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.303819727544096,2752.91361727066,5.55010568877563,-8.4813684564752,18.0786860432759,319.135723789571
6301,13376,10057,"Herzschuh et al., 2019","North-PA","North-PA2",38.675,105.845,2305,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.292159071728873,2823.86710709931,5.75044306908651,-8.53160621918211,18.4725103619711,308.894487772762
6301,13377,10058,"Herzschuh et al., 2019","North-PA","North-PA3",37.865,111.455,1760,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.462392714990312,2631.6062735101,4.31023202559651,-11.6426955482774,18.1189933161478,484.923533703219
6301,13378,10059,"Herzschuh et al., 2019","North-PA","North-PA4",37.865,111.455,1820,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.466283342504527,2542.68560376407,3.92022126717963,-12.0058593378366,17.7265214491857,486.171179314562
6301,13379,10060,"Herzschuh et al., 2019","North-PA","North-PA5",37.875,111.445,1860,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.468907352711987,2483.19347301002,3.65515622676089,-12.2541754383486,17.4610686918468,486.911206517868
6301,13380,10061,"Herzschuh et al., 2019","North-PA","North-PA6",42.405,117.275,1470,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.384602216098671,2385.25114594384,1.55008456021358,-17.4739887933479,18.1544395332133,370.891681069391
6301,13381,10062,"Herzschuh et al., 2019","North-PA","North-PA7",38.155,100.245,2804,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.176766782817707,1538.88914419691,-0.01147998189677,-14.1957330366913,12.3795738480306,174.764720148444
6301,13382,10063,"Herzschuh et al., 2019","North-PA","North-PA8",38.155,100.245,2804,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.176766782817707,1538.88914419691,-0.01147998189677,-14.1957330366913,12.3795738480306,174.764720148444
6301,13383,10064,"Herzschuh et al., 2019","North-PA","North-PA9",38.155,100.245,2804,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.176766782817707,1538.88914419691,-0.01147998189677,-14.1957330366913,12.3795738480306,174.764720148444
6302,13384,10065,"Herzschuh et al., 2019","North-PH","North-PH1",40.135,119.425,945,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.45500731939365,2864.09152211741,4.36870647528698,-13.6622434892987,19.8677095071594,444.162737254188
6302,13385,10066,"Herzschuh et al., 2019","North-PH","North-PH2",40.135,119.425,865,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.462624275467675,2968.21158156513,4.88769381314498,-13.0380619957666,20.290719359626,454.484404270903
6302,13386,10067,"Herzschuh et al., 2019","North-PH","North-PH3",40.135,119.415,745,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.473973336046869,3128.45723885151,5.66766642725854,-12.0993580296664,20.9257896289884,470.039580884874
6302,13387,10068,"Herzschuh et al., 2019","North-PH","North-PH4",40.135,119.435,445,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.501587230639387,3549.42170983249,7.60866212790797,-9.7659010707264,22.5088770488672,508.661485477096
6302,13388,10069,"Herzschuh et al., 2019","North-PH","North-PH6",40.565,117.495,1260,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.452895159846768,2313.48035014275,1.7582433802657,-16.2648520005844,17.4656641241672,424.327718645479
6302,13389,10070,"Herzschuh et al., 2019","North-PH","North-PH8",40.595,117.485,1750,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.437878393011694,1590.74765916899,-2.29357662575973,-20.8770634203377,14.0412372547001,382.83866248243
6303,13390,10071,"Herzschuh et al., 2019","North-PI","North-PI1",42.435,117.265,1515,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.380366632660574,2352.55909350656,1.34474422547251,-17.7745560206596,18.0219658406508,366.845563452978
6303,13391,10072,"Herzschuh et al., 2019","North-PI","North-PI2",42.405,117.305,1450,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.38674215051377703,2398.37161766549,1.63530026721353,-17.3424372113769,18.2065573793154,372.805441797001
6303,13392,10073,"Herzschuh et al., 2019","North-PI","North-PI3",40.135,119.425,645,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.483223243863401,3265.3043915524,6.31490899225447,-11.3215628885535,21.4539964539092,482.868988566869
6303,13393,10074,"Herzschuh et al., 2019","North-PI","North-PI4",40.585,117.845,590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.479856255557894,3410.73814492901,7.03263852523068,-10.2793929171908,21.9258009723652,484.320802817818
6303,13394,10075,"Herzschuh et al., 2019","North-PI","North-PI5",40.875,111.585,1170,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.305479116827477,3234.82977066446,5.99033562991719,-12.1380142467597,21.59711279279,333.07796536015
6304,13395,10076,"Herzschuh et al., 2019","North-PO","North-PO1",40.585,117.475,1620,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.441840279139727,1772.91500826731,-1.21528779067191,-19.6513389315642,14.9532244028932,393.823021522942
6304,13396,10077,"Herzschuh et al., 2019","North-PO","North-PO2",40.585,117.485,1620,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.441903312449244,1772.25709864235,-1.21879220637153,-19.6541989082972,14.9498569617267,393.826021175545
6304,13397,10078,"Herzschuh et al., 2019","North-PO","North-PO3",37.495,108.215,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.329259725842567,3544.40169418624,8.01940241609195,-8.18903874451471,22.1097547166023,368.995597636241
6304,13398,10079,"Herzschuh et al., 2019","North-PO","North-PO4",40.565,111.515,1020,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.348845400344127,3478.26119280699,7.22987248825579,-10.4761083716582,22.2085222653084,379.614053862904
6305,13399,10080,"Herzschuh et al., 2019","North-PT","North-PT1",37.825,114.135,500,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.475045562676559,4318.60485234346,11.0431512924418,-4.73813931176757,24.5201396063605,528.502838244582
6305,13400,10081,"Herzschuh et al., 2019","North-PT","North-PT2",37.835,114.135,580,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.475972003391025,4196.68149449839,10.6058638451637,-5.1666238721778,24.0941436852796,527.174979867016
6306,13401,10082,"Herzschuh et al., 2019","North-QU","North-QU01",37.845,111.465,1635,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.45470684135153,2821.9410820494,5.13060989962989,-10.871382988898601,18.9395765225295,482.639987574988
6306,13402,10083,"Herzschuh et al., 2019","North-QU","North-QU02",40.565,117.475,1360,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.449719236098986,2158.57549654999,0.935825395114607,-17.202890980134,16.7714243210916,415.809103749164
6306,13403,10084,"Herzschuh et al., 2019","North-QU","North-QU03",40.565,117.475,1300,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.451540509165686,2251.77035840965,1.43293698880508,-16.6366893637811,17.1914385497437,420.894146415143
6306,13404,10085,"Herzschuh et al., 2019","North-QU","North-QU04",40.565,117.485,1160,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.455846303503133,2474.45676204885,2.58991153845795,-15.3183824881489,18.1686877893628,432.786053212923
6306,13405,10086,"Herzschuh et al., 2019","North-QU","North-QU05",37.235,113.875,960,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.502797467968569,3765.70834477963,9.21917029762013,-5.88099165940083,22.3150094435373,546.796162811943
6306,13406,10087,"Herzschuh et al., 2019","North-QU","North-QU06",37.435,114.035,1728,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.507443228557947,2712.91049253215,5.04620343451918,-9.99025850069463,18.2494923035386,526.883912443868
6306,13407,10088,"Herzschuh et al., 2019","North-QU","North-QU07",37.485,114.035,1564,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.503394350522525,2916.08357172448,5.86879646210076,-9.25284010257592,19.0967253627436,528.064495612849
6306,13408,10089,"Herzschuh et al., 2019","North-QU","North-QU08",37.485,114.035,1568,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.503479129338681,2910.99750947495,5.84826138917766,-9.27180841880324,19.0759206542209,528.01869905071
6306,13409,10090,"Herzschuh et al., 2019","North-QU","North-QU09",37.435,114.035,1730,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.507487632816839,2710.42859003453,5.0359440379593,-9.99972323827129,18.2390927768933,526.860806444661
6306,13410,10091,"Herzschuh et al., 2019","North-QU","North-QU10",36.145,113.715,641,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.528552726900157,4358.58430792352,11.456442499472,-3.2442230574622,24.3068893298453,585.513588636179
6306,13411,10092,"Herzschuh et al., 2019","North-QU","North-QU11",36.165,113.745,677,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.527445023488616,4303.41635167927,11.2650559893911,-3.43596390896073,24.1163664772493,583.476080563748
6306,13412,10093,"Herzschuh et al., 2019","North-QU","North-QU12",36.165,113.745,678,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.527422104809832,4301.95316437943,11.2599971168765,-3.44083440066327,24.1112540465331,583.429941483255
6306,13413,10094,"Herzschuh et al., 2019","North-QU","North-QU13",36.155,113.755,494,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.532451868760725,4552.96107338556,12.1041077734701,-2.6805158320728,24.9911888479757,592.750256416251
6307,13414,10095,"Herzschuh et al., 2019","North-SA","North-SA1",37.985,106.655,1250,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.209342121381663,3581.56052612072,8.00524800759849,-8.65601935914897,22.4655529380228,236.096152524063
6307,13415,10096,"Herzschuh et al., 2019","North-SA","North-SA2",39.355,106.955,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.180785890944295,3470.96494414443,7.26618390493443,-10.135238475145,22.4754979734184,204.740548951975
6307,13416,10097,"Herzschuh et al., 2019","North-SA","North-SA3",37.405,109.265,1050,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.402663190729894,3850.51263100134,9.17216921091746,-7.20270123798958,23.0515261070183,453.83910115844
6307,13417,10098,"Herzschuh et al., 2019","North-SA","North-SA4",37.505,110.305,750,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.406877156480332,4452.62554214071,11.3631372633466,-5.08183446069004,25.17956290389,467.871364054882
6308,13418,10099,"Herzschuh et al., 2019","North-SC","North-SC1",39.265,107.135,1360,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.194714640810517,3398.52334006683,7.05210127845988,-10.1169958460548,22.0791532241993,219.240175098672
6309,13419,10100,"Herzschuh et al., 2019","North-SD","North-SD",38.655,105.825,2168,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.277262254033294,2923.70386158197,6.04200044214258,-8.57009894263376,19.0164221816522,295.627107027437
6310,13420,10101,"Herzschuh et al., 2019","North-SG","North-SG1",37.955,106.655,1270,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.213723412652784,3560.97892483016,7.95240090335036,-8.6257347336621,22.3552119601902,240.518094270985
6311,13421,10102,"Herzschuh et al., 2019","North-SK","North-SK1",37.775,107.045,1330,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.241698099471206,3478.39523919159,7.71180397495742,-8.62493388720293,21.9614512631316,270.435380041234
6311,13422,10103,"Herzschuh et al., 2019","North-SK","North-SK2",37.715,106.895,1250,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.237870022038305,3592.45490401429,8.12879122376012,-8.32562517997399,22.4134896245675,267.860556653495
6311,13423,10104,"Herzschuh et al., 2019","North-SK","North-SK3",37.715,106.895,1500,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.299176733318995,3281.83134587049,7.27426750349674,-8.07709855701215,20.8329177964197,324.65519778216
6312,13424,10105,"Herzschuh et al., 2019","North-SL","North-SL1",40.505,107.595,1480,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.166117578418351,3315.36131919733,6.3523149983792,-11.6331561706136,22.1550618698312,190.753234497384
6312,13425,10106,"Herzschuh et al., 2019","North-SL","North-SL2",42.815,117.305,1480,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.386114979544799,2329.66763798504,1.20361833514874,-17.9616239660918,17.9232846832309,368.530538724558
6313,13426,10107,"Herzschuh et al., 2019","North-SM","North-SM1",37.845,106.735,1295,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.22100070040611,3532.70738634436,7.88145521614792,-8.57978625052369,22.2034742218605,248.132347565051
6313,13427,10108,"Herzschuh et al., 2019","North-SM","North-SM2",37.725,107.355,1255,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.253366325459729,3575.75049363501,8.01716569303348,-8.54794315255214,22.4158059231617,286.202663105752
6314,13428,10109,"Herzschuh et al., 2019","North-SS","North-SS1",39.795,111.455,1430,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.35575841405915,3047.88259800548,5.49657390554621,-11.9141381562452,20.4722181647089,385.612994958169
6315,13429,10110,"Herzschuh et al., 2019","North-ST","North-ST1",40.465,111.445,1010,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.348957039925308,3503.100166027,7.33719492071414,-10.3591765953135,22.2943480879542,380.685757485418
6315,13430,10111,"Herzschuh et al., 2019","North-ST","North-ST2",40.465,111.445,1010,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.348957039925308,3503.100166027,7.33719492071414,-10.3591765953135,22.2943480879542,380.685757485418
6315,13431,10112,"Herzschuh et al., 2019","North-ST","North-ST3",37.515,108.875,1460,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.359109189138839,3317.61719857416,7.3692243265559,-8.10157956364825,21.0071966833681,393.063705590589
6315,13432,10113,"Herzschuh et al., 2019","North-ST","North-ST4",40.795,113.275,1250,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.370432900475836,2992.02347673624,5.08953625466293,-12.5564296115943,20.3536978724144,386.73383391149
6316,13433,10114,"Herzschuh et al., 2019","North-SZ","North-SZ2",37.935,113.925,530,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.47419356367017,4269.70764915516,10.8629629521154,-4.93311140854167,24.3583908716955,526.256685375321
6316,13434,10115,"Herzschuh et al., 2019","North-SZ","North-SZ3",37.835,114.135,590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.476099499883205,4181.61985891972,10.5516291262156,-5.2193927413855,24.0410211671321,527.026558246262
6317,13435,10116,"Herzschuh et al., 2019","North-T","North-T1",40.505,117.595,550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.474908069742505,3546.91448173863,7.62567243458817,-9.5856228054617,22.4218174492399,485.221836111197
6317,13436,10117,"Herzschuh et al., 2019","North-T","North-T2",39.405,114.755,870,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.451673502838894,3479.63357319601,7.48346837745,-9.3687728136303,21.9644379174516,476.012010856115
6317,13437,10118,"Herzschuh et al., 2019","North-T","North-T3",37.945,114.075,260,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.47137834627844,4684.73273513922,12.3153883922605,-3.52544401757696,25.7867587975484,530.407201994772
6317,13438,10119,"Herzschuh et al., 2019","North-T","North-T4",37.125,114.245,228,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.494167563974525,4840.01377163283,12.9368004615809,-2.49824660538469,26.1170905606544,559.00510397686
6317,13439,10120,"Herzschuh et al., 2019","North-T","North-T5",37.195,114.155,386,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.495134280378847,4595.68278235514,12.1229774922603,-3.24748878138002,25.2893176360357,555.419250442604
6318,13440,10121,"Herzschuh et al., 2019","North-U","North-U1",38.995,112.505,1380,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.432548342470067,3067.24169661157,5.93982344640288,-10.6221769500777,20.1570606496717,461.117328356573
6318,13441,10122,"Herzschuh et al., 2019","North-U","North-U2",41.195,113.005,1550,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.321067126331907,2762.1701679998,3.96536510639959,-13.8119043593638,19.5523597855752,339.395291403746
6318,13442,10123,"Herzschuh et al., 2019","North-U","North-U3",39.815,114.805,1210,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.433428516489322,2968.89386278956,5.18562162497385,-12.0154873406577,20.0384572018959,444.980517642687
6318,13443,10124,"Herzschuh et al., 2019","North-U","North-U4",39.835,114.805,1165,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.434553138183555,3028.3987823062,5.45548045157228,-11.7171276092591,20.2801439505518,447.244636649923
6318,13444,10125,"Herzschuh et al., 2019","North-U","North-U5",38.655,105.845,2650,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.334427852210684,2568.29630867787,5.02383366157705,-8.36101947321645,17.0532704805555,345.329258864546
6318,13445,10126,"Herzschuh et al., 2019","North-U","North-U6",37.555,111.945,810,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.454358094201552,4164.0678192731,10.5892660410764,-4.84507306581807,23.893494511597,507.78234646548
6319,13446,10127,"Herzschuh et al., 2019","North-UL","North-UL1",37.765,107.385,1195,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.215165788130139,3622.37590004737,8.00248197186951,-9.13098121848371,22.8182595669571,246.707965426776
6319,13447,10128,"Herzschuh et al., 2019","North-UL","North-UL2",38.665,105.805,2010,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.258707957439006,3042.39925788614,6.37876122499017,-8.64268349521834,19.6679977566758,278.72125986972
6320,13448,10129,"Herzschuh et al., 2019","North-W","North-W01",40.595,117.475,2060,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.427790501606349,1191.67410021275,-4.85618758188518,-23.7963842279893,11.8761437577295,356.600439190778
6320,13449,10130,"Herzschuh et al., 2019","North-W","North-W02",40.595,117.475,2080,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.427124569228795,1167.7339908376,-5.02175394376503,-23.9849124958004,11.7362319580934,354.907408313217
6320,13450,10131,"Herzschuh et al., 2019","North-W","North-W03",38.645,105.845,2683,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.339225878812693,2542.58895110307,4.95252846389672,-8.3374654335432,16.9092457708057,349.366194566389
6320,13451,10132,"Herzschuh et al., 2019","North-W","North-W04",39.025,113.515,2840,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.438405008541666,1321.90164866362,-2.97903976986473,-20.2740591102461,12.1574272033586,416.61244483645
6320,13452,10133,"Herzschuh et al., 2019","North-W","North-W05",39.025,113.515,2800,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.43855402159463,1359.76685439785,-2.74765141428675,-20.0241327371188,12.3661496977984,418.066091282249
6320,13453,10134,"Herzschuh et al., 2019","North-W","North-W06",37.465,100.915,3314,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.238891451081131,1212.47507452948,-1.05406417700977,-14.104523124419,10.3102618515542,232.537009186795
6320,13454,10135,"Herzschuh et al., 2019","North-W","North-W07",37.465,100.915,3196,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.235583770611212,1321.69525506254,-0.549497357488219,-13.7414201194717,10.9284560677985,231.041205077379
6320,13455,10136,"Herzschuh et al., 2019","North-W","North-W08",37.465,100.915,2811,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.225249604691732,1694.92595478788,1.09675879095073,-12.5567196372281,12.9454456716465,226.160827262762
6320,13456,10137,"Herzschuh et al., 2019","North-W","North-W09",37.605,101.285,3196,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.245191268560614,1363.26168330995,-0.254593627229036,-13.2895072083379,11.119653508225,240.788689733659
6320,13457,10138,"Herzschuh et al., 2019","North-W","North-W10",37.605,101.285,3196,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.245191268560614,1363.26168330995,-0.254593627229036,-13.2895072083379,11.119653508225,240.788689733659
6320,13458,10139,"Herzschuh et al., 2019","North-W","North-W11",37.605,101.285,3196,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.245191268560614,1363.26168330995,-0.254593627229036,-13.2895072083379,11.119653508225,240.788689733659
6321,13459,21718,"SMPDSv1","North-western shore of Lake Trilistnika","Tonkov_m1",42.206469,23.318419,2216,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03712555315726,1647.76587075854,2.19806149158103,-8.76029293859321,11.8691084985438,858.437516081204
6322,13460,8305,"EMPDv2","northeast of Gnoien","Mrotzek_a4",54.0006666666667,12.6675444444444,40,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870551542077923,3128.98377437181,8.51755791828061,-0.461849812869544,17.2973816521099,597.83979937512
6322,13461,8306,"EMPDv2","northeast of Gnoien","Mrotzek_a5",53.9928972222222,12.6696555555556,46,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.871097330145109,3138.71251102925,8.5438114739039,-0.477456988484262,17.3303233940544,597.623688114082
6323,13462,13523,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","-54","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13524,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","-38","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13525,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","-22","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13526,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","-14","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13527,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","-5","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13528,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","4","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6323,13462,13529,"Neotoma","Northeast Shark River Slough","NESRS",25.74642,-80.58386,1,"not known","terrestrial","core","22","Glaser, P.H., B.C.S. Hansen, J.J. Donovan, T.J. Givnish, C.A. Stricker, and J.C. Volin. 2013. Holocene dynamics of the Florida Everglades with respect to climate, dustfall, and tropical storms. Proceedings of the National Academy of Sciences of the United States of America 110(43):17211-17216.","10.1073/pnas.1222239110",17,"temperate evergreen needleleaf open woodland",0.853853435692934,9021.02297309875,24.7151314331473,19.9802915071815,28.5968300092341,1268.31363133756
6324,13463,9034,"EMPDv2","Northern Anatolia","Shumilovskikh_a1",41.0364166666667,37.2158333333333,376,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.585438667255627,4561.33769457315,12.4968156015703,2.67978547558876,21.4503701907989,647.016684792855
6324,13464,9043,"EMPDv2","Northern Anatolia","Shumilovskikh_a10",39.8930666666667,37.40335,1432,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",0.409146987230781,3359.27076612402,8.72549771854712,-3.37774158427235,19.1233113157002,495.388237069361
6324,13465,9044,"EMPDv2","Northern Anatolia","Shumilovskikh_a11",39.5714,40.16255,1416,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.466778500061031,4004.9489734287,10.5481993630326,-3.03563680116742,23.3035156551638,620.175992342728
6324,13466,9045,"EMPDv2","Northern Anatolia","Shumilovskikh_a12",39.9943,40.5648833333333,1822,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",0.52291940439888,3054.18823544903,7.10617935555688,-6.32578115382592,19.3878298284014,629.96148982049294
6324,13467,9046,"EMPDv2","Northern Anatolia","Shumilovskikh_a13",40.2114166666667,40.2743666666667,1664,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",0.530244083717433,3227.13920281638,7.87830752799933,-5.27353158812372,19.8322189814828,635.541938300416
6324,13468,9047,"EMPDv2","Northern Anatolia","Shumilovskikh_a14",40.4789833333333,40.2639333333333,1807,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.533549652182021,2963.12798695095,6.876920489917,-6.23521654652807,18.73389387754,625.508757201117
6324,13469,9048,"EMPDv2","Northern Anatolia","Shumilovskikh_a15",40.5009833333333,40.2530833333333,2054,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.509890159058945,2692.00603436515,5.65461368692571,-7.78520231717327,17.8407779425452,598.66689198879
6324,13470,9049,"EMPDv2","Northern Anatolia","Shumilovskikh_a16",40.5799166666667,40.2285333333333,1279,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.561948442038533,3632.24928432073,9.56110479100799,-2.84308947865887,20.6759032244789,658.027662577454
6324,13471,9050,"EMPDv2","Northern Anatolia","Shumilovskikh_a17",40.6539166666667,40.2100333333333,807,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.59498521577547,4337.38015461012,11.8778837639647,0.0794217120960274,22.3870986320584,691.782444873747
6324,13472,9051,"EMPDv2","Northern Anatolia","Shumilovskikh_a18",40.678,40.2278,617,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.609467985866371,4677.61440515473,12.8153819319308,1.25689363997032,23.0862296713376,706.398577840161
6324,13473,9052,"EMPDv2","Northern Anatolia","Shumilovskikh_a19",40.7510833333333,40.2464666666667,273,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.636173425422573,5302.14470670068,14.5264238539745,3.39501334565154,24.3719700220229,732.191767511979
6324,13474,9035,"EMPDv2","Northern Anatolia","Shumilovskikh_a2",40.996,37.16875,491,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.566163552594503,4383.44185413979,12.0094297373693,1.99672019131496,21.0472036485294,628.73974563165
6324,13475,9053,"EMPDv2","Northern Anatolia","Shumilovskikh_a20",40.8198666666667,40.2667166666667,142,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.759606432366413,5497.34395274796,15.0612163088985,4.28248606459562,24.6075206447012,859.122152441832
6324,13476,9054,"EMPDv2","Northern Anatolia","Shumilovskikh_a21",40.96895,40.3652666666667,24,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.81014213773367,5712.0329130258,15.6494052411666,5.08643347644636,25.0066469977667,909.394856595146
6324,13477,9055,"EMPDv2","Northern Anatolia","Shumilovskikh_a22",41.1459,41.9315833333333,260,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.42231582484928,4850.79870349092,13.289859461619,3.48452468785806,21.9858015328508,1428.97543570506
6324,13478,9056,"EMPDv2","Northern Anatolia","Shumilovskikh_a23",41.20215,42.5207,2429,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.355811507733656,1940.58713202336,1.6134156827654,-13.5805839760985,14.815936700148301,382.21410664585
6324,13479,9057,"EMPDv2","Northern Anatolia","Shumilovskikh_a24",41.2266666666667,42.4675833333333,2195,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.465714907029185,2145.64604170744,2.83572981218735,-11.7790275457943,15.5522739189727,496.474359896475
6324,13480,9058,"EMPDv2","Northern Anatolia","Shumilovskikh_a25",41.2243833333333,42.4556,2007,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.55603440493674,2322.75535447737,3.82731814833537,-10.3309522084575,16.1611674522509,589.465244793005
6324,13481,9059,"EMPDv2","Northern Anatolia","Shumilovskikh_a26",41.2517333333333,42.3292833333333,1033,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",1.08526382135254,3391.43078172012,8.88936147477168,-2.7933235209306,19.1505298423706,1103.03441338362
6324,13482,9060,"EMPDv2","Northern Anatolia","Shumilovskikh_a27",41.2628666666667,42.2942,805,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",1.20621944370283,3743.17226774986,10.1613320311461,-0.938421891394683,19.9588587601924,1218.35493358042
6324,13483,9061,"EMPDv2","Northern Anatolia","Shumilovskikh_a28",41.2583833333333,42.1534333333333,603,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",1.2603907899321,4148.59200820669,11.3660055019361,0.779575934473722,20.7750186324844,1276.45197433592
6324,13484,9062,"EMPDv2","Northern Anatolia","Shumilovskikh_a29",41.221,41.7935,257,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.41993243814238,4879.00790756993,13.3671449522464,3.58757453051057,22.0620449008433,1429.29956693384
6324,13485,9036,"EMPDv2","Northern Anatolia","Shumilovskikh_a3",40.80805,37.0079833333333,1278,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.436053376108799,3315.11804067017,8.73395710414922,-2.72278331646261,18.4059857898757,501.163361849751
6324,13486,9063,"EMPDv2","Northern Anatolia","Shumilovskikh_a30",41.3705666666667,41.63535,217,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.33928736491495,5038.21595323119,13.8033313787156,4.00262011555767,22.6217967439743,1371.90946818103
6324,13487,9064,"EMPDv2","Northern Anatolia","Shumilovskikh_a31",41.3915833333333,41.5028166666667,368,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.25082023481225,4743.6509506701,12.9963039744386,2.86440223187546,22.0955920864228,1289.90346757301
6324,13488,9037,"EMPDv2","Northern Anatolia","Shumilovskikh_a4",40.7101166666667,37.0091166666667,989,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.474488048482867,3690.67008985912,10.022877259211601,-0.958784045584666,19.5348484279508,543.523155374246
6324,13489,9038,"EMPDv2","Northern Anatolia","Shumilovskikh_a5",40.71345,37.0160833333333,954,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.480636348543086,3732.90234158587,10.1601698254307,-0.750522570095986,19.6363766155886,549.438691342187
6324,13490,9039,"EMPDv2","Northern Anatolia","Shumilovskikh_a6",40.4221333333333,37.09005,729,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.517457804329092,4023.23087856844,11.0225503522423,0.57441768039327,20.2541055632485,585.735146962338
6324,13491,9040,"EMPDv2","Northern Anatolia","Shumilovskikh_a7",40.4080666666667,36.68175,719,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.500476736812017,4042.88010735471,11.0763838557663,0.67726956534977,20.2734157775451,569.34484799955
6324,13492,9041,"EMPDv2","Northern Anatolia","Shumilovskikh_a8",40.0547666666667,36.5614833333333,1239,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",0.398441908862882,3433.12874019007,9.11194199892934,-2.43152987813854,18.9318988477556,474.235507632672
6324,13493,9042,"EMPDv2","Northern Anatolia","Shumilovskikh_a9",39.9429333333333,36.5276,1586,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",17,"temperate evergreen needleleaf open woodland",0.338372571628978,3134.33920601486,7.88220136009003,-4.50841648103213,18.2198164840381,415.636326007816
6325,13494,6214,"EMPDv2","Northern Urals","Antipina_a6",60.00015,59.55822,223,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16422298232156,1916.34877586657,-0.342741958769556,-18.7386662843482,17.122065956468,576.227496984494
6325,13495,6215,"EMPDv2","Northern Urals","Antipina_a7",61.016751,60.032087,120,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13987138269465,1872.96435212434,-0.893101639288511,-19.9332628885672,17.2302309759627,539.500025204466
6325,13496,6207,"EMPDv2","Northern Urals","Antipina_Galimov_a1",59.5000202,60.07,220,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1281853243203,1985.67109191408,0.0794387512281361,-18.1479228667372,17.3896025853867,574.878028145415
6325,13497,6208,"EMPDv2","Northern Urals","Antipina_Galimov_a2",59.49486,60.0708,205,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.11796459966221,2002.57656593203,0.15772735799805301,-18.0954928160841,17.4821473464172,570.412441260726
6325,13498,21719,"SMPDSv1","Northern Urals","Lapteva_a71",59.3773833333333,57.7594666666666,181,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21924915884475,2110.23233325249,1.08466996720632,-16.486259666973,17.8355931772078,673.754515257663
6325,13499,21720,"SMPDSv1","Northern Urals","Lapteva_a72",59.6379833333333,56.84285,175,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20606290105469,2101.28424640713,1.05161986076837,-16.5428127650592,17.8116970198117,666.151849277831
6325,13500,21721,"SMPDSv1","Northern Urals","Lapteva_a73",59.3536833333333,57.1590833333333,176,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19980149436155,2115.84662040802,1.1270310888457,-16.4400920933207,17.855938430665,665.626361645072
6325,13501,21722,"SMPDSv1","Northern Urals","Lapteva_a78",59.5394166666666,59.1191166666666,610,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39386439477602,1563.82710302843,-2.00345100437237,-19.6014521217181,14.9986585073148,692.431062632828
6325,13502,21723,"SMPDSv1","Northern Urals","Lapteva_a79",59.5344833333333,59.1028833333333,760,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.48264056581659,1400.90875485397,-2.92742758071216,-20.3790136122952,14.0379889558481,724.628324323472
6325,13503,21724,"SMPDSv1","Northern Urals","Lapteva_a80",59.5320666666666,59.0994,820,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51904871559911,1337.73675713736,-3.29737954473706,-20.6907848196938,13.6536642841932,737.462820214755
6325,13504,21725,"SMPDSv1","Northern Urals","Lapteva_a81",59.5297666666666,59.09395,950,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.5998329547834,1204.65062741138,-4.10073967698626,-21.3690502604103,12.819954653401,765.152663734124
6325,13505,21726,"SMPDSv1","Northern Urals","Lapteva_a82",59.5282166666666,59.0899166666666,1070,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.67680663757695,1086.50149622994,-4.84306729539985,-21.9965596661811,12.0501287003772,790.627441351594
6325,13506,21727,"SMPDSv1","Northern Urals","Lapteva_a83",59.52495,59.0882833333333,1200,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.76318634766917,963.888207139741,-5.64658491361527,-22.6751938417459,11.2164806393517,818.34560768249
6325,13507,21728,"SMPDSv1","Northern Urals","Lapteva_a84",59.5226,59.0834333333333,1300,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.8313978592065,873.336896698802,-6.26619853114172,-23.2008346642752,10.5752809983962,839.359740003061
6325,13508,21729,"SMPDSv1","Northern Urals","Lapteva_a85",59.51785,59.0887666666666,1477,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.95836734207253,721.818541293351,-7.35822656179031,-24.1197650177743,9.44005228919805,877.692190885928
6325,13509,21730,"SMPDSv1","Northern Urals","Lapteva_a86",59.51785,59.0887666666666,300,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21977627422907,1926.88131806712,-0.0741085025231926,-17.9670862549741,16.9971028165357,626.502460619464
6325,13510,21731,"SMPDSv1","Northern Urals","Lapteva_a87",59.6581666666666,60.36155,177,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09408693843817,2015.39936531877,0.161573435369725,-18.2206667216048,17.5972168282095,556.421009035912
6325,13511,7742,"EMPDv2","Northern Urals","Lapteva_b103",60.47989,59.97728,161,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13130063573654,1913.00133536251,-0.547148907864151,-19.3369190407512,17.2727319248905,547.044265040538
6326,13512,21732,"SMPDSv1","Northern Yamal Peninsula","Lapteva_a115",71.1666666666666,67.0833333333333,10,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",0.940223588575178,774.915262314982,-9.0222625752133,-25.7756757527069,10.2585252887715,265.602476626439
6326,13513,21733,"SMPDSv1","Northern Yamal Peninsula","Lapteva_a116",70.4166666666666,68.5,50,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.00593863573211,862.473101179318,-8.45393771988963,-25.7514635170597,11.070557251318,299.370245339182
6326,13514,21734,"SMPDSv1","Northern Yamal Peninsula","Lapteva_a117",70.4166666666666,68.5,50,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.00593863573211,862.473101179318,-8.45393771988963,-25.7514635170597,11.070557251318,299.370245339182
6327,13515,3964,"CMPD","Northwest China LW","Northwest China LW-004",36.6257,103.34,1968,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.317713066143618,2805.3483628854,5.90318546228654,-8.08916774276158,18.0091691923359,332.265328807785
6327,13516,3965,"CMPD","Northwest China LW","Northwest China LW-009",37.2287,102.849,2791,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.299112551041024,1927.24490312107,2.54115867703082,-10.3214421590518,13.8536903899644,302.73856554289
6327,13517,3966,"CMPD","Northwest China LW","Northwest China LW-014",38.0993,102.31,1724,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.175704848673425,2948.32948023639,5.82522414081985,-9.67815145066403,19.4779528449145,188.812637621092
6327,13518,3967,"CMPD","Northwest China LW","Northwest China LW-016",38.259,101.9,2023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170311798132101,2553.7255471202,4.26864264533866,-10.9132263768205,17.6499035204709,179.641494577281
6327,13519,3968,"CMPD","Northwest China LW","Northwest China LW-017",38.302,101.743,2152,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170335266249625,2353.70193283928,3.4788384661447,-11.495396727178,16.6539635935828,177.327188048316
6327,13520,3969,"CMPD","Northwest China LW","Northwest China LW-020",38.4782,101.419,2434,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179364681030181,2014.42873366309,2.13892661190307,-12.3736103045696,14.907657401564,182.299852785395
6327,13521,3970,"CMPD","Northwest China LW","Northwest China LW-021",38.822,101.006,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134308752470579,2844.61331537954,5.14586038085127,-10.9720756057683,19.1611001992344,144.583258708046
6327,13522,3971,"CMPD","Northwest China LW","Northwest China LW-023",38.9973,100.43,1456,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.119581297748158,3257.9456083818,6.65871608875603,-10.027731724686,20.9954296986537,132.300412065678
6327,13523,3972,"CMPD","Northwest China LW","Northwest China LW-024",39.212,99.9786,1422,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114895787449123,3323.97870011329,6.91057677897504,-9.8203489315084,21.1980222682311,127.721606814382
6327,13524,3973,"CMPD","Northwest China LW","Northwest China LW-025",39.2129,99.9795,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114849050415891,3326.99111362265,6.92153170490843,-9.81277698329883,21.2113355111685,127.690328497897
6327,13525,3974,"CMPD","Northwest China LW","Northwest China LW-026",39.327,99.6976,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106607708173593,3438.31278781538,7.29253570707596,-9.61991174204377,21.7005749286426,119.9068593966
6327,13526,3975,"CMPD","Northwest China LW","Northwest China LW-027",39.3268,99.6969,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106605902583343,3438.31594480184,7.29258340302909,-9.61976258456391,21.7004863262337,119.905269382626
6327,13527,3976,"CMPD","Northwest China LW","Northwest China LW-028",39.2334,99.4719,1718,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11608630046681,2920.84899538597,5.39795581032833,-10.8836170380242,19.3401059661327,126.55628261619
6327,13528,3977,"CMPD","Northwest China LW","Northwest China LW-029",39.3524,99.082,1609,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104515304843353,3099.58853902621,6.03304555883821,-10.4854752923498,20.1548118623767,115.798882774591
6327,13529,3978,"CMPD","Northwest China LW","Northwest China LW-030",39.7833,98.3253,1593,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0906769314476574,3122.86201082928,6.08663024088736,-10.4458931803314,20.3002509080542,100.877060686023
6327,13530,3979,"CMPD","Northwest China LW","Northwest China LW-031",39.7829,98.325,1594,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0906885222213206,3121.48493506693,6.08132231071141,-10.4499481595587,20.2942375732505,100.882523547931
6327,13531,3980,"CMPD","Northwest China LW","Northwest China LW-032",39.8433,97.9516,1869,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.086349722819992,2745.35878864705,4.60094381946529,-11.5475830326104,18.6261182486062,94.0811874151742
6327,13532,3981,"CMPD","Northwest China LW","Northwest China LW-034",39.9367,97.7073,1783,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0786630014358553,2879.21667361604,5.13038758429189,-11.1347670331132,19.2375398685515,86.5461833117279
6327,13533,3982,"CMPD","Northwest China LW","Northwest China LW-036",40.5432,96.9291,1395,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0654239576580583,3506.13834027341,7.47841972329906,-9.45633633848408,22.0958870200685,74.7393033011012
6327,13534,3983,"CMPD","Northwest China LW","Northwest China LW-037",40.5742,96.4291,1307,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0598384313705848,3723.51892383339,8.23004372473639,-9.08429524634759,23.0401141578628,69.3087931304674
6327,13535,3984,"CMPD","Northwest China LW","Northwest China LW-038",40.6142,95.7283,1173,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0519185399934115,4093.01109304657,9.50684550085297,-8.43837894539982,24.5620181109552,61.3378202403094
6327,13536,3985,"CMPD","Northwest China LW","Northwest China LW-039",41.1165,95.4348,1792,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0501134287220675,3066.50502286679,5.74416142217454,-10.9776709197453,20.3685461308802,55.8357972714481
6327,13537,3986,"CMPD","Northwest China LW","Northwest China LW-041",41.8074,95.0788,1770,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.053452089813933,2908.88305126914,5.07760376226315,-11.4341531574523,19.7268427595644,58.5475611883799
6327,13538,3987,"CMPD","Northwest China LW","Northwest China LW-042",42.0365,94.5706,1114,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0381939025491122,3906.95293237167,8.7495442290369,-9.42771302931016,23.9904356802843,43.4720101013917
6327,13539,3988,"CMPD","Northwest China LW","Northwest China LW-043",42.3396,94.1584,705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0269471864299288,4578.2808622168895,11.0001017826429,-8.33109465997743,26.7484992427753,31.2987688655381
6327,13540,3989,"CMPD","Northwest China LW","Northwest China LW-044",42.5558,94.1519,807,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0307487568848426,4357.30211843259,10.2413765650996,-8.80424798143954,25.892524374383,35.3548022407066
6327,13541,3990,"CMPD","Northwest China LW","Northwest China LW-045",42.7398,93.9165,823,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0319378202962744,4319.17504897369,10.0906552915311,-8.97244298088025,25.7638561264024,36.5851677562955
6327,13542,3991,"CMPD","Northwest China LW","Northwest China LW-046",42.7411,93.9185,828,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.032118590266798,4309.36409945524,10.0566827092409,-8.99320720723681,25.7248500637813,36.7787288979631
6327,13543,3992,"CMPD","Northwest China LW","Northwest China LW-047",42.8899,93.5209,813,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0342515387685792,4270.38406557764,9.8097257135380609,-9.51913315604557,25.7211165014067,39.2430470057853
6327,13544,3993,"CMPD","Northwest China LW","Northwest China LW-048",43.0981,92.9173,912,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0392051958017719,4114.65714929562,9.19519498639446,-10.1126632448214,25.2187088459314,44.7418114729029
6327,13545,3994,"CMPD","Northwest China LW","Northwest China LW-049",43.2566,92.3596,1272,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0558192009220895,3419.84056299375,6.48736950288294,-12.1722574795986,22.4460017459883,62.3132733257962
6327,13546,3995,"CMPD","Northwest China LW","Northwest China LW-050",43.2581,92.359,1293,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0566530194370731,3384.34231283138,6.35008541138815,-12.261436817722,22.2895132479357,63.1408055927633
6327,13547,3996,"CMPD","Northwest China LW","Northwest China LW-051",43.3675,91.8105,1118,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.0524099625671434,3692.95612251907,7.45541524417993,-11.6607235900796,23.7037790093586,59.3850965865145
6327,13548,3997,"CMPD","Northwest China LW","Northwest China LW-052",43.3603,91.6813,907,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0473468112451426,4052.0963253609402,8.74950933811748,-10.8841420137457,25.2362333337059,54.4016342888711
6327,13549,3998,"CMPD","Northwest China LW","Northwest China LW-055",42.8911,90.1967,394,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0431436169383505,5034.41929941672,12.106052843387,-8.96086653788113,29.1399250805014,50.9724339366985
6327,13550,3999,"CMPD","Northwest China LW","Northwest China LW-057",42.8843,89.069,-80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0398145089043026,5874.55309066586,14.7990408944812,-7.5761017910771,32.4613425150141,47.8069728384498
6327,13551,4000,"CMPD","Northwest China LW","Northwest China LW-058",42.8662,88.9273,-86,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0403138870781381,5891.07378768783,14.8497565776865,-7.5540543999694,32.5282660009429,48.4062456688482
6327,13552,4001,"CMPD","Northwest China LW","Northwest China LW-059",42.6574,88.5763,281,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.050611611231796,5353.54975135166,13.228726532068,-8.05843436717939,30.2083465848415,59.7315470162829
6327,13553,4002,"CMPD","Northwest China LW","Northwest China LW-060",42.3899,88.5069,1729,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.118485167261943,2988.99770115704,4.87867260913223,-13.030954947402,19.9673748187337,126.210834638301
6327,13554,4003,"CMPD","Northwest China LW","Northwest China LW-063",42.123,87.2056,1068,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0739342160465894,4336.71979555952,10.2613500862775,-8.494032554803,25.0450685198121,84.7512539930339
6327,13555,4004,"CMPD","Northwest China LW","Northwest China LW-064",42.1231,87.2022,1066,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.073824487892075,4340.56483151332,10.2751373760537,-8.48323152438642,25.0590787299361,84.6391169088857
6327,13556,4005,"CMPD","Northwest China LW","Northwest China LW-066",42.3734,86.3366,1171,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0857203856028336,4125.63196640546,9.64450296757132,-8.58680184484985,23.9622376499803,96.4654345112116
6327,13557,4006,"CMPD","Northwest China LW","Northwest China LW-067",42.6935,86.2756,1647,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1158677419871,3321.85522749592,6.65692118504028,-10.8745161843075,20.7404110460269,125.016715552014
6327,13558,4007,"CMPD","Northwest China LW","Northwest China LW-068",42.874,86.3507,2019,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150451445021776,2690.43399534177,3.94742926497528,-13.3023986265137,18.1470589902055,155.607542319525
6327,13559,4008,"CMPD","Northwest China LW","Northwest China LW-069",43.0518,85.9783,3314,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.213040778797066,1283.66438919279,-2.34205074323562,-17.995975430642,10.7361414221695,202.26352270599
6327,13560,4009,"CMPD","Northwest China LW","Northwest China LW-072",43.3359,88.3181,1109,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11819100792438,3660.85954441632,6.9672581927363,-12.78833080715,23.3972607374819,127.467994842233
6328,13561,1202,"Australian pollen","Northwest Moorland","NWMoorSp",-41.44,145.61,800,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.60941883694392,2742.01675395327,7.51237466836512,3.00048567208251,12.6907078707056,1496.46590371709
6329,13562,13005,"Neotoma","Northwest River Pond","NWRIVER",53.516667,-60.166667,29,"not known","lake","core","0","Jordan, R.H. 1975. Pollen diagrams from Hamilton Inlet, central Labrador, and their environmental implications for the northern maritime Archaic. Arctic Anthropology 12:92-116.",,15,"cold evergreen needleleaf forest",1.69005461685711,1516.78151671642,-1.24670426088383,-17.5551459291926,13.8293402994378,870.043971951343
6330,13563,10561,"BIOME6000 Japan","Nose","NoseC0",34.97,135.42,190,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.7110508291775,5171.78807134699,14.169282387252,3.09586575964109,26.1249560144595,1702.54115648606
6331,13564,1203,"Australian pollen","Notts Swamp","Nott 1",-33.8,150.42,775,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.622776590959567,4606.39474481032,12.6202595748228,5.28316025212994,19.6593805250559,824.173774017516
6331,13565,1204,"Australian pollen","Notts Swamp","Nott 2",-33.8,150.42,775,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.622776590959567,4606.39474481032,12.6202595748228,5.28316025212994,19.6593805250559,824.173774017516
6331,13566,1205,"Australian pollen","Notts Swamp","Notts Swamp_JC91_0",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13567,1206,"Australian pollen","Notts Swamp","Notts Swamp_JC91_10",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13568,1207,"Australian pollen","Notts Swamp","Notts Swamp_JC91_15",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13569,1208,"Australian pollen","Notts Swamp","Notts Swamp_JC91_20",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13570,1209,"Australian pollen","Notts Swamp","Notts Swamp_JC91_25",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-14","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13571,1210,"Australian pollen","Notts Swamp","Notts Swamp_JC91_30",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6331,13572,1211,"Australian pollen","Notts Swamp","Notts Swamp_JC91_5",-33.81,150.41,682,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.655337648077609,4812.68209912498,13.1854304085616,6.03979726257598,19.9532367812853,861.941142446059
6332,13573,21736,"SMPDSv1","Novienky peat bog","EPDcoretop_E1052",52.24,54.751111,197,"not known","terrestrial, bog/fen/swamp","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",0.532328488385844,3049.43685746958,4.41171869267479,-14.336394619025,21.6725979504529,398.615820813213
6333,13574,8079,"EMPDv2","Novikovo","Mikishin-Gvozdeva_a142",46.3616666666667,143.363055555556,10,"not applicable","terrestrial","litter","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.59626257857782,2331.90152980391,3.76304730308046,-10.1728282171667,17.3734212751591,1017.31824900845
6334,13575,21737,"SMPDSv1","Novinki boloto","Novinki boloto_SS",52.24,54.7511,197,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",0.53232863171162,3049.43681290165,4.41171891079521,-14.3363935792908,21.6725973809974,398.615914200826
6335,13576,21738,"SMPDSv1","Novoaleksandrovskoe","Novoaleksandrovskoe_SS (Novenko_c271)																																																																																													38)",55.1159,41.1159,113,"0.17","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.841387721684468,2740.52614499757,4.69882564444204,-11.0838713497969,18.886953590909,584.984303408832
6336,13577,21739,"SMPDSv1","Novoalex peatland","NOVOALEX_core top",55.1180555555555,41.0397222222222,112,"5.6","terrestrial, bog/fen/swamp","peat core top","10","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.840671731264947,2740.90994191237,4.70318427716543,-11.0743645270003,18.8853099102787,584.40039328042
6337,13578,21740,"SMPDSv1","Novoe lake","Novoe lake_SS (Novenko_c251)",60.4926,34.5745,115,"0.01","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20232347132186,2167.72111454331,2.98195504540084,-11.5269733312466,16.4613029652022,666.366874894055
6338,13579,8208,"EMPDv2","Novokachalinsk_Lug","Mikishin-Gvozdeva_b39",45.1102777777778,132.024722222222,72,"not known","lake","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828352496756397,3107.45311486915,4.35289684136348,-16.3533983765116,21.4682981528192,627.681379752501
6339,13580,8206,"EMPDv2","Novokachalinsk_Ozertso","Mikishin-Gvozdeva_b37",45.1108333333333,132.016388888889,70,"0.002","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828294346718301,3110.13714014716,4.36390078957751,-16.3459155341721,21.4806461057594,627.690833904375
6340,13581,21741,"SMPDSv1","Novolskii peat bog","Novolskii peat bog_SS",55.2333,28.1833,168,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.936265579952395,2680.63676296773,5.68740844096603,-7.36180751819613,17.2055597072422,633.509659388516
6341,13582,6247,"EMPDv2","Novoselki","Binney2017_E2232",53.08,26.54,160,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.834730222416403,2926.74863935991,6.80485410469176,-6.11484153087459,17.8173782958127,599.911560220822
6342,13583,21742,"SMPDSv1","Novoselki boloto","Novoselki boloto_SS",53.2634611111111,25.9991861111111,201,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.889955505067023,2812.7054627774,6.37008869703652,-6.3955748159277,17.4624417577437,620.300023016532
6343,13584,6265,"EMPDv2","Noyabrsk","Binney2017_E2335",63.28,75.38,91,"not known","terrestrial, bog/fen/swamp","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2209202226533,1500.98461261626,-4.0925117727647,-22.8727301594573,15.8645899935812,511.791968815864
6343,13585,6266,"EMPDv2","Noyabrsk","Binney2017_E2336",63.28,75.38,91,"not known","terrestrial, bog/fen/swamp","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2209202226533,1500.98461261626,-4.0925117727647,-22.8727301594573,15.8645899935812,511.791968815864
6344,13586,21743,"SMPDSv1","Noyabrsk peatland","Novenko_b10",63.2833333333333,75.3833333333333,69,"0.2","terrestrial, bog/fen/swamp","peat core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21971099688369,1461.438837041,-4.3374141305537,-23.0266716494687,15.5841528404823,506.247988107467
6344,13587,9547,"EMPDv2","Noyabrsk peatland","Novenko_c90",63.2833,75.3833,87,"0.2","terrestrial, bog/fen/swamp","peat","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22075434607052,1493.655888264,-4.13761655353524,-22.9011004440227,15.8129682332367,510.772692198456
6344,13588,9548,"EMPDv2","Noyabrsk peatland","Novenko_c91",63.2833,75.3833,89,"0.2","terrestrial, bog/fen/swamp","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22086968691764,1497.26436260839,-4.11541866218226,-22.887149314856,15.838390110653,511.275403535089
6345,13589,21744,"SMPDSv1","Nubbevatn","Bjune_a114",60.3616666666666,5.41666666666666,390,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",4.00045278372542,2107.96613283193,5.54255159895405,-1.41843034891398,13.0305155934124,2089.75487848653
6346,13590,16186,"Neotoma","Nueltin Lake Site 1","JTA001",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13591,16190,"Neotoma","Nueltin Lake Site 1","JTA002",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13592,16193,"Neotoma","Nueltin Lake Site 1","JTA003",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13593,16192,"Neotoma","Nueltin Lake Site 1","JTA004",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13594,16196,"Neotoma","Nueltin Lake Site 1","JTA005",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13595,16188,"Neotoma","Nueltin Lake Site 1","JTA006",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13596,16191,"Neotoma","Nueltin Lake Site 1","JTA007",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13597,16189,"Neotoma","Nueltin Lake Site 1","JTA008",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13598,16194,"Neotoma","Nueltin Lake Site 1","JTA009",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13599,16187,"Neotoma","Nueltin Lake Site 1","JTA010",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6346,13600,16195,"Neotoma","Nueltin Lake Site 1","JTA011",60.03,-99.85,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.782937833116791,1059.10833012685,-9.14380014184825,-30.2375194446218,12.5485238908993,325.496478531795
6347,13601,16197,"Neotoma","Nueltin Lake Site 2","JTA012",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13602,16201,"Neotoma","Nueltin Lake Site 2","JTA013",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13603,16206,"Neotoma","Nueltin Lake Site 2","JTA014",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13604,16211,"Neotoma","Nueltin Lake Site 2","JTA015",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13605,16210,"Neotoma","Nueltin Lake Site 2","JTA016",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13606,16205,"Neotoma","Nueltin Lake Site 2","JTA017",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13607,16203,"Neotoma","Nueltin Lake Site 2","JTA018",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13608,16207,"Neotoma","Nueltin Lake Site 2","JTA019",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13609,16199,"Neotoma","Nueltin Lake Site 2","JTA020",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13610,16202,"Neotoma","Nueltin Lake Site 2","JTA021",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13611,16198,"Neotoma","Nueltin Lake Site 2","JTA022",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13612,16208,"Neotoma","Nueltin Lake Site 2","JTA023",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13613,16200,"Neotoma","Nueltin Lake Site 2","JTA024",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13614,16204,"Neotoma","Nueltin Lake Site 2","JTA025",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6347,13615,16209,"Neotoma","Nueltin Lake Site 2","JTA026",60.17,-99.727222,170,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.828938017090767,988.338583543531,-9.48871838741278,-30.266983247007,11.9031990517801,336.245898924477
6348,13616,16219,"Neotoma","Nueltin Lake Site 3","JTA027",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13617,16216,"Neotoma","Nueltin Lake Site 3","JTA028",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13618,16220,"Neotoma","Nueltin Lake Site 3","JTA029",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13619,16221,"Neotoma","Nueltin Lake Site 3","JTA030",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13620,16218,"Neotoma","Nueltin Lake Site 3","JTA031",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13621,16214,"Neotoma","Nueltin Lake Site 3","JTA032",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13622,16213,"Neotoma","Nueltin Lake Site 3","JTA033",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13623,16217,"Neotoma","Nueltin Lake Site 3","JTA034",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13624,16212,"Neotoma","Nueltin Lake Site 3","JTA035",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6348,13625,16215,"Neotoma","Nueltin Lake Site 3","JTA036",60.35,-99.7,230,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.820450879050907,1013.49590826655,-9.4771313752798,-30.5083316444994,12.2071592554098,336.211635147705
6349,13626,16224,"Neotoma","Nueltin Lake Site 4","JTA037",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13627,16223,"Neotoma","Nueltin Lake Site 4","JTA038",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13628,16226,"Neotoma","Nueltin Lake Site 4","JTA039",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13629,16231,"Neotoma","Nueltin Lake Site 4","JTA040",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13630,16229,"Neotoma","Nueltin Lake Site 4","JTA041",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13631,16228,"Neotoma","Nueltin Lake Site 4","JTA042",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13632,16230,"Neotoma","Nueltin Lake Site 4","JTA043",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13633,16232,"Neotoma","Nueltin Lake Site 4","JTA044",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13634,16222,"Neotoma","Nueltin Lake Site 4","JTA045",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13635,16225,"Neotoma","Nueltin Lake Site 4","JTA046",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13636,16227,"Neotoma","Nueltin Lake Site 4","JTA047",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6349,13637,16233,"Neotoma","Nueltin Lake Site 4","JTA048",60.43,-99.63,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.823386072808136,1122.61894109727,-8.64205755455274,-30.1013669940447,13.0648809309449,353.53352922157
6350,13638,16235,"Neotoma","Nueltin Lake Site 5","JTA049",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13639,16236,"Neotoma","Nueltin Lake Site 5","JTA050",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13640,16241,"Neotoma","Nueltin Lake Site 5","JTA051",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13641,16242,"Neotoma","Nueltin Lake Site 5","JTA052",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13642,16244,"Neotoma","Nueltin Lake Site 5","JTA053",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13643,16234,"Neotoma","Nueltin Lake Site 5","JTA054",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13644,16239,"Neotoma","Nueltin Lake Site 5","JTA055",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13645,16238,"Neotoma","Nueltin Lake Site 5","JTA056",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13646,16237,"Neotoma","Nueltin Lake Site 5","JTA057",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13647,16243,"Neotoma","Nueltin Lake Site 5","JTA058",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6350,13648,16240,"Neotoma","Nueltin Lake Site 5","JTA059",60.57,-99.4,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824510592236178,1114.47945587907,-8.71224578804425,-30.1497311595097,13.0104304484948,352.121914948477
6351,13649,16248,"Neotoma","Nueltin Lake Site 6","JTA060",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13650,16251,"Neotoma","Nueltin Lake Site 6","JTA061",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13651,16254,"Neotoma","Nueltin Lake Site 6","JTA062",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13652,16252,"Neotoma","Nueltin Lake Site 6","JTA063",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13653,16253,"Neotoma","Nueltin Lake Site 6","JTA064",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13654,16249,"Neotoma","Nueltin Lake Site 6","JTA065",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13655,16246,"Neotoma","Nueltin Lake Site 6","JTA066",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13656,16245,"Neotoma","Nueltin Lake Site 6","JTA067",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13657,16247,"Neotoma","Nueltin Lake Site 6","JTA068",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6351,13658,16250,"Neotoma","Nueltin Lake Site 6","JTA069",60.67,-99.33,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.824466472130706,1108.93031462206,-8.76558906552527,-30.190948165817,12.9756498166388,350.762065830943
6352,13659,16261,"Neotoma","Nueltin Lake Site 7","JTA070",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13660,16262,"Neotoma","Nueltin Lake Site 7","JTA071",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13661,16257,"Neotoma","Nueltin Lake Site 7","JTA072",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13662,16258,"Neotoma","Nueltin Lake Site 7","JTA073",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13663,16256,"Neotoma","Nueltin Lake Site 7","JTA074",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13664,16260,"Neotoma","Nueltin Lake Site 7","JTA075",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13665,16265,"Neotoma","Nueltin Lake Site 7","JTA076",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13666,16264,"Neotoma","Nueltin Lake Site 7","JTA077",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13667,16263,"Neotoma","Nueltin Lake Site 7","JTA078",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13668,16255,"Neotoma","Nueltin Lake Site 7","JTA079",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13669,16266,"Neotoma","Nueltin Lake Site 7","JTA080",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6352,13670,16259,"Neotoma","Nueltin Lake Site 7","JTA081",60.8,-99.2,300,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.818848108110081,1084.94135856954,-8.99648308722799,-30.3676385727103,12.8170875220521,344.340863920909
6353,13671,16272,"Neotoma","Nueltin Lake Site 8","JTA082",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13672,16271,"Neotoma","Nueltin Lake Site 8","JTA083",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13673,16275,"Neotoma","Nueltin Lake Site 8","JTA084",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13674,16267,"Neotoma","Nueltin Lake Site 8","JTA085",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13675,16270,"Neotoma","Nueltin Lake Site 8","JTA086",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13676,16278,"Neotoma","Nueltin Lake Site 8","JTA087",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13677,16277,"Neotoma","Nueltin Lake Site 8","JTA088",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13678,16274,"Neotoma","Nueltin Lake Site 8","JTA089",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13679,16268,"Neotoma","Nueltin Lake Site 8","JTA090",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13680,16269,"Neotoma","Nueltin Lake Site 8","JTA091",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13681,16276,"Neotoma","Nueltin Lake Site 8","JTA092",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6353,13682,16273,"Neotoma","Nueltin Lake Site 8","JTA093",60.83,-99,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.821209915338842,1057.41821682338,-9.20796396515584,-30.4729205261905,12.6046827163738,340.940528934882
6354,13683,16287,"Neotoma","Nueltin Lake Site 9","JTA094",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13684,16283,"Neotoma","Nueltin Lake Site 9","JTA095",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13685,16280,"Neotoma","Nueltin Lake Site 9","JTA096",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13686,16291,"Neotoma","Nueltin Lake Site 9","JTA097",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13687,16282,"Neotoma","Nueltin Lake Site 9","JTA098",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13688,16288,"Neotoma","Nueltin Lake Site 9","JTA099",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13689,16286,"Neotoma","Nueltin Lake Site 9","JTA100",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13690,16281,"Neotoma","Nueltin Lake Site 9","JTA101",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13691,16289,"Neotoma","Nueltin Lake Site 9","JTA102",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13692,16290,"Neotoma","Nueltin Lake Site 9","JTA103",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13693,16285,"Neotoma","Nueltin Lake Site 9","JTA104",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13694,16279,"Neotoma","Nueltin Lake Site 9","JTA105",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6354,13695,16284,"Neotoma","Nueltin Lake Site 9","JTA106",60.85,-99.63,280,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.809246344014025,1047.63330503954,-9.36788391454601,-30.64039284265,12.5597219034876,334.258830765188
6355,13696,15188,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","-46","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15189,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","-34","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15190,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","-21","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15191,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","-9","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15192,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","4","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15193,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","16","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15194,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","29","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6355,13696,15195,"Neotoma","Nunalleq","NUNAL15",59.72039,-161.844595,8,"not known","archaeological site","excavation","42","Ledger, P.M. 2018. Are circumpolar hunter-gatherers visible in the palaeoenvironmental record? Pollen-analytical evidence from Nunalleq, southwestern Alaska. The Holocene 28(3):415-426.",,30,"tundra",1.02127453613881,1427.86176746206,-0.684050521885448,-12.3990003599,12.397474919995,455.688274975325
6356,13697,21745,"SMPDSv1","Nuottijarvi","Seppa_b31",64.15,27.53,165,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0588433254697,1946.92639743805,1.88180844688918,-12.016752120894,15.9270968861376,520.936104822157
6357,13698,24463,"Southern Hemisphere pollen","Nurenk Swamp","Nurenk_10",-5.6,144.35,1950,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-2","Hope, G.S., Gillieson, D. and Head, J., 1988. A comparison of sedimentation and environmental change in New Guinea shallow lakes. Journal of Biogeography, pp.603-618.","10.2307/2845439",3,"tropical deciduous broadleaf forest and woodland",1.95452650003967,7648.43758807293,20.9546235289669,20.0044324926507,21.4893714392424,2747.99630449899
6357,13699,24464,"Southern Hemisphere pollen","Nurenk Swamp","Nurenk_20",-5.6,144.35,1950,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","11","Hope, G.S., Gillieson, D. and Head, J., 1988. A comparison of sedimentation and environmental change in New Guinea shallow lakes. Journal of Biogeography, pp.603-618.","10.2307/2845439",3,"tropical deciduous broadleaf forest and woodland",1.95452650003967,7648.43758807293,20.9546235289669,20.0044324926507,21.4893714392424,2747.99630449899
6357,13700,24465,"Southern Hemisphere pollen","Nurenk Swamp","Nurenk_30",-5.6,144.35,1950,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","35","Hope, G.S., Gillieson, D. and Head, J., 1988. A comparison of sedimentation and environmental change in New Guinea shallow lakes. Journal of Biogeography, pp.603-618.","10.2307/2845439",3,"tropical deciduous broadleaf forest and woodland",1.95452650003967,7648.43758807293,20.9546235289669,20.0044324926507,21.4893714392424,2747.99630449899
6358,13701,9495,"EMPDv2","Nurgush","Novenko_c161",58.0111,48.3542,102,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.958364819750694,2580.94149947971,3.5800128864657,-13.2347453768963,19.2102495234658,595.445742331578
6358,13702,9496,"EMPDv2","Nurgush","Novenko_c162",58.0186,48.4603,93,"0.01","terrestrial, soil","soil sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.95289101109079,2599.12960548175,3.66011775935695,-13.147459939749,19.2735722221672,594.288627607805
6359,13703,1212,"Australian pollen","Nursery Swamp","Core 02/1",-35.6814,148.9669,1092,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.853576752228905,3387.88652123873,9.28188088010612,1.88551761279975,16.5831654042639,1027.89538454259
6360,13704,21746,"SMPDSv1","Nussbaumer Seen","EPDcoretop_E1031",47.616667,8.833333,434,"20","lake","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13055080285356,3385.61821454838,9.26598559420629,-0.0926689037403403,18.3420233671584,887.427853787411
6361,13705,14088,"Neotoma","Nutella Lake","NUTELLA",63.052,-147.39172,931,"not known","lake","core","-46","Edwards, M.E., and M. Rohr. 2005.; Rohr, M. 2001. Paleoenvironmental changes at treeline: A 6,500 year long pollen and stable isotope record. Master's thesis. University of Alaska, Fairbanks, Alaska, USA.",,15,"cold evergreen needleleaf forest",0.884644386183406,1229.61606837808,-4.54179512328319,-20.5664416171455,11.9621546517259,360.616637939522
6362,13706,7951,"EMPDv2","Nutovo_1","Mikishin-Gvozdeva_a11",52.5805555555556,143.125,25,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24755763058287,1814.65651401009,-0.917692401835886,-19.1325479080769,15.1619354199384,655.416767059772
6363,13707,8102,"EMPDv2","Nutovo_2","Mikishin-Gvozdeva_a159",52.6108333333333,143.1275,20,"0.14","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24804332621773,1816.39039967237,-0.917648384576918,-19.1333045439337,15.1739688881855,654.900040067864
6364,13708,13004,"Neotoma","Nutt Lake","NUTTLAKE",45.216667,-79.45,305,"not known","lake","core","-34","Bennett, K.D. 1987. Holocene history of forest trees in southern Ontario. Canadian Journal of Botany 65:1792-1801.",,9,"cool mixed forest",1.17475494956811,2805.84300370762,5.15932444513624,-10.5757588583295,19.1353569380965,959.3452116259
6365,13709,99,"APD","Nyamusenyi River","LT98-98M_1",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-48","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13710,100,"APD","Nyamusenyi River","LT98-98M_12",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-40","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13711,101,"APD","Nyamusenyi River","LT98-98M_15",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-38","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13712,102,"APD","Nyamusenyi River","LT98-98M_18",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-28","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13713,103,"APD","Nyamusenyi River","LT98-98M_21",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-25","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13714,104,"APD","Nyamusenyi River","LT98-98M_24",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-22","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13715,105,"APD","Nyamusenyi River","LT98-98M_27",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-19","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13716,106,"APD","Nyamusenyi River","LT98-98M_3",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-46","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13717,107,"APD","Nyamusenyi River","LT98-98M_30",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-17","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13718,108,"APD","Nyamusenyi River","LT98-98M_33",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-13","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13719,109,"APD","Nyamusenyi River","LT98-98M_34",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-12","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13720,110,"APD","Nyamusenyi River","LT98-98M_6",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-44","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6365,13721,111,"APD","Nyamusenyi River","LT98-98M_9",-3.61916666666666,29.0069444444444,773,"not applicable","fluvial","core","-42","Msaky, E.S., Livingstone, D. and Davis, O.K., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: V. Palynological evidence for deforestation and increased erosion. Journal of Paleolimnology, 34(1), pp.73-83.;
Cohen, A.S., Palacios-Fest, M.R., McGill, J., Swarzenski, P.W., Verschuren, D., Sinyinza, R., Songori, T., Kakagozo, B., Syampila, M., O’Reilly, C.M. and Alin, S.R., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: I. An introduction to the project. Journal of Paleolimnology, 34(1), pp.1-18.;
McKee, B.A., Cohen, A.S., Dettman, D.L., Palacios-Fest, M.R., Alin, S.R. and Ntungumburanye, G., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: II. Geochronologies and mass sedimentation rates based on 14C and 210Pb data. Journal of Paleolimnology, 34(1), pp.19-29.;
Palacios-Fest, M.R., Cohen, A.S., Lezzar, K., Nahimana, L. and Tanner, B.M., 2005. Paleolimnological investigations of anthropogenic environmental change in Lake Tanganyika: III. Physical stratigraphy and charcoal analysis. Journal of Paleolimnology, 34(1), pp.31-49.","10.1007/s10933-005-2398-0;
10.1007/s10933-005-2392-6;
10.1007/s10933-005-2395-3;
10.1007/s10933-005-2396-2",4,"warm-temperate evergreen and mixed forest",0.78843664938059,8772.63534239153,24.0346173764152,23.0248688455858,24.7698633823197,1156.90104993701
6366,13722,17640,"Phelps et al., 2020","Nyasanga/Kahama River","LT98-58M_1",-4.688333,29.616667,767,"not applicable","fluvial","core","5","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.710434718958409,8618.59113845714,23.6125784615264,22.2303071474176,24.7557894004801,1087.76369180476
6366,13723,17641,"Phelps et al., 2020","Nyasanga/Kahama River","LT98-58M_3",-4.688333,29.616667,767,"not applicable","fluvial","core","14","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.710434718958409,8618.59113845714,23.6125784615264,22.2303071474176,24.7557894004801,1087.76369180476
6366,13724,17642,"Phelps et al., 2020","Nyasanga/Kahama River","LT98-58M_6",-4.688333,29.616667,767,"not applicable","fluvial","core","28","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.710434718958409,8618.59113845714,23.6125784615264,22.2303071474176,24.7557894004801,1087.76369180476
6366,13725,17643,"Phelps et al., 2020","Nyasanga/Kahama River","LT98-58M_9",-4.688333,29.616667,767,"not applicable","fluvial","core","42","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",4,"warm-temperate evergreen and mixed forest",0.710434718958409,8618.59113845714,23.6125784615264,22.2303071474176,24.7557894004801,1087.76369180476
6367,13726,21747,"SMPDSv1","Nyhustjern","Bjune_a38",64.47173081,12.74949615,333,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.10431496908057,1513.71178667231,2.35682610701833,-6.33068780472191,11.664031674492,1343.03044695907
6368,13727,8046,"EMPDv2","Nyide","Mikishin-Gvozdeva_a108",52.595,141.824166666667,2,"not known","coastal, other","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20296609421671,1875.38334209164,-0.799442804392543,-19.4458632956124,15.4844065209566,640.908110828085
6369,13728,7983,"EMPDv2","Nysh_1","Mikishin-Gvozdeva_a43",51.5186111111111,142.837777777778,60,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21917360690364,1849.78810478621,-0.575668008988113,-18.7572815302427,15.2912047394151,663.09826897254
6370,13729,7987,"EMPDv2","Nysh_2","Mikishin-Gvozdeva_a47",51.5391666666667,142.765,10,"not known","fluvial","sediment sample","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19329443918801,1901.69708899809,-0.397826422264081,-18.7286128264632,15.5672224509543,652.089300302402
6371,13730,9662,"Gaillard et al., 1992","O Mocklo","O Mocklo B",56.148036,15.754016,2,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.856198112326748,2808.83605311743,7.48240265676684,-1.26588745650604,16.6815427304203,572.204731747364
6372,13731,9663,"Gaillard et al., 1992","O Skallo","O Skallo",56.115618,15.730762,6,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.857144307114429,2817.81727009071,7.50861118644706,-1.25968414085987,16.694189796023,574.001947621293
6373,13732,13632,"Neotoma","Oak Glen Lake","OAKGLEN",43.92945,-93.0815,391,"not known","lake","core","-29","Unpublished data",,13,"temperate deciduous broadleaf forest",0.911978194973125,3503.94380934926,7.32577921862948,-10.4734420748981,22.4110497752448,809.936850071115
6373,13732,13633,"Neotoma","Oak Glen Lake","OAKGLEN",43.92945,-93.0815,391,"not known","lake","core","8","Unpublished data",,13,"temperate deciduous broadleaf forest",0.911978194973125,3503.94380934926,7.32577921862948,-10.4734420748981,22.4110497752448,809.936850071115
6373,13732,13634,"Neotoma","Oak Glen Lake","OAKGLEN",43.92945,-93.0815,391,"not known","lake","core","32","Unpublished data",,13,"temperate deciduous broadleaf forest",0.911978194973125,3503.94380934926,7.32577921862948,-10.4734420748981,22.4110497752448,809.936850071115
6374,13733,17254,"Neotoma","Oak Lake","LFR68100",49.6761,-100.75095,430,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.60455971647061,2691.8262155495,2.78004403279157,-17.1806807681095,19.5141923445666,474.114875460304
6375,13734,1213,"Australian pollen","Oaks Creek","Oaks Creek",-37.5856,146.0214,610,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.987444881542162,4087.46398898252,11.1985314766645,4.73833946872782,18.0675455402729,1107.80097823171
6376,13735,11645,"Neotoma","Oasis Pond","GPPS-15",42.652685,-100.88399,891,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.472418215365581,3543.27878278671,8.40788941976123,-6.46354325350282,23.2632463292489,478.996264762856
6377,13736,21750,"SMPDSv1","Ob River","Lapteva_a109",66.807777,68.806666,20,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13686624865027,1189.59199934321,-5.96161839484243,-24.0144986493522,13.810449622819,413.951011658277
6377,13737,21751,"SMPDSv1","Ob River","Lapteva_a110",66.807777,68.806666,20,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13686624865027,1189.59199934321,-5.96161839484243,-24.0144986493522,13.810449622819,413.951011658277
6377,13738,21752,"SMPDSv1","Ob River","Lapteva_a111",66.807777,68.806666,30,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13497440804687,1182.42983934178,-6.00895440157963,-24.0525808047248,13.7674512948316,413.133906748821
6377,13739,21753,"SMPDSv1","Ob River","Lapteva_a112",66.761111,69.159722,30,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13668158131075,1182.4460177249,-6.01078673552092,-24.0515719293143,13.7596815972432,413.545736893199
6377,13740,21754,"SMPDSv1","Ob River","Lapteva_a113",66.558889,67.803611,30,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14864322479638,1243.85819124946,-5.56771740831267,-23.7694114225411,14.2863458511297,431.792395099619
6378,13741,21755,"SMPDSv1","Oberaar","EPDcoretop_E1138",46.547083,8.26125,2315,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.23947041810778,797.23793228447,-0.429075988834495,-7.18204528527793,7.00491502285553,2232.5358219479
6379,13742,6994,"EMPDv2","Oberderdingen-Grossvillars","EPDcoretop_E1467",49.04,8.76,207,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.853144359172399,3479.90580766873,9.53398851416091,0.170137155217482,18.5440207567955,652.893169749883
6380,13743,21756,"SMPDSv1","Obere Kellesee","CH/WVDK/Z4",45.987326,7.77958,2915,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.42363644226735,360.653795500269,-2.99082779987363,-9.30503591033533,4.15236910631396,2309.72618438557
6381,13744,11102,"Bush et al., 2020","Ocelotpond","Ocelotpond",9.12,-79.12,3,"not known","lake","lake surface sample","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.67536134333441,9639.57648244219,26.4097985820334,25.5623824145017,27.658637577482,2724.46526448958
6382,13745,13531,"Neotoma","Ocheda Lake","OCHEDA",43.56928,-95.59275,476,"not known","lake","core","-10","Unpublished data",,22,"steppe",0.723245487731982,3472.73023432077,7.17024103235686,-10.6262064988304,22.755540206018,661.207677513561
6382,13745,13532,"Neotoma","Ocheda Lake","OCHEDA",43.56928,-95.59275,476,"not known","lake","core","9","Unpublished data",,22,"steppe",0.723245487731982,3472.73023432077,7.17024103235686,-10.6262064988304,22.755540206018,661.207677513561
6382,13745,13533,"Neotoma","Ocheda Lake","OCHEDA",43.56928,-95.59275,476,"not known","lake","core","19","Unpublished data",,22,"steppe",0.723245487731982,3472.73023432077,7.17024103235686,-10.6262064988304,22.755540206018,661.207677513561
6382,13745,13534,"Neotoma","Ocheda Lake","OCHEDA",43.56928,-95.59275,476,"not known","lake","core","47","Unpublished data",,22,"steppe",0.723245487731982,3472.73023432077,7.17024103235686,-10.6262064988304,22.755540206018,661.207677513561
6383,13746,10548,"BIOME6000 Japan","Odanoike","OdnikD0",33.12,131.18,770,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",2.96680925668644,4120.74489355505,11.2645897924923,-0.266888854418472,22.3820836115193,2847.53393076922
6384,13747,1214,"Australian pollen","ODP 820","ODP 820",-16.633,146.3,-280,"not applicable","marine","core top","-40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
6385,13748,43,"APD","ODP Site 658 A","658ABRUN_173",20.7492,-18.5808,-2263,"not applicable","marine","core","8","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6385,13749,44,"APD","ODP Site 658 A","658ABRUN_23",20.7492,-18.5808,-2263,"not applicable","marine","core","1","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6385,13750,45,"APD","ODP Site 658 A","658ABRUN_251",20.7492,-18.5808,-2263,"not applicable","marine","core","12","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6385,13751,46,"APD","ODP Site 658 A","658ABRUN_386",20.7492,-18.5808,-2263,"not applicable","marine","core","18","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6385,13752,47,"APD","ODP Site 658 A","658ABRUN_450",20.7492,-18.5808,-2263,"not applicable","marine","core","21","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6385,13753,48,"APD","ODP Site 658 A","658ABRUN_95",20.7492,-18.5808,-2263,"not applicable","marine","core","5","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.;
Dupont, L. M., H. J. Beug. 1991. Marine palynological studies  of NW Africa. Palaeoecology of Africa 22, 135-155.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x;
",,"not applicable",,,,,,
6386,13754,49,"APD","ODP Site 658 B","658BBRUN_138",20.7492,-18.5808,-2263,"not applicable","marine","core","7","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13755,50,"APD","ODP Site 658 B","658BBRUN_232",20.7492,-18.5808,-2263,"not applicable","marine","core","11","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13756,51,"APD","ODP Site 658 B","658BBRUN_307",20.7492,-18.5808,-2263,"not applicable","marine","core","15","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13757,52,"APD","ODP Site 658 B","658BBRUN_382",20.7492,-18.5808,-2263,"not applicable","marine","core","18","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13758,53,"APD","ODP Site 658 B","658BBRUN_457",20.7492,-18.5808,-2263,"not applicable","marine","core","21","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13759,54,"APD","ODP Site 658 B","658BBRUN_532",20.7492,-18.5808,-2263,"not applicable","marine","core","24","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13760,55,"APD","ODP Site 658 B","658BBRUN_607",20.7492,-18.5808,-2263,"not applicable","marine","core","27","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13761,56,"APD","ODP Site 658 B","658BBRUN_682",20.7492,-18.5808,-2263,"not applicable","marine","core","30","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13762,57,"APD","ODP Site 658 B","658BBRUN_72",20.7492,-18.5808,-2263,"not applicable","marine","core","4","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13763,58,"APD","ODP Site 658 B","658BBRUN_757",20.7492,-18.5808,-2263,"not applicable","marine","core","33","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6386,13764,59,"APD","ODP Site 658 B","658BBRUN_832",20.7492,-18.5808,-2263,"not applicable","marine","core","36","Leroy, S.A.G. and Dupont., L., 1994. Development of vegetation and  continental aridity in northwestern Africa during the Late Pleistocene: the pollen record of ODP Site 658. Palaeogeography, Palaeoclimatology, Palaeoecology 109, 295-316.;
Dupont, L.M., 1992. Marine palynology of interglacial-glacial  transitions. In: Kukla G., Went E. (eds). Start of a  Glacial. NATO, ASI Series I, 3, Springer, Heidelberg  137-155.;
Dupont, L.M., 1989. Palynology of the last 680,000 years of  ODP Site 658 (off NW-Africa): fluctuations in paleowind systems. In: Leinen M., Sarnthein M. (eds). Paleoclimatology and Paleometeorology: Modern and Past Patterns of Global Atmospheric Transport. NATO ASI Series  C282, Kluwer Academic Publishers, 779-794.;
Dupont, L.M. and Hooghiemstra, H., 1989. The Saharan–Sahelian boundary during the Brunhes chron. Acta Botanica Neerlandica, 38(4), pp.405-415.","10.1016/0031-0182(94)90181-3;
10.1007/978-3-642-76954-2_11;
;
10.1111/j.1438-8677.1989.tb01372.x",,"not applicable",,,,,,
6387,13765,14456,"Neotoma","Ogaromtoc Lake","OGAROM",41.4861049999999,-123.541235,596,"not known","lake","core","-59","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.23535260555338,3975.20743431119,10.8909792720855,4.98065315967428,17.6385376077804,1218.08744409169
6387,13765,14457,"Neotoma","Ogaromtoc Lake","OGAROM",41.4861049999999,-123.541235,596,"not known","lake","core","-46","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.23535260555338,3975.20743431119,10.8909792720855,4.98065315967428,17.6385376077804,1218.08744409169
6387,13765,14458,"Neotoma","Ogaromtoc Lake","OGAROM",41.4861049999999,-123.541235,596,"not known","lake","core","-26","Crawford, J.N. 2012. Evidence for Native American land-use impacts on forest structure and fire regimes in the Lower Klamath River Region of California. Doctoral dissertation. University of Nevada, Reno, Reno, Nevada, USA.; Crawford, J.N., S.A. Mensing, F.K. Lake, and S.R.H. Zimmerman. 2015. Late Holocene fire and vegetation reconstruction from the western Klamath Mountains, California, USA: a multidisciplinary approach for examining potential human land-use impacts. The Holocene 25(8):1341-1357.","10.1177/0959683615584205",4,"warm-temperate evergreen and mixed forest",1.23535260555338,3975.20743431119,10.8909792720855,4.98065315967428,17.6385376077804,1218.08744409169
6388,13766,10632,"BIOME6000 Japan","Ogawara","OgwrC0",40.73,141.27,7,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.68755795121977,3569.75022262038,9.32726172574054,-2.53178419073757,22.3935193011298,1349.15837203093
6389,13767,10555,"BIOME6000 Japan","Ohdai Masakigahara","Odi942C0",34.18,136.11,1630,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",4.22483632996223,2565.37532439707,5.47886739641731,-6.55835757346667,17.6312020494008,3573.22667492648
6390,13768,10554,"BIOME6000 Japan","Ohdai Nanatsuike","Odi945C0",34.18,136.09,1490,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",3.94743180380428,2769.92342145225,6.35714975117854,-5.56193825222512,18.4485263482954,3404.26654367466
6391,13769,21757,"SMPDSv1","Ohenjarvi","Seppa_b52",63.12,26.78,155,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00597465128282,2032.65622788176,2.50168917299859,-10.9576257193712,16.1536298181731,521.755885191727
6392,13770,11863,"Neotoma","Ohio River flood plain","KKMFA11",38.67777778,-83.10361111,150,"not known","fluvial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.06818763682533,4389.99631748949,11.7912744897373,-2.01310237073167,23.7110023439321,1031.5545487039
6393,13771,10572,"BIOME6000 Japan","Ohnuma","OhnmC0",35.4,134.57,610,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.17819000266057,3940.93735747363,10.6708087566219,-0.975315180111713,23.1765414914237,1935.12901509082
6394,13772,10140,"Herzschuh et al., 2019","Oigon Nuur. 7B","Oigon Nuur. 7B",49.15448,96.63728,1737,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.349601266839847,1635.61063413031,-5.16765076976193,-28.5715829926754,14.0760885876594,285.642785961645
6395,13773,10559,"BIOME6000 Japan","Oike","OikeC0",34.73,137.62,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.78254030679729,5814.57361957258,15.9303386837605,5.33450621892688,27.2195311409638,1858.11317828853
6396,13774,14261,"Neotoma","Oil Lake","OILLAKE",70.2922222222222,-151.166805555555,745,"not known","lake","core","-34","Eisner, W.R., and P.A. Colinvaux. 1992. Late Quaternary pollen records from Oil Lake and Feniak Lake, Alaska, USA. Arctic and Alpine Research 24:56-63.",,30,"tundra",0.760409151389088,1455.10491097652,-6.69391290996639,-26.0931925361014,14.4636379669407,278.084605296276
6397,13775,17964,"SMPDSv1","Oiniadai archaeological site","Jahns_c1",38.4080555555555,21.1947222222222,20,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.525786087475472,6320.22519953955,17.3156854781905,9.8781002520664,25.5905996026982,724.236743577504
6398,13776,21758,"SMPDSv1","Oisu","Seppa_b117",58.2,25.52,48,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03794086985483,2504.94657137048,5.415424010566,-6.10299924350668,16.6865625747446,636.670871218214
6399,13777,21759,"SMPDSv1","Ojos de Tremedal","Barboni_a1277",40.531667,-1.629444,1650,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.513623008129412,2826.94796234664,7.72679543456625,-0.176792898529879,17.8985116188357,587.504057356511
6400,13778,8110,"EMPDv2","Okha_1","Mikishin-Gvozdeva_a173",53.6,142.966666666667,20,"0.17","terrestrial, bog/fen/swamp","moss polster or moss","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26846338688798,1796.49411146747,-1.08831525965506,-19.3709957669306,15.0833394109156,651.232209084394
6401,13779,8111,"EMPDv2","Okha_2","Mikishin-Gvozdeva_a174",53.6008333333333,142.968888888889,20,"0.17","terrestrial, bog/fen/swamp","moss polster or moss","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26852866990519,1796.43620671196,-1.08827255012124,-19.3702585269611,15.0830346410769,651.244638880501
6402,13780,8112,"EMPDv2","Okha_3","Mikishin-Gvozdeva_a175",53.6,142.970833333333,20,"0.17","terrestrial, bog/fen/swamp","moss polster or moss","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26856058082357,1796.40136557288,-1.08809535900009,-19.3694182538967,15.0828326510436,651.262566291569
6403,13781,7948,"EMPDv2","Okhotsk_Sea1","Mikishin-Gvozdeva_a8",53.4013888888889,141.986111111111,-43,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6404,13782,8091,"EMPDv2","Okhotsk_Sea10","Mikishin-Gvozdeva_a168",52.2036111111111,143.788611111111,-51,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6405,13783,8092,"EMPDv2","Okhotsk_Sea11","Mikishin-Gvozdeva_a170",51.9833333333333,143.683333333333,-51,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6406,13784,8093,"EMPDv2","Okhotsk_Sea12","Mikishin-Gvozdeva_a171",51.1688888888889,143.691666666667,-38,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6407,13785,8140,"EMPDv2","Okhotsk_Sea13","Mikishin-Gvozdeva_a203",50.8119444444444,143.988333333333,-124,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6408,13786,8141,"EMPDv2","Okhotsk_Sea14","Mikishin-Gvozdeva_a204",50.6783333333333,144.325,-158,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6409,13787,8142,"EMPDv2","Okhotsk_Sea15","Mikishin-Gvozdeva_a205",49.45,144.45,-120,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6410,13788,8143,"EMPDv2","Okhotsk_Sea16","Mikishin-Gvozdeva_a206",49.0966666666667,143.980277777778,-38,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6411,13789,8144,"EMPDv2","Okhotsk_Sea17","Mikishin-Gvozdeva_a207",49.01,143.978333333333,-49,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6412,13790,8145,"EMPDv2","Okhotsk_Sea18","Mikishin-Gvozdeva_a208",48.7802777777778,144.835,-104,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6413,13791,8146,"EMPDv2","Okhotsk_Sea19","Mikishin-Gvozdeva_a209",48.3519444444444,142.736666666667,-39,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6414,13792,7988,"EMPDv2","Okhotsk_Sea2","Mikishin-Gvozdeva_a48",51.375,143.666666666667,-45,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6415,13793,8147,"EMPDv2","Okhotsk_Sea20","Mikishin-Gvozdeva_a210",48.1902777777778,144.55,-68,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6416,13794,8148,"EMPDv2","Okhotsk_Sea21","Mikishin-Gvozdeva_a211",47.9036111111111,143.361944444444,-79,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6417,13795,8149,"EMPDv2","Okhotsk_Sea22","Mikishin-Gvozdeva_a212",47.8333333333333,142.633611111111,-55,"not applicable","marine","sediment sample","-28","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6418,13796,8150,"EMPDv2","Okhotsk_Sea23","Mikishin-Gvozdeva_a213",47.825,143.14,-80,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6419,13797,8151,"EMPDv2","Okhotsk_Sea24","Mikishin-Gvozdeva_a214",47.5166666666667,143.467222222222,-103,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6420,13798,8152,"EMPDv2","Okhotsk_Sea25","Mikishin-Gvozdeva_a215",47.1897222222222,143.541666666667,-133,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6421,13799,8153,"EMPDv2","Okhotsk_Sea26","Mikishin-Gvozdeva_a216",46.355,142.7,-56,"not applicable","marine","sediment sample","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6422,13800,8154,"EMPDv2","Okhotsk_Sea27","Mikishin-Gvozdeva_a217",45.9880555555556,143.583333333333,-130,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6423,13801,8155,"EMPDv2","Okhotsk_Sea28","Mikishin-Gvozdeva_a218",45.7666666666667,143.695555555556,-218,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6424,13802,8156,"EMPDv2","Okhotsk_Sea29","Mikishin-Gvozdeva_a219",45.7102777777778,143.776666666667,-400,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6425,13803,7989,"EMPDv2","Okhotsk_Sea3","Mikishin-Gvozdeva_a49",51.3513888888889,143.69,-50,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6426,13804,8157,"EMPDv2","Okhotsk_Sea30","Mikishin-Gvozdeva_a220",45.475,143.641944444444,-192,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6427,13805,8158,"EMPDv2","Okhotsk_Sea31","Mikishin-Gvozdeva_a221",45.2069444444444,143.241666666667,-138,"not applicable","marine","sediment sample","-27","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6428,13806,8159,"EMPDv2","Okhotsk_Sea32","Mikishin-Gvozdeva_a222",46.3833333333333,142.916666666667,-67,"not applicable","marine","sediment sample","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6429,13807,8160,"EMPDv2","Okhotsk_Sea33","Mikishin-Gvozdeva_a223",46.3669444444444,142.796944444444,-61,"not applicable","marine","sediment sample","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6430,13808,8085,"EMPDv2","Okhotsk_Sea4","Mikishin-Gvozdeva_a148",46.3233333333333,143.325,-30,"not applicable","marine","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6431,13809,8086,"EMPDv2","Okhotsk_Sea5","Mikishin-Gvozdeva_a149",46.2166666666667,143.31,-30,"not applicable","marine","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6432,13810,8087,"EMPDv2","Okhotsk_Sea6","Mikishin-Gvozdeva_a150",46.2883333333333,143.343333333333,-30,"not applicable","marine","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6433,13811,8088,"EMPDv2","Okhotsk_Sea7","Mikishin-Gvozdeva_a165",53.1719444444444,143.43,-25,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6434,13812,8089,"EMPDv2","Okhotsk_Sea8","Mikishin-Gvozdeva_a166",53.1069444444444,143.291666666667,-9,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6435,13813,8090,"EMPDv2","Okhotsk_Sea9","Mikishin-Gvozdeva_a167",52.3147222222222,143.881666666667,-38,"not applicable","marine","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",,"not applicable",,,,,,
6436,13814,8000,"EMPDv2","Okrujznoye","Mikishin-Gvozdeva_a60",50.1769444444444,143.841111111111,56,"not applicable","terrestrial","litter","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.41479031945756,1933.30126957414,0.817229298924667,-15.7275643538499,15.5693722658801,790.784411138661
6437,13815,6248,"EMPDv2","Okunaika","Binney2017_E2233",55.87,108.78,1457,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.834611363633493,1073.07339620655,-9.33262830699953,-32.7398748924222,12.3573909694458,430.825800631579
6438,13816,7064,"EMPDv2","Old Camp Lake","EPDcoretop_E1798",62.04,149.59,853,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.03465401267493,762.160594025782,-12.5854196131316,-33.4064354242803,9.06496915110605,361.969093569924
6439,13817,14989,"Neotoma","Old Crow Flats (Core IX)","OCFIXA",67.47897,-139.520224999999,300,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.507226421283609,766.492523854953,-10.2862722223734,-26.6533052110839,9.45950174453076,170.815555878462
6439,13817,14990,"Neotoma","Old Crow Flats (Core IX)","OCFIXA",67.47897,-139.520224999999,300,"not known","terrestrial, bog/fen/swamp","core","48","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.507226421283609,766.492523854953,-10.2862722223734,-26.6533052110839,9.45950174453076,170.815555878462
6439,13818,14987,"Neotoma","Old Crow Flats (Core IX)","OCFIXB",67.47897,-139.520224999999,300,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.507226421283609,766.492523854953,-10.2862722223734,-26.6533052110839,9.45950174453076,170.815555878462
6439,13818,14988,"Neotoma","Old Crow Flats (Core IX)","OCFIXB",67.47897,-139.520224999999,300,"not known","terrestrial, bog/fen/swamp","core","48","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.507226421283609,766.492523854953,-10.2862722223734,-26.6533052110839,9.45950174453076,170.815555878462
6440,13819,14983,"Neotoma","Old Crow Flats (Core VI)","OCFVIA",67.992525,-139.120349999999,303,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.522482573161262,748.301033309496,-10.5932720296929,-27.0409798496054,9.38394224236527,172.973170890345
6440,13819,14984,"Neotoma","Old Crow Flats (Core VI)","OCFVIA",67.992525,-139.120349999999,303,"not known","terrestrial, bog/fen/swamp","core","-11","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.522482573161262,748.301033309496,-10.5932720296929,-27.0409798496054,9.38394224236527,172.973170890345
6440,13819,14985,"Neotoma","Old Crow Flats (Core VI)","OCFVIA",67.992525,-139.120349999999,303,"not known","terrestrial, bog/fen/swamp","core","31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.522482573161262,748.301033309496,-10.5932720296929,-27.0409798496054,9.38394224236527,172.973170890345
6440,13820,14986,"Neotoma","Old Crow Flats (Core VI)","OCFVIC",67.992525,-139.120349999999,303,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.522482573161262,748.301033309496,-10.5932720296929,-27.0409798496054,9.38394224236527,172.973170890345
6441,13821,14982,"Neotoma","Old Crow Flats (Core XV)","OCFXV",68.098035,-140.40026,297,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.476326406550935,799.259486909347,-9.75934121551867,-26.1250671322435,9.63944143721911,160.597807556329
6442,13822,14981,"Neotoma","Old Crow Flats (Core XVI)","OCFXVI",67.89308,-139.18133,303,"not known","terrestrial, bog/fen/swamp","core","-31","Ovenden, L.E. 1985. Hydroseral histories of the Old Crow Peatlands, northern Yukon.. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.521573172853257,752.28759605371,-10.5490924280134,-26.9941408393562,9.41183103119707,173.271094004789
6443,13823,1215,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_05",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13824,1216,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_105",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13825,1217,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_125",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13826,1218,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_155",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13827,1219,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_25",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13828,1220,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_55",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13829,1221,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp East_80",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","7","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13830,1222,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp West_105",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13831,1223,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp West_155",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6443,13832,1224,"Australian pollen","Old Settlement Swamp","Old Settlement Swamp West_55",-31.519,159.055,5,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.43921779438225,6946.46956570943,19.0314234676971,15.7162502778901,22.6422225687239,1807.62226424729
6444,13833,6249,"EMPDv2","Olga Stream","Binney2017_E2234",67.15,172.16,547,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.961305723133867,608.277486380508,-13.3185558810353,-30.4018318980733,8.35321909358457,284.305331522594
6445,13834,10141,"Herzschuh et al., 2019","Olgoin Nuur. 17A","Olgoin Nuur. 17A",48.92754,94.92373,1429,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.279960615566922,2087.54849704144,-2.97964820872802,-27.3033278577939,16.6546818924635,241.214587048091
6446,13835,13011,"Neotoma","Oliver Pond","OLIVER",48.422222,-89.323889,250,"not known","lake","core","-24","Julig, P.J., J.H. McAndrews, and W.C. Mahaney. 1990. Geoarchaeology of the Cummins site on the beach of proglacial Lake Minong, Lake Superior Basin, Canada. Pages 21-50 in N.P. Lasca and J. Donahue, editors. Archaeological Geology of North America. Centennial Special Volume 4, Geological Society of America, Boulder, Colorado, USA.",,9,"cool mixed forest",1.0329085566421,2420.65283572054,2.83136381189299,-14.6852492330575,17.8902189089218,746.014314561308
6446,13835,13012,"Neotoma","Oliver Pond","OLIVER",48.422222,-89.323889,250,"not known","lake","core","30","Julig, P.J., J.H. McAndrews, and W.C. Mahaney. 1990. Geoarchaeology of the Cummins site on the beach of proglacial Lake Minong, Lake Superior Basin, Canada. Pages 21-50 in N.P. Lasca and J. Donahue, editors. Archaeological Geology of North America. Centennial Special Volume 4, Geological Society of America, Boulder, Colorado, USA.",,9,"cool mixed forest",1.0329085566421,2420.65283572054,2.83136381189299,-14.6852492330575,17.8902189089218,746.014314561308
6447,13836,13553,"Neotoma","Olson Lake","OLSONMN",46.51205,-93.66005,379,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.872451365621295,3022.24011644396,5.05827951959896,-13.5593443928299,20.687993137579902,703.201427264701
6448,13837,15519,"Neotoma","Olympic Hot Springs","CJH098",47.86,-122.89,213,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.25053009688398,3526.87257064835,9.66266457711876,3.25082691461769,16.7273190538725,1756.75400403768
6449,13838,24437,"Southern Hemisphere pollen","Omaha Creek","Omaha Creek_mod",-41.767,171.63158,100,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",4,"warm-temperate evergreen and mixed forest",3.08250205445541,4287.08555165047,11.7454398675355,7.02418726351797,16.1928424125086,2675.66669834669
6450,13839,21760,"SMPDSv1","Omdalsvatn","Bjune_a135",60.2719218,10.62341315,485,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36222878948332,1827.53403812809,2.76690743230072,-8.34546535131534,13.6102328288436,748.219865026669
6451,13840,13016,"Neotoma","Ondris Pond","ONDRISPD",46.341585,-94.408,363,"not known","lake","core","-15","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726.","10.1017/S0033822200003404;
10.2307/2259121",9,"cool mixed forest",0.841776217444294,3145.23728736517,5.50573908917995,-13.2486694445632,21.2773362951239,692.087163686018
6451,13840,13017,"Neotoma","Ondris Pond","ONDRISPD",46.341585,-94.408,363,"not known","lake","core","0","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726.","10.1017/S0033822200003404;
10.2307/2259121",9,"cool mixed forest",0.841776217444294,3145.23728736517,5.50573908917995,-13.2486694445632,21.2773362951239,692.087163686018
6451,13840,13018,"Neotoma","Ondris Pond","ONDRISPD",46.341585,-94.408,363,"not known","lake","core","23","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726.","10.1017/S0033822200003404;
10.2307/2259121",9,"cool mixed forest",0.841776217444294,3145.23728736517,5.50573908917995,-13.2486694445632,21.2773362951239,692.087163686018
6451,13840,13019,"Neotoma","Ondris Pond","ONDRISPD",46.341585,-94.408,363,"not known","lake","core","38","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726.","10.1017/S0033822200003404;
10.2307/2259121",9,"cool mixed forest",0.841776217444294,3145.23728736517,5.50573908917995,-13.2486694445632,21.2773362951239,692.087163686018
6451,13840,13020,"Neotoma","Ondris Pond","ONDRISPD",46.341585,-94.408,363,"not known","lake","core","46","Jacobson, G.L., Jr. 1975. A palynological study of the history and ecology of white pine in Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., R.A. Bryson, and D.A. Baerreis. 1977. University of Wisconsin radiocarbon dates XIV. Radiocarbon 19(1):127-137. Jacobson, G.L., Jr. 1979. The palaeoecology of white pine (Pinus strobus) in Minnesota. Journal of Ecology 67(2):697-726.","10.1017/S0033822200003404;
10.2307/2259121",9,"cool mixed forest",0.841776217444294,3145.23728736517,5.50573908917995,-13.2486694445632,21.2773362951239,692.087163686018
6452,13841,21761,"SMPDSv1","One Arm Lake","Bunting_b10",58.078851851476,-5.2526399040835,191,"0.003","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.82787839092631,2601.36789425826,7.12703532673496,2.51598680572374,12.3234204679162,1840.17438622961
6453,13842,17373,"Neotoma","One Lake","TW079",45.05,-84.7,411,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.921936853428704,2961.69640311664,6.34522481661789,-7.51168354890957,19.6829803578197,743.419873312515
6454,13843,21762,"SMPDSv1","Onego Lake","EPDcoretop_E495",61.716667,34.916667,23,"9690","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",1.1722794575386,2074.68322385957,2.55230372912033,-11.9085305654666,16.3446459135272,604.664692337265
6454,13844,21763,"SMPDSv1","Onego Lake","EPDcoretop_E496",61.716667,34.916667,23,"9690","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",1.1722794575386,2074.68322385957,2.55230372912033,-11.9085305654666,16.3446459135272,604.664692337265
6455,13845,21764,"SMPDSv1","Onegskoe lake","Onegskoe lake_SS",61.7167,34.9167,23,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",1.17228056681096,2074.68284055729,2.55230069129803,-11.9085357307434,16.3446452167639,604.664729242197
6456,13846,7921,"EMPDv2","Onfiano","Mercuri_i2",44.4843,10.5519,450,"not applicable","terrestrial, soil","soil sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.970765086723029,3908.11322719465,10.7071595265607,1.50229778291319,20.0720445768023,952.003784892133
6457,13847,14176,"Neotoma","Ongivinuk Lake","ONGIVINU",59.56781,-159.357975,163,"not known","lake","core","-40","Hu, F.S., L.B. Brubaker, and P.M. Anderson. 1995. Postglacial vegetation and climate change in the northern Bristol Bay region, southwestern Alaska. Quaternary Research 43:382-392.",,15,"cold evergreen needleleaf forest",1.13899069890155,1366.35009859269,-0.736710993605929,-11.8615668950393,11.8833707693038,505.719364407918
6458,13848,10620,"BIOME6000 Japan","Onuma","OnumaC0",39.98,140.81,950,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.00689594558896,2780.54762442416,6.18858268517288,-6.30692203932704,19.4692763557103,1499.74030258699
6459,13849,10560,"BIOME6000 Japan","Oochiba","OocbC0",34.75,137.52,4,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.78077548486245,5807.51995186145,15.9110135667437,5.29377354647283,27.2268101149675,1853.55632483622
6460,13850,11103,"Bush et al., 2020","Oocom","Oocom",19.47,-88.05,3,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.85320974565608,9472.3134559538,25.9515437149419,23.1685004684626,27.8070526743523,1312.21059664009
6461,13851,10582,"BIOME6000 Japan","Oofuke","OfukC0",35.67,135.18,550,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",2.2733497077254,4137.62552554882,11.2980260072213,-0.269751393109008,23.5887003929176,2043.14758568539
6462,13852,1225,"Australian pollen","Ooze Lake","Ooze Lake 1",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13853,1226,"Australian pollen","Ooze Lake","Ooze Lake 10",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13854,1227,"Australian pollen","Ooze Lake","Ooze Lake 2",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13855,1228,"Australian pollen","Ooze Lake","Ooze Lake 3",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13856,1229,"Australian pollen","Ooze Lake","Ooze Lake 4",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13857,1230,"Australian pollen","Ooze Lake","Ooze Lake 5",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13858,1231,"Australian pollen","Ooze Lake","Ooze Lake 6",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13859,1232,"Australian pollen","Ooze Lake","Ooze Lake 7",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13860,1233,"Australian pollen","Ooze Lake","Ooze Lake 8",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6462,13861,1234,"Australian pollen","Ooze Lake","Ooze Lake 9",-43.5,146.699,880,"small (0.01-1 km2)","lake","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.33906036010127,2668.91243543704,7.31208886421106,2.10810431287484,12.9464451842827,1237.79033509928
6463,13862,11794,"Neotoma","Ophir Pass","LMSJ5A",37.849905,-107.778934999999,3642,"not known","terrestrial","surface sample","-9","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.800829835734488,648.235442691599,-4.26664372091442,-15.6174726253283,7.08039529712221,720.122672773342
6464,13863,1235,"Australian pollen","Oppaminda Track, OT1","OT1 in_1995",-30.3818333333333,139.356333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.135217813588239,6961.35416052817,19.0722031795292,10.5895917268726,27.2150294580208,228.684308417781
6464,13864,1236,"Australian pollen","Oppaminda Track, OT1","OT1 in_1996",-30.3818333333333,139.356333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.135217813588239,6961.35416052817,19.0722031795292,10.5895917268726,27.2150294580208,228.684308417781
6464,13865,1237,"Australian pollen","Oppaminda Track, OT1","OT1 out_1995",-30.3818333333333,139.356333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.135217813588239,6961.35416052817,19.0722031795292,10.5895917268726,27.2150294580208,228.684308417781
6465,13866,11946,"Neotoma","Oquer Lake","OQUERP1",36.500265,-112.22299,2597,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.36616104557497,2396.7676493842,5.71261257064037,-3.97495635039914,17.1086470624233,447.90703026664
6466,13867,11104,"Bush et al., 2020","Oquevix","Oquevix",16.66,-89.74,162,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.48534935595663,9315.48145388346,25.521866996941,22.6820242692846,27.5659651520223,2438.90086320263
6467,13868,21765,"SMPDSv1","Orbergvatn","Bjune_a103",59.5462122,10.21158041,178,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44153659048786,2291.75447932702,5.10527705730078,-5.13913958408874,15.4264333004608,846.5894611198
6468,13869,21766,"SMPDSv1","Orlov","Orlov_SS (Novenko_c163)",58.5269,48.9736,109,"0.01","terrestrial, soil","surface sample","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.993260818933911,2556.6585554463,3.45023376278432,-13.3976863425276,19.1859080024292,607.657133754792
6469,13870,21767,"SMPDSv1","Ormestad","Bjune_a224",58.0766666666666,7.74333333333333,17,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.09319865658489,2640.49480928446,6.98387335717158,-1.50743405978036,15.5500182799229,1274.10120006298
6470,13871,21768,"SMPDSv1","Ormetjonn","Bjune_a206",59.57,7.98333333333333,453,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.10313258454091,1926.8569105326,3.94389082605334,-5.53239731896514,13.4303410558203,1180.75443952334
6471,13872,21769,"SMPDSv1","Ormtjarnen","Seppa_b161",59.77,14.85,189,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14181413883683,2092.61343372962,4.00623266051957,-6.53140251795124,14.7984145975996,653.57967081563
6472,13873,10635,"BIOME6000 Japan","Orochigahara","OrchgC0",42.93,141.05,980,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",2.11722857228786,1819.94891493166,1.26279630706375,-12.2770887484338,15.2496683816472,1361.74086924345
6473,13874,21770,"SMPDSv1","Orsjon","Seppa_b143",57.73,12.65,186,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14977575436203,2489.15406556957,6.18027217024284,-3.02701492202925,15.6012250732153,716.423244259718
6474,13875,21771,"SMPDSv1","Orsteinstjern","Bjune_a75",59.86783856,9.50357463,382,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.54202409000467,1991.32815729818,3.77991932410361,-6.71053797314028,14.157943213469,869.617816512278
6475,13876,21772,"SMPDSv1","Ortjern","Bjune_a43",63.32576063,8.80633791,226,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.70838923143544,1821.20036455513,4.22470857035486,-3.39641448244227,12.4742409708708,1230.01124073097
6476,13877,10624,"BIOME6000 Japan","Oseyachi","OsychC0",40.6,140.86,1250,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.10504819773529,2621.02412689848,5.58459796299127,-6.82364846184125,18.7088183403019,1539.03126667659
6477,13878,21773,"SMPDSv1","Ossian Sarsfjellet","Bjune_a316",78.9511666666666,12.4771666666666,60,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.27216370093784,216.267889498529,-7.24748497615245,-15.1979296119903,3.53140051623484,500.731915375194
6478,13879,8105,"EMPDv2","Ossoi","Mikishin-Gvozdeva_a162",52.6183333333333,143.129166666667,30,"0.037","lake","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.24894165654475,1811.23882553322,-0.928868006203595,-19.1408310970227,15.1425914957308,655.823598406993
6479,13880,9664,"Gaillard et al., 1992","Osternad","Osternad",56.121314,15.766265,8,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.858551351840003,2799.00076254101,7.44509052024076,-1.31702001158317,16.6547392498097,573.813643449537
6480,13881,21749,"SMPDSv1","Ostre Kolsjo","Bjune_a133",60.3568227,9.91346135,480,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.43282026568945,1856.59889122099,3.0110855264997,-7.88807582589851,13.678857857357,789.710066369655
6481,13882,21748,"SMPDSv1","Ostre Valsjon","Seppa_b147",57.818079,12.780594,173,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12738734045942,2474.26653514668,6.08221881625793,-3.2421033479427,15.6377120796763,701.065231834458
6482,13883,21774,"SMPDSv1","Osvea","EPDcoretop_E499",56.05,28.083333,132,"14.3","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.946843263508649,2587.20645215055,5.29592519093904,-7.65229246438102,16.9630460308077,622.268362532753
6483,13884,24466,"Southern Hemisphere pollen","Otari","Otari 1",-41.268,174.751,100,"small (0.01-1 km2)","terrestrial","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.31508890388598,4486.33428881831,12.2913268186803,7.49496574635005,16.9192192444878,1215.33295564369
6483,13885,24467,"Southern Hemisphere pollen","Otari","Otari Gardens",-41.268,174.751,100,"small (0.01-1 km2)","terrestrial","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.31508890388598,4486.33428881831,12.2913268186803,7.49496574635005,16.9192192444878,1215.33295564369
6484,13886,14202,"Neotoma","Otisville","OTISVILL",41.47025,-74.5244,230,"not known","terrestrial, bog/fen/swamp","core","-39","Robinson, G.S., L.P. Burney, and D.A. Burney. 2005. Landscape paleoecology and megafaunal extinction in southeastern New York State. Ecological Monographs 75(3):295-315.",,9,"cool mixed forest",1.25146128999996,3729.07939133052,9.53837979003497,-4.06697139581685,22.073014354919,1128.36499809802
6485,13887,23162,"SMPDSv1","Otra","Bjune_a203",59.558333,7.351667,780,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.33424318984347,1686.39334093301,3.07707272437082,-5.91424638487498,12.2029476760063,1287.68851095726
6486,13888,17405,"Neotoma","Otter Lake","TW112",43.22,-83.47,259,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.915604199228097,3425.39550900829,8.14469863548593,-6.18409868737429,21.3264167502252,798.52698307796
6487,13889,14158,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","-39","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6487,13889,14159,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","-20","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6487,13889,14160,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","-3","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6487,13889,14161,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","10","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6487,13889,14162,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","29","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6487,13889,14163,"Neotoma","Otter Pond","OTTER",42.6548499999999,-72.5331899999999,107,"not known","lake","core","48","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.28489144015388,3669.62358164468,9.34535784965218,-4.16910208370331,21.9638429550831,1119.52655255939
6488,13890,13029,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","-32","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13030,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","-10","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13031,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","7","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13032,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","24","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13033,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","43","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13034,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","46","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6488,13890,13035,"Neotoma","Otto Mielke Lake","OTTOMLK",45.924745,-89.625945,495,"not known","lake","core","50","Charles, D.F., and D.R. Whitehead. 1984. Paleoecological Investigation of Recent Lake Acidification (PIRLA): December 1984 Status Report. RP 2174-10, Electric Power Research Institute, Palo Alto, CA.; Charles, D.F., and D.R. Whitehead. 1986. Paleoecological Investigation of Recent Lake Acidification (PIRLA): Methods and Project Description. EPRI EA-4906, Electric Power Research Institute, Palo Alto, CA.; Shane, L.C.K. 1987. Northern Great Lakes States pollen and charcoal data. PIRLA Unpublished Report Series 9, Indiana University, Bloomington, IN.; Kingston, J.C., R.B. Cook, R.G. Kreis, Jr., K.E. Camburn, S.A. Norton, P.R. Sweets, M.W. Binford, M.J. Mitchell, S.C. Schindler, L.C.K. Shane, and G.A. King. 1990. Paleoecological investigation of recent lake acidification in the northern Great Lakes states. Journal of Paleolimnology 4(2):153-201.","10.1007/BF00226322",9,"cool mixed forest",1.03060343296657,2648.48378847429,3.99189469441836,-12.794287890463,18.9182511199633,794.479485847978
6489,13891,6198,"EMPDv2","Ouad Ifrane, Ifrane","AlbaSanchez_a127",33.159732,-5.238681,1962,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.331320621234867,4689.22408063682,12.8471892620187,3.73313400073968,24.3550081886034,476.327018975663
6489,13892,6203,"EMPDv2","Ouad Ifrane, Ifrane","AlbaSanchez_a132",33.098369,-5.24609,1890,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.331711376958009,4770.2069331918,13.0690600909364,4.05539388339442,24.4098128375745,476.569588835793
6489,13893,6204,"EMPDv2","Ouad Ifrane, Ifrane","AlbaSanchez_a133",33.032387,-5.235244,1875,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.331190002096069,4789.08640895713,13.1207846820743,4.12177518665088,24.428435238669,476.104486978615
6489,13894,6205,"EMPDv2","Ouad Ifrane, Ifrane","AlbaSanchez_a134",33.03495,-5.219707,2005,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.330213900379293,4642.78799786142,12.7199671174285,3.53477544262796,24.3199590118593,475.715507916171
6490,13895,7093,"EMPDv2","Oudon","EPDcoretop_E1998",47.36,-1.29,17,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.895829095501873,4391.6794218294,12.031998415971,5.70147071205241,18.9117247981851,776.526875639724
6491,13896,6153,"EMPDv2","Oujdir, Khenifra","AlbaSanchez_a81",32.926501,-5.370925,1678,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.338471730683315,4989.34592370261,13.6694408868565,5.00956589642541,24.4260639072642,483.929675535374
6492,13897,21776,"SMPDSv1","Oulanka","FIN/SPH/O3",66.3771805555556,29.3096916666667,186,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.2869790928495,1569.00895402894,-0.316912920802321,-14.2751602081611,14.3475800559094,548.05900876983
6492,13898,21775,"SMPDSv1","Oulanka","FIN/SPH/O4_O25",66.3771805555556,29.3096916666667,215,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30157719567316,1534.34611199845,-0.494738481728418,-14.3804237728826,14.1531409118561,549.651658368434
6493,13899,21777,"SMPDSv1","Ovacik","Bakker_a16",37.547705,30.385371,1312,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393004762117138,4107.22892387918,11.2526819832306,0.930745547741726,21.5748035682773,541.488835572733
6494,13900,9665,"Gaillard et al., 1992","Ovedsgard","Ovedsgard",55.686106,13.636223,30,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.933436719097948,2918.30223414009,7.81346453102657,-1.19248767210416,16.8355107591145,626.841030941353
6495,13901,21778,"SMPDSv1","Overvatn","Bjune_a28",67.42553858,15.72365176,253,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.37528643252296,1350.06175423428,1.62641035536279,-6.38106000234701,11.4683672536726,1310.36751914794
6496,13902,21779,"SMPDSv1","Ovrazhnoe","Ovrazhnoe_core top",56.25,85.1666666666666,110,"not known","terrestrial","peat core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.861284028653273,2296.95433964294,0.516616068405932,-18.1375586251618,19.1318374993878,512.421212826927
6497,13903,21780,"SMPDSv1","Ovre Bakkebergtjonn","Bjune_a282",61.66,8.15666666666666,1000,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.16645304757427,1279.00103695855,0.885891587015317,-8.47078832745604,10.4154481153211,1051.68719298821
6498,13904,21781,"SMPDSv1","Ovre Hayrevatn","Bjune_a128",59.664801,9.71707186,212,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.5802315628971,2209.33428705662,4.78798468425534,-5.47129159590317,15.0458838296644,909.629968237499
6499,13905,21782,"SMPDSv1","Ovre Lundtjern","Bjune_a280",61.85,10.08,915,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.51240694651985,1238.15308328117,0.0170954497072085,-10.6598262717409,10.5101270892841,717.505356926163
6500,13906,11485,"Neotoma","Owen Lake","SDPEOW",45.465435,-102.40442,794,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.441384743229297,3259.44063023371,6.96282994481984,-8.91966024032267,22.2307927339668,406.959822067186
6501,13907,11105,"Bush et al., 2020","oxbow","oxbow",-11.905057,-71.340828,339,"not known","lake","lake surface sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.06373141349771,9003.47114599288,24.6670442355969,22.8798665561971,25.5880764364452,2982.5665374729
6502,13908,12141,"Neotoma","Oxford Reservoir","BR1966-2",42.280555,-112.011265,1491,"not known","artificial water body","surface sample","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.342854664399184,3244.55816637896,8.10997585345927,-4.44147870345906,21.3539573638039,360.301397489021
6503,13909,21783,"SMPDSv1","Oygardstjonn","Bjune_a187",59.6266666666666,7.98666666666666,665,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.97970443477157,1754.21081000193,3.1393604759875,-6.38016561838571,12.6975355161774,1103.66331237077
6504,13910,21784,"SMPDSv1","Oykjeklettjern","Bjune_a54",62.32757926,10.52092436,861,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51002775182474,1261.46073751556,0.173576477704412,-10.3387927539384,10.6235466517559,701.04266888984
6505,13911,7509,"EMPDv2","Oyogos Yar","Klemm_a64",72.6785,143.5123,28,"not known","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.550221659682561,834.476249906233,-16.9714786063228,-42.519773352498,10.9139338250212,155.821265210979
6505,13912,7510,"EMPDv2","Oyogos Yar","Klemm_a65",72.6762,143.5749,1,"1e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.689837934387913,533.967579306114,-15.177210749452,-35.4036699015928,7.07312534250617,178.622261382249
6505,13913,7511,"EMPDv2","Oyogos Yar","Klemm_a66",72.6736,143.5097,28,"not known","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.550186477396339,834.723285970011,-16.9711105875589,-42.5221686071432,10.9163873158939,155.833403701524
6505,13914,7512,"EMPDv2","Oyogos Yar","Klemm_a67",72.6732,143.5376,52,"4e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.445196952588823,1113.68653508847,-18.5663231038499,-48.8573078898556,14.3462968477942,135.64907559688
6505,13915,7513,"EMPDv2","Oyogos Yar","Klemm_a68",72.6722,143.3429,24,"1","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.569077881580025,787.799631014056,-16.7012392101607,-41.4504018708228,10.3284871359658,159.112347200032
6505,13916,7514,"EMPDv2","Oyogos Yar","Klemm_a69",72.6684,143.5319,52,"1e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.445206778176441,1113.54610053519,-18.5643410471424,-48.8523756233529,14.3440106700683,135.658387330056
6506,13917,21785,"SMPDSv1","Oytjonn","Bjune_a201",59.32,7.34333333333333,500,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.59381468553804,1936.69041521937,4.29403212615553,-4.47903606426805,13.1650051086234,1451.13114331442
6507,13918,13898,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","-19","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13899,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","-12","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13900,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","-6","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13901,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","1","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13902,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","8","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13903,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","15","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13904,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","21","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13905,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","28","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13906,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","35","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13907,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","41","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6507,13918,13908,"Neotoma","Ozawindib Lake","MNCLSQ",47.2282299999999,-95.27284,473,"not known","lake","core","48","Patterson, W.A., III. 1978. The effects of past and current land disturbances on Squaw Lake, Minnesota and its watershed. Doctoral dissertation. University of Minnesota, St. Paul, Minnesota, USA.",,9,"cool mixed forest",0.840442826148009,2936.94379922467,4.42887356897617,-14.7789075694182,20.3199550808696,673.911118424744
6508,13919,10601,"BIOME6000 Japan","Oze-nakatashiro","OzentC0",36.93,139.23,1400,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.94267848042539,2710.5166575586,5.93675179118213,-6.43281151616919,18.8316189895118,1579.00582343515
6509,13920,10602,"BIOME6000 Japan","Oze-shimotashiro","OzesmtC0",36.94,139.25,1400,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.95995443051792,2636.28682984727,5.65302942785608,-6.66338117240731,18.517121507915,1577.94648656093
6510,13921,9549,"EMPDv2","Ozernyi peatland","Novenko_c12",54.0683,37.5947,256,"0.02","terrestrial, bog/fen/swamp","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.840885297744439,2801.55326530777,5.21658901797667,-9.76810303014612,18.5176253465231,608.913466450624
6510,13922,9550,"EMPDv2","Ozernyi peatland","Novenko_c13",54.0689,37.5919,250,"0.02","terrestrial, bog/fen/swamp","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.844280001093035,2795.72088027346,5.20234913766659,-9.77369289084507,18.5101497995229,609.95771223326
6511,13923,8207,"EMPDv2","Ozertso_2","Mikishin-Gvozdeva_b38",45.1111111111111,132.016388888889,70,"0.002","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828295023634515,3110.13899894828,4.36382174491819,-16.346181740633,21.4807344866264,627.687467108172
6512,13924,15512,"Neotoma","Ozette Lake","CJH091",48.05,-123.6,61,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.54200041730049,3580.00349556503,9.80822875497268,3.64150932059281,16.6028131968166,1938.57162759452
6513,13925,11106,"Bush et al., 2020","P10t-2354.4M1-2cm","P10t-2354.4M1-2cm",-12.965737,-71.777933,3730,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.490404104743432,3441.62068698569,9.42909777256352,7.38177753051121,10.7880460398579,713.76059698769
6514,13926,11107,"Bush et al., 2020","P11t-T3466.2A1-2cm","P11t-T3466.2A1-2cm",-13.144106,-71.631902,3349,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.762214058152209,4064.9580035156,11.1368712425085,9.09376494930586,12.4516033063241,1115.45106736069
6515,13927,11108,"Bush et al., 2020","P13t-TI-1A2cm","P13t-TI-1A2cm",-13.189536,-71.59441,3301,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795377041532278,4141.13919343025,11.3455868313158,9.30435351033871,12.6545722123726,1164.47947718258
6516,13928,11109,"Bush et al., 2020","P14t-3831.2M1-2cm","P14t-3831.2M1-2cm",-13.189532,-71.59441,3301,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795376759275656,4141.13958318163,11.3455878991278,9.30435473666847,12.6545733807905,1164.47910294465
6517,13929,11110,"Bush et al., 2020","P15t-P14A2-3cm","P15t-P14A2-3cm",-12.944998,-71.79219,3707,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.498488634985065,3482.36151591033,9.5407164819461,7.49785892476964,10.8984607445069,725.922532151004
6518,13930,11111,"Bush et al., 2020","P1t-P14M1-3cm","P1t-P14M1-3cm",-12.9449,-71.79219,3707,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.49848272992015,3482.37730996039,9.54075975331614,7.49790788203581,10.8985088303135,725.914917489869
6519,13931,11112,"Bush et al., 2020","P2t-P14C2-3cm","P2t-P14C2-3cm",-12.945009,-71.79219,3707,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.498489297800418,3482.35974319516,9.54071162519221,7.49785342983015,10.8984553473685,725.923386863003
6520,13932,11113,"Bush et al., 2020","P3t-T644-3D1-2cm","P3t-T644-3D1-2cm",-13.180293,-71.626978,3501,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.687265327834562,3810.2550928193,10.43905504882,8.37888799260521,11.7673919047481,1003.30887753179
6521,13933,11114,"Bush et al., 2020","P4t-35M2cm","P4t-35M2cm",-13.09413,-71.703503,3341,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.752894512098212,4080.53654261622,11.1795521715513,9.1414900545817,12.4947796359652,1102.05489294475
6522,13934,11115,"Bush et al., 2020","P5t-TI2A2cm","P5t-TI2A2cm",-13.189758,-71.592605,3301,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.79565304313568,4141.18843940687,11.3457217517996,9.30442668698869,12.6547048677894,1164.89130430958
6523,13935,11116,"Bush et al., 2020","P7t-3985.4A1-2cm","P7t-3985.4A1-2cm",-12.936311,-71.790269,3427,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.63237802122048,3946.18354814327,10.811461775735,8.79972496426638,12.1422900666701,924.185291806708
6524,13936,11117,"Bush et al., 2020","P8t-3393.3C1-2cm","P8t-3393.3C1-2cm",-13.137889,-71.618783,3438,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.717930913812054,3919.28652198266,10.7377712931032,8.68566711800771,12.0613321125752,1049.49118945646
6525,13937,11118,"Bush et al., 2020","P9t-1736B.2M1-2cm","P9t-1736B.2M1-2cm",-13.13674,-71.648074,3398,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.734353629004525,3984.15829848412,10.9155021876277,8.86825265211537,12.2351521531483,1073.95710289548
6526,13938,21786,"SMPDSv1","Paalikkalampi","Seppa_b41",63.25,30.67,227,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18963293089219,1835.13224212185,1.14301469972177,-13.165207019979,15.6348738717233,586.158315358872
6527,13939,11119,"Bush et al., 2020","Pacifica","Pacifica",10.45,-85.11,63,"not known","lake","lake surface sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.44479926263082,9610.96301176216,26.3314055116772,25.3538028022672,27.8490018527957,2493.06488287929
6528,13940,9504,"EMPDv2","PACT PS_15 (unnamed lake)","Novenko_c275",67.1689,52.6533,59,"not known","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35752536252943,1304.181714244,-3.15318313098652,-19.3068881864304,14.3077814679342,483.264182608365
6529,13941,11120,"Bush et al., 2020","Pacucha","Pacucha",-13.61,-73.315,3099,"not known","lake","lake surface sample","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.459952131399473,4415.5425478651,12.097376843466,10.3283804835931,13.3204812731628,659.890545320362
6530,13942,1238,"Australian pollen","Paddy's Lake","PADDYS",-41.451255,145.961595,1065,"not known","lake","core top","-64","Beck, K.K., M.-S. Fletcher, P.S. Gadd, H. Heijnis, and G.E. Jacobsen. 2017. An early onset of ENSO influence in the extra-tropics of the southwest Pacific inferred from a 14,600 year high resolution multi-proxy record from Paddy's Lake, northwest Tasmania. Quaternary Science Reviews 157:164-175. [DOI: 10.1016/j.quascirev.2016.12.001]","10.21233/7bhz-n612",7,"cool-temperate rainforest",1.61972589468909,2170.33931688802,5.94613511476169,1.1468740142212701,11.4613331958669,1502.0624573977
6531,13943,7289,"EMPDv2","Padis Sondori/Plateau","Feurdean_a6",46.5984,22.7324,1290,"0.01","terrestrial, bog/fen/swamp","peat","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.31852883274921,1995.81027270912,3.81795625596988,-7.28329759519674,12.9829684641788,992.663690742924
6532,13944,9138,"EMPDv2","Padureni","Tantau_a9",47.0811111111111,23.9891666666667,420,"0.01","terrestrial, bog/fen/swamp","peat","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.803876991002662,3239.59494369806,8.20495052450165,-4.57393538756817,18.1348150430544,680.035669360025
6533,13945,21787,"SMPDSv1","Paidra","Meltsov_a4",57.91167,27.18865,78,"0.11","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.990758321493188,2470.2753810783,4.96742205155687,-7.47260944443276,16.7039574426496,612.406944041758
6533,13946,21788,"SMPDSv1","Paidra","Seppa_b129",57.92,27.18,79,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.991248857636046,2470.10426274377,4.96787790172857,-7.46849085566922,16.6997182644561,612.615265893661
6534,13947,21789,"SMPDSv1","Paidre","Seppa_b116",58.27,25.5,63,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04065147204707,2476.47545963293,5.24467998782957,-6.4318305219383,16.6281492504388,635.05102852365
6535,13948,7972,"EMPDv2","Paino_1","Mikishin-Gvozdeva_a32",51.7602777777778,143.293611111111,1,"1.66","lake","sediment sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22745404869186,1867.08314071975,-0.472834442644049,-18.5250925846318,15.4076457785229,660.531588198563
6536,13949,7973,"EMPDv2","Paino_2","Mikishin-Gvozdeva_a33",51.7605555555556,143.294722222222,2,"1.66","lake","sediment sample","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22785233776384,1866.10368062354,-0.476791889706484,-18.5274431397247,15.4024034418676,660.691777813683
6537,13950,8095,"EMPDv2","Paino_3","Mikishin-Gvozdeva_a152",51.7733333333333,143.290277777778,20,"0.37","coastal, other","moss polster or moss","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.23474988690221,1848.28267097627,-0.552390299455305,-18.5789154341359,15.3071949546509,663.323558300398
6538,13951,4010,"CMPD","Paipu","Paipu",19.6,109,2,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36124866143459,9040.72747483066,24.7691163693991,18.3590030331913,29.2037528137468,1808.46721490627
6539,13952,12043,"Neotoma","Paisley Caves surface sample","PAISCV1",42.605,-120.423833333333,1312,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.420573398927096,3003.42948089451,7.92190615351284,-1.95918299801155,19.1223784900834,426.401711128837
6539,13953,12052,"Neotoma","Paisley Caves surface sample","PAISCV10",43.1356666666667,-121.073166666667,1341,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.529554171617595,2818.62120043485,7.41185769483925,-1.94443866545003,18.1622005796059,516.423297766829
6539,13954,12053,"Neotoma","Paisley Caves surface sample","PAISCV11",43.2566666666667,-121.155666666667,1401,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.520906454587229,2734.76296725772,7.11926182590844,-2.24684215668838,17.919383023147,504.570051707658
6539,13955,12054,"Neotoma","Paisley Caves surface sample","PAISCV12",43.4076666666667,-121.242,1420,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.527312276003754,2708.34835798032,7.03464527615413,-2.30015699581569,17.8175062555801,509.255235411334
6539,13956,12044,"Neotoma","Paisley Caves surface sample","PAISCV2",42.724,-120.5425,1331,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.419375814836533,2975.53464387508,7.83422490017301,-2.01645063928564,19.0223482420279,423.977891280201
6539,13957,12045,"Neotoma","Paisley Caves surface sample","PAISCV3",42.7571666666667,-120.552333333333,1374,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.383923941209926,2866.59896889048,7.47110163566236,-2.33634940403071,18.678231196334,382.540389634518
6539,13958,12046,"Neotoma","Paisley Caves surface sample","PAISCV4",42.5866666666667,-120.367,1314,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.415878252186112,3002.7319619411,7.91559929590691,-1.98320904960598,19.1361710879,421.835985382681
6539,13959,12047,"Neotoma","Paisley Caves surface sample","PAISCV5",42.2718333333333,-120.352,1489,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.399033041047885,2898.19534265932,7.5564095947507,-2.35018418932647,18.9621277797907,415.155180578129
6539,13960,12048,"Neotoma","Paisley Caves surface sample","PAISCV6",42.7258333333333,-120.735333333333,1316,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.441088906052929,2993.78278286162,7.90929236987612,-1.88187669427222,19.0209245829842,446.237158927094
6539,13961,12049,"Neotoma","Paisley Caves surface sample","PAISCV7",42.8673333333333,-120.804166666667,1293,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.508947924233783,2878.75811517789,7.60212752668051,-1.81792375567335,18.3765856197235,498.610835963069
6539,13962,12050,"Neotoma","Paisley Caves surface sample","PAISCV8",43.0083333333333,-120.770166666667,1358,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.483615921300293,2827.00312481565,7.4106230099142,-2.0748073080185,18.2986342073808,475.053696022879
6539,13963,12051,"Neotoma","Paisley Caves surface sample","PAISCV9",43.1056666666667,-120.852666666667,1322,"not known","terrestrial","surface sample","-67","Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2018. Analysis of Younger Dryas-Early Holocene pollen in sediments of Paisley Cave 2, south-central Oregon. Palynology 42(2):168-179.; Beck, C.W., V.M. Bryant, and D.L. Jenkins. 2020. Comparison of Neotoma (packrat) feces to associated sediments from Paisley Caves, Oregon, USA. Palynology in press.",,17,"temperate evergreen needleleaf open woodland",0.506671794201075,2838.05849901984,7.46439665522899,-1.95216081517918,18.2654929937979,493.909640970127
6540,13964,17965,"SMPDSv1","Palairos archaeological site","Jahns_b1",38.8361111111111,20.8244444444444,200,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.564809791784599,5898.2184282809,16.1595025432354,8.27336863096034,24.7339442407904,759.274734858678
6540,13965,17966,"SMPDSv1","Palairos archaeological site","Jahns_b2",38.8361111111111,20.8244444444444,200,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.564809791784599,5898.2184282809,16.1595025432354,8.27336863096034,24.7339442407904,759.274734858678
6540,13966,17967,"SMPDSv1","Palairos archaeological site","Jahns_b3",38.8361111111111,20.8244444444444,200,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.564809791784599,5898.2184282809,16.1595025432354,8.27336863096034,24.7339442407904,759.274734858678
6540,13967,22491,"SMPDSv1","Palairos archaeological site","Jahns_b6",38.8397222222222,20.8255555555555,100,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.551460723831209,6133.48779869393,16.8040761608053,9.10282319294176,25.2707570713149,748.224200195153
6541,13968,21735,"SMPDSv1","Palairos archaeological site (northwest tower)","Jahns_b5",38.8366666666666,20.8222222222222,215,"not applicable","archaeological site","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.566941884409963,5862.79856434495,16.0624618201232,8.14830805193521,24.6532745055,761.03878177016
6542,13969,21790,"SMPDSv1","Palasiny","EPDcoretop_E510",49.688889,15.483333,520,"0.04","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.936614445983913,2932.93047178705,7.57836916413464,-2.98879638381673,16.9981968390674,704.800280029714
6543,13970,16537,"Neotoma","Palfrey Lake","KG031",45.63,-67.47,114,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.54751672967811,2674.99155139816,5.16629721256473,-9.23837268916368,18.4480136503834,1167.66756879064
6544,13971,21791,"SMPDSv1","Pallas","FIN/SPH/P23",67.9962277777778,24.0812,340,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15720974211688,1289.45257572826,-2.40851157438934,-16.6555708106911,12.7694772986454,453.40516923507
6545,13972,12058,"Neotoma","Palm prairie ""Fak7 palm""","FSPSP7",26.05443,-81.44943,2,"not known","terrestrial","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.880893514379094,8849.43294012524,24.2450217537678,19.056977616275798,28.4571760324327,1292.06071370226
6546,13973,1239,"Australian pollen","Palmerston","Palmerston campus",-12.48,130.98,30,"not applicable","terrestrial","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.840745262279748,9959.29526823693,27.2857404609231,23.9971828460464,29.5595014109054,1485.45306512904
6547,13974,21792,"SMPDSv1","Palojarv","Seppa_b126",57.62,27.15,188,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.986248719028793,2517.40474225781,5.16091579452543,-7.27843678230327,16.5029354445493,621.461676722775
6548,13975,21793,"SMPDSv1","Palomaa","FIN/SPH/P9",69.2775055555555,27.1941916666667,215,"not applicable","terrestrial","pollen trap","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39095368151139,1269.25012567605,-2.01233295050246,-15.4186969937704,12.7792517374281,499.113229346442
6549,13976,21794,"SMPDSv1","Palosenlampi","Seppa_b63",61.57,27.67,84,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04569485773612,2238.71234218986,3.64223019738528,-9.58069012989735,16.8341550452559,572.249228250683
6550,13977,9666,"Gaillard et al., 1992","Palsbo","Palsbo",57.562066,13.912371,285,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.07929420845692,2360.75165718257,5.64969858777323,-3.70107167651239,15.2115052701219,667.935773333993
6551,13978,7030,"EMPDv2","Pancavska louka","EPDcoretop_E1597",50.77,15.54,1336,"0.28","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.96099005823501,1904.80768610147,3.44254098676273,-7.11668742449185,12.7951270885473,1290.56365804263
6552,13979,11909,"Neotoma","Pangnirtung","BU1127",66.1373,-65.699365,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",30,"tundra",1.19740910406913,453.520807539014,-9.15655248705495,-23.8085537514774,6.17153430578449,368.628030543719
6552,13980,11907,"Neotoma","Pangnirtung","BU1128",66.1373,-65.699365,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",30,"tundra",1.19740910406913,453.520807539014,-9.15655248705495,-23.8085537514774,6.17153430578449,368.628030543719
6552,13981,11908,"Neotoma","Pangnirtung","BU1129",66.1373,-65.699365,100,"not known","terrestrial, bog/fen/swamp","surface sample","-23","Terasmae, J. 1976. In search of a palynological tundra. Geoscience and Man 15(1):77-82.","10.1080/00721395.1976.9989774",30,"tundra",1.19740910406913,453.520807539014,-9.15655248705495,-23.8085537514774,6.17153430578449,368.628030543719
6553,13982,17155,"Neotoma","Pangnirtung Fiord","SKS184",66.08,-65.75,308,"not known","coastal, estuarine","surface sample","Modern","Unpublished data",,30,"tundra",1.2787005638449,346.410852622902,-10.2460712582007,-24.6386933335979,5.22295633269932,380.047981591075
6553,13983,17157,"Neotoma","Pangnirtung Fiord","SKS185",66.08,-65.75,308,"not known","coastal, estuarine","surface sample","Modern","Unpublished data",,30,"tundra",1.2787005638449,346.410852622902,-10.2460712582007,-24.6386933335979,5.22295633269932,380.047981591075
6553,13984,17158,"Neotoma","Pangnirtung Fiord","SKS186",66.08,-65.75,308,"not known","coastal, estuarine","surface sample","Modern","Unpublished data",,30,"tundra",1.2787005638449,346.410852622902,-10.2460712582007,-24.6386933335979,5.22295633269932,380.047981591075
6553,13985,17154,"Neotoma","Pangnirtung Fiord","SKS187",66.08,-65.75,308,"not known","coastal, estuarine","surface sample","Modern","Unpublished data",,30,"tundra",1.2787005638449,346.410852622902,-10.2460712582007,-24.6386933335979,5.22295633269932,380.047981591075
6553,13986,17156,"Neotoma","Pangnirtung Fiord","SKS188",66.08,-65.75,308,"not known","coastal, estuarine","surface sample","Modern","Unpublished data",,30,"tundra",1.2787005638449,346.410852622902,-10.2460712582007,-24.6386933335979,5.22295633269932,380.047981591075
6554,13987,7926,"EMPDv2","Pantanello - Metaponto","Mercuri_i7",40.389513,16.785461,9,"not applicable","archaeological site","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.583784354612162,6004.30366474142,16.4501470266888,8.88627933082755,24.9690309686967,716.458144443719
6554,13988,7927,"EMPDv2","Pantanello - Metaponto","Mercuri_i8",40.389227,16.785277,8,"not applicable","archaeological site","soil sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.583703675442257,6006.20148792317,16.4553465422553,8.89128251730307,24.9740463539071,716.397385262901
6555,13989,7322,"EMPDv2","Pantano Cuba","Finsinger_a43",36.707097276035,15.0272852330425,2,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339560958450543,6814.47739919994,18.6698010936985,12.2851720184116,26.2975590161127,467.055164194931
6556,13990,24317,"Neotoma","Pantano de Genagra","GENAGRA",2.474535,-76.606165,1730,"not known","terrestrial, bog/fen/swamp","core","50","Behling, H., A.J. Negret, and H. Hooghiemstra. 1998. Late Quaternary vegetational and climatic change in the Popayán region, southern Colombian Andes. Journal of Quaternary Science 13(1):43-53.;
Wille, M., H. Hooghiemstra, H. Behling, K. van der Borg, and A.J. Negret. 2001. Environmental change in the Colombian subandean forest belt from 8 pollen records: the last 50 kyr. Vegetation History and Archaeobotany 10(2):61-77.","10.1002/(SICI)1099-1417(199801/02)13:1<43::AID-JQS348>3.0.CO;2-G;
10.1007/PL00006921",4,"warm-temperate evergreen and mixed forest",1.59831123108387,6782.28613906368,18.5816058604484,18.3432689562857,18.8669152325909,2085.35968379363
6557,13991,24318,"Neotoma","Pantano de Mónica 2","MONICA2",-0.706,-72.05962,112,"not known","terrestrial, bog/fen/swamp","core","-45","Behling, H., J.C. Berrio, and H. Hooghiemstra. 1999. Late Quaternary pollen records from the middle Caquetá river basin in central Colombian Amazon. Palaeogeography, Palaeoclimatology, Palaeoecology 135(1-3):193-213.","10.1016/S0031-0182(98)00105-9",1,"tropical evergreen broadleaf forest",2.29619218341231,9578.82489438019,26.2433558750142,25.1995963747765,26.7685766658025,3041.65218855965
6558,13992,24319,"Neotoma","Pantano de Mónica 3","MONICA3_0",-0.70373,-72.05567,160,"not known","terrestrial","core","-45","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Behling, H., J.C. Berrio, and H. Hooghiemstra. 1999. Late Quaternary pollen records from the middle Caquetá river basin in central Colombian Amazon. Palaeogeography, Palaeoclimatology, Palaeoecology 135(1-3):193-213.",";
10.1016/S0031-0182(98)00105-9",1,"tropical evergreen broadleaf forest",2.27721353643616,9534.39923920766,26.1216417512539,25.0421569042562,26.684292402534,3026.11509159852
6558,13993,24320,"Neotoma","Pantano de Mónica 3","MONICA3_8",-0.70373,-72.05567,160,"not known","terrestrial","core","37","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Behling, H., J.C. Berrio, and H. Hooghiemstra. 1999. Late Quaternary pollen records from the middle Caquetá river basin in central Colombian Amazon. Palaeogeography, Palaeoclimatology, Palaeoecology 135(1-3):193-213.",";
10.1016/S0031-0182(98)00105-9",1,"tropical evergreen broadleaf forest",2.27721353643616,9534.39923920766,26.1216417512539,25.0421569042562,26.684292402534,3026.11509159852
6559,13994,14375,"Neotoma","Panther Potholes","PANTHPOT",48.65899,-121.04095,1100,"not known","lake","core","-20","Prichard, S.J., Z. Gedalof, W.W. Oswald, and D.L. Peterson. 2009. Holocene fire and vegetation dynamics in a montane forest, North Cascade Range, Washington, USA. Quaternary Research 72:57-67.",,8,"cool evergreen needleleaf forest",1.43170582182636,2136.39406447212,4.98344048221418,-3.98027485361571,14.4717611148737,1082.53713888182
6559,13994,14376,"Neotoma","Panther Potholes","PANTHPOT",48.65899,-121.04095,1100,"not known","lake","core","36","Prichard, S.J., Z. Gedalof, W.W. Oswald, and D.L. Peterson. 2009. Holocene fire and vegetation dynamics in a montane forest, North Cascade Range, Washington, USA. Quaternary Research 72:57-67.",,8,"cool evergreen needleleaf forest",1.43170582182636,2136.39406447212,4.98344048221418,-3.98027485361571,14.4717611148737,1082.53713888182
6560,13995,13036,"Neotoma","Panther Run Pond","PANTHER",40.8,-77.416667,634,"not known","lake","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.17406154831173,3037.83850051881,6.95214539254981,-6.509220445548,19.2392952750937,970.840371427293
6561,13996,4011,"CMPD","Panzhihua","Panzhihua 1",26.61,101.58,1656,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.803961534801343,6504.35114147143,17.8201401136204,10.5248063422412,23.1000860493187,1087.57729067641
6561,13997,4012,"CMPD","Panzhihua","Panzhihua 2",26.61,101.58,1514,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811163059042272,6876.94777485434,18.8409528078201,11.5526027398825,24.0338303106326,1110.48469321957
6561,13998,4013,"CMPD","Panzhihua","Panzhihua 3",26.61,101.58,1514,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811163059042272,6876.94777485434,18.8409528078201,11.5526027398825,24.0338303106326,1110.48469321957
6562,13999,21795,"SMPDSv1","Papensee","Papensee_ss",52.91403,13.239,67,"0.059","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795404141961259,3297.89338065709,8.9786838191681,-0.568030803739424,17.9593819476918,557.334525042686
6563,14000,13037,"Neotoma","Paradise Lake","PARADISE",53.05,-57.75,180,"not known","lake","core","0","Lamb, H.F. 1978. Post-glacial vegetation change in southeastern Labrador. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Lamb, H.F. 1980. Late Quaternary vegetational history of southeastern Labrador. Arctic and Alpine Research 12:117-135.",,15,"cold evergreen needleleaf forest",2.08653464353464,1269.32138928641,-1.03208326080119,-14.486389083404,11.5313430572069,1058.54536335061
6564,14001,15834,"Neotoma","Paradise Lake (US:Illinois)","GMP05",39.42,-88.43,213,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.969955377199343,4306.50629660448,11.1059287539581,-4.53686769415678,24.1749498485559,967.704111646312
6565,14002,14003,"Neotoma","Paradox Lake","PARADOX",60.6228799999999,-150.75903,81,"not known","lake","core","-41","Anderson, R.S., D.J. Hallett, E. Berg, R.B. Jass, J.L. Toney, C.S. de Fontaine, and A. DeVolder. 2006. Holocene development of Boreal forests and fire regimes on the Kenai Lowlands of Alaska. The Holocene 16(6):791-803.",,15,"cold evergreen needleleaf forest",1.39588335045335,1719.59353199918,1.95697697413062,-8.83315843201566,13.4033972344507,629.100944519196
6566,14003,1240,"Australian pollen","Paralana Springs Road","Paralana_Sample 92",-30.3,139.44,200,"not applicable","cave","surface sample","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.124117860286373,7200.41635390802,19.7271680928987,11.213804549633,27.8536936053236,211.104839940618
6567,14004,24351,"Neotoma","Páramo de Agua Blanca","PAB-I",4.99445,-74.15686,3250,"not known","terrestrial, bog/fen/swamp","core","-32","Helmens, K.F. 1990. Neogene-Quaternary geology of the high plain of Bogotá, Eastern Cordillera, Colombia (stratigraphy, paleoenvironments and landscape evolution). Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Andriessen, P.A.M., K.F. Helmens, H. Hooghiemstra, P.A. Riezebos, and T. van der Hammen. 1994. Absolute chronology of the Pliocene-Quaternary sediment sequence of the Bogota area, Colombia. Quaternary Science Reviews 12(7):483-501.;
Helmens, K.F., and P. Kuhry. 1986. Middle and late Quaternary vegetational and climatic history of the paramo de Agua Blanca Eastern Cordillera, Colombia). Palaeogeography, palaeoclimatology, palaeoecology 56(3-4):291-335.;
Hooghiemstra, H., and E.T.H. Ran. 1994. Late and middle Pleistocene climatic change and forest development in Colombia: pollen record Funza II (2-158 m core interval ). Palaeogeography, Palaeoclimatology, Palaeoecology 109(2-4):211-246.;
van der Hammen, T., and H. Hooghiemstra. 1997. Chronostratigraphy and correlation of the Pliocene and Quaternary of Colombia. Quaternary International 40:81-91.",";
10.1016/0277-3791(93)90066-U;
10.1016/0031-0182(86)90100-8;
10.1016/0031-0182(94)90177-5;
10.1016/S1040-6182(96)00064-X",22,"steppe",0.771195223883155,3539.24463209161,9.69656063586743,9.16300110726456,10.2663947617441,950.44005477941
6567,14005,24349,"Neotoma","Páramo de Agua Blanca","PAB-II",4.99445,-74.15686,3250,"not known","terrestrial, bog/fen/swamp","profile or section","50","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.771195223883155,3539.24463209161,9.69656063586743,9.16300110726456,10.2663947617441,950.44005477941
6567,14006,24350,"Neotoma","Páramo de Agua Blanca","PAB-III",4.99445,-74.15686,3250,"not known","terrestrial, bog/fen/swamp","core","26","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.771195223883155,3539.24463209161,9.69656063586743,9.16300110726456,10.2663947617441,950.44005477941
6568,14007,24348,"Neotoma","Páramo de Laguna Verde","PLVERDE1",5.216585,-74.00278,3647,"not known","terrestrial, bog/fen/swamp","profile or section","21","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.502800271327147,2716.38393383877,7.44214776394184,6.79958679926297,8.081371394568,599.495540120565
6569,14008,24341,"Neotoma","Páramo de Peña Negra 1","PPN1_12",5.07352,-74.10008,3625,"not known","lake","profile or section","2","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14009,24342,"Neotoma","Páramo de Peña Negra 1","PPN1_15",5.07352,-74.10008,3625,"not known","lake","profile or section","11","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14010,24343,"Neotoma","Páramo de Peña Negra 1","PPN1_17",5.07352,-74.10008,3625,"not known","lake","profile or section","16","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14011,24344,"Neotoma","Páramo de Peña Negra 1","PPN1_19",5.07352,-74.10008,3625,"not known","lake","profile or section","22","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14012,24337,"Neotoma","Páramo de Peña Negra 1","PPN1_2",5.07352,-74.10008,3625,"not known","lake","profile or section","-27","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14013,24345,"Neotoma","Páramo de Peña Negra 1","PPN1_22",5.07352,-74.10008,3625,"not known","lake","profile or section","31","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14014,24346,"Neotoma","Páramo de Peña Negra 1","PPN1_25",5.07352,-74.10008,3625,"not known","lake","profile or section","39","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14015,24347,"Neotoma","Páramo de Peña Negra 1","PPN1_27",5.07352,-74.10008,3625,"not known","lake","profile or section","45","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14016,24338,"Neotoma","Páramo de Peña Negra 1","PPN1_5",5.07352,-74.10008,3625,"not known","lake","profile or section","-18","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14017,24339,"Neotoma","Páramo de Peña Negra 1","PPN1_7",5.07352,-74.10008,3625,"not known","lake","profile or section","-13","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6569,14018,24340,"Neotoma","Páramo de Peña Negra 1","PPN1_9",5.07352,-74.10008,3625,"not known","lake","profile or section","-7","Kuhry, P. 1988. Palaeobotanical-palaeoecological studies of tropical high Andean peatbog sections (Cordillera Oriental, Colombia). Dissertationes Botanicae 116. J. Cramer, Berlin, Germany.",,22,"steppe",0.55608127041364,2759.57071731994,7.56046771868476,6.95855086435246,8.19756510906211,660.590850124657
6570,14019,24193,"Neotoma","Paramo de Piedras Blancas","PIEDRABL",9.166667,-70.833333,4080,"not known","terrestrial, bog/fen/swamp","core","0","Rull, V., M.-L. Salgado-Labouriau, C. Schubert, and S. Valastro, Jr. 1987. Late Holocene temperature depression in the Venezuelan Andes: palynological evidence. Palaeogeography, Palaeoclimatology, Palaeoecology 60:109-121.","10.1016/0031-0182(87)90027-7",4,"warm-temperate evergreen and mixed forest",0.546322976278766,2066.57677406805,5.6618541755289,4.22810198632336,6.60696169624056,574.425695991063
6571,14020,11121,"Bush et al., 2020","Parangueo","Parangueo",20.43,-101.25,1756,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.51910408254337,7105.45892277263,19.4670107473223,15.6733015287606,22.9582897160483,809.720392648332
6572,14021,15741,"Neotoma","Parch Pond","PARH_C90",44.0417999999999,-73.601515,460,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.37172220796691,2737.41746842745,5.21106299784056,-9.70721600470807,18.6217103298419,1057.50158740439
6573,14022,21796,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d1",41.753278,13.867203,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.8470964723741,3588.42645435429,9.83130535439531,1.71679584801063,18.9181494583894,878.265480206591
6573,14023,21797,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d2",41.744476,13.883512,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.894266161827433,3225.22681121036,8.83623783893249,0.625176223175437,18.0278288195104,910.047210269242
6573,14024,21798,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d3",41.740447,13.890661,1650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.955132550016849,2796.7711347966,7.57405211266262,-0.734296253213242,16.8991232537973,948.168799472879
6573,14025,21799,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d4",41.7383,13.891488,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.967717941467952,2722.05257034127,7.32211237826628,-1.00633268411009,16.6740400957343,955.844726428683
6573,14026,21800,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d5",41.753938,13.807596,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.941005828996168,2873.87225120398,7.83176029913632,-0.411117092901755,17.123618491291,938.666598931943
6573,14027,21801,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d6",41.75663,13.807969,1530,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.92447988118027,2986.51690932996,8.17739066453091,-0.0432806943974822,17.4334607988249,928.377790650745
6573,14028,21802,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d7",41.758263,13.808172,1460,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.908203396327744,3111.04600910935,8.52341372358725,0.324408212543124,17.7438178293726,918.126463742366
6573,14029,21803,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d8",41.759126,13.808188,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.905906419939544,3128.97906064428,8.57254537162815,0.37680488431649,17.7878261566372,916.653921749261
6573,14030,21804,"SMPDSv1","Parco nazionale d'Abruzzo","Sadori_d9",41.759126,13.808188,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.905906419939544,3128.97906064428,8.57254537162815,0.37680488431649,17.7878261566372,916.653921749261
6574,14031,7207,"EMPDv2","Parika","EPDcoretop_E2560",58.5,25.77,50,"34.2","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03673841597384,2459.51016577685,5.1264920750689,-6.67983845335515,16.6752461632589,626.697734595036
6575,14032,17314,"Neotoma","Park","TW019",45.5,-91.1,358,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.959218355490101,2989.89347385652,5.3405359389028,-12.126189994785,20.3995789578047,773.364551176843
6576,14033,6144,"EMPDv2","Park Cedre Gouraud, Ifrane","AlbaSanchez_a72",33.424301,-5.207276,1670,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.339551406134073,4987.09685530301,13.6632790556247,5.06305629772693,24.5025589504458,483.016855412202
6576,14034,6145,"EMPDv2","Park Cedre Gouraud, Ifrane","AlbaSanchez_a73",33.39468,-5.240169,1831,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.335904797787984,4820.50219131782,13.206855318679,4.34362141841638,24.4446242453238,480.088062548174
6577,14035,13038,"Neotoma","Park Pond 2","PARK2",43.45,-109.940833,2714,"not known","lake","core","0","Lynch, E.A. 1995. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79:1320-1338.",,17,"temperate evergreen needleleaf open woodland",0.507783312493574,1587.33270163405,1.17102522802968,-9.77312381588708,13.6653626119054,447.451748161384
6578,14036,11487,"Neotoma","Park Pond Dam","SDHA02",45.511815,-103.315935,873,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.432659063823075,3228.70694258753,6.98304382519456,-8.53542970772063,22.0835369902093,400.302312231695
6579,14037,7977,"EMPDv2","Parkata","Mikishin-Gvozdeva_a37",51.5322222222222,142.984722222222,55,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22238707301402,1851.60532828881,-0.550742419798808,-18.7003624495129,15.3014061165281,664.299467782765
6580,14038,13039,"Neotoma","Parkhill Creek","PARKHILL",43.18,-81.75,181,"not known","not known","profile or section","-40","Morgan, A.V., J.H. McAndrews, and C.J. Ellis. (n.d.) Geological history and paleoenvironment of the Parkhill archaeological site. Unpublished manuscript.",,9,"cool mixed forest",1.00248775359988,3439.03676163439,8.29623357316255,-5.74990362448075,21.195649814317,884.195583906646
6581,14039,21805,"SMPDSv1","Parque Cierra de Cebollera 1","Barboni_a784",42.09,-2.7,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.515584372786171,3668.7330426027,10.051323404391,2.31516002850609,19.5276016045705,576.025570966704
6582,14040,21806,"SMPDSv1","Parque Cierra de Cebollera 2","Barboni_a785",42.1,-2.67,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.567518448246155,3776.95840696337,10.3478312519544,2.7334031912027,19.5429679730165,621.849067845232
6583,14041,21807,"SMPDSv1","Parque Cierra de Cebollera 3","Barboni_a783",42.08,-2.72,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.490145408547462,3615.77757568238,9.90623993337639,2.10893664501382,19.524498900147,553.031494252437
6584,14042,11122,"Bush et al., 2020","Parres","Parres",19.15,-99.17,2957,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.552142061224509,4315.81613853726,11.8241538042117,8.62472276499803,14.0626973662319,792.047380049398
6585,14043,13040,"Neotoma","Parrott's Pond","PARROTT",44.22,-76.7,74,"not known","lake","core","-26","McCarthy, F.M.G. 1986. Late Holocene water levels in Lake Ontario: evidence from Grenadier Pond. M.S. Thesis. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.07949412924196,3275.58012724063,7.29379957492064,-7.79269828429789,21.0306939876591,902.079984006134
6586,14044,17349,"Neotoma","Partridge Crop","TW051",44.348889,-88.861389,228,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.919289616457081,3331.2593657275,7.14482724041758,-9.28390976847174,21.607959230038,774.421777910701
6587,14045,21808,"SMPDSv1","Pas du Gu","EPDcoretop_E503",47.238333,-2.15,3,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.92486786642878,4463.49785258422,12.2287612399568,6.03107653108996,18.9554158640076,805.311140995898
6588,14046,13041,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","0","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6588,14046,13042,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","4","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6588,14046,13043,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","8","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6588,14046,13044,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","21","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6588,14046,13045,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","33","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6588,14046,13046,"Neotoma","Pasacaco Pond","PASACACO",41.516667,-71.45,3,"not known","lake","core","46","Unpublished data",,13,"temperate deciduous broadleaf forest",1.31515312751628,3932.55670212598,10.5141704953596,-1.89909570273115,22.4800842450237,1195.68990084607
6589,14047,14104,"Neotoma","Pascagoula Marsh","PASCAGOU",30.391,-88.5855,0,"not known","coastal, estuarine","core","-43","Hathorn, J.H. 2008. Paleoecology and paleotempestology of the Pascagoula Marsh, Mississippi. Master's thesis. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.15464472416734,7395.12445480226,20.2606149446637,10.9266406044003,27.8753601555129,1538.14654865768
6590,14048,6041,"EMBSeCBIO","Pashennoe","Pashennoe Core",49.37,75.4,871,"0.3","lake","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.309220598910324,2681.92655900524,2.46360254464307,-16.3337572897061,20.1768654346389,268.637419799144
6591,14049,11123,"Bush et al., 2020","PasoCortes","PasoCortes",19.12,-97.82,2490,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.491543351566698,5536.69124910814,15.1690171208442,12.3009541712344,17.4479598268396,719.535187223214
6592,14050,13047,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-28","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13048,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-26","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13049,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-24","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13050,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-22","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13051,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-19","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13052,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-17","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13053,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-15","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13054,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-13","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13055,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-11","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13056,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-9","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13057,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-7","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13058,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-5","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13059,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-3","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13060,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","-1","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13061,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","2","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13062,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","4","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13063,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","6","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13064,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","8","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13065,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","10","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13066,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","12","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13067,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","14","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13068,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","16","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13069,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","18","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13070,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","21","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13071,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","23","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13072,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","25","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13073,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","27","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13074,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","29","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13075,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","31","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13076,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","33","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13077,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","35","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13078,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","37","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13079,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","39","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13080,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","42","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13081,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","44","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13082,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","46","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13083,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","48","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6592,14050,13084,"Neotoma","Pasqua Lake","PASQUA",50.78,-104,522,"not known","lake","core","50","McAndrews, J.H. 1988. Human disturbance of North American forests and grasslands: the fossil pollen record. Pages 673-697 in B. Huntley and T. Webb III, editors. Vegetation History. Kluwer Academic Publishers, Dordrecht, Netherlands.",,22,"steppe",0.519676469575493,2515.59724370477,1.90970586658756,-17.8326746754307,18.3938153896015,396.93419894268
6593,14051,13085,"Neotoma","Pass Lake","PASSLAKE",48.56,-88.74,250,"not known","lake","core","0","McAndrews, J.H. 1986. 12,000 years of change - and it's not done yet! Thunder Bay Field Naturalists' Newsletter 40:2-7.",,9,"cool mixed forest",1.05834431395464,2363.1031147834,2.53779327330228,-15.0275132115146,17.5730344945538,754.588370570219
6594,14052,21809,"SMPDSv1","Passo del Cirane","Barboni_a1264",44.43736111,10.00319444,1250,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.4287882562697,2128.93047592945,5.39097377366189,-2.42066930453931,13.8835271853501,1205.14981831956
6595,14053,21810,"SMPDSv1","Passo della Rovina","Ortu_a13",44.149,7.326,2175,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.62998748727889,1588.86843078239,3.32267859799221,-3.82755404308073,11.7036856191088,1485.85169858092
6595,14054,21811,"SMPDSv1","Passo della Rovina","Ortu_a14",44.161,7.334,2070,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.57953286510361,1715.20740273725,3.86783890416849,-3.34397772541403,12.2698543473174,1454.60299536559
6596,14055,11814,"Neotoma","Pastorius Reservoir","LMSJ27",37.2004,-107.81205,2094,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.283515346221617,3396.57943912387,8.65530679020988,-4.2321804233268,21.4089942467297,358.396790654788
6597,14056,21812,"SMPDSv1","Patara Gldani lake","Connor_a10",41.8109833333333,44.8289333333333,530,"0.03","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.560810091648405,4281.90529650398,11.6137331853737,-1.12955833238324,23.721218043281,582.716914510862
6598,14057,11124,"Bush et al., 2020","Patashore","Patashore",0.28554,-66.676797,298,"not known","terrestrial","moss polster or moss","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05332088605897,8969.02941370513,24.5726833252195,23.6599396475272,25.1010942758491,2889.84792954795
6599,14058,10466,"IBERIA","Patateros bog","PATATERO_0.02",39.59722222,-4.674166667,700,"3e-04","terrestrial, bog/fen/swamp","core","-19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.387765539169374,5061.55006845528,13.8672604615213,5.66624385344784,24.0572961984896,484.915705560025
6599,14059,10467,"IBERIA","Patateros bog","PATATERO_0.04",39.59722222,-4.674166667,700,"3e-04","terrestrial, bog/fen/swamp","core","18","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.387765539169374,5061.55006845528,13.8672604615213,5.66624385344784,24.0572961984896,484.915705560025
6600,14060,14365,"Neotoma","Path Lake","PATHNS",43.87196,-64.928795,10,"not known","lake","core","-43","Neil, K., K. Gajewski, and M. Betts. 2014. Human-ecosystem interactions in relation to Holocene environmental change in Port Joli Harbour, southwestern Nova Scotia, Canada. Quaternary Research 81:203-212.",,9,"cool mixed forest",1.80240508276678,2968.63118053479,7.28425212259585,-4.30632710259929,18.4261870229895,1421.68911520701
6600,14060,14366,"Neotoma","Path Lake","PATHNS",43.87196,-64.928795,10,"not known","lake","core","-3","Neil, K., K. Gajewski, and M. Betts. 2014. Human-ecosystem interactions in relation to Holocene environmental change in Port Joli Harbour, southwestern Nova Scotia, Canada. Quaternary Research 81:203-212.",,9,"cool mixed forest",1.80240508276678,2968.63118053479,7.28425212259585,-4.30632710259929,18.4261870229895,1421.68911520701
6600,14060,14367,"Neotoma","Path Lake","PATHNS",43.87196,-64.928795,10,"not known","lake","core","37","Neil, K., K. Gajewski, and M. Betts. 2014. Human-ecosystem interactions in relation to Holocene environmental change in Port Joli Harbour, southwestern Nova Scotia, Canada. Quaternary Research 81:203-212.",,9,"cool mixed forest",1.80240508276678,2968.63118053479,7.28425212259585,-4.30632710259929,18.4261870229895,1421.68911520701
6601,14061,21813,"SMPDSv1","Patleyna","BUL/MF/12",43.133611,26.820556,172,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.564788279772839,4281.57984831731,11.7222132081713,0.0241802980730497,22.2183613736394,561.406291823221
6602,14062,21814,"SMPDSv1","Patleyna Reserve","Patleyna Reserve ss",43.1358,26.824,297,"not applicable","coastal, other","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.60016205716442,4109.4767146773,11.2336315226289,-0.273219019459965,21.7331764784093,593.09847995508
6603,14063,16558,"Neotoma","Pattee Pond","KG052",44.53,-69.57,43,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46474081771595,3037.25836040973,6.78313361389961,-7.2729844155091,19.9029507870419,1157.88221041411
6604,14064,16724,"Neotoma","Patten Lake","RBD003",45.85,-88.416667,414,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.02536027819608,2664.49383427678,4.20478399400895,-12.228535627227,18.9018276450477,788.105040690916
6605,14065,14541,"Neotoma","Patterson Lake","PATTERSN",41.382,-120.2205,2754,"not known","lake","core","-14","Minckley, T.A., C. Whitlock, and P.J. Bartlein. 2007. Vegetation, fire, and climate history of the northwestern Great Basin during the last 14,000 years. Quaternary Science Reviews 26:2167-2184.",,17,"temperate evergreen needleleaf open woodland",0.476065892868169,1300.9842536224,0.937340548796466,-7.62996355725433,12.0512758234794,446.185689722463
6605,14065,14542,"Neotoma","Patterson Lake","PATTERSN",41.382,-120.2205,2754,"not known","lake","core","-5","Minckley, T.A., C. Whitlock, and P.J. Bartlein. 2007. Vegetation, fire, and climate history of the northwestern Great Basin during the last 14,000 years. Quaternary Science Reviews 26:2167-2184.",,17,"temperate evergreen needleleaf open woodland",0.476065892868169,1300.9842536224,0.937340548796466,-7.62996355725433,12.0512758234794,446.185689722463
6606,14066,24468,"Southern Hemisphere pollen","Paturau","Paturau_mod",-40.654,172.4485,5,"very small (<0.01 km2)","small hollow","surface sample","-29","Macphail, M.K. and Mildenhall, D.C., 1980. Dactylanthus taylori: in North-West Nelson, New Zealand?. New Zealand Journal of Botany, 18(1), pp.149-152.","10.1080/0028825X.1980.10427242",7,"cool-temperate rainforest",2.56105218088974,4596.24649928272,12.5924561624184,8.21779085312636,16.820091983315,2417.08018754107
6607,14067,11125,"Bush et al., 2020","Patzcuaro2","Patzcuaro2",19.56,-101.63,2039,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.575601902953653,6380.7734518484,17.4815711009545,13.829456277819,20.7144108806062,882.484640553565
6608,14068,14203,"Neotoma","Pawelski Farm","PAWELSKI",41.33395,-74.43065,122,"not known","terrestrial","core","-44","Robinson, G.S., L.P. Burney, and D.A. Burney. 2005. Landscape paleoecology and megafaunal extinction in southeastern New York State. Ecological Monographs 75(3):295-315.",,13,"temperate deciduous broadleaf forest",1.22890731499767,3984.62577833634,10.491697426477,-2.90082802784161,22.8958277481907,1144.30903667842
6609,14069,4014,"CMPD","Payango","Payango",43.75,87.5,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.157339509863098,3032.78804862963,4.63353248337916,-14.072216541121,20.4148670965984,161.128745243697
6610,14070,13088,"Neotoma","Paynter Marsh","PAYNTER",44.1,-78.34,188,"not known","terrestrial, bog/fen/swamp","core","0","Jackson, L.J., and H. McKillop. 1991. New fossil records for the Rice Lake region. Arch Notes 91(5):12-16.; Yu, Z. 1992. Postglacial water levels at Rice Lake, Ontario: sediment, pollen, and plant macrofossil evidence. Thesis. University of Toronto, Toronto, Ontario, Canada.; Yu, Z., J.H. McAndrews, and D. Siddiqi. 1996. Influences of Holocene climate and water levels on vegetation dynamics of a lakeside wetland. Canadian Journal of Botany 74:1602-1615.",,9,"cool mixed forest",1.04884483699015,3179.98396564391,7.09985415533511,-7.48031094065692,20.5648574351627,884.505069909133
6610,14070,13089,"Neotoma","Paynter Marsh","PAYNTER",44.1,-78.34,188,"not known","terrestrial, bog/fen/swamp","core","31","Jackson, L.J., and H. McKillop. 1991. New fossil records for the Rice Lake region. Arch Notes 91(5):12-16.; Yu, Z. 1992. Postglacial water levels at Rice Lake, Ontario: sediment, pollen, and plant macrofossil evidence. Thesis. University of Toronto, Toronto, Ontario, Canada.; Yu, Z., J.H. McAndrews, and D. Siddiqi. 1996. Influences of Holocene climate and water levels on vegetation dynamics of a lakeside wetland. Canadian Journal of Botany 74:1602-1615.",,9,"cool mixed forest",1.04884483699015,3179.98396564391,7.09985415533511,-7.48031094065692,20.5648574351627,884.505069909133
6611,14071,16532,"Neotoma","Payson Lake","KG027",46.25,-67.65,152,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.53424772140935,2581.80265622705,4.43915423925905,-10.7628195738087,18.3608971443379,1135.27883203382
6612,14072,16617,"Neotoma","PB02","PB02",55.283333,-77.716667,84,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.29201038049709,1200.1958602636,-4.55660271998121,-23.320613512255,11.0697905116295,599.438224188491
6613,14073,16618,"Neotoma","PB03","PB03",55.286667,-77.718333,99,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.30216232998662,1198.91688124326,-4.56374377676963,-23.3090286324617,11.0677161633005,604.839615463818
6614,14074,16619,"Neotoma","PB04B","PB04B",55.291667,-77.703333,99,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.30236810193295,1197.97492297098,-4.56843950399284,-23.3112386115066,11.061681238501,604.705936660984
6615,14075,16620,"Neotoma","PB05","PB05",55.291667,-77.7,99,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.30238763397266,1197.82982683603,-4.5691529975415,-23.311556858828,11.0607332262303,604.687502196482
6616,14076,16621,"Neotoma","PB06","PB06",55.295,-77.7,99,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.30246506103659,1197.63625961026,-4.57014850355501,-23.3120779112842,11.0595516021892,604.652967274544
6617,14077,21815,"SMPDSv1","Pbasq chigolatse","Barboni_a756",43.034,-1.05,1193.6,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.830644326025341,3148.61745613663,8.62634919489489,0.570579290806059,17.9439200329108,865.354299929506
6617,14078,21816,"SMPDSv1","Pbasq chigolatse","Barboni_a757",43.034,-1.05,1131.72,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.833119771942577,3253.84035169141,8.91463110052442,0.911519615372675,18.141271602475,867.187199902441
6617,14079,21817,"SMPDSv1","Pbasq chigolatse","Barboni_a758",43.034,-1.05,1096.98,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.834519598569504,3312.91345110274,9.07647520850066,1.10292664309479,18.2520665851295,868.216206771538
6618,14080,21818,"SMPDSv1","Pbasq Harpea","Barboni_a798",43.034,-1.167,883.92,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837610281038524,3678.37123181117,10.0777294022224,2.29151781338051,18.9379334444554,868.510513661768
6618,14081,21819,"SMPDSv1","Pbasq Harpea","Barboni_a799",43.034,-1.167,876.91,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83805793464218,3690.2194329327,10.1101902272129,2.33026520835227,18.9596817590916,868.850504416876
6618,14082,21820,"SMPDSv1","Pbasq Harpea","Barboni_a800",43.034,-1.167,880.262,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837843832084419,3684.55393077016,10.0946683034799,2.31173721007191,18.9492822796821,868.687929664933
6618,14083,21821,"SMPDSv1","Pbasq Harpea","Barboni_a801",43.034,-1.167,883.006,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837668627426341,3679.91606145811,10.081961812214,2.29656989883047,18.9407691020271,868.554843412149
6618,14084,21822,"SMPDSv1","Pbasq Harpea","Barboni_a802",43.034,-1.167,879.958,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837863246005659,3685.0677471954,10.0960760197134,2.31341755359137,18.9502254305593,868.702673914512
6618,14085,21823,"SMPDSv1","Pbasq Harpea","Barboni_a803",43.034,-1.167,876.3,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.838096906337378,3691.2504461544,10.113014920971,2.33363695028277,18.961574265786,868.880089917677
6618,14086,21824,"SMPDSv1","Pbasq Harpea","Barboni_a804",43.034,-1.167,870.509,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83846702184955,3701.03831101813,10.1398309890908,2.36564638883932,18.9795406695033,869.160958172004
6618,14087,21825,"SMPDSv1","Pbasq Harpea","Barboni_a805",43.017,-1.167,867.156,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.836975530745789,3708.26686294027,10.1596352409323,2.38605735751449,18.9981122522839,868.106542141715
6618,14088,21826,"SMPDSv1","Pbasq Harpea","Barboni_a806",43.017,-1.167,866.546,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837013162477297,3709.29930356268,10.1624638453772,2.38942948301083,19.0000125670072,868.135049372451
6618,14089,21827,"SMPDSv1","Pbasq Harpea","Barboni_a807",43.017,-1.167,853.44,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837822356247284,3731.48154421383,10.2232371074352,2.4618804285108,19.0408412961266,868.747534234789
6618,14090,21828,"SMPDSv1","Pbasq Harpea","Barboni_a808",43.017,-1.167,856.183,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837652891754062,3726.83894646424,10.2105176615459,2.44671691992646,19.0322961104121,868.619345162807
6618,14091,21829,"SMPDSv1","Pbasq Harpea","Barboni_a809",43.017,-1.167,861.365,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837332896640416,3718.06827875066,10.1864884349333,2.41807043743135,19.0161527810746,868.377173901047
6618,14092,21830,"SMPDSv1","Pbasq Harpea","Barboni_a810",43.017,-1.167,861.365,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.837332896640416,3718.06827875066,10.1864884349333,2.41807043743135,19.0161527810746,868.377173901047
6619,14093,21835,"SMPDSv1","Pbasq Oraate","Barboni_a1278",43.034,-1.1,1375,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.816701715030958,2857.91310296074,7.79069871795327,-0.426312703634328,17.3858235534099,853.620733599045
6619,14094,21831,"SMPDSv1","Pbasq Oraate","Barboni_a1279",43.034,-1.1,1267.66,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.821862936068324,3025.66426691864,8.28949114224285,0.165902177417796,17.7242357927267,857.647980706093
6619,14095,21836,"SMPDSv1","Pbasq Oraate","Barboni_a1280",43.034,-1.1,1243.58,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823032513952607,3066.5063237061,8.40138718823589,0.298756046765059,17.8001531275762,858.55142872489
6619,14096,21837,"SMPDSv1","Pbasq Oraate","Barboni_a1281",43.034,-1.12,1228.04,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.821530248542989,3094.00842072177,8.47673539923773,0.385962193114379,17.8553463667311,856.992864721151
6619,14097,21838,"SMPDSv1","Pbasq Oraate","Barboni_a1282",43.034,-1.12,1183.84,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823855322483825,3168.89850659427,8.68191371669663,0.629955999214959,17.9940401319096,858.793958928207
6619,14098,21832,"SMPDSv1","Pbasq Oraate","Barboni_a1283",43.034,-1.12,1163.42,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.824933757616691,3203.49704852903,8.77670424254529,0.742678929544684,18.0581153962749,859.626048152372
6619,14099,21839,"SMPDSv1","Pbasq Oraate","Barboni_a1284",43.034,-1.12,1147.57,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.825772713486018,3230.35243000141,8.85028063014085,0.83017444598573,18.1078506039238,860.271915645174
6619,14100,21833,"SMPDSv1","Pbasq Oraate","Barboni_a1285",43.034,-1.12,1126.24,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.826904330650981,3266.49282664531,8.9492954154666,0.947920778205761,18.1747813281604,861.14108622066
6619,14101,21840,"SMPDSv1","Pbasq Oraate","Barboni_a1286",43.034,-1.12,1123.8,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.827033970381142,3270.6270304808,8.96062200131727,0.96139011953801,18.1824377260571,861.240513140687
6619,14102,21841,"SMPDSv1","Pbasq Oraate","Barboni_a1287",43.034,-1.12,1104.29,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.828071971074428,3303.68371770643,9.05118826768884,1.06908964797743,18.2436575305511,862.03552101353
6619,14103,21842,"SMPDSv1","Pbasq Oraate","Barboni_a1288",43.034,-1.12,1102.46,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.828169462748958,3306.78437058305,9.05968320707684,1.07919165397662,18.2493998289737,862.110091203551
6619,14104,21843,"SMPDSv1","Pbasq Oraate","Barboni_a1289",43.034,-1.12,1100.94,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.828250456324848,3309.35977625106,9.0667391130166,1.08758239119998,18.254169388319202,862.172029284879
6619,14105,21844,"SMPDSv1","Pbasq Oraate","Barboni_a1290",43.034,-1.12,1099.41,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.828331998233443,3311.95212537742,9.07384143939018,1.09602833064193,18.2589703263446,862.234374853585
6619,14106,21845,"SMPDSv1","Pbasq Oraate","Barboni_a1291",43.034,-1.12,1084.78,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.829112494929358,3336.74040493205,9.1417545340604,1.17678917641685,18.3048773350451,862.830528886373
6619,14107,21846,"SMPDSv1","Pbasq Oraate","Barboni_a1292",43.034,-1.12,993.038,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.834039575476245,3492.183080455,9.56762487795892,1.6832253700657,18.5927516202263,866.568899581932
6619,14108,21847,"SMPDSv1","Pbasq Oraate","Barboni_a1293",43.034,-1.13,984.199,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.83383381992228,3507.52152463801,9.60964801270689,1.73312530085671,18.6218030256818,866.242541383888
6619,14109,21834,"SMPDSv1","Pbasq Oraate","Barboni_a1294",43.034,-1.13,972.617,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.834482577244009,3527.13524175774,9.6633842239938,1.79707818516049,18.6580592807639,866.733376235691
6620,14110,6906,"EMPDv2","Pd","Colombaroli_a21",37.8458888888889,13.4347222222222,1159,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.453316171866288,4687.64329004576,12.8428583288925,6.3133400971375,21.0742376588337,624.975700757181
6621,14111,17260,"Neotoma","Peace Lake","LFR68106",49.02,-100.05,526,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.609902657015048,2693.49631316597,3.01987060177925,-16.4665706317106,19.5208968857618,484.15221502026
6622,14112,11567,"Neotoma","Peach Lake","SDDEPE",45.297245,-101.311669999999,673,"not known","lake","surface sample","-37","Unpublished data",,22,"steppe",0.454859136570492,3323.04846521033,6.96901937146862,-9.61378997934053,22.5741709355033,418.013202821685
6623,14113,4015,"CMPD","Pearl Harbor","Pearl Harbor F11-1",21.5801027777778,108.198222222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14114,4016,"CMPD","Pearl Harbor","Pearl Harbor F11-2",21.5819333333333,108.193688888889,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14115,4017,"CMPD","Pearl Harbor","Pearl Harbor F11-3",21.5840944444444,108.189258333333,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14116,4018,"CMPD","Pearl Harbor","Pearl Harbor F11-4",21.5849527777778,108.186822222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14117,4019,"CMPD","Pearl Harbor","Pearl Harbor F11-5",21.5854055555556,108.185377777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14118,4020,"CMPD","Pearl Harbor","Pearl Harbor F11-6",21.5857527777778,108.183366666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14119,4021,"CMPD","Pearl Harbor","Pearl Harbor F14-0",21.6181166666667,108.245866666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14120,4022,"CMPD","Pearl Harbor","Pearl Harbor F14-1",21.603675,108.231969444444,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6623,14121,4023,"CMPD","Pearl Harbor","Pearl Harbor F14-2",21.6029361111111,108.231352777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6624,14122,15202,"Neotoma","Pearson's Pond","PEARSONS",37.352695,-122.256565,365,"not known","lake","core","-23","Adam, D.P. 1975. A late Holocene pollen record from Pearson's Pond, Weeks Creek landslide, San Francisco peninsula, California. Journal of Research of the U.S. Geological Survey 3(6):721-731.","10.3133/70007411",20,"xerophytic woods/scrub",0.587416272821927,4863.8099959362,13.3255068381814,7.810338365623,18.7017788060076,735.616231400014
6624,14122,15203,"Neotoma","Pearson's Pond","PEARSONS",37.352695,-122.256565,365,"not known","lake","core","50","Adam, D.P. 1975. A late Holocene pollen record from Pearson's Pond, Weeks Creek landslide, San Francisco peninsula, California. Journal of Research of the U.S. Geological Survey 3(6):721-731.","10.3133/70007411",20,"xerophytic woods/scrub",0.587416272821927,4863.8099959362,13.3255068381814,7.810338365623,18.7017788060076,735.616231400014
6625,14123,6250,"EMPDv2","Peat 2_98","Binney2017_E2237",57.02,65.75,4,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.907686224984818,2299.48247991503,1.05420627700998,-17.8493002515852,19.2253606799125,508.182053860722
6626,14124,21848,"SMPDSv1","Peat-bog Begbunar","EPDcoretop_E1048",42.1525,22.535,1750,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.902964174598964,2164.64132223985,4.45206674295803,-6.70293319139688,14.1222309251715,793.007945688374
6627,14125,21849,"SMPDSv1","Pechoro-ilychskij-reserve","Pechoro-ilychskij_SS",62.0775,58.9575,260,"0.25","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34285751078595,1613.21232930482,-2.13370438134965,-20.7294684955241,15.9418572690346,611.367449211422
6628,14126,13104,"Neotoma","Ped Pond","PEDPOND",67.2,-142.066667,211,"not known","lake","core","0","Edwards, M.E., and L.B. Brubaker. 1986. Late Quaternary vegetation history of the Fishhook Bend area, Porcupine River, Alaska. Canadian Journal of Earth Sciences 23:1765-1773.",,15,"cold evergreen needleleaf forest",0.456943980742429,1193.48986086622,-6.81871976720553,-24.5769260395655,12.3934166669775,173.091651801737
6629,14127,21850,"SMPDSv1","Peder Sorensensvatn","Bjune_a240",69.8933333333333,18.8716666666666,109,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.51229364807968,1315.19176060212,1.34529179341893,-6.61724491244732,11.7670553445115,915.302974814556
6630,14128,7170,"EMPDv2","Pedrido","EPDcoretop_E2256",43.46,-7.07,770,"0.025","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.08652705765776,3771.68543423278,10.3333847513227,3.96710433824008,17.5748839876554,1046.98361705344
6631,14129,13105,"Neotoma","Peggy Lake","PEGGY",49.48,-92,470,"not known","lake","core","-16","Unpublished data",,15,"cold evergreen needleleaf forest",1.02211474865804,2283.79553944316,1.27531133644591,-18.1865911421997,17.7681640100972,723.44938322145
6631,14129,13106,"Neotoma","Peggy Lake","PEGGY",49.48,-92,470,"not known","lake","core","38","Unpublished data",,15,"cold evergreen needleleaf forest",1.02211474865804,2283.79553944316,1.27531133644591,-18.1865911421997,17.7681640100972,723.44938322145
6632,14130,17546,"Neotoma","Pelican Lake","LFR65088",49.3392,-99.5481499999999,411,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87.",,9,"cool mixed forest",0.622522703473499,2683.16248811268,2.69924627089605,-17.273034785436,19.4716423686874,487.966718001643
6633,14131,21851,"SMPDSv1","Pelleautier","EPDcoretop_E513",44.522222,6.183333,975,"0.16","lake","lacustrine core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08444984765075,3281.64510638618,8.99080851064706,1.29719931377947,17.6812252746272,1088.68280905409
6633,14132,21852,"SMPDSv1","Pelleautier","Ortu_d59",44.429,6.007,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.939511938988455,3808.56666811492,10.4344292277121,2.68174881091361,19.1892951810352,974.820986460498
6633,14133,21853,"SMPDSv1","Pelleautier","Ortu_d60",44.429,6.007,710,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.944479537968753,3789.30923947704,10.3816691492522,2.63120224842381,19.1345451992338,978.906281440347
6633,14134,21854,"SMPDSv1","Pelleautier","Ortu_d61",44.438,5.997,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04198045423535,3420.84759404025,9.37218518915137,1.659991062092,18.0898079107665,1056.9264297773
6633,14135,21855,"SMPDSv1","Pelleautier","Ortu_d62",44.438,5.997,920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.05238955869651,3382.3577902441,9.26673367190163,1.55903867721248,17.9803232266076,1065.09591035054
6633,14136,21856,"SMPDSv1","Pelleautier","Ortu_d63",44.449,5.985,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10633810822995,3186.97760750245,8.73144550000671,1.04217715102116,17.4275633615139,1106.42207765706
6633,14137,21857,"SMPDSv1","Pelleautier","Ortu_d64",44.449,5.984,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10635850549761,3186.87682818164,8.73116939227847,1.04178255287039,17.4274035864616,1106.43052370344
6633,14138,21858,"SMPDSv1","Pelleautier","Ortu_d65",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14139,21859,"SMPDSv1","Pelleautier","Ortu_d66",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14140,21860,"SMPDSv1","Pelleautier","Ortu_d67",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14141,21861,"SMPDSv1","Pelleautier","Ortu_d68",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14142,21862,"SMPDSv1","Pelleautier","Ortu_d69",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14143,21863,"SMPDSv1","Pelleautier","Ortu_d70",44.458,5.983,1080,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.13941524235262,3070.05973770261,8.41112256904824,0.733366490518972,17.096122445025,1131.2583717569
6633,14144,21864,"SMPDSv1","Pelleautier","Ortu_d71",44.516,6.009,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10091021817819,3217.07566004198,8.81390591792322,1.1062318034974301,17.5194940107507,1100.33137771928
6634,14145,16398,"Neotoma","Pelly Bay","JTA221",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14146,16406,"Neotoma","Pelly Bay","JTA222",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14147,16405,"Neotoma","Pelly Bay","JTA223",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14148,16404,"Neotoma","Pelly Bay","JTA224",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14149,16403,"Neotoma","Pelly Bay","JTA225",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14150,16401,"Neotoma","Pelly Bay","JTA226",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14151,16400,"Neotoma","Pelly Bay","JTA227",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14152,16399,"Neotoma","Pelly Bay","JTA228",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6634,14153,16402,"Neotoma","Pelly Bay","JTA229",68.53,-89.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.682753443070194,454.38837223003,-14.4842518341072,-32.8858881649234,7.21463903979957,187.961010080777
6635,14154,11347,"Neotoma","Pelly Lake Airport","HC003",66.06667,-101.083336,211,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,31,"tundra",0.722015085104445,660.328249189977,-13.0515563960391,-33.1195899049901,9.26684391289577,231.101391972213
6636,14155,10468,"IBERIA","Pena de Cadela","CADELA_0",42.83,-7.17,970,"not known","terrestrial, bog/fen/swamp","core","-14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.962774015291468,3554.61547156894,9.73867252484642,2.57264127995285,18.0041694182908,978.946014220365
6636,14156,10469,"IBERIA","Pena de Cadela","CADELA_0.02",42.83,-7.17,970,"not known","terrestrial, bog/fen/swamp","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.962774015291468,3554.61547156894,9.73867252484642,2.57264127995285,18.0041694182908,978.946014220365
6636,14157,10470,"IBERIA","Pena de Cadela","CADELA_0.04",42.83,-7.17,970,"not known","terrestrial, bog/fen/swamp","core","45","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.962774015291468,3554.61547156894,9.73867252484642,2.57264127995285,18.0041694182908,978.946014220365
6637,14158,21865,"SMPDSv1","Pena de los Gitanos","Lopez_a222",37.3348138888888,-3.96618611111111,990,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374414522887802,5070.07482207312,13.8906159508853,5.89413887801702,24.2580204176184,483.226767428628
6638,14159,10471,"IBERIA","Pena Negra","PENANEGR_0",40.3347,-5.7922,1000,"not known","terrestrial, bog/fen/swamp","core","-62","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.437028019727518,3983.47691960352,10.913635396174,3.04987681213805,20.3306648713037,528.440992074761
6638,14160,10472,"IBERIA","Pena Negra","PENANEGR_0.04",40.3347,-5.7922,1000,"not known","terrestrial, bog/fen/swamp","core","-21","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.437028019727518,3983.47691960352,10.913635396174,3.04987681213805,20.3306648713037,528.440992074761
6638,14161,10473,"IBERIA","Pena Negra","PENANEGR_0.08",40.3347,-5.7922,1000,"not known","terrestrial, bog/fen/swamp","core","30","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.437028019727518,3983.47691960352,10.913635396174,3.04987681213805,20.3306648713037,528.440992074761
6639,14162,21866,"SMPDSv1","Pena Vella","Barboni_a1295",43.45,-7.483333,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17681771348544,3873.38697455715,10.6120191083758,4.46081864507129,17.5756288044226,1120.15791253817
6640,14163,14288,"Neotoma","Penegor Lake","PENEGOR",46.61506,-88.86036,437,"not known","lake","core","-35","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668. Graumlich, L.J., and M.B. Davis. 1993. Holocene variation in spatial scales of vegetation pattern in the Upper Great Lakes. Ecology 74(3):826-839.","10.1191/0959683603hl608rp;
10.2307/2845547;
10.2307/1940810",9,"cool mixed forest",1.03913975023269,2604.35803857737,3.8993042275093,-12.6522398149477,18.651456279707,786.894604142418
6640,14163,14289,"Neotoma","Penegor Lake","PENEGOR",46.61506,-88.86036,437,"not known","lake","core","3","Calcote, R. 2003. Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. The Holocene 13(2):215-224. Davis, M.B., M.W. Schwartz, and K. Woods. 1991. Detecting a species limit from pollen in sediments. Journal of Biogeography 18(6):653-668. Graumlich, L.J., and M.B. Davis. 1993. Holocene variation in spatial scales of vegetation pattern in the Upper Great Lakes. Ecology 74(3):826-839.","10.1191/0959683603hl608rp;
10.2307/2845547;
10.2307/1940810",9,"cool mixed forest",1.03913975023269,2604.35803857737,3.8993042275093,-12.6522398149477,18.651456279707,786.894604142418
6641,14164,4024,"CMPD","Pengcuo","Pengcuo 1",31.52,91.03,4522,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.367015268110279,1186.83343924354,-0.752771734343525,-12.4792503477765,9.74075196504572,407.849076894002
6641,14165,4025,"CMPD","Pengcuo","Pengcuo 2",31.54,91.62,4545,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372665461758216,1174.48287531738,-0.793057289170731,-12.53661480909,9.61363026231788,413.000228995887
6642,14166,1241,"Australian pollen","Pengilly's Bog","Pengilly's Bog core",-36.3793,148.414,1665,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.04017871583764,2257.29791032538,5.88641109810099,-2.13783238876605,13.7932595785261,1249.60203199614
6642,14166,1242,"Australian pollen","Pengilly's Bog","Pengilly's Bog core",-36.3793,148.414,1665,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.04017871583764,2257.29791032538,5.88641109810099,-2.13783238876605,13.7932595785261,1249.60203199614
6643,14167,8489,"EMPDv2","peninsula Rybachiy-1","Novenko_c63",69.71,32.08,47,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.48913338486821,1229.39449071227,-0.529290673386002,-11.0828377440337,11.9047149874272,517.323422420954
6644,14168,8490,"EMPDv2","peninsula Rybachiy-2","Novenko_c64",69.71,32.1,48,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.49063428905451,1229.81710635682,-0.527878494327239,-11.0844678508456,11.9087389470011,518.084829593465
6645,14169,8491,"EMPDv2","peninsula Rybachiy-3","Novenko_c65",69.73,32.08,45,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.48732968129562,1228.77818908651,-0.535975204322184,-11.0925186122872,11.899084318122,515.983198040967
6646,14170,8492,"EMPDv2","peninsula Rybachiy-4","Novenko_c66",69.73,32.09,33,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.47449709224041,1227.75330501373,-0.538022959920831,-11.0841255052197,11.8804993229945,509.366439742774
6647,14171,8493,"EMPDv2","peninsula Rybachiy-5","Novenko_c67",69.73,32.08,32,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.4731552723272,1227.4948172818,-0.539023831630547,-11.0834012208146,11.8776823100528,508.696205966115
6648,14172,8494,"EMPDv2","peninsula Rybachiy-6","Novenko_c68",69.72,32.1,30,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.47129176543094,1227.84106907128,-0.534196061572085,-11.07502928052,11.8779132118181,507.913279705802
6649,14173,8495,"EMPDv2","peninsula Rybachiy-7","Novenko_c69",69.75,32.1,35,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.48956290787574,1224.85585885373,-0.9186770432497,-12.0693905732845,11.9237831392704,513.490920132022
6650,14174,8496,"EMPDv2","peninsula Rybachiy-8","Novenko_c70",69.74,32.12,34,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.47649006214446,1228.10203868833,-0.539288940056972,-11.0919383884351,11.8844450793851,510.133275803995
6651,14175,8479,"EMPDv2","peninsula Sredniy-1","Novenko_c53",69.66,31.83,120,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.56273117950952,1232.56228663395,-0.525072151378581,-11.1183014738456,11.9967611270518,556.61968868033
6652,14176,8488,"EMPDv2","peninsula Sredniy-10","Novenko_c62",69.69,31.87,70,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.5096080211005,1228.22364062516,-0.537178653584274,-11.0913222469175,11.9181788379688,528.266359546058
6653,14177,8497,"EMPDv2","peninsula Sredniy-11","Novenko_c71",69.65,31.93,29,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.46471350684001,1226.5343586676,-0.523635952339771,-11.0303231234217,11.8646538702624,506.239687774354
6654,14178,8498,"EMPDv2","peninsula Sredniy-12","Novenko_c72",69.64,31.85,32,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.46584726457711,1225.56876964898,-0.530081940281084,-11.0348818029412,11.8607368958353,507.057699178445
6655,14179,8480,"EMPDv2","peninsula Sredniy-2","Novenko_c54",69.67,31.82,101,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.54235444394358,1230.50006904232,-0.530424623340016,-11.1050598040372,11.9638877360193,545.611821516013
6656,14180,8481,"EMPDv2","peninsula Sredniy-3","Novenko_c55",69.68,31.82,76,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.5151143405189,1228.02457926444,-0.538472724228946,-11.0928405449247,11.9225515148327,531.242308220189
6657,14181,8482,"EMPDv2","peninsula Sredniy-4","Novenko_c56",69.65,31.85,48,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.4840645685358,1226.71262330817,-0.53216533544134,-11.0564867204234,11.8850712856417,516.006141125118
6658,14182,8483,"EMPDv2","peninsula Sredniy-5","Novenko_c57",69.67,31.92,273,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.71508652341078,1248.40688125204,-0.502125484077656,-11.2628975507752,12.2540223926336,643.72697448493
6659,14183,8484,"EMPDv2","peninsula Sredniy-6","Novenko_c58",69.71,31.93,261,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.70474787494381,1247.59147928459,-0.483054961190661,-11.2045476343783,12.2334573281898,636.942932608312
6660,14184,8485,"EMPDv2","peninsula Sredniy-7","Novenko_c59",69.65,31.84,35,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.46912569358771,1225.40294772125,-0.535122332203007,-11.04622821652,11.8629729765335,508.498795470131
6661,14185,8486,"EMPDv2","peninsula Sredniy-8","Novenko_c60",69.73,31.89,59,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.49847608550117,1226.78904228742,-0.549162472431203,-11.1034900700646,11.8982479215524,521.775078712747
6662,14186,8487,"EMPDv2","peninsula Sredniy-9","Novenko_c61",69.73,31.86,65,"0.01","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.50449324834202,1226.80165646607,-0.5500570959536,-11.1067558263933,11.9041157709135,524.84736735547
6663,14187,13107,"Neotoma","Pennington Lake","PENNINGT",45.780556,-93.273056,48,"not known","lake","core","-13","Unpublished data",,9,"cool mixed forest",0.888286762670966,4295.86388411855,10.4460943360288,-7.46670980859658,25.7644658881019,798.89436646797
6663,14187,13108,"Neotoma","Pennington Lake","PENNINGT",45.780556,-93.273056,48,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",0.888286762670966,4295.86388411855,10.4460943360288,-7.46670980859658,25.7644658881019,798.89436646797
6663,14187,13109,"Neotoma","Pennington Lake","PENNINGT",45.780556,-93.273056,48,"not known","lake","core","36","Unpublished data",,9,"cool mixed forest",0.888286762670966,4295.86388411855,10.4460943360288,-7.46670980859658,25.7644658881019,798.89436646797
6664,14188,16512,"Neotoma","Pennington Pond","KG009",46.93,-68.53,276,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47656977902573,2386.64300530837,3.12205954517397,-13.0449351366496,17.8281757360503,1059.6274483564
6665,14189,1243,"Australian pollen","Penrith Lakes","Penrith Lakes Swamp_CM08",-33.7,150.68,18,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.871515930117688,6370.63397860491,17.4537917222052,11.5178843173025,22.420061949563,1106.09922763101
6665,14189,1244,"Australian pollen","Penrith Lakes","Penrith Lakes Swamp_CM08",-33.7,150.68,18,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.871515930117688,6370.63397860491,17.4537917222052,11.5178843173025,22.420061949563,1106.09922763101
6666,14190,7079,"EMPDv2","Pepel noye Lake","EPDcoretop_E1910",59.85,150.62,115,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.31559548717102,1340.28583817271,-3.18249938246171,-18.133862948209,12.5063335410429,496.319569335664
6667,14191,1245,"Australian pollen","Peppertree Marsh","Peppertree Marsh",-41.8833,147.8333,890,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.897286668993793,2711.27610650831,7.42815371646113,2.25137827143042,12.877593802193,842.359591673461
6668,14192,11615,"Neotoma","Perch Lake","PER-1C",43.94359,-90.7984,261,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.891472424154194,3580.31065840654,7.8515923617753,-9.61964252245808,22.547504273583,790.845194854939
6668,14193,11616,"Neotoma","Perch Lake","PER-1M",43.94359,-90.7984,261,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",13,"temperate deciduous broadleaf forest",0.891472424154194,3580.31065840654,7.8515923617753,-9.61964252245808,22.547504273583,790.845194854939
6668,14194,13112,"Neotoma","Perch Lake","PERCHDUC",51.651389,-100.898889,701,"not known","lake","core","-14","Unpublished data",,9,"cool mixed forest",0.646728117373185,2240.15820553242,0.560688793753273,-18.8797459269234,17.0353886041418,468.362216383281
6668,14195,13573,"Neotoma","Perch Lake","PERCHMN",46.1916499999999,-95.4687,477,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",0.804164913452076,2981.41923897679,4.62646387495793,-14.5295130768159,20.5544109442534,658.457078866508
6668,14195,13574,"Neotoma","Perch Lake","PERCHMN",46.1916499999999,-95.4687,477,"not known","lake","core","-10","Unpublished data",,9,"cool mixed forest",0.804164913452076,2981.41923897679,4.62646387495793,-14.5295130768159,20.5544109442534,658.457078866508
6668,14195,13575,"Neotoma","Perch Lake","PERCHMN",46.1916499999999,-95.4687,477,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.804164913452076,2981.41923897679,4.62646387495793,-14.5295130768159,20.5544109442534,658.457078866508
6668,14195,13576,"Neotoma","Perch Lake","PERCHMN",46.1916499999999,-95.4687,477,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.804164913452076,2981.41923897679,4.62646387495793,-14.5295130768159,20.5544109442534,658.457078866508
6668,14196,13110,"Neotoma","Perch Lake","PERCHON",46.03,-77.34,160,"not known","lake","core","4","Richard, P.J.H. 2003. Histoire postglaciaire de la végétation et du milieu en Outaouais : le point et les piste de recherche. Pages 47-80 in L`Ile aux allumettes et l`Archaïque supérieur dans l`Outaouais. Recherches amérindiennes au Québec Collection Paléo-Québec. Québec, Canada.; Terasmae, J., and C.L. McAtee. 1979. Palynology of Perch Lake sediments : progress and some potential future developments. Pages 279-285 in Hydrological and Geochemical studies in the Perch Lake Basin : A second report of progress. Report AECL-6404, Chalk River, Ontario. Atomic Energy of Canada Ltd, Canada.; Boyko-Diakonow, M., and J. Terasmae. 1975. Palynology of Holocene sediments in Perch Lake, Chalk River, Ontario. Pages 189-220 in Hydrological studies on a small basin on the Canadian shield. P.J. Barry editor. Atomic Energy of Canada Ltd. Report AECL-5041-1, Chalk River, Ontario..; Terasmae, J., and N.C. Weeks. 1979. Natural fires as an index of paleoclimate. Canadian Field Naturalist 93(2):116-125..",,9,"cool mixed forest",1.06604831099707,2885.52690845031,5.06248234696069,-11.945261892838,19.757487634324,850.965157326488
6668,14196,13111,"Neotoma","Perch Lake","PERCHON",46.03,-77.34,160,"not known","lake","core","24","Richard, P.J.H. 2003. Histoire postglaciaire de la végétation et du milieu en Outaouais : le point et les piste de recherche. Pages 47-80 in L`Ile aux allumettes et l`Archaïque supérieur dans l`Outaouais. Recherches amérindiennes au Québec Collection Paléo-Québec. Québec, Canada.; Terasmae, J., and C.L. McAtee. 1979. Palynology of Perch Lake sediments : progress and some potential future developments. Pages 279-285 in Hydrological and Geochemical studies in the Perch Lake Basin : A second report of progress. Report AECL-6404, Chalk River, Ontario. Atomic Energy of Canada Ltd, Canada.; Boyko-Diakonow, M., and J. Terasmae. 1975. Palynology of Holocene sediments in Perch Lake, Chalk River, Ontario. Pages 189-220 in Hydrological studies on a small basin on the Canadian shield. P.J. Barry editor. Atomic Energy of Canada Ltd. Report AECL-5041-1, Chalk River, Ontario..; Terasmae, J., and N.C. Weeks. 1979. Natural fires as an index of paleoclimate. Canadian Field Naturalist 93(2):116-125..",,9,"cool mixed forest",1.06604831099707,2885.52690845031,5.06248234696069,-11.945261892838,19.757487634324,850.965157326488
6669,14197,1246,"Australian pollen","Perched Lake","PL1",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14198,1247,"Australian pollen","Perched Lake","PL3",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14199,1248,"Australian pollen","Perched Lake","PL4",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14200,1249,"Australian pollen","Perched Lake","PL5",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14201,1250,"Australian pollen","Perched Lake","PL6",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14202,1251,"Australian pollen","Perched Lake","PL7",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6669,14203,1252,"Australian pollen","Perched Lake","PL8",-42.56,145.68,35,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.57983616370554,4206.12573907156,11.5236321618399,7.98170065415161,15.3316525825147,1390.35266303944
6670,14204,8283,"EMPDv2","Periasc","Montanari_a9",45.8061861111111,7.69376666666667,1503,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.94989648562364,2023.67093304095,4.91398959351791,-3.1399193105232,13.4355783421291,1604.13530709277
6671,14205,8179,"EMPDv2","Permskoe","Mikishin-Gvozdeva_b9",43.7558333333333,135.155,6,"not applicable","coastal, other","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.1544116519455,2878.79968560216,5.21243350498577,-11.1426569029857,20.2193734244781,862.000623245173
6672,14206,21867,"SMPDSv1","Pernjarvi","Seppa_b76",60.38,23.42,95,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04931269197807,2224.10581181984,4.0789992419062,-7.74089446718621,16.0749494685989,574.845830859045
6673,14207,8124,"EMPDv2","Perovskogo_1","Mikishin-Gvozdeva_a187",53.7225,140.488333333333,10,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17517728079893,1901.19430850907,-1.59594079064359,-21.7481884303534,15.7057227388192,619.959776282741
6674,14208,8125,"EMPDv2","Perovskogo_2","Mikishin-Gvozdeva_a188",53.7233333333333,140.468333333333,30,"not applicable","coastal, other","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17697171438871,1888.44789481958,-1.69171089188117,-21.8750625586719,15.655135209294,620.472957505514
6675,14209,6042,"EMBSeCBIO","Pertouli","Pertouli core",39.524167,21.4775,1440,"4e-04","terrestrial, bog/fen/swamp","core","-25","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.771124470685214,2956.0355626101,7.74756744884293,-2.35319923614795,17.6939336175001,874.291151634418
6676,14210,8004,"EMPDv2","Pervomaiskoye","Mikishin-Gvozdeva_a64",49.9733333333333,143.258333333333,250,"not applicable","terrestrial, soil","litter","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36993648877307,1729.35876814068,-0.471502786869015,-17.4694092670988,14.5956007275945,758.824658090118
6677,14211,21868,"SMPDSv1","Peschanoe","EPDcoretop_E515",51.983333,25.483333,139,"2.08","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787998384830088,3011.14775728603,7.19204909677761,-5.63546297041074,18.0029744295179,577.292031921091
6677,14212,21869,"SMPDSv1","Peschanoe","EPDcoretop_E517",51.983333,25.483333,139,"2.08","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787998384830088,3011.14775728603,7.19204909677761,-5.63546297041074,18.0029744295179,577.292031921091
6678,14213,21870,"SMPDSv1","Peschanoe lake","Peschanoe lake_SS",56.895,60.323,310,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.940407528380409,2280.80034787415,1.6886281772644,-15.8891693936612,18.3188189093852,564.491173435045
6679,14214,8512,"EMPDv2","Peschanoe lake area","Novenko_c176",56.895,60.323,310,"0.1","terrestrial","moss polster or moss","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.940407528380409,2280.80034787415,1.6886281772644,-15.8891693936612,18.3188189093852,564.491173435045
6680,14215,6043,"EMBSeCBIO","Pesteana","Pesteana peat bog_1",45.5433,22.8061,480,"0.015","terrestrial, bog/fen/swamp","sediment sample","-34","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.803853298362128,3352.73422882032,8.73953377672664,-3.34679072643951,18.6551626465248,709.947576594239
6680,14216,6044,"EMBSeCBIO","Pesteana","Pesteana peat bog_2",45.5433,22.8061,480,"0.015","terrestrial, bog/fen/swamp","sediment sample","-12","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.803853298362128,3352.73422882032,8.73953377672664,-3.34679072643951,18.6551626465248,709.947576594239
6680,14217,6045,"EMBSeCBIO","Pesteana","Pesteana peat bog_3",45.5433,22.8061,480,"0.015","terrestrial, bog/fen/swamp","sediment sample","9","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.803853298362128,3352.73422882032,8.73953377672664,-3.34679072643951,18.6551626465248,709.947576594239
6680,14218,6046,"EMBSeCBIO","Pesteana","Pesteana peat bog_4",45.5433,22.8061,480,"0.015","terrestrial, bog/fen/swamp","sediment sample","33","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",0.803853298362128,3352.73422882032,8.73953377672664,-3.34679072643951,18.6551626465248,709.947576594239
6681,14219,21871,"SMPDSv1","Petajajarvi","Seppa_b51",62.37,28.48,124,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04140872477125,2109.68809519309,2.7525595810417,-11.1683531003882,16.5592557382732,551.979350107094
6682,14220,11126,"Bush et al., 2020","Petenbatun","Petenbatun",16.42,-90.18,108,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",1.53517541910276,9473.14544588203,25.9538231394028,23.0842337176746,28.0702182209688,2538.05841159073
6683,14221,11127,"Bush et al., 2020","PetendeMonos","PetendeMonos",20.85,-90.32,4,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.55768800555569,9551.07266619102,26.1673223731261,22.8435197226006,28.3419522404511,864.853538386514
6684,14222,11128,"Bush et al., 2020","PetenItza5m","PetenItza5m",17.01,-89.85,115,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27375498093272,9431.29162094606,25.8391551258796,22.7826934173057,28.052852574344,2061.10248972014
6685,14223,11129,"Bush et al., 2020","PetenItzamax","PetenItzamax",17.01,-89.86,193,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.36403101859702,9280.4519421247,25.4258957318485,22.4249363868123,27.5996004475353,2210.21001807521
6686,14224,13114,"Neotoma","Peterson Slough","PETERSL",46.966667,-95.316667,460,"not known","terrestrial, marsh","core","-30","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.826423637117677,2953.79508395795,4.48455545422757,-14.7477386505911,20.4072898548709,666.36200861156
6687,14225,14601,"Neotoma","Petit lac Bouchard","BOUCH96",48.938595,-64.59709,145,"not known","lake","core","-46","Asnong, H., and P.J.H. Richard. 2003. La vegetation et le climat postglaciaires du centre et de l'est de la Gaspesie, au Quebec. Geographie physique et Quaternaire 57(1):37-63.",,9,"cool mixed forest",1.65692522399424,2065.65231265019,2.35892582139011,-12.2241750066561,16.2381490439075,1094.02121368984
6687,14226,14602,"Neotoma","Petit lac Bouchard","BOUCHS",48.938595,-64.59709,145,"not known","lake","core","-19","Asnong, H., and P.J.H. Richard. 2003. La vegetation et le climat postglaciaires du centre et de l'est de la Gaspesie, au Quebec. Geographie physique et Quaternaire 57(1):37-63.",,9,"cool mixed forest",1.65692522399424,2065.65231265019,2.35892582139011,-12.2241750066561,16.2381490439075,1094.02121368984
6688,14227,13368,"Neotoma","Petit Lac Terrien","TERRIEN",46.58,-70.62,404,"not known","lake","core","0","Mott, R.J. 1977. Late-Pleistocene and Holocene palynology in southeastern Québec. Géographie physique et Quaternaire 31(1-2):139-149.","10.7202/1000060ar",9,"cool mixed forest",1.61847256730496,2352.52682915288,2.98135764137049,-13.0811874372418,17.4834289545236,1163.1813953459
6689,14228,21872,"SMPDSv1","Petkula","FIN/SPH/S21",67.7196833333333,26.7316972222222,202,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06877186371009,1596.94125459913,-0.385905809458974,-14.5292028663187,14.5883304398769,441.940757951872
6690,14229,2,"Harrison et al., 2021","Petresiunai","petresiunai_121",55.85,25.7028,107,"0.02","lake","core top","20","Harrison, S.P., Villegas-Diaz, R., Cruz-Silva, E., Gallagher, D., Kesner, D., Lincoln, P., Shen, Y., Sweeney, L., Colombaroli, D., Ali, A., Barhoumi, C., Bergeron, Y., Blyakharchuk, T., Bobek, P., Bradshaw, R., Clear, J.L., Czerwiński, S., Daniau, A-L., Dodson, J., Edwards, K.J., Edwards, M.E., Feurdean, A., Foster, D., Gajewski, K., Gałka, M., Garneau, M., Giesecke, T.,  Gil Romera, G., Girardin, M.P., Hoefer, D., Huang, K., Inoue, J., Jamrichová, E., Jasiunas, N., Jiang, W., Jiménez-Moreno, G., Karpińska-Kołaczek, M., Kołaczek, P., Kuosmanen, N., Lamentowicz, M., Lavoie, M., Li, F., Li, J., Lisitsyna, O., López-Sáez, J.A., Luelmo-Lautenschlaeger, R., Magnan, G., Magyari, E.K., Maksims, A., Marcisz, K., Marinova, E., Marlon, J., Mensing, S., Miroslaw-Grabowska, J., Oswald, W., Pérez-Díaz, S., Pérez-Obiol, R., Piilo, S., Poska, A., Qin, X., Remy, C.C., Richard, P.J.H., Salonen, S., Sasaki, N., Schneider, H., Shotyk, W., Stancikaite, M., Šteinberga, D., Stivrins, N., Takahara, H., Tan, Z., Trasune, L., Umbanhowar, C.E., Väliranta, M., Vassiljev, J., Xiao, X., Xu, Q., Xu, X., Zawisza, E., Zhao, Y., Zhou, Z., Paillard, J., 2021/2022. The Reading Palaeofire database: an expanded global resource to document changes in fire regimes from sedimentary charcoal records Earth System Science Data Discussions https://doi.org/10.5194/essd-2021-272. Earth System Science Data 14: 1109-1124 https://doi.org/10.5194/essd-14-1109-2022","10.5194/essd-2021-272",9,"cool mixed forest",0.966301974553789,2640.0613562306,5.83068043437094,-6.27774068075873,16.8307008849623,627.21852172821
6691,14230,11968,"Neotoma","Petroleum Lake","SM-PTL",39.0263,-106.636325,3729,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.665362551568703,635.481397646766,-4.36084550741855,-15.4962183937225,7.01982590632724,584.981118536857
6692,14231,21873,"SMPDSv1","Petznicksee","Petznicksee_ss",53.31551,13.6093,72,"0.131","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.814087584993224,3272.25375495347,8.89437317439421,-0.692191130384687,17.8795058085044,567.533308408585
6693,14232,21874,"SMPDSv1","Peuro","Seppa_b34",64.25,30.32,234,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1696693244765,1808.62622172885,0.952876551700833,-13.3434669287986,15.5507443001895,557.7001132508
6694,14233,7786,"EMPDv2","Peyriac S","Leroy_g1",43.082377,2.963226,0,"not known","fluvial","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.633392419022961,5306.16393587813,14.537435440762,6.91809831814879,23.1474731079396,681.858029815566
6694,14234,7787,"EMPDv2","Peyriac S","Leroy_g2",43.082377,2.963226,0,"not known","coastal, lagoon","sediment sample","-42","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.633392419022961,5306.16393587813,14.537435440762,6.91809831814879,23.1474731079396,681.858029815566
6695,14235,7117,"EMPDv2","Pezou","EPDcoretop_E2102",47.87,1.15,87,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.801006339626245,4085.22872240231,11.1924074586365,4.00039908066325,18.8730569973489,657.497333152615
6695,14236,7118,"EMPDv2","Pezou","EPDcoretop_E2103",47.87,1.15,87,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.801006339626245,4085.22872240231,11.1924074586365,4.00039908066325,18.8730569973489,657.497333152615
6696,14237,6657,"EMPDv2","PG1111","Binney2017_E3444",69.53,90.2,45,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.63306862894379,1017.08085245744,-9.97507224965626,-29.9258933168555,12.9896324213973,452.545032419346
6697,14238,6893,"EMPDv2","Pgor","Colombaroli_a8",37.8503611111111,14.1307222222222,1360,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.48646743214054,4336.50234210604,11.8808283345371,5.16330315661628,20.4135316712354,664.630936195867
6698,14239,1253,"Australian pollen","Phil's Hill","Phil's Hill",-40.3667,148.2667,30,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.800324514799107,4724.02364270001,12.9425305279452,8.40965765141533,17.6084914917352,779.960252895647
6699,14240,11475,"Neotoma","Phillips Charging Buffalo Dam","SDMEPD",44.38938,-102.773975,759,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.421201409532062,3508.76676715968,8.19430029186745,-7.02285363903169,23.1680686073243,407.936713404492
6700,14241,16646,"Neotoma","Phred","PHRE",54.766667,-66.75,518,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.65303633977366,1135.31233718569,-5.26040393542998,-23.5318528640081,12.001618941643,774.040321583069
6701,14242,24330,"Neotoma","Piagua","PIAGUA_0",2.43268,-76.78055,1700,"0.001","terrestrial, bog/fen/swamp","core","-47","Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Wille, M., H. Hooghiemstra, H. Behling, K. van der Borg, and A.J. Negret. 2001. Environmental change in the Colombian subandean forest belt from 8 pollen records: the last 50 kyr. Vegetation History and Archaeobotany 10(2):61-77.",";
10.1007/PL00006921",4,"warm-temperate evergreen and mixed forest",1.70490618857679,6797.60932864784,18.6235872017749,18.3727781542465,18.8951365285882,2215.68674032961
6701,14243,24331,"Neotoma","Piagua","PIAGUA_10",2.43268,-76.78055,1700,"0.001","terrestrial, bog/fen/swamp","core","22","Wille, M. 2001. Vegetation history and climate records of Colombian lowland areas: rain forest, savanna and intermontane ecosystems. Doctoral dissertation. University of Amsterdam, Amsterdam, The Netherlands.;
Wille, M., H. Hooghiemstra, H. Behling, K. van der Borg, and A.J. Negret. 2001. Environmental change in the Colombian subandean forest belt from 8 pollen records: the last 50 kyr. Vegetation History and Archaeobotany 10(2):61-77.",";
10.1007/PL00006921",4,"warm-temperate evergreen and mixed forest",1.70490618857679,6797.60932864784,18.6235872017749,18.3727781542465,18.8951365285882,2215.68674032961
6702,14244,6898,"EMPDv2","Pian","Colombaroli_a13",37.8608888888889,14.0715277777778,1364,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.485599006936229,4333.08039037697,11.8714531243205,5.16419986933641,20.3937795076835,664.150226031455
6703,14245,21875,"SMPDSv1","Pian diverra inferiore","Barboni_a825",45.875,7.733,2050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.39907084560341,1297.70111521596,1.96294570886218,-5.32590114455418,9.99815016089479,1854.79089325455
6704,14246,21876,"SMPDSv1","Pian diverra superiore","Barboni_a824",45.883,7.767,2380,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.80639735467276,884.155857405441,-0.0130446361538202,-6.79888329145381,7.64793750511455,2049.2770776278
6705,14247,21877,"SMPDSv1","Pian Marchisio","Ortu_a9",44.2,7.7291667,1624,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.37500841500132,2338.75792912332,6.22168442926187,-1.26973377327572,14.716489648482,1321.09337973415
6706,14248,21878,"SMPDSv1","Picheraude","Barboni_a189",45.47,2.789,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25432687046855,2582.61497651098,6.98609914775333,-0.734744902308433,15.7850786772878,1125.71630218132
6707,14249,13090,"Neotoma","Pickerel Lake","PICKEREL",45.501374999999904,-97.27683,395,"not known","lake","core","0","Haworth, E.Y. 1972. Diatom succession in a core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 83(1):157-172. Watts, W.A., and R.C. Bright. 1968. Pollen, seed, and mollusk analysis of a sediment core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 79(7):855-876.","10.1130/0016-7606(1972)83[157:DSIACF]2.0.CO;2;
10.1130/0016-7606(1968)79[855:PSAMAO]2.0.CO;2",22,"steppe",0.605280395272207,3241.25267332858,5.79497334436659,-13.0094507038727,22.0519404814299,522.569698718471
6707,14249,13091,"Neotoma","Pickerel Lake","PICKEREL",45.501374999999904,-97.27683,395,"not known","lake","core","25","Haworth, E.Y. 1972. Diatom succession in a core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 83(1):157-172. Watts, W.A., and R.C. Bright. 1968. Pollen, seed, and mollusk analysis of a sediment core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 79(7):855-876.","10.1130/0016-7606(1972)83[157:DSIACF]2.0.CO;2;
10.1130/0016-7606(1968)79[855:PSAMAO]2.0.CO;2",22,"steppe",0.605280395272207,3241.25267332858,5.79497334436659,-13.0094507038727,22.0519404814299,522.569698718471
6707,14249,13092,"Neotoma","Pickerel Lake","PICKEREL",45.501374999999904,-97.27683,395,"not known","lake","core","50","Haworth, E.Y. 1972. Diatom succession in a core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 83(1):157-172. Watts, W.A., and R.C. Bright. 1968. Pollen, seed, and mollusk analysis of a sediment core from Pickerel Lake, northeastern South Dakota. Geological Society of America Bulletin 79(7):855-876.","10.1130/0016-7606(1972)83[157:DSIACF]2.0.CO;2;
10.1130/0016-7606(1968)79[855:PSAMAO]2.0.CO;2",22,"steppe",0.605280395272207,3241.25267332858,5.79497334436659,-13.0094507038727,22.0519404814299,522.569698718471
6707,14250,17417,"Neotoma","Pickerel Lake","TW124",42.43,-84.02,280,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.951319473341637,3583.368626957,8.70221143524932,-5.83577938614086,21.8296506981967,842.689002552347
6708,14251,11519,"Neotoma","Picnic Pond","FH-4",39.443365,-96.84034,373,"not known","artificial water body","surface sample","-58","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.766462727316482,4619.58372980265,12.1966626130396,-3.3667463840603,26.239552740186,838.922352155496
6709,14252,21879,"SMPDSv1","Pico de Sertal","Barboni_a1296",43.21555556,-4.436111111,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.718787955642352,3731.84045232659,10.2242204173331,3.22906886876578,18.3012643725217,753.153034479255
6710,14253,21880,"SMPDSv1","Pico del Sertal","EPDcoretop_E969",43.215556,-4.436111,940,"0.03","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.718788001836594,3731.84040832104,10.22422029677,3.22906885768959,18.3012641211789,753.153066877516
6711,14254,21881,"SMPDSv1","Piechesee","Pichesee_ss",52.65964,13.9211,96,"0.045","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.791363996962723,3303.84803962261,8.94638757796656,-0.971361767402198,18.13588732911,561.966129492253
6712,14255,16647,"Neotoma","Piekert Lake","PIEKERT",45.133333,-93.733333,300,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.855498280524927,3416.61975864949,6.79265324483575,-11.6463035885388,22.3405034497045,730.972719444103
6713,14256,21882,"SMPDSv1","Pieni Kankaanlampi","Seppa_b13",66.73,27.92,172,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1977578936258,1639.02392404098,-0.0868167309630792,-14.3446477341569,14.7126939257087,514.816398342183
6714,14257,21883,"SMPDSv1","Pieni Lantanlampi","Seppa_b38",64.07,29.48,182,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.11825901613611,1884.15058483996,1.41233786643882,-12.8833785841457,15.7470216248209,543.900806335407
6715,14258,21884,"SMPDSv1","Pieni Ristijarvi","Seppa_b56",62.87,25.03,169,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.999696823254671,2062.13030933485,2.97648069298075,-9.8227421287002,15.8807962685144,528.559428633563
6716,14259,21885,"SMPDSv1","Pieria","GRE/AMG/P1",40.237,22.168,1990,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.914011999358333,2106.60995064953,4.5558971500307,-5.51101949081322,14.2961715619902,963.171940979134
6716,14260,21886,"SMPDSv1","Pieria","GRE/AMG/P2",40.239,22.167,1870,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.87698887641559,2272.09773710206,5.22354571104432,-4.83088588637181,14.9507176793566,935.630433807229
6716,14261,21887,"SMPDSv1","Pieria","GRE/AMG/P3",40.258,22.168,1645,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.836624475147845,2497.46994843002,6.03367014121652,-4.2563547117858,15.7793264478951,881.596135234324
6716,14262,21888,"SMPDSv1","Pieria","GRE/AMG/P4",40.275,22.164,1500,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.790574038266523,2718.20655932743,6.86146985454052,-3.41312522058948,16.5966779694223,846.696692131001
6716,14263,21889,"SMPDSv1","Pieria","GRE/AMG/P5",40.285,22.153,1450,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.775556439479588,2796.69545682965,7.14847542268378,-3.11979993388566,16.8788261965938,835.150989094331
6716,14264,21890,"SMPDSv1","Pieria","GRE/AMG/P6",40.305,22.166,1260,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.717278785075322,3103.19208961804,8.22698590350115,-2.02555654258602,17.9793380835878,788.36314065614
6717,14265,9384,"EMPDv2","Pieria Mountains","Panajiotidis_b1",40.236527,22.167554,1986,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.912784189930498,2112.10993931662,4.57851088529064,-5.48782717688045,14.3183247866565,962.295732228003
6717,14266,9393,"EMPDv2","Pieria Mountains","Panajiotidis_b10",40.3083167,22.2115167,1631,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.82934628538178,2507.40339988999,6.06195122587083,-4.26195973321655,15.815531707871,872.232852459471
6717,14267,9394,"EMPDv2","Pieria Mountains","Panajiotidis_b11",40.3110333,22.2142667,1636,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.830784224104386,2499.2126810641,6.02993697121966,-4.29688710190784,15.7844451199504,873.040697693827
6717,14268,9395,"EMPDv2","Pieria Mountains","Panajiotidis_b12",40.3133667,22.2137333,1555,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.804972936143918,2622.49051193853,6.4974147630374,-3.81740421438147,16.2460647225779,854.025100222633
6717,14269,9396,"EMPDv2","Pieria Mountains","Panajiotidis_b13",40.30285,22.21365,1613,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.823438810850979,2535.17695730812,6.16829988424351,-4.15119576222165,15.9209110541822,868.11339057272
6717,14270,9397,"EMPDv2","Pieria Mountains","Panajiotidis_b14",40.24695,22.2621333,1097,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.617815546816804,3480.07083250436,9.47901715611096,-0.598795477949743,19.3264838936065,711.502655373175
6717,14271,9398,"EMPDv2","Pieria Mountains","Panajiotidis_b15",40.2376167,22.26645,1066,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.611149988485731,3538.52580869326,9.65923133704145,-0.406438764321226,19.5069070516629,706.049218180844
6717,14272,9399,"EMPDv2","Pieria Mountains","Panajiotidis_b16",40.2332333,22.2631333,1121,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.622800511016932,3440.30025371884,9.35585219577077,-0.719417352071638,19.2004750726994,716.309347597754
6717,14273,9400,"EMPDv2","Pieria Mountains","Panajiotidis_b17",40.23405,22.2681833,992,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.595738334335677,3678.91739661648,10.0755033345729,0.0282738828408467,19.9257211895567,692.712327454157
6717,14274,9401,"EMPDv2","Pieria Mountains","Panajiotidis_b18",40.3159,22.234083300000002,1105,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.669481449369303,3364.69391143863,9.09260916794181,-1.15663307860307,18.889053078303,747.553293171915
6717,14275,9402,"EMPDv2","Pieria Mountains","Panajiotidis_b19",40.3192,22.24835,927,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.619701300167112,3697.33459696275,10.1180611769577,-0.106002886803618,19.9552541792293,705.348831355812
6717,14276,9385,"EMPDv2","Pieria Mountains","Panajiotidis_b2",40.239414,22.167421,1920,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.892323241784319,2202.28196948254,4.94450934226944,-5.11558177559702,14.677130005032,947.074706275633
6717,14277,9403,"EMPDv2","Pieria Mountains","Panajiotidis_b20",40.3479667,22.2479167,961,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.628852721201089,3625.60100785692,9.90409691088885,-0.337830283025285,19.7358363554669,712.122735846703
6717,14278,9386,"EMPDv2","Pieria Mountains","Panajiotidis_b3",40.257557,22.168227,1680,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.848019748187681,2445.06869282275,5.83195597451735,-4.46311335469343,15.5801238503543,889.897075444112
6717,14279,9387,"EMPDv2","Pieria Mountains","Panajiotidis_b4",40.274474,23.16422,1536,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.676898497787995,2448.71950059889,5.5165247095166,-5.6503928432359,15.7379732659422,654.812669461213
6717,14280,9388,"EMPDv2","Pieria Mountains","Panajiotidis_b5",40.285734,22.15511,1483,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.785717525997282,2744.23095414865,6.95693595739212,-3.31700138428721,16.6898151474471,842.799376946135
6717,14281,9389,"EMPDv2","Pieria Mountains","Panajiotidis_b6",40.305297,22.166372,1290,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.726173200253346,3052.79730353648,8.0536306159566,-2.20351834709005,17.7992224099583,795.421691896556
6717,14282,9390,"EMPDv2","Pieria Mountains","Panajiotidis_b7",40.244683,22.257355,1172,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.633873893069706,3348.33121006891,9.06226412936934,-1.03087603705068,18.9059983986426,725.386218834732
6717,14283,9391,"EMPDv2","Pieria Mountains","Panajiotidis_b8",40.244811,22.25757,1189,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.637505451603204,3318.9459983129,8.96707572173454,-1.12995810992781,18.8101429011208,728.45483774118
6717,14284,9392,"EMPDv2","Pieria Mountains","Panajiotidis_b9",40.244989,22.257819,1205,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.640932750415445,3291.4799463957,8.87742686020046,-1.22330967779047,18.7198782842754,731.338220262811
6718,14285,14270,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","-50","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14271,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","-37","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14272,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","-23","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14273,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","-10","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14274,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","4","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14275,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","18","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14276,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","32","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6718,14285,14277,"Neotoma","Piermont Marsh","PIERMONT",41.027635,-73.908375,0,"not known","terrestrial, marsh","core","46","Pederson, D.C., D.M. Peteet, D. Kurdyla, and T. Guilderson. 2005. Medieval warming, Little Ice Age, and European impact on the environment during the last millennium in the lower Hudson Valley, New York, USA. Quaternary Research 63:238-249.",,13,"temperate deciduous broadleaf forest",1.19077865802366,4295.25465974772,11.6165973148168,-1.31396142697162,23.7343167899041,1149.46520277641
6719,14286,21891,"SMPDSv1","Pierre Folle","EPDcoretop_E963",47.018889,-1.893056,2,"not known","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.91825893836203,4489.89797450056,12.3010903410974,6.06779414798705,19.0425265796813,808.367764494564
6720,14287,21893,"SMPDSv1","Pietrele","Piet-902",44.06671,26.15824,16.4,"not applicable","terrestrial, soil","sediment sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.520085070092025,4365.66900143889,11.8418087582047,-1.28823675462261,22.9887381444115,525.345202880951
6720,14288,21894,"SMPDSv1","Pietrele","Piet-903",44.06573,26.15859,16.7,"not applicable","terrestrial, soil","sediment sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.52020308067564,4365.12994080377,11.8402519670656,-1.28891694124669,22.9866590202724,525.438864888563
6720,14289,21895,"SMPDSv1","Pietrele","Piet-905",44.0687,26.15717,33.3,"not applicable","terrestrial, soil","soil sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.526835051126065,4334.69532392411,11.7506343239754,-1.34113713853911,22.8727419755476,530.516168700418
6720,14290,21896,"SMPDSv1","Pietrele","Piet-906",44.0693,26.15626,43.3,"not applicable","terrestrial, soil","soil sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.530850738980703,4316.41991309588,11.6967602827715,-1.3723291260167,22.8041752472491,533.581310386517
6720,14291,21892,"SMPDSv1","Pietrele","Piet-907",44.06729,26.15832,44,"not applicable","terrestrial, soil","moss polster or moss","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.53112025530605,4315.11766979644,11.6929985493274,-1.37388612296153,22.7991060297437,533.786962370905
6721,14292,14178,"Neotoma","Pigeon Marsh","PIGEON",34.66359,-85.40132,660,"not known","terrestrial, marsh","core","-6","Watts, W.A. 1975. Vegetation record for the last 20,000 years from a small marsh on Lookout Mountain, northwestern Georgia. Geological Society of America Bulletin 86(3):287-291.","10.1130/0016-7606(1975)86<287:VRFTLY>2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.37636722102078,4689.13484952901,12.8469447932302,1.08113404913024,23.3319080194399,1521.21028793391
6721,14292,14179,"Neotoma","Pigeon Marsh","PIGEON",34.66359,-85.40132,660,"not known","terrestrial, marsh","core","9","Watts, W.A. 1975. Vegetation record for the last 20,000 years from a small marsh on Lookout Mountain, northwestern Georgia. Geological Society of America Bulletin 86(3):287-291.","10.1130/0016-7606(1975)86<287:VRFTLY>2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.37636722102078,4689.13484952901,12.8469447932302,1.08113404913024,23.3319080194399,1521.21028793391
6721,14292,14180,"Neotoma","Pigeon Marsh","PIGEON",34.66359,-85.40132,660,"not known","terrestrial, marsh","core","24","Watts, W.A. 1975. Vegetation record for the last 20,000 years from a small marsh on Lookout Mountain, northwestern Georgia. Geological Society of America Bulletin 86(3):287-291.","10.1130/0016-7606(1975)86<287:VRFTLY>2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.37636722102078,4689.13484952901,12.8469447932302,1.08113404913024,23.3319080194399,1521.21028793391
6722,14293,21897,"SMPDSv1","Piilojarvi","Bjune_a163",67.4166666666666,22.55,208,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09225759254621,1543.37560782878,-0.678108578315457,-14.790701676192,14.016258389391,470.46129067702
6723,14294,17307,"Neotoma","Pike","TW012",45.079167,-91.078611,334,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.93291993365328,3206.42437897138,6.19459930199643,-11.4580614535258,21.2889761950641,776.455380540347
6724,14295,7950,"EMPDv2","Pilitu","Mikishin-Gvozdeva_a10",52.7177777777778,143.301944444444,3,"0.013","lake","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2838902616547,1787.70755312604,-0.92668756114946,-18.7819296640223,15.0368355141657,663.958377635164
6725,14296,21898,"SMPDSv1","Pillon, Gsteig-Diablerets","EPDcoretop_E1142",46.213333,7.115278,1670,"not known","terrestrial, bog/fen/swamp","peat core top","-14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.02381459979684,1786.08451879203,4.02400321110062,-3.75834220665373,12.4083873912129,1630.18843292142
6726,14297,8116,"EMPDv2","Pilvo","Mikishin-Gvozdeva_a179",54.0430555555556,142.568055555556,5,"1e-04","coastal, lacustrine","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2579351337467,1822.18862359127,-1.12309737790811,-19.7312423728474,15.2184209885811,644.682809480013
6727,14298,21899,"SMPDSv1","Pinarbasi","Barboni_a1297",37.46666667,30.05,980,"medium (1.1-50 km2)","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.430116264427751,4822.38901429332,13.212024696694,3.45118871524522,23.254477722002,612.902751194189
6728,14299,17328,"Neotoma","Pine (WI1)","TW031",45.7,-89,498,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03579580162597,2575.81184182206,3.68976945426865,-13.0019307965177,18.5682864255297,793.188357440199
6729,14300,17344,"Neotoma","Pine (WI2)","TW046",44.686111,-88.657778,252,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.939514908494631,3188.42635510871,6.5804202602313,-9.70757949937171,21.0356068216093,776.202436011871
6730,14301,1254,"Australian pollen","Pine Camp Playa","Pine Camp core",-33.75,141.171666666667,50,"small (0.01-1 km2)","lacustrine, drained lake","core","-12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.187896444648859,6368.98426012982,17.4492719455612,10.4043938024712,24.5925661450564,264.80501409747
6730,14301,1255,"Australian pollen","Pine Camp Playa","Pine Camp core",-33.75,141.171666666667,50,"small (0.01-1 km2)","lacustrine, drained lake","core","48","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.187896444648859,6368.98426012982,17.4492719455612,10.4043938024712,24.5925661450564,264.80501409747
6730,14302,1256,"Australian pollen","Pine Camp Playa","Pine Camp ss",-33.75,141.171666666667,50,"small (0.01-1 km2)","lacustrine, drained lake","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.187896444648859,6368.98426012982,17.4492719455612,10.4043938024712,24.5925661450564,264.80501409747
6731,14303,9071,"EMPDv2","Pine forest-hollow","Stivrins_a9",61.835829,37.76261,161,"0.001","small hollow","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19476718541269,2066.64237901969,2.13104206499875,-13.2369470987222,16.4660643673467,644.749401649308
6732,14304,14508,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","-42","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14509,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","-30","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14510,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","-18","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14511,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","-6","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14512,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","6","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14513,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","24","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14304,14514,"Neotoma","Pine Lake","PINELAKE",52.0898611111111,-113.4425,890,"not known","lake","core","41","Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17(4):360-362.; Campbell, I.D., W.M. Last, C. Campbell, S. Clare, and J.H. McAndrews. 2000. The late-Holocene paleohydrology of Pine Lake, Alberta: a multiproxy investigation. Journal of Paleolimnology 24:247-441.",,15,"cold evergreen needleleaf forest",0.604167463009287,2318.59787622654,2.92996666235634,-12.6533811880118,16.3302068486337,451.023014414497
6732,14305,14793,"Neotoma","Pine Lake","PINEQU",51.140905,-69.286995,460,"not known","lake","core","-32","King, G.A. 1986. Deglaciation and vegetation history of western Labrador and adjacent Québec. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,15,"cold evergreen needleleaf forest",1.72829052571354,1710.30753114172,-1.28379814057318,-19.5944670444001,15.1943942024339,1024.01140365651
6733,14306,15742,"Neotoma","Pine Pond","PINE_C90",44.26461,-74.143935,475,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34908188855917,2696.98908984895,4.98337255279214,-10.0353113299126,18.471413265971,1038.18528942915
6734,14307,12056,"Neotoma","Pine prairie ""Fak3 pine""","FSPSP3",25.97257,-81.37444,2,"not known","terrestrial","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.880230216386092,8859.75473002464,24.2733006302045,19.1132270510348,28.4634778722204,1292.45943940726
6735,14308,9417,"EMPDv2","Pinega","Novenko_c262",64.5711,43.1577,145,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28034807684182,1755.24419074281,0.153682591617746,-16.0189737137024,15.7245368922235,592.094637260947
6735,14309,9418,"EMPDv2","Pinega","Novenko_c263",64.5547,43.1588,147,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28078872591112,1756.52871225747,0.159032491468413,-16.0174128737568,15.728415269091,592.820287479847
6735,14310,9419,"EMPDv2","Pinega","Novenko_c264",64.4898,43.068600000000004,150,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28085010544635,1754.36285766742,0.145988744378563,-16.0308664837948,15.718336652076,593.334968286316
6735,14311,21900,"SMPDSv1","Pinega","Pinega_SS",64.4898,43.068600000000004,150,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28085010544635,1754.36285766742,0.145988744378563,-16.0308664837948,15.718336652076,593.334968286316
6736,14312,1257,"Australian pollen","Piney Creek","PC 0",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14313,1258,"Australian pollen","Piney Creek","PC 0.1",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14314,1259,"Australian pollen","Piney Creek","PC 0.5",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14315,1260,"Australian pollen","Piney Creek","PC 1.1",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14316,1261,"Australian pollen","Piney Creek","PC 2.1",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14317,1262,"Australian pollen","Piney Creek","PC 3.8",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6736,14318,1263,"Australian pollen","Piney Creek","PC 4.8",-42.95,146.36,172,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.34880944506653,3903.8623512858,10.695513291194,6.72923164262649,14.8097148130423,1179.97187024953
6737,14319,4026,"CMPD","Pingbian","Pingbian",22.9,103.71,1611,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.962468937650814,6249.897523443,17.1230069135425,10.1663127820086,21.8172372833751,1224.15006058303
6738,14320,4027,"CMPD","Pingshi","Pingshi",25.29,112.98,186,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3296197463055,6828.06140804213,18.7070175562798,7.65215122265378,28.7784803085494,1538.82733270047
6739,14321,13897,"Neotoma","Pinhook Bog","PINHOOK",41.61499,-86.84671,243,"not known","terrestrial, bog/fen/swamp","core","-11","Futyma, R.P. 1984. Paleobotanical studies at Indiana Dunes National Lakeshore. Unpublished report, National Park Service.",,13,"temperate deciduous broadleaf forest",1.03220279471882,3968.24327134765,10.0300497086276,-5.073962882996,23.0425281748182,955.300184077319
6740,14322,13115,"Neotoma","Pink Lake","PINKLAKE",45.469444,-75.808333,162,"not known","lake","core","-30","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.16564613877345,2914.60014806513,5.32901270404162,-11.1866727314587,19.838947636674,933.184744812452
6740,14322,13116,"Neotoma","Pink Lake","PINKLAKE",45.469444,-75.808333,162,"not known","lake","core","18","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.16564613877345,2914.60014806513,5.32901270404162,-11.1866727314587,19.838947636674,933.184744812452
6740,14322,13117,"Neotoma","Pink Lake","PINKLAKE",45.469444,-75.808333,162,"not known","lake","core","30","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.16564613877345,2914.60014806513,5.32901270404162,-11.1866727314587,19.838947636674,933.184744812452
6740,14322,13118,"Neotoma","Pink Lake","PINKLAKE",45.469444,-75.808333,162,"not known","lake","core","42","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.16564613877345,2914.60014806513,5.32901270404162,-11.1866727314587,19.838947636674,933.184744812452
6741,14323,16553,"Neotoma","Pinkham Pond","KG047",44.1,-69.67,65,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46336034812172,3063.76649798571,6.89201927211527,-7.15894101796121,19.9777414842213,1166.81078063454
6742,14324,13831,"Neotoma","Pintler Lake","PINTLER",45.8405549999999,-113.439865,1921,"not known","lake","core","-5","Brunelle-Daines, A. 2002. Holocene changes in fire, climate, and vegetation in the northern Rocky Mountains of Idaho and western Montana. Doctoral dissertation. University of Oregon, Eugene, Oregon, USA.",,17,"temperate evergreen needleleaf open woodland",0.388876691023283,2300.33360537305,4.79676444073518,-6.1840933857659,16.8226396480195,341.42450919181
6743,14325,11130,"Bush et al., 2020","PipelineSite1.1","PipelineSite1.1",9.182189,-79.764177,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54535300698455,9361.14881446394,25.6469830533259,24.7525133946844,26.8505176023637,2563.28570399613
6744,14326,11131,"Bush et al., 2020","PipelineSite1.2","PipelineSite1.2",9.182189,-79.764177,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54535300698455,9361.14881446394,25.6469830533259,24.7525133946844,26.8505176023637,2563.28570399613
6745,14327,11132,"Bush et al., 2020","PipelineSite1.3","PipelineSite1.3",9.182189,-79.764177,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54535300698455,9361.14881446394,25.6469830533259,24.7525133946844,26.8505176023637,2563.28570399613
6746,14328,11133,"Bush et al., 2020","PipelineSite1.4","PipelineSite1.4",9.182189,-79.764177,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54535300698455,9361.14881446394,25.6469830533259,24.7525133946844,26.8505176023637,2563.28570399613
6747,14329,11134,"Bush et al., 2020","PipelineSite1.5","PipelineSite1.5",9.182189,-79.764177,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54535300698455,9361.14881446394,25.6469830533259,24.7525133946844,26.8505176023637,2563.28570399613
6748,14330,11135,"Bush et al., 2020","PipelineSite2.1","PipelineSite2.1",9.179608,-79.760422,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54525508273715,9361.26134490618,25.6472913559074,24.7529040002938,26.8509335003381,2563.11728668245
6749,14331,11136,"Bush et al., 2020","PipelineSite2.2","PipelineSite2.2",9.179608,-79.760422,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54525508273715,9361.26134490618,25.6472913559074,24.7529040002938,26.8509335003381,2563.11728668245
6750,14332,11137,"Bush et al., 2020","PipelineSite2.3","PipelineSite2.3",9.179608,-79.760422,154,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.54525508273715,9361.26134490618,25.6472913559074,24.7529040002938,26.8509335003381,2563.11728668245
6751,14333,11138,"Bush et al., 2020","PipelineSite3.1","PipelineSite3.1",9.167723,-79.752507,136,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57541536934258,9393.36223588565,25.7352390024264,24.8462610595664,26.9520603768162,2603.84205242344
6752,14334,11139,"Bush et al., 2020","PipelineSite3.2","PipelineSite3.2",9.167723,-79.752507,136,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57541536934258,9393.36223588565,25.7352390024264,24.8462610595664,26.9520603768162,2603.84205242344
6753,14335,11140,"Bush et al., 2020","Pipelinestream","Pipelinestream",9.12,-79.738,31,"not known","lake","lake surface sample","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.78062383006248,9593.2215129997,26.2827986657526,25.4263144058523,27.5594952246206,2870.47382739149
6754,14336,9177,"EMPDv2","Pirin Moutains","Tonkov_r1",41.664875,23.3785194444444,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.688818622262763,3081.7431486802,7.95445317282345,-3.17163199554755,17.9786422687782,669.784917487733
6754,14337,9178,"EMPDv2","Pirin Moutains","Tonkov_r2",41.6729083333333,23.4122388888889,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.813110258835553,2453.44581845661,5.49554223641219,-5.9280962713782,15.4921547806567,731.634899715597
6754,14338,9179,"EMPDv2","Pirin Moutains","Tonkov_r3",41.6729861111111,23.4177861111111,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.847023811516963,2308.73029778203,4.88143366276918,-6.61660514354627,14.8904349804083,747.019630878353
6754,14339,9180,"EMPDv2","Pirin Moutains","Tonkov_r4",41.6744472222222,23.4224888888889,1720,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.889473534885771,2140.83888725485,4.14467038921259,-7.44266232072291,14.1770911997416,765.482087097638
6755,14340,21901,"SMPDSv1","Pirineos","Lopez_a207",42.4621666666666,1.8545,2145,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.11451819889559,1923.24326823689,4.62126643720477,-2.92642448343051,13.7416840636095,1075.43709515784
6755,14341,21902,"SMPDSv1","Pirineos","Lopez_a243",42.6438333333333,0.725666666666666,2225,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17704942678658,1759.72533878164,3.81403548269531,-4.0337812817608,13.302200809297,1138.93008202228
6755,14342,21903,"SMPDSv1","Pirineos","Lopez_a244",42.7033611111111,0.915888888888888,1760,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02881623713927,2361.11858686865,6.2345782968319,-1.50547861075277,15.4500646137469,1026.19730859471
6755,14343,21904,"SMPDSv1","Pirineos","Lopez_a245",42.4819444444444,1.26841666666666,1810,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04293354619642,2302.055061241,6.04430395902443,-1.59868572737796,15.1732444390721,1032.14564415379
6756,14344,13119,"Neotoma","Pitcher Bog","PITCHER",44.82,-79.98,220,"not known","terrestrial, bog/fen/swamp","core","-28","Unpublished data",,9,"cool mixed forest",1.10783066989616,2930.52034165288,5.82993943844893,-9.40798812011252,19.6089782940842,920.312279283044
6757,14345,11889,"Neotoma","Pitcher Pond","BU411",46.77956,-88.0005999999999,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.0632304381114701,2600.42109598424,3.99687111704451,-12.2125254756065,18.5959280202291,800.638921007637
6758,14346,13120,"Neotoma","Pixie Lake","PIXIE",48.596389,-124.196667,70,"not known","lake","core","21","Brown, K.J., and R.J. Hebda. 2002. Origin, development, and dynamics of coastal temperate conifer rainforests of southern Vancouver Island, Canada. Canadian Journal of Forest Research 32:353-372.; Brown, K.J., and R.J. Hebda. 2003. Coastal rainforest connections disclosed through a Late Quaternary vegetation, climate, and fire history investigation from the Mountain Hemlock Zone on southern Vancouver Island, British Columbia, Canada. Review of Palaeobotany and Palynology 123: 247-269.",,8,"cool evergreen needleleaf forest",2.89036543175259,3500.44098529392,9.59024927477787,3.48587097954932,16.4383711692038,2152.18365787767
6759,14347,23244,"SMPDSv1","PL/AFC/W1_W2_W3","PL/AFC/W1_W2_W3",53.933,17.55,123,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.870827872923625,2921.26591462843,7.70355031215929,-2.16446170926192,16.9039126597752,609.777494135258
6760,14348,23245,"SMPDSv1","PL/BN/B1","PL/BN/B1",53.356884,19.454584,110,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.817889207209638,3009.3126472781,7.81897115741378,-2.87515018332809,17.3671849976006,585.751476751084
6761,14349,23246,"SMPDSv1","PL/IP/G1","PL/IP/G1",50.5906111111111,23.0639777777778,246,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811877171077682,3066.49524027536,7.75113227236609,-4.12808838856387,17.7865854938382,614.635411172661
6762,14350,23247,"SMPDSv1","PL/IP/G2","PL/IP/G2",50.5902527777778,23.0591444444444,246,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811791771510794,3066.53412635692,7.75153649574901,-4.12689395509416,17.7864363929627,614.596546834111
6763,14351,23248,"SMPDSv1","PL/IP/G3","PL/IP/G3",50.5873972222222,23.0654722222222,246,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811915667917275,3066.55940929585,7.75127307638971,-4.12821769480067,17.7868034108178,614.694795851727
6764,14352,23249,"SMPDSv1","PL/IP/G4","PL/IP/G4",50.5846666666667,23.0580944444444,246,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811793217034311,3066.66902336599,7.75206567735698,-4.12623521246917,17.7866892790447,614.666568456641
6765,14353,23250,"SMPDSv1","PL/IP/G5","PL/IP/G5",50.5868611111111,23.0626888888889,246,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811867618464541,3066.58936109965,7.7515323376833,-4.12750561922095,17.7867345769177,614.677066109653
6766,14354,23251,"SMPDSv1","PL/IP/G6","PL/IP/G6",50.5819972222222,23.067575,238,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804568354148034,3072.68137644778,7.77289634454548,-4.10860970258479,17.8168689912538,609.357633825731
6767,14355,23252,"SMPDSv1","PL/IP/G7","PL/IP/G7",50.582825,23.0745,241,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.807466125438111,3070.36233242675,7.76427199589661,-4.11777071183705,17.8059276456253,611.445965598126
6768,14356,23253,"SMPDSv1","PL/IP/G8","PL/IP/G8",50.5725555555556,23.0539138888889,317,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.877582655477422,3013.63623133614,7.56308777656708,-4.30064550770296,17.5233281456078,662.939613789366
6769,14357,23254,"SMPDSv1","PL/IP/G9","PL/IP/G9",50.5722694444444,23.0685166666667,317,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.877834334851441,3013.58569775692,7.56221442378119,-4.3034887904966,17.5236971249329,663.085691346289
6770,14358,10474,"IBERIA","Pla de l'Estany","PLAESTANY_0",42.1875,2.536111111,520,"0.06","lacustrine, drained lake","core","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.690319638847864,4608.30571909652,12.625495120812401,5.34951294539946,21.0913386054541,738.925749191627
6770,14359,10475,"IBERIA","Pla de l'Estany","PLAESTANY_0.1",42.1875,2.536111111,520,"0.06","lacustrine, drained lake","core","31","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.690319638847864,4608.30571909652,12.625495120812401,5.34951294539946,21.0913386054541,738.925749191627
6771,14360,21905,"SMPDSv1","Plaine Alpe","EPDcoretop_E738",44.963889,6.594167,1850,"not known","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72804106980509,1800.25128792121,4.16259493245973,-3.31113894489529,12.5865057705704,1519.97459575247
6772,14361,14463,"Neotoma","Plan B Pond","PLANB",42.41874,-111.77765,2500,"not known","lake","core","-55","Lundeen, Z.J., and A. Brunelle. 2016. A 14,000-year record of fire, climate, and vegetation from the Bear River Range, southeast Idaho, USA. The Holocene 26(6):833-842.",,17,"temperate evergreen needleleaf open woodland",0.497612085010554,1717.11813275734,1.63003475758722,-9.86399416590084,14.1427546913682,454.469383763293
6772,14361,14464,"Neotoma","Plan B Pond","PLANB",42.41874,-111.77765,2500,"not known","lake","core","-39","Lundeen, Z.J., and A. Brunelle. 2016. A 14,000-year record of fire, climate, and vegetation from the Bear River Range, southeast Idaho, USA. The Holocene 26(6):833-842.",,17,"temperate evergreen needleleaf open woodland",0.497612085010554,1717.11813275734,1.63003475758722,-9.86399416590084,14.1427546913682,454.469383763293
6772,14361,14465,"Neotoma","Plan B Pond","PLANB",42.41874,-111.77765,2500,"not known","lake","core","15","Lundeen, Z.J., and A. Brunelle. 2016. A 14,000-year record of fire, climate, and vegetation from the Bear River Range, southeast Idaho, USA. The Holocene 26(6):833-842.",,17,"temperate evergreen needleleaf open woodland",0.497612085010554,1717.11813275734,1.63003475758722,-9.86399416590084,14.1427546913682,454.469383763293
6773,14362,10476,"IBERIA","Planell de Perafita","PERAFITA",42.4792,1.5669,2240,"0.07","terrestrial, bog/fen/swamp","core top","-1","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",1.17939467808995,1770.49705196221,3.94482286822441,-3.66708254003192,13.1936106951929,1128.01592240907
6774,14363,15253,"Neotoma","Platte Valley","AMD020",42.72,-90.47,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.918733067310605,3518.2029434663,7.70187584608561,-9.46351541338832,22.2053447265647,828.355619601445
6775,14364,13121,"Neotoma","Pleasant Lake","PLEASAMN",44.605869999999904,-93.563475,274,"not known","lake","core","-12","Unpublished data",,13,"temperate deciduous broadleaf forest",0.841742328421384,3438.93420633983,6.86013907576598,-11.7075763629523,22.4596272850307,723.069486325622
6775,14364,13122,"Neotoma","Pleasant Lake","PLEASAMN",44.605869999999904,-93.563475,274,"not known","lake","core","8","Unpublished data",,13,"temperate deciduous broadleaf forest",0.841742328421384,3438.93420633983,6.86013907576598,-11.7075763629523,22.4596272850307,723.069486325622
6775,14364,13123,"Neotoma","Pleasant Lake","PLEASAMN",44.605869999999904,-93.563475,274,"not known","lake","core","38","Unpublished data",,13,"temperate deciduous broadleaf forest",0.841742328421384,3438.93420633983,6.86013907576598,-11.7075763629523,22.4596272850307,723.069486325622
6775,14365,17423,"Neotoma","Pleasant Lake","TW131",42.18,-85.12,280,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.985873777703061,3711.07820091167,9.14649207960141,-5.56006673837591,22.2384272186778,882.328575120443
6776,14366,16540,"Neotoma","Pleasant pond 3446","KG034",45.25646,-69.921455,386,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.55093081488078,2464.25480713082,3.79755595893367,-11.6269704544444,17.8473073794292,1145.07687111108
6777,14367,9083,"EMPDv2","Plechy, Sumava","Svobodova_a1",48.7711138888889,13.8576,1378,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.28966982884566,1740.00451304239,3.46912142751518,-5.01832583214109,11.6977171148064,1666.9389636253
6778,14368,7031,"EMPDv2","Plesne jezero","EPDcoretop_E1598",48.78,13.87,1105,"0.075","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85910152246504,2112.51831803537,4.86345485981192,-4.21248749802445,13.4418974418064,1377.88085809364
6779,14369,21907,"SMPDSv1","Ploczyca Lake","Swieta_d1",54.0833333333333,17.4166666666666,171,"0.069","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.894833869499184,2865.37849518685,7.52423562611808,-2.32206055160744,16.6761605568698,622.75319466801
6779,14370,21908,"SMPDSv1","Ploczyca Lake","Swieta_d2",54.0833333333333,17.4166666666666,171,"0.069","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.894833869499184,2865.37849518685,7.52423562611808,-2.32206055160744,16.6761605568698,622.75319466801
6779,14371,21909,"SMPDSv1","Ploczyca Lake","Swieta_d3",54.0833333333333,17.4166666666666,171,"0.069","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.894833869499184,2865.37849518685,7.52423562611808,-2.32206055160744,16.6761605568698,622.75319466801
6780,14372,21910,"SMPDSv1","Ploetzensee","Ploetzensee+ss",53.11484,12.9704,60,"0.057","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.807132337248482,3269.8066627768,8.90762998222483,-0.503089668992677,17.8290532090064,563.236136241287
6781,14373,11141,"Bush et al., 2020","Plot1.1_50X50","Plot1.1_50X50",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6782,14374,11142,"Bush et al., 2020","Plot1.2_100X50","Plot1.2_100X50",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6783,14375,11143,"Bush et al., 2020","Plot1.3_150X40","Plot1.3_150X40",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6784,14376,11144,"Bush et al., 2020","Plot1.4_150X100","Plot1.4_150X100",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6785,14377,11145,"Bush et al., 2020","Plot1.5_100X100","Plot1.5_100X100",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6786,14378,11146,"Bush et al., 2020","Plot1.6_50X100","Plot1.6_50X100",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6787,14379,11147,"Bush et al., 2020","Plot1.7_50X150","Plot1.7_50X150",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6788,14380,11148,"Bush et al., 2020","Plot1.8_100X150","Plot1.8_100X150",10.434547,-84.011324,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96347774772313,9504.83070277697,26.0406320624027,25.0187702817542,27.4528076855294,3293.20356859693
6789,14381,11149,"Bush et al., 2020","Plot1.9_150X150","Plot1.9_150X150",10.435714,-84.011589,50,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96360914396085,9504.70522360564,26.0402882838511,25.0183678155678,27.4523817205393,3293.37911365109
6790,14382,11150,"Bush et al., 2020","Plot2.10_370X30","Plot2.10_370X30",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6791,14383,11151,"Bush et al., 2020","Plot2.11_370X60","Plot2.11_370X60",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6792,14384,11152,"Bush et al., 2020","Plot2.12_340X60","Plot2.12_340X60",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6793,14385,11153,"Bush et al., 2020","Plot2.13_340X30","Plot2.13_340X30",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6794,14386,11154,"Bush et al., 2020","Plot2.14_290X40","Plot2.14_290X40",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6795,14387,11155,"Bush et al., 2020","Plot2.15_290X70","Plot2.15_290X70",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6796,14388,11156,"Bush et al., 2020","Plot2.16_250X70","Plot2.16_250X70",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6797,14389,11157,"Bush et al., 2020","Plot2.17","Plot2.17",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6798,14390,11158,"Bush et al., 2020","Plot2.18_190X10","Plot2.18_190X10",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6799,14391,11159,"Bush et al., 2020","Plot2.19_190X70","Plot2.19_190X70",10.423,-84.012963,74,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96433853197486,9468.33323114423,25.9406389894363,24.9244090132796,27.3415799965521,3296.29193326688
6800,14392,11160,"Bush et al., 2020","Plot3.20_70X50","Plot3.20_70X50",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6801,14393,11161,"Bush et al., 2020","Plot3.21_60X100","Plot3.21_60X100",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6802,14394,11162,"Bush et al., 2020","Plot3.22_50X","Plot3.22_50X",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6803,14395,11163,"Bush et al., 2020","Plot3.23_100X150","Plot3.23_100X150",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6804,14396,11164,"Bush et al., 2020","Plot3.24_100X80","Plot3.24_100X80",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6805,14397,11165,"Bush et al., 2020","Plot3.25_100X40","Plot3.25_100X40",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6806,14398,11166,"Bush et al., 2020","Plot3.26_X50","Plot3.26_X50",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6807,14399,11167,"Bush et al., 2020","Plot3.27_150X100","Plot3.27_150X100",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6808,14400,11168,"Bush et al., 2020","Plot3.28_150X150","Plot3.28_150X150",10.432406,-84.013509,65,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96457222372972,9481.4979268336,25.9767066488592,24.9581157550835,27.381525890788,3295.87991755659
6809,14401,11169,"Bush et al., 2020","Plot4.29_30X30","Plot4.29_30X30",10.45326,-84.027875,49,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96251749783101,9505.15754178166,26.0415275117306,25.0187818873157,27.4537145285054,3291.33391039984
6810,14402,11170,"Bush et al., 2020","Plot4.30_50X50","Plot4.30_50X50",10.45326,-84.027875,49,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96251749783101,9505.15754178166,26.0415275117306,25.0187818873157,27.4537145285054,3291.33391039984
6811,14403,11171,"Bush et al., 2020","Plot4.31_70X70","Plot4.31_70X70",10.45326,-84.027875,49,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96251749783101,9505.15754178166,26.0415275117306,25.0187818873157,27.4537145285054,3291.33391039984
6812,14404,11172,"Bush et al., 2020","Plot4.32_70X30","Plot4.32_70X30",10.45326,-84.027875,49,"not known","terrestrial","pollen trap","-45","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96251749783101,9505.15754178166,26.0415275117306,25.0187818873157,27.4537145285054,3291.33391039984
6813,14405,7290,"EMPDv2","Plotnikovo Mire","Feurdean_b1",56.83552,83.284014,100,"not known","terrestrial, bog/fen/swamp","peat","-67","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.837998990477805,2246.28699815032,0.1956868349142,-18.5781037402452,19.0551126664645,488.056980090741
6814,14406,6531,"EMPDv2","Pluhino","Binney2017_E3004",68.68,160.29,46,"not known","not known","surface sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.58140305229059,897.991324686142,-12.6552006458153,-32.3618263916522,10.8717954374592,185.606923126515
6814,14407,6532,"EMPDv2","Pluhino","Binney2017_E3202",68.68,160.29,48,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.582360167381814,897.731989193986,-12.656878561129,-32.3629896484997,10.870249145565,185.930935028363
6815,14408,16515,"Neotoma","Plunkett Pond","KG012",45.8,-68.37,136,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47313569740497,2643.94721147533,4.84700137566552,-10.0349929268098,18.5826082849554,1103.4776657753
6816,14409,11173,"Bush et al., 2020","Poas","Poas",10.19,-84.22,2521,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.44820446088893,5499.91733967499,15.0682666840411,13.7924612740805,15.7401376742368,4156.4780840758
6816,14409,11174,"Bush et al., 2020","Poas","Poas",10.206,-84.218,2336,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.39721833648456,5809.20682172453,15.9156351280124,14.7522940703418,16.5197783669921,4074.41040969434
6817,14410,21911,"SMPDSv1","Poas'tagurrajav'ri","Bjune_a248",70.4366666666666,27.78,155,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.54365325004784,1216.72008144766,-1.56330357260386,-13.6566938103448,12.2178636750894,526.319650515915
6818,14411,8006,"EMPDv2","Pobedino (4m terrace)","Mikishin-Gvozdeva_a66",49.8388888888889,142.814444444444,100,"not known","fluvial","not known","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.36156011003238,1917.96127182704,0.553181709102564,-16.3740074534029,15.5307941119766,770.632957663108
6819,14412,6251,"EMPDv2","Pobochnoe (Buzuluk)","Binney2017_E2239",53.02,50.5,143,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.715250488516914,2966.01109455281,4.53748729738261,-13.3222181360723,20.8519896226117,507.776971202885
6820,14413,24191,"Neotoma","Poço Grande","PGRANDE_0",-26.416667,-48.866667,10,"not known","terrestrial, bog/fen/swamp","core","-39","Behling, H. 1993. Untersuchungen zur spätpleistozänen und holozänen Vegetations- und Klimageschichte der tropischen Küstenwälder und der Araukarienwälder in Santa Catarina (Südbrasilien). Dissertationes Botanicae 206. J Cramer, Berlin Stuttgart, Germany.;
Behling, H. 1995. Investigations into the Late Pleistocene and Holocene history of vegetation and climate in Santa Catarina (S Brazil). Vegetation History and Archaeobotany 4:127-152.",";
10.1007/BF00203932",4,"warm-temperate evergreen and mixed forest",1.54538006316257,7542.71063018996,20.6649606306574,16.8696978592071,24.8020737620007,1797.96924776735
6820,14414,24192,"Neotoma","Poço Grande","PGRANDE_20",-26.416667,-48.866667,10,"not known","terrestrial, bog/fen/swamp","core","15","Behling, H. 1993. Untersuchungen zur spätpleistozänen und holozänen Vegetations- und Klimageschichte der tropischen Küstenwälder und der Araukarienwälder in Santa Catarina (Südbrasilien). Dissertationes Botanicae 206. J Cramer, Berlin Stuttgart, Germany.;
Behling, H. 1995. Investigations into the Late Pleistocene and Holocene history of vegetation and climate in Santa Catarina (S Brazil). Vegetation History and Archaeobotany 4:127-152.",";
10.1007/BF00203932",4,"warm-temperate evergreen and mixed forest",1.54538006316257,7542.71063018996,20.6649606306574,16.8696978592071,24.8020737620007,1797.96924776735
6821,14415,11175,"Bush et al., 2020","Pocu_a","Pocu_a",-15.575167,-70.20845,3842,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.492031285653562,3194.15349617734,8.75110546897902,6.26447448796912,10.2607137051481,727.527985638928
6822,14416,23168,"SMPDSv1","Poddetjonn","Bjune_a219",58.2616666666666,7.785,195,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19375392256234,2338.10856571078,5.77592436105341,-3.25431470318567,14.8424032981551,1310.14281503999
6823,14417,21912,"SMPDSv1","Podkarpackie voivodeship between Lezajsk and Przeworsk","Kolaczek_a1",50.1652777777777,22.5097222222222,177.8,"not known","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.75800224875444,3176.53938185873,8.19308253361917,-3.54070499560343,18.1194722382165,586.433922407209
6824,14418,22297,"SMPDSv1","Podkarpackie voivodeship, north of Jaroslaw","Kolaczek_b1",50.040278,22.650833,183,"not known","terrestrial, blanket bog","peat core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.765397881488422,3176.29527568883,8.18623962000051,-3.56844578332867,18.1167785721622,592.937249173164
6825,14419,21913,"SMPDSv1","Podkosmovo","Podkosmovo_SS",53.6706,38.5906,155,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.754052007550521,2851.83424954942,5.23527688812066,-10.1875309755935,19.0894145620528,548.426144449591
6826,14420,7060,"EMPDv2","Podkova Lake","EPDcoretop_E1792",59.96,152.1,660,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26838042773641,881.96367326576,-8.56741831231442,-25.9994452323137,9.53939547225606,450.685493946196
6827,14421,8954,"EMPDv2","Podvaty","Salonen_a32",67.45,63.0833,116,"0.44","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20070340509459,1080.32443753142,-6.26004780233311,-23.6390475583949,13.2196550948564,421.563878689395
6828,14422,1264,"Australian pollen","Poets Hill","Poets Hill Lake",-41.883,145.55,620,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.55128848226395,3132.71449011382,8.58277942496936,4.19608343427873,13.545108673748,1431.91397763144
6829,14423,7965,"EMPDv2","Pogiby_1 (Pogiby river)","Mikishin-Gvozdeva_a25",52.2255555555556,141.652222222222,2,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16279007426428,1911.58387577962,-0.814040726631096,-19.8735650763144,15.6582715329512,629.890632939582
6830,14424,7966,"EMPDv2","Pogiby_2 (Pogiby river)","Mikishin-Gvozdeva_a26",52.2275,141.6475,1,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16262928042859,1912.28490181119,-0.810110070311631,-19.8691285974223,15.6621620054033,629.802026199454
6831,14425,8045,"EMPDv2","Pogiby_3","Mikishin-Gvozdeva_a107",52.2383333333333,141.654722222222,1,"0.001","lake","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16306036145814,1911.81971379835,-0.811363504820634,-19.8673445095645,15.6600793765951,629.8466436816
6832,14426,16622,"Neotoma","Pogonia Bog Pond","PCS1",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14427,16628,"Neotoma","Pogonia Bog Pond","PCS2",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14428,16623,"Neotoma","Pogonia Bog Pond","PCS3",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14429,16627,"Neotoma","Pogonia Bog Pond","PCS4",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14430,16629,"Neotoma","Pogonia Bog Pond","PCS5",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14431,16626,"Neotoma","Pogonia Bog Pond","PCS6",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14432,16624,"Neotoma","Pogonia Bog Pond","PCS7",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14433,16630,"Neotoma","Pogonia Bog Pond","PCS8",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14434,16625,"Neotoma","Pogonia Bog Pond","PCS9",45.03503,-93.6305,292,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13093,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","-24","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13094,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","-20","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13095,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","-13","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13096,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","-5","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13097,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","14","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13098,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","26","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14435,13099,"Neotoma","Pogonia Bog Pond","PGONIABG",45.03503,-93.6305,292,"not known","lake","core","33","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14436,13100,"Neotoma","Pogonia Bog Pond","POGONIA",45.03503,-93.6305,292,"not known","lake","core","-24","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14436,13101,"Neotoma","Pogonia Bog Pond","POGONIA",45.03503,-93.6305,292,"not known","lake","core","-7","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14436,13102,"Neotoma","Pogonia Bog Pond","POGONIA",45.03503,-93.6305,292,"not known","lake","core","9","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6832,14436,13103,"Neotoma","Pogonia Bog Pond","POGONIA",45.03503,-93.6305,292,"not known","lake","core","26","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1982. University of Wisconsin radiocarbon dates XIX. Radiocarbon 24(1):83-100.","10.1017/S0033822200004926",13,"temperate deciduous broadleaf forest",0.854703697602611,3435.09380058543,6.8751587582342,-11.5607637734952,22.4131756151389,731.990522308864
6833,14437,9139,"EMPDv2","Poiana Stiol","Tantau_a11",47.5856666666667,24.8165,1540,"0.02","terrestrial, bog/fen/swamp","peat","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.47699869478869,1524.43913452558,1.33628935063213,-10.6695423234132,10.9434464104623,1014.97576045766
6834,14438,8232,"EMPDv2","Poima_Staritsa","Mikishin-Gvozdeva_b63",42.8469444444444,131.276111111111,7,"4e-04","lake","sediment sample","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.93023964109977,3227.73850709639,6.21359946675156,-11.6222610317502,21.6433461247553,746.982317236702
6835,14439,13144,"Neotoma","Point Escuminac","PTESCUMI",47.075,-64.8,6,"not known","coastal, other","profile or section","0","Warner, B.G., K. Tolonen, and M. Tolonen. 1991. A postglacial history of vegetation and bog formation at Point Escuminac, New Brunswick. Canadian Journal of Earth Sciences 28:1572-1582.",,9,"cool mixed forest",1.59660015192377,2602.11006677885,4.86656068242174,-9.24254692093115,18.5937210655267,1162.82561722713
6836,14440,13494,"Neotoma","Point Woronzof Peat Section","WORONZOF",61.12,-149.48,811,"not known","terrestrial, bog/fen/swamp","profile or section","6","Ager, T.A., and L.B. Brubaker. 1985. Quaternary palynology and vegetational history of Alaska. Pages 353-384 in V.M. Bryant, Jr. and R.G. Holloway, editors. Pollen records of late Quaternary North American sediments. American Association of Stragigraphic Palynologists Foundation, Dallas, Texas, USA.; Miller, R.D., and E. Dobrovolny. 1959. Surficial geology of Anchorage and vicinity, Alaska. U.S. Geological Survey Bulletin 1093, 128 p.",,31,"tundra",1.40827654264231,1210.5277414657,-1.42914268645646,-12.6543611415693,11.0067258565019,591.234881772701
6837,14441,4028,"CMPD","Pojianghaizi","Pojianghaizi",39.7833,109.333,1366,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.262118019409774,3345.3343559432,6.67381564291465,-10.8717831495292,21.9438394652174,296.797375404343
6838,14442,11176,"Bush et al., 2020","Pojoj","Pojoj",16.1,-91.67,1524,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51586716925908,7031.67020896053,19.2648498875631,17.0590905945782,20.9871671872115,2396.12425510702
6839,14443,15140,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-62","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15141,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-59","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15142,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-55","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15143,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-52","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15144,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-48","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15145,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-43","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15146,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-38","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15147,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-33","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15148,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-25","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15149,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-16","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15150,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","-6","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15151,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","7","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15152,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","32","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6839,14443,15153,"Neotoma","Pokegama Bay","POKEGAMA",46.695825,-92.17199,186,"not known","coastal, estuarine","core","43","Nurse, A.M., E.D. Reavie, J.L. Ladwig, and C.L. Yost. 2017. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L. Review of Palaeobotany and Palynology 246:216-231.",,9,"cool mixed forest",0.929805033974425,3105.64509885113,5.91307368157124,-11.5376309404425,20.8288870530317,738.82158779839
6840,14444,13124,"Neotoma","Poland Spring Pond","POLAND",44.033333,-70.35,94,"not known","lake","core","-28","Jacobson, G.L., Jr., R.B. Davis, R.S. Anderson, M. Tolonen, and R. Stuckenrath, Jr. (n.d.) Post-glacial vegetation of the coastal lowlands of Maine. Unpublished manuscript.",,9,"cool mixed forest",1.43779865894318,3118.45880151129,7.07022800114009,-7.10602793130629,20.2350211424015,1152.89281818373
6841,14445,9214,"EMPDv2","Polar Ural","Lapteva_b48",67.69081,67.85692,104,"1e-04","terrestrial","soil sample","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.12086326174904,1038.10463420459,-7.0406392844281,-24.8325683806604,12.7070531768194,389.408630410346
6841,14446,9215,"EMPDv2","Polar Ural","Lapteva_b49",67.69374,67.85321,132,"1e-04","terrestrial","soil sample","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.12897553328735,1009.84581745301,-7.25083576207739,-25.0217657142656,12.497939956373,390.456130784155
6841,14447,9216,"EMPDv2","Polar Ural","Lapteva_b50",67.68262,67.92866,163,"1e-04","terrestrial","soil sample","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.13805280703453,979.860379548635,-7.47629692647791,-25.2263073425018,12.2738315600758,391.830927405115
6841,14448,9210,"EMPDv2","Polar Ural","Panova_a3",66.51,65.41,283,"not known","terrestrial, bog/fen/swamp","peat","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24022867352016,936.963433779237,-7.71529646667337,-25.5482937591029,12.0677257007968,439.392116248558
6841,14449,9211,"EMPDv2","Polar Ural","Panova_a4",66.51,65.41,280,"not known","terrestrial, bog/fen/swamp","peat","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23960947273478,940.922830133838,-7.68463032156323,-25.5230769505907,12.0997185100522,439.599108901095
6841,14450,9212,"EMPDv2","Polar Ural","Panova_a5",67.05,65.21,170,"not known","terrestrial, bog/fen/swamp","peat","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20528514156996,1068.60714787669,-6.67383872473984,-24.566965745892,13.1016407930598,433.904890725714
6841,14451,9213,"EMPDv2","Polar Ural","Panova_a6",66.46269,66.22968,118,"not known","terrestrial","peat","modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19456768424029,1153.43269855214,-6.15352467434571,-24.2938563048844,13.7179589313028,445.883925295427
6842,14452,21914,"SMPDSv1","Polar Urals","Lapteva_a100",68.0624722222222,65.5114,1003,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.67772245218358,393.972609315045,-12.7101724870825,-30.5489706171192,7.15814059044684,526.274638276476
6842,14453,21924,"SMPDSv1","Polar Urals","Lapteva_a102",67.0833333333333,65.35,550,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.30695717559449,597.018148206362,-10.5840264654346,-27.9239673505337,9.08786519439179,416.177503398686
6842,14454,21925,"SMPDSv1","Polar Urals","Lapteva_a103",67.0833333333333,65.35,500,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.29179528642888,652.790897012101,-10.0786300532397,-27.4943596669028,9.60967722453394,418.331677438568
6842,14455,21926,"SMPDSv1","Polar Urals","Lapteva_a104",67.0833333333333,65.35,350,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.2488178441698,830.387844672216,-8.56244081665494,-26.20553661601,11.1751133149604,424.794199558212
6842,14456,21927,"SMPDSv1","Polar Urals","Lapteva_a105",67.0833333333333,65.35,300,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.2352892722329,892.99078803072,-8.05704440446003,-25.7759289323791,11.6969253451025,426.948373598093
6842,14457,21928,"SMPDSv1","Polar Urals","Lapteva_a106",67.0833333333333,65.35,250,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.22214083742999,957.231233388648,-7.55164799226512,-25.3463212487482,12.2187373752447,429.102547637975
6842,14458,21929,"SMPDSv1","Polar Urals","Lapteva_a107",67.0833333333333,65.35,200,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.20936234271047,1023.18561961455,-7.0462515800702,-24.9167135651172,12.7405494053868,431.256721677856
6842,14459,21930,"SMPDSv1","Polar Urals","Lapteva_a108",67.0833333333333,65.35,180,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.20435235324787,1050.08973615748,-6.84409301519224,-24.7448704916649,12.9492742174437,432.118391293809
6842,14460,21915,"SMPDSv1","Polar Urals","Lapteva_a91",68.1123611111111,65.3973333333333,199,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.15131562419745,913.947266111911,-7.86314503064733,-25.3582394181535,11.8268418243791,384.625868992578
6842,14461,21916,"SMPDSv1","Polar Urals","Lapteva_a92",68.0852777777777,65.4681666666666,195,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.14825211848274,916.627285656382,-7.84360895143141,-25.340534652922,11.8469971714864,383.925725998407
6842,14462,21917,"SMPDSv1","Polar Urals","Lapteva_a93",68.0771666666666,65.4892222222222,292,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.20779822079472,846.736813087731,-8.42593679453759,-25.9660520190183,11.2866814201573,401.129278286769
6842,14463,21918,"SMPDSv1","Polar Urals","Lapteva_a94",68.0743888888888,65.4988333333333,364,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.25259558109369,795.806977985629,-8.85960693501318,-26.430593090485,10.8690121790664,413.817534240944
6842,14464,21919,"SMPDSv1","Polar Urals","Lapteva_a95",68.0734166666666,65.5018333333333,396,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.27268724284317,773.503654846054,-9.05240178269273,-26.6369672070935,10.6832820244595,419.450835479975
6842,14465,21920,"SMPDSv1","Polar Urals","Lapteva_a96",68.0624722222222,65.5113888888888,568,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.3826282480315,656.981499021146,-10.0902151522201,-27.74668234318,9.68305888094337,449.703957835859
6842,14466,21921,"SMPDSv1","Polar Urals","Lapteva_a97",68.05825,65.5113888888888,705,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.47286998424159,568.82871127703,-10.9167844677397,-28.6302247746585,8.88627429360351,473.802584369803
6842,14467,21922,"SMPDSv1","Polar Urals","Lapteva_a98",68.0852777777777,65.4681666666666,843,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.56768319283749,488.378563166773,-11.7126668559602,-29.4970740989457,8.12338407356782,499.350955016793
6842,14468,21923,"SMPDSv1","Polar Urals","Lapteva_a99",68.0624722222222,65.5114,904,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6083318116858,449.376743851451,-12.1139072480079,-29.9112090876602,7.73277621562111,508.84816773683
6843,14469,1265,"Australian pollen","Polblue Swamp","PS Section 3_10",-31.9667,151.4167,1450,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.43885116216214,4125.02860298059,11.3014482273441,2.85351796562849,19.1097435926611,663.168942373514
6843,14470,1266,"Australian pollen","Polblue Swamp","PS Section 3_15",-31.9667,151.4167,1450,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","21","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.43885116216214,4125.02860298059,11.3014482273441,2.85351796562849,19.1097435926611,663.168942373514
6843,14471,1267,"Australian pollen","Polblue Swamp","PS Section 3_20",-31.9667,151.4167,1450,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.43885116216214,4125.02860298059,11.3014482273441,2.85351796562849,19.1097435926611,663.168942373514
6843,14472,1268,"Australian pollen","Polblue Swamp","PS Section 3_5",-31.9667,151.4167,1450,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","-17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.43885116216214,4125.02860298059,11.3014482273441,2.85351796562849,19.1097435926611,663.168942373514
6844,14473,9566,"EMPDv2","Polesie","Novenko_c26",53.3342,35.2956,198,"0.01","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.872889108063139,2799.79728397968,5.50616775986252,-9.10417184412717,18.3658575527185,629.904866929661
6844,14474,9567,"EMPDv2","Polesie","Novenko_c27",53.3329,35.3049,195,"0.01","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.87235041329797,2801.99179730895,5.52229512445598,-9.07965872784425,18.3733541849189,629.311703526596
6844,14475,9568,"EMPDv2","Polesie","Novenko_c28",53.329,35.3077,200,"0.01","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.873119005236548,2798.24071998781,5.49444920781349,-9.12234309625331,18.3609976674034,630.265523201283
6844,14476,9569,"EMPDv2","Polesie","Novenko_c29",53.3234,35.3289,199,"0.02","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.872833617592899,2798.85497307473,5.49876531893251,-9.11607561471399,18.3635574385217,630.037914663514
6844,14477,9570,"EMPDv2","Polesie","Novenko_c30",53.3198,35.3318,202,"0.02","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.873172066577787,2796.76847589424,5.48257285002263,-9.14140005300976,18.3568246701471,630.560029610527
6844,14478,9571,"EMPDv2","Polesie","Novenko_c31",53.3129,35.3533,187,"0.02","terrestrial","litter","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.870940228700345,2807.36417633696,5.5634193987657,-9.01618258801125,18.3916242552781,627.830330566397
6844,14479,9572,"EMPDv2","Polesie","Novenko_c32",53.2968,35.2905,185,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.868696002269848,2812.90069500729,5.59289657997753,-8.97809003173425,18.4089747099199,626.686313296646
6845,14480,1269,"Australian pollen","Poley Creek","Poley Creek",-37.4,145.2167,750,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00916211628122,3891.62826632896,10.6619952502163,3.83384549346954,17.9520280631532,1151.19206489492
6846,14481,9442,"EMPDv2","Poljarnuy Ural-465","Novenko_c221",68.1124,65.3973,199,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.15131591513517,913.94634375123,-7.86315114599574,-25.3582410405597,11.826834398703,384.625521230405
6847,14482,9443,"EMPDv2","Poljarnuy Ural-467","Novenko_c222",68.0853,65.4682,195,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14825180065744,916.625755465418,-7.84362231150762,-25.340545789276,11.8469836565893,383.925254395782
6848,14483,9444,"EMPDv2","Poljarnuy Ural-469-1","Novenko_c223",68.0771,65.4892,292,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20779838113416,846.7390217185,-8.42591800618835,-25.9660387111307,11.2867010825892,401.130167908979
6849,14484,9445,"EMPDv2","Poljarnuy Ural-470","Novenko_c224",68.0744,65.49883,364,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25259567809524,795.806928148935,-8.859607300869,-26.4305931156947,10.8690117392369,413.817474551821
6850,14485,9446,"EMPDv2","Poljarnuy Ural-471","Novenko_c225",68.0734,65.5018,396,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.27268773120513,773.504780533637,-9.05239133895492,-26.6369591035882,10.6832925804779,419.451310918936
6851,14486,9447,"EMPDv2","Poljarnuy Ural-473","Novenko_c226",68.0624,65.5113,568,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38262974605922,656.983565003986,-10.0901944366806,-27.7466682767365,9.68307963229287,449.705428369187
6852,14487,9448,"EMPDv2","Poljarnuy Ural-476","Novenko_c227",68.0582,65.5114,705,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.47286928084987,568.826294024548,-10.9168062461845,-28.6302394406961,8.88625048334947,473.802163036856
6853,14488,9449,"EMPDv2","Poljarnuy Ural-478","Novenko_c228",68.0853,65.4682,843,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56768227447088,488.378046710593,-11.7126724788626,-29.4970764672072,8.12337840256029,499.350322680982
6854,14489,9450,"EMPDv2","Poljarnuy Ural-479","Novenko_c229",68.0625,65.5114,904,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.6083319412252,449.378457148876,-12.1138904762845,-29.9111977354771,7.73279462882504,508.848477160512
6855,14490,9451,"EMPDv2","Poljarnuy Ural-480","Novenko_c230",68.0625,65.5114,1003,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.67772248886445,393.974569514625,-12.7101520630324,-30.5489568333659,7.15816299117815,526.275046893677
6856,14491,9458,"EMPDv2","Poljiarnuy Ural-R-1/93","Novenko_c237",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6857,14492,9455,"EMPDv2","Poljiarnuy Ural-R-1/94","Novenko_c234",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6858,14493,9452,"EMPDv2","Poljiarnuy Ural-R-1/98","Novenko_c231",67.0833,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881782549111,830.388326558263,-8.56243674327324,-26.2055344663437,11.175117767104,424.794533656711
6859,14494,9456,"EMPDv2","Poljiarnuy Ural-R-10/98","Novenko_c235",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6860,14495,9457,"EMPDv2","Poljiarnuy Ural-R-18/95","Novenko_c236",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6861,14496,9454,"EMPDv2","Poljiarnuy Ural-R-21/95","Novenko_c233",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6862,14497,9453,"EMPDv2","Poljiarnuy Ural-R-9/98","Novenko_c232",67.08333333,65.35,350,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24881784416793,830.387844720405,-8.5624408162476,-26.205536615795,11.1751133154056,424.794199591622
6863,14498,9070,"EMPDv2","Polttiais forest-hollow","Stivrins_a8",62.274867,36.7478,150,"0.001","small hollow","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21945560747563,1985.73150636471,1.90320388214339,-13.026295113889,16.0535138825236,641.778794361939
6864,14499,11177,"Bush et al., 2020","Pomacochas","Pomacochas",-5.82,-77.95,2217,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.448833920894019,5768.20810686974,15.8033098818349,15.1511991519596,16.3461791933244,607.391779296379
6865,14500,10636,"BIOME6000 Japan","Ponchubetsudake","D1008",43.6,142.883333,1735,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.78297088340932,1262.17229565146,-2.69152115735984,-18.2678476221999,11.9874365772245,1099.50215850095
6866,14501,11864,"Neotoma","Pond Lick Lake","KKMFA12",38.697295,-83.17222,222,"not known","artificial water body","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.07186650923442,4421.3840771068,11.932677776083,-1.63654473510594,23.6729202905161,1047.33407108693
6867,14502,13125,"Neotoma","Pond Mills Pond","PONDMILL",42.916667,-81.25,274,"not known","lake","core","0","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.",,9,"cool mixed forest",1.09119473768302,3239.06420965939,7.50455065950924,-6.53542140520539,20.4211933660483,956.579951203358
6867,14502,13126,"Neotoma","Pond Mills Pond","PONDMILL",42.916667,-81.25,274,"not known","lake","core","27","McAndrews, J.H. 1981. Late Quaternary climate of Ontario: temperature trends from the fossil pollen record. Pages 319-333 in W.C. Mahaney, editor. Quaternary paleoclimate. Geo Abstracts, Ltd., University of East Anglia, Norwich, United Kingdom.",,9,"cool mixed forest",1.09119473768302,3239.06420965939,7.50455065950924,-6.53542140520539,20.4211933660483,956.579951203358
6868,14503,6047,"EMBSeCBIO","Popovo Ezero","Popovo Ezero Stefanova86",41.716667,23.666667,2185,"0.12","lake","core top","-36","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",1.06775000162871,1561.20140563818,1.37773032954931,-10.5165563859919,11.5216128046505,838.569775286889
6869,14504,5968,"EMBSeCBIO","Popradske pleso","Popradske_1",49.15343,20.07971,1513,"0.18","lake","core","-70","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14505,5969,"EMBSeCBIO","Popradske pleso","Popradske_2",49.15343,20.07971,1513,"0.18","lake","core","-51","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14506,5970,"EMBSeCBIO","Popradske pleso","Popradske_3",49.15343,20.07971,1513,"0.18","lake","core","-32","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14507,5971,"EMBSeCBIO","Popradske pleso","Popradske_4",49.15343,20.07971,1513,"0.18","lake","core","-14","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14508,5972,"EMBSeCBIO","Popradske pleso","Popradske_5",49.15343,20.07971,1513,"0.18","lake","core","5","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14509,5973,"EMBSeCBIO","Popradske pleso","Popradske_6",49.15343,20.07971,1513,"0.18","lake","core","24","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6869,14510,5974,"EMBSeCBIO","Popradske pleso","Popradske_7",49.15343,20.07971,1513,"0.18","lake","core","48","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",2.08291446467427,1213.93296163318,0.479992110799716,-9.14402742964746,9.24514778322446,1326.05020670227
6870,14511,14090,"Neotoma","Porcupine Mountain","PORCUPIN",52.50635,-101.62995,640,"not known","terrestrial, bog/fen/swamp","core","-17","Nichols, H. 1969. The late Quaternary history of vegetation and climate at Porcupine Mountain and Clearwater Bog, Manitoba. Arctic and Alpine Research 1(3):155-167.",,15,"cold evergreen needleleaf forest",0.679711242751495,2182.43612382322,0.171536571884256,-19.5815813038166,16.7022488105907,478.168028813089
6871,14512,6897,"EMPDv2","Poro","Colombaroli_a12",37.9004166666667,14.5026944444444,1500,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.504135912491551,4115.76796269526,11.276076610124,4.45933991522056,19.9653023769096,689.381916708631
6872,14513,8005,"EMPDv2","Poronai (2m terrace)","Mikishin-Gvozdeva_a65",49.8886111111111,142.953611111111,45,"not known","fluvial","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.36538416733465,1979.8216808708,0.91008241281762,-15.9351074814635,15.8220625719581,775.622139419483
6873,14514,13127,"Neotoma","Porqui Pond","PORQUI2",44.93,-79.78,188,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",1.08829714873933,2964.61005338418,5.96616623480408,-9.28913181273119,19.7882049241174,904.524847656519
6874,14515,7087,"EMPDv2","Port des Lamberts","EPDcoretop_E1983",46.96,4.01,710,"0.06","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.12006634974206,3172.65617740121,8.69220870520879,0.456728125097038,17.4720899286701,964.707705647062
6875,14516,14701,"Neotoma","Port McNeill Bog","MCNEILL",50.5725,-127.0722,93,"not known","terrestrial, bog/fen/swamp","core","-25","Lacourse, T., and M.A. Davies. 2015. A multi-proxy peat study of Holocene vegetation history, bog development, and carbon accumulation on northern Vancouver Island, Pacific coast of Canada. The Holocene 25(7):1165-1178.","10.1177/0959683615580201",8,"cool evergreen needleleaf forest",4.17834658762991,3096.10915953311,8.48249084803591,3.35918533212893,14.6451320968319,2834.66632609338
6875,14516,14702,"Neotoma","Port McNeill Bog","MCNEILL",50.5725,-127.0722,93,"not known","terrestrial, bog/fen/swamp","core","50","Lacourse, T., and M.A. Davies. 2015. A multi-proxy peat study of Holocene vegetation history, bog development, and carbon accumulation on northern Vancouver Island, Pacific coast of Canada. The Holocene 25(7):1165-1178.","10.1177/0959683615580201",8,"cool evergreen needleleaf forest",4.17834658762991,3096.10915953311,8.48249084803591,3.35918533212893,14.6451320968319,2834.66632609338
6876,14517,13135,"Neotoma","Portage Bog","PORTAGEP",46.673611,-64.075,8,"not known","terrestrial, bog/fen/swamp","core","-16","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.57401020762626,2620.747486862,5.08288200507333,-8.59628479254758,18.5935099333632,1152.15030436599
6876,14517,13136,"Neotoma","Portage Bog","PORTAGEP",46.673611,-64.075,8,"not known","terrestrial, bog/fen/swamp","core","28","Anderson, T.W. 1980. Holocene vegetation and climatic history of Prince Edward Island, Canada. Canadian Journal of Earth Sciences 17(9):1152-1165. http://www.nrcresearchpress.com/doi/abs/10.1139/e80-122#.VuJ9EpwrKUk. Lowdon, J.A., and W. Blake, Jr. 1968. Geological Survey of Canada radiocarbon dates VII. Radiocarbon 10:207-245.","10.1139/e80-122",9,"cool mixed forest",1.57401020762626,2620.747486862,5.08288200507333,-8.59628479254758,18.5935099333632,1152.15030436599
6877,14518,14020,"Neotoma","Portage Lake","PORTAGAK",60.7164949999999,-150.533,78,"not known","lake","core","-45","Anderson, R.S., D.J. Hallett, E. Berg, R.B. Jass, J.L. Toney, C.S. de Fontaine, and A. DeVolder. 2006. Holocene development of Boreal forests and fire regimes on the Kenai Lowlands of Alaska. The Holocene 16(6):791-803.; Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",1.37590693492784,1727.71185436027,1.90840564572833,-9.02135262425018,13.506464722445,619.029873387208
6877,14519,13128,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","6","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13129,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","27","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13130,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13131,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13132,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13133,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6877,14519,13134,"Neotoma","Portage Lake","PORTAGE",47.081,-94.113,397,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.855238113810978,2945.30513356358,4.56378083045262,-14.409414608615,20.3983814180955,682.331196280383
6878,14520,21931,"SMPDSv1","Porto Ancares","Barboni_a1298",42.866667,-6.813889,1580,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.759460290260883,2733.53666677461,7.24107988982389,-1.57748059284272,17.7105869022414,832.077191206266
6879,14521,10539,"IBERIA","Posidonia Lligat","LLIGAT_0.01",42.29222222,-3.291111111,-3,"not applicable","archaeological site","core","15","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",1.35502551666646,4743.22678171619,12.9951418677156,7.64207903794195,18.4609175448871,1135.08509236465
6879,14522,10540,"IBERIA","Posidonia Lligat","LLIGAT_0.04",42.29222222,-3.291111111,-3,"not applicable","archaeological site","core","30","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",1.35502551666646,4743.22678171619,12.9951418677156,7.64207903794195,18.4609175448871,1135.08509236465
6879,14523,10541,"IBERIA","Posidonia Lligat","LLIGAT_0.07",42.29222222,-3.291111111,-3,"not applicable","archaeological site","core","46","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",1.35502551666646,4743.22678171619,12.9951418677156,7.64207903794195,18.4609175448871,1135.08509236465
6880,14524,21934,"SMPDSv1","Postojna","Barboni_a1458",45.65,14.21666667,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.61064305984398,3173.70762069063,8.57179760201705,-1.06924846938645,17.6818044243573,1439.963957817
6881,14525,21935,"SMPDSv1","Postojna (Cave)","Barboni_a1465",45.65,14.2,610,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.61072462474841,3174.0811280429,8.5738540999511,-1.0617918459088,17.6824783757323,1440.20321581206
6882,14526,13137,"Neotoma","Posy Lake","POSYLAKE",37.93746,-111.696035,2653,"not known","lake","core","-39","Shafer, D.S. 1989. The timing of late Quaternary monsoon precipitation maxima in the southwest United States. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,17,"temperate evergreen needleleaf open woodland",0.338414309106028,2111.3220151744,4.39307187460681,-5.46495358404157,15.9416127375507,383.421001363024
6883,14527,11488,"Neotoma","Pot Hole Reservoir","MTCAPH",45.62385,-104.13899,1098,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.431076221225989,3153.07289171541,6.9802882076217,-7.69288258557618,21.7277658541553,401.891818364645
6884,14528,21936,"SMPDSv1","Poteryanny Zub","POTERYAN_core top",68.825278,35.325556,131,"0.032","lake","core top","18","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.43015951730479,1249.86890727417,-1.04014889603755,-12.8950212536285,12.2711010837047,523.075191486808
6885,14529,24336,"Neotoma","Potrerillo-2","POTRER2_10",2.10018,-77.05414,750,"not known","terrestrial, bog/fen/swamp","core","50","González-Carranza, Z., J.C. Berrío, H. Hooghiemstra, J.F. Duivenvoorden, and H. Behling. 2008. Changes of seasonally dry forest in the Colombian Patía Valley during the early and middle Holocene and the development of a dry climatic record for the northernmost Andes. Review of Palaeobotany and Palynology 152(1-2):1-10.","10.1016/j.revpalbo.2008.03.005",4,"warm-temperate evergreen and mixed forest",2.39953727151291,8492.27277327099,23.2665007486876,23.0025033268956,23.6371076850426,3193.54487576328
6885,14530,24335,"Neotoma","Potrerillo-2","POTRER2_5",2.10018,-77.05414,750,"not known","terrestrial, bog/fen/swamp","core","0","González-Carranza, Z., J.C. Berrío, H. Hooghiemstra, J.F. Duivenvoorden, and H. Behling. 2008. Changes of seasonally dry forest in the Colombian Patía Valley during the early and middle Holocene and the development of a dry climatic record for the northernmost Andes. Review of Palaeobotany and Palynology 152(1-2):1-10.","10.1016/j.revpalbo.2008.03.005",4,"warm-temperate evergreen and mixed forest",2.39953727151291,8492.27277327099,23.2665007486876,23.0025033268956,23.6371076850426,3193.54487576328
6886,14531,11537,"Neotoma","Pott 1 Pond","FH-19",39.316445,-96.37635,346,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.807583107231241,4641.93545890557,12.2717909797876,-3.29053623235597,26.1427704115471,879.60904661909
6887,14532,21937,"SMPDSv1","Poviestsee","Poviestsee_ss",53.22387,13.5124,83,"0.22","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.796239248848293,3331.11688024238,9.05857920003075,-0.684182428417699,18.1066434564924,555.450240688075
6888,14533,1270,"Australian pollen","Powelltown","Powelltown",-37.8589,145.7031,168,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.792613726680033,4970.28404218052,13.6172165539192,8.22547409259282,19.373993959533,844.647538533243
6889,14534,13138,"Neotoma","Powers Fort Swale","PWFTSWAL",36.6,-90.583333,91,"not known","terrestrial","core","-35","Royall, P.D. 1988. Late-Quaternary paleoecology and paleoenvironments of the Western Lowlands, southeast Missouri. Master's thesis. University of Tennessee, Knoxville, Tennessee, USA.; Royall, P.D., P.A. Delcourt, and H.R. Delcourt. 1991. Late Quaternary paleoecology and paleoenvironments of the Central Mississippi Alluvial Valley. Geological Society of America Bulletin 103:157-170.",,13,"temperate deciduous broadleaf forest",1.04017540233281,5608.51997471423,15.365808149902,2.07036198257073,27.0190245788199,1230.13286010242
6890,14535,4029,"CMPD","Poyang Lake","Poyang Lake 1",29.0333,116.133,14,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30664111900088,6481.67086654012,17.7580023740825,5.3507714269809,29.4610661883128,1512.6125349629
6890,14536,4030,"CMPD","Poyang Lake","Poyang Lake 2",29.73,116.3,8,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28996874980317,6429.25521052574,17.6143978370568,5.17367515349204,29.373826548444,1484.32852739281
6891,14537,21938,"SMPDSv1","Pozo de Carballal","Barboni_a1299",42.705556,-7.111111,1330,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.798141188245389,3050.35606862475,8.35093305862118,0.0862225251425531,18.0661762906909,857.953061000971
6892,14538,10477,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.055",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6892,14539,10478,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.105",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","-11","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6892,14540,10479,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.155",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6892,14541,10480,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.185",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","28","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6892,14542,10481,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.205",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","39","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6892,14543,10482,"IBERIA","Pozo de la Nieve","PozoN_2015 core_0.225",40.3532,-4.5516,1600,"not known","terrestrial, bog/fen/swamp","core","49","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.54065125070484,2392.59218394354,6.4713228632258,-0.710761402910711,15.5908157356038,608.84803979316
6893,14544,6894,"EMPDv2","Ppor","Colombaroli_a9",37.8965833333333,14.0653055555556,1426,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.489745886998325,4234.19292598888,11.6005285643531,4.88670700307496,20.1435871657335,670.595782577222
6894,14545,21939,"SMPDSv1","Praesteso","Odgaard_a12",57.623996,10.348292,50,"0.07","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20900076077665,2643.81218531757,6.86892762648209,-2.06102379270836,15.9788153028202,757.09557133252
6895,14546,10483,"IBERIA","Praillos de Bossier Mire","BOSSIER",36.905,-4.071944444,1610,"0.002","terrestrial, bog/fen/swamp","core top","4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.35157762543655,4151.11135637671,11.3729078256896,2.91059610587311,22.9336263703558,449.353306405732
6896,14547,3,"Harrison et al., 2021","Prat de Vila","Prat de Vila_core",38.9158333333333,1.43472222222222,4,"not known","terrestrial, marsh","core","0","Harrison, S.P., Villegas-Diaz, R., Cruz-Silva, E., Gallagher, D., Kesner, D., Lincoln, P., Shen, Y., Sweeney, L., Colombaroli, D., Ali, A., Barhoumi, C., Bergeron, Y., Blyakharchuk, T., Bobek, P., Bradshaw, R., Clear, J.L., Czerwiński, S., Daniau, A-L., Dodson, J., Edwards, K.J., Edwards, M.E., Feurdean, A., Foster, D., Gajewski, K., Gałka, M., Garneau, M., Giesecke, T.,  Gil Romera, G., Girardin, M.P., Hoefer, D., Huang, K., Inoue, J., Jamrichová, E., Jasiunas, N., Jiang, W., Jiménez-Moreno, G., Karpińska-Kołaczek, M., Kołaczek, P., Kuosmanen, N., Lamentowicz, M., Lavoie, M., Li, F., Li, J., Lisitsyna, O., López-Sáez, J.A., Luelmo-Lautenschlaeger, R., Magnan, G., Magyari, E.K., Maksims, A., Marcisz, K., Marinova, E., Marlon, J., Mensing, S., Miroslaw-Grabowska, J., Oswald, W., Pérez-Díaz, S., Pérez-Obiol, R., Piilo, S., Poska, A., Qin, X., Remy, C.C., Richard, P.J.H., Salonen, S., Sasaki, N., Schneider, H., Shotyk, W., Stancikaite, M., Šteinberga, D., Stivrins, N., Takahara, H., Tan, Z., Trasune, L., Umbanhowar, C.E., Väliranta, M., Vassiljev, J., Xiao, X., Xu, Q., Xu, X., Zawisza, E., Zhao, Y., Zhou, Z., Paillard, J., 2021/2022. The Reading Palaeofire database: an expanded global resource to document changes in fire regimes from sedimentary charcoal records Earth System Science Data Discussions https://doi.org/10.5194/essd-2021-272. Earth System Science Data 14: 1109-1124 https://doi.org/10.5194/essd-14-1109-2022","10.5194/essd-2021-272",20,"xerophytic woods/scrub",0.394271910718155,6519.39413155935,17.8613537850941,10.6963800888527,26.4253891633439,503.966261419109
6897,14548,16510,"Neotoma","Pratt Lake","KG007",46.63,-68.88,286,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46111885584215,2435.58630635559,3.41306361426888,-12.5811781889954,17.9881475758782,1058.89584495301
6898,14549,8248,"EMPDv2","Pravaya Protoka_1 (Razdolnaya river)","Mikishin-Gvozdeva_b79",43.55,131.887222222222,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.926619564169157,3185.75094521334,5.86141585188246,-12.3646053798652,21.4866653880108,728.401737195358
6899,14550,8249,"EMPDv2","Pravaya Protoka_2 (Razdolnaya river)","Mikishin-Gvozdeva_b80",43.5497222222222,131.888055555556,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.926628226860315,3185.73646346287,5.86136250493183,-12.3646221790504,21.4866092135091,728.409013754906
6900,14551,21940,"SMPDSv1","Praz Rodet","EPDcoretop_E1149",46.565317,6.172153,1040,"0.05","terrestrial, bog/fen/swamp","peat core top","-43.8","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53086245620395,2593.63004503265,6.92737363476714,-1.35902039078803,15.5982710593027,1269.13220358531
6901,14552,21941,"SMPDSv1","Pre Rond","EPDcoretop_E739",44.918889,6.594167,1800,"not known","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68510106013909,1869.6234023547,4.4430642439438,-3.05914772477258,12.8897203072111,1493.78045605732
6902,14553,21944,"SMPDSv1","Pre-Sahara","Pre-Sahara_40",32.0024273496,-5.72691145523,2850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.394447204912381,3357.44012616053,9.13188286572058,-0.468495443159726,21.7699590530697,554.858605120073
6902,14554,21945,"SMPDSv1","Pre-Sahara","Pre-Sahara_41",31.7449696688,-5.94153883796,2000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.301002591261999,4817.24338272991,13.1979270759724,3.85658806572587,24.7884766815372,443.813050642601
6902,14555,21946,"SMPDSv1","Pre-Sahara","Pre-Sahara_42",31.6207618043,-6.34699899335,1850,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.273836544289134,5134.31387116171,14.0666133456485,4.82659302935436,25.4194991399446,408.213975822108
6902,14556,21947,"SMPDSv1","Pre-Sahara","Pre-Sahara_43",31.260511408,-4.16895936166,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.109602975514674,7383.77472029484,20.2295197816297,9.79304358319144,31.852817363322,180.963771526449
6902,14557,21948,"SMPDSv1","Pre-Sahara","Pre-Sahara_44",31.9957648588,-3.73780102741,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.1791684425989,6423.41058072119,17.5983851526608,7.828588815585,29.1034151446579,281.146273134457
6902,14558,21949,"SMPDSv1","Pre-Sahara","Pre-Sahara_45",31.9900541524,-3.92339898586,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.174490639093054,6546.27867461332,17.9350100674337,8.08064750661554,29.4314265893072,275.004859905315
6902,14559,21950,"SMPDSv1","Pre-Sahara","Pre-Sahara_46",32.0043309184,-4.04332382056,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.175799265514476,6541.34975069056,17.9215061662755,8.07565406411872,29.4058639350234,276.853659886408
6902,14560,21951,"SMPDSv1","Pre-Sahara","Pre-Sahara_47",31.9090335052,-4.61106321655,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.204292507929093,6280.67076188099,17.2073171558383,7.5570924594911,28.5335119304816,317.258712353678
6902,14561,21952,"SMPDSv1","Pre-Sahara","Pre-Sahara_48",31.8119514961,-4.83235309009,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.199838141972273,6450.19056904495,17.6717549836848,8.09279015041791,28.797136221324,311.407420436771
6902,14562,21953,"SMPDSv1","Pre-Sahara","Pre-Sahara_49",31.5574681415,-5.70858960549,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.216890411439385,6146.50701131104,16.839745236468602,7.4157545454304,27.8914851903128,335.382847289081
6902,14563,21954,"SMPDSv1","Pre-Sahara","Pre-Sahara_50",31.4932226944,-6.22112550614,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.261992555434317,5388.9429438096,14.764227243314,5.50583586817131,26.0103641473287,394.408973987339
6902,14564,21955,"SMPDSv1","Pre-Sahara","Pre-Sahara_51",31.4304049238,-5.71144495869,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.23789228974752,5777.22946604487,15.8280259343695,6.40399097619698,27.058264925588,364.132663451917
6902,14565,21956,"SMPDSv1","Pre-Sahara","Pre-Sahara_52",31.4712840639,-7.3456587775,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.2346230829014,5592.37194718228,15.3215669785816,6.73785537369097,25.7915125356002,350.215063532246
6902,14566,21957,"SMPDSv1","Pre-Sahara","Pre-Sahara_53",31.3028182247,-7.42560866729,2100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.236983604979805,4980.02386259226,13.6439009934035,4.2825766786208,25.3062850663964,355.332897408685
6902,14567,21958,"SMPDSv1","Pre-Sahara","Pre-Sahara_54",31.2628432798,-7.58693612349,1720,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.22995681399322,5405.23718200527,14.8088689917953,6.05022526810115,25.5743638490975,343.77142617592
6902,14568,21959,"SMPDSv1","Pre-Sahara","Pre-Sahara_55",31.1257863259,-7.54953099648,1650,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.224987891352212,5488.28408511998,15.0363947537534,6.40113715567201,25.6076128925923,336.455402605842
6902,14569,21960,"SMPDSv1","Pre-Sahara","Pre-Sahara_56",31.1800380368,-7.37963748066,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.217777064402765,5768.44477862518,15.8039582976032,7.31747426636025,26.0827675817449,327.07536606924
6902,14570,21961,"SMPDSv1","Pre-Sahara","Pre-Sahara_57",31.0415534063,-7.33680718256,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.205885819791217,5998.35829695952,16.4338583478343,8.0623479028922,26.4764399373548,310.929504016006
6902,14571,21962,"SMPDSv1","Pre-Sahara","Pre-Sahara_58",30.9330499844,-7.40248030632,1300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.202532906659121,6004.63585552947,16.4510571384369,8.09350529417927,26.4714175993799,306.152379939526
6902,14572,21963,"SMPDSv1","Pre-Sahara","Pre-Sahara_59",30.8174081795,-7.42389545537,1600,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.216795812662686,5582.9333365057,15.2957077712485,6.66555374580549,25.8181492711802,326.226103060556
6902,14573,21964,"SMPDSv1","Pre-Sahara","Pre-Sahara_60",31.1769447375,-6.30554878263,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.207894164988632,6040.43781379257,16.5491446953221,7.32747455018762,27.4963483888669,321.195375972218
6902,14574,21965,"SMPDSv1","Pre-Sahara","Pre-Sahara_61",31.3297061341,-5.74732723066,1550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.241403969140729,5695.28629690619,15.6035241011128,6.17145927317943,26.884869905452,369.100336605843
6902,14575,21966,"SMPDSv1","Pre-Sahara","Pre-Sahara_62",31.2354794782,-5.82299409065,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.249603058595694,5457.45003747694,14.9519179108957,5.53219138490245,26.3521398129505,379.456780807834
6903,14576,11178,"Bush et al., 2020","Preciosa","Preciosa",19.37,-97.39,2336,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.608895049558719,5709.5374617497,15.6425683883553,12.6598984968272,17.9889742852304,878.679365456596
6904,14577,21942,"SMPDSv1","Preeksa","Seppa_b125",57.65,27.15,195,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987722422203002,2518.03436083622,5.16483564378456,-7.26913596131904,16.4835221341251,622.424250118324
6905,14578,21943,"SMPDSv1","Prelitoral","Lopez_a20",43.5288888888888,-5.76919444444444,200,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.00458164004348,4704.97973351745,12.8903554342944,7.70870714841645,18.6934040811731,930.075324311513
6906,14579,6048,"EMBSeCBIO","Preluca Tiganului","Preluca (EPDcoretop_E1257)",47.8175,23.535833,730,"0.01","lake","core top","33","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.07105210097075,2596.48051155277,5.87876636244266,-6.47958465564159,15.7602547066742,832.640210746826
6907,14580,14250,"Neotoma","Preston Lake","PRESONTA",43.9869027777778,-79.37944,320,"not known","lake","core","-29","Unpublished data",,9,"cool mixed forest",1.11687617222692,2960.3732939671,6.1295246438823,-8.66815430444314,19.5910375507628,942.098622768144
6907,14581,14188,"Neotoma","Preston Lake","PRESTNCA",38.850205,-123.015195,264,"not known","lake","core","-33","West, G.J. 1989. Holocene fossil pollen records of Douglas Fir in northwestern California: Reconstruction of past climate.J.L. Betancourt and A.M. MacKay, editors. Sixth Annual Pacific Climate (PACLIM) Workshop. California Department of Water Resources.; West, G.J. 1991. Pollen analysis of cultural and non- cultural deposits in the Warm Springs Dam-Lake Sonoma area, California. Pages 301-313 in M.E. Basgall and P.D. Bouey, editors. The Prehistory of North-Central Sonoma County: Archaeology of the Warm Springs Dam-Lake Sonoma Locality. U.S. Army Corps of Engineers, Sacramento, California, USA.",,4,"warm-temperate evergreen and mixed forest",0.756973118914055,5087.39807640887,13.9380769216681,7.52713815700258,20.4277016880231,908.939443492186
6908,14582,13502,"Neotoma","Pretty Lake","PRETTYLK",41.583056,-85.25,294,"not known","lake","core","0","Williams, A.S. 1974. Late-glacial—postglacial vegetational history of the Pretty Lake region, northeastern Indiana. U.S. Geological Survey Professional Paper 686-B. U. S. Government Printing Office, Washington DC, USA.; Williams, A.S. 1971. Late-glacial—postglacial vegetational history of the Pretty Lake region, northeastern Indiana, USA. Doctoral dissertation. Indiana University, Bloomington, Indiana, USA.; Ogden, J.G., III, and R.J. Hay. 1969. Ohio Wesleyan natural radiocarbon measurments IV. Radiocarbon 11:137-149.; Ogden, J.G., III. 1969. Correlation of contemporary and Late Pleistocene pollen records in the reconstruction of postglacial environments in northeastern North America. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie 17:64-77.",,13,"temperate deciduous broadleaf forest",0.994974212947284,3793.24137483838,9.43905978559383,-5.35900088178108,22.4201459289395,903.757379069332
6908,14582,13503,"Neotoma","Pretty Lake","PRETTYLK",41.583056,-85.25,294,"not known","lake","core","43","Williams, A.S. 1974. Late-glacial—postglacial vegetational history of the Pretty Lake region, northeastern Indiana. U.S. Geological Survey Professional Paper 686-B. U. S. Government Printing Office, Washington DC, USA.; Williams, A.S. 1971. Late-glacial—postglacial vegetational history of the Pretty Lake region, northeastern Indiana, USA. Doctoral dissertation. Indiana University, Bloomington, Indiana, USA.; Ogden, J.G., III, and R.J. Hay. 1969. Ohio Wesleyan natural radiocarbon measurments IV. Radiocarbon 11:137-149.; Ogden, J.G., III. 1969. Correlation of contemporary and Late Pleistocene pollen records in the reconstruction of postglacial environments in northeastern North America. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie 17:64-77.",,13,"temperate deciduous broadleaf forest",0.994974212947284,3793.24137483838,9.43905978559383,-5.35900088178108,22.4201459289395,903.757379069332
6909,14583,21967,"SMPDSv1","Prezid","Barboni_a1464",45.8666,14.5833,350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4060768972929,3766.83463212662,10.320094882538701,0.213621394868475,19.6552652353631,1311.18857538358
6910,14584,21933,"SMPDSv1","Priazovskij","Priazovskij_SS (Novenko_c140)",45.446,36.828,24,"0.01","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.560528063949004,4151.11285598256,11.2480315340866,-1.07279523522135,22.9269708536291,567.654114992225
6911,14585,16726,"Neotoma","Price Lake","RBD005",45.85,-88.4,414,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.02550683853721,2664.41398288423,4.20528990682503,-12.2255204877098,18.9011616118091,788.182447176127
6912,14586,13833,"Neotoma","Prien Lake","PRIEND",30.19221,-93.27942,0,"not known","coastal, estuarine","core","-41","Fearn, M.L. 1995. Holocene history of a southern grassland. Doctoral dissertation. Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.07991746624343,7374.38012246717,20.2037811574443,10.5462918805473,28.0604595448153,1428.67880317949
6913,14587,8024,"EMPDv2","Prigorodnoye_1","Mikishin-Gvozdeva_a85",46.6455555555556,142.930833333333,50,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60072424654026,2284.37173452408,3.43211517146032,-10.7917197954911,17.2193196500525,1012.22320966038
6914,14588,8025,"EMPDv2","Prigorodnoye_2","Mikishin-Gvozdeva_a86",46.6416666666667,142.933333333333,45,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60487328943611,2294.15658734851,3.47923971396467,-10.7415726957216,17.2625693329767,1015.08994418355
6915,14589,8026,"EMPDv2","Prigorodnoye_3","Mikishin-Gvozdeva_a88",46.6202777777778,142.951111111111,80,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.57439268768616,2231.05319673709,3.18107937173658,-11.0385619038307,16.9809665522056,995.668814791716
6916,14590,7065,"EMPDv2","Priyatnoye Lake","EPDcoretop_E1802",61.03,151.72,980,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.12702234513964,698.095022649323,-12.1959748043559,-31.9399596532507,8.42612157425491,386.977990109577
6917,14591,11179,"Bush et al., 2020","Progreso","Progreso",18.22,-88.42,13,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.944573457453184,9445.80923221332,25.8789294033242,23.1577170860733,27.6965491357216,1468.20507895688
6918,14592,14091,"Neotoma","Prospect Hill II","PROSHL2",42.5625,-72.18,300,"not known","terrestrial","excavation","-13","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6918,14592,14092,"Neotoma","Prospect Hill II","PROSHL2",42.5625,-72.18,300,"not known","terrestrial","excavation","1","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6918,14592,14093,"Neotoma","Prospect Hill II","PROSHL2",42.5625,-72.18,300,"not known","terrestrial","excavation","17","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6918,14592,14094,"Neotoma","Prospect Hill II","PROSHL2",42.5625,-72.18,300,"not known","terrestrial","excavation","34","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14095,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-45","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14096,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-42","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14097,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-36","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14098,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-24","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14099,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-18","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14100,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","-4","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14101,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","11","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14102,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","34","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6919,14593,14103,"Neotoma","Prospect Hill VII","PROSHL7",42.5625,-72.18,300,"not known","terrestrial","excavation","50","McLachlan, J.S., D.R. Foster, and F. Menalled. 2000. Anthropogenic ties to late-successional structure and composition in four New England hemlock stands. Ecology 81(3):717-733.",,9,"cool mixed forest",1.33336895645195,3222.88358642701,7.45825744834511,-6.77642902841066,20.4911934756681,1105.84532555907
6920,14594,13141,"Neotoma","Protection Bog","PROTECTN",42.622222,-78.466667,430,"not known","terrestrial, bog/fen/swamp","core","-17","Miller, N.G. 1973. Late-glacial and postglacial vegetation change in southwestern New York State. Bulletin 420. New York State Museum and Science Service, The State Education Department, Albany, New York, USA.",,9,"cool mixed forest",1.17373368562797,3230.0634828286,7.668840886533,-5.82721593773978,20.2078872572126,981.232341268417
6920,14594,13142,"Neotoma","Protection Bog","PROTECTN",42.622222,-78.466667,430,"not known","terrestrial, bog/fen/swamp","core","4","Miller, N.G. 1973. Late-glacial and postglacial vegetation change in southwestern New York State. Bulletin 420. New York State Museum and Science Service, The State Education Department, Albany, New York, USA.",,9,"cool mixed forest",1.17373368562797,3230.0634828286,7.668840886533,-5.82721593773978,20.2078872572126,981.232341268417
6920,14594,13143,"Neotoma","Protection Bog","PROTECTN",42.622222,-78.466667,430,"not known","terrestrial, bog/fen/swamp","core","46","Miller, N.G. 1973. Late-glacial and postglacial vegetation change in southwestern New York State. Bulletin 420. New York State Museum and Science Service, The State Education Department, Albany, New York, USA.",,9,"cool mixed forest",1.17373368562797,3230.0634828286,7.668840886533,-5.82721593773978,20.2078872572126,981.232341268417
6921,14595,7990,"EMPDv2","Protochnoye_1","Mikishin-Gvozdeva_a50",51.405,143.457222222222,4,"0.11","lake","sediment sample","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22792614548231,1890.27286238589,-0.252155420206652,-18.2215494441246,15.5028381283371,668.781277046584
6922,14596,7991,"EMPDv2","Protochnoye_2","Mikishin-Gvozdeva_a51",51.4044444444444,143.451111111111,6,"not applicable","coastal, other","litter","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22854818092811,1888.30652667845,-0.260958960537506,-18.2284255184262,15.4925083453174,669.026688844842
6923,14597,8258,"EMPDv2","Prymetnyi_Kholm","Mikishin-Gvozdeva_b89",42.3752777777778,130.752222222222,4,"not applicable","coastal, other","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.908793183833387,3328.86587959096,6.66075728429635,-11.10434267807,22.0140239001575,751.340477037886
6924,14598,7032,"EMPDv2","Pryskyricne dul","EPDcoretop_E1601",50.89,14.41,423,"0.002","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.919282972548613,2986.54131866942,7.81241170946959,-2.49544385080672,17.1799096073055,663.340905012208
6925,14599,21968,"SMPDSv1","Psatha Bay","Jahns_d1",38.2202777777777,23.2202777777777,5,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376225385616154,6427.27076073527,17.6089609883158,9.37832975894551,26.5020181302724,535.454033493818
6925,14600,21969,"SMPDSv1","Psatha Bay","Jahns_d2",38.2202777777777,23.2202777777777,5,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376225385616154,6427.27076073527,17.6089609883158,9.37832975894551,26.5020181302724,535.454033493818
6925,14601,21970,"SMPDSv1","Psatha Bay","Jahns_d3",38.2202777777777,23.2202777777777,5,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376225385616154,6427.27076073527,17.6089609883158,9.37832975894551,26.5020181302724,535.454033493818
6925,14602,21971,"SMPDSv1","Psatha Bay","Jahns_d4",38.2202777777777,23.2166666666666,25,"not applicable","terrestrial","moss polster or moss","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379777212775637,6381.33019852327,17.4830964343103,9.2473886938742,26.3796215474868,539.491889807271
6926,14603,8080,"EMPDv2","Ptichje","Mikishin-Gvozdeva_a143",46.4,143.555555555556,-2,"3.7","coastal, lagoon","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.59556551919805,2339.33539768241,3.79597662363573,-10.1501412740977,17.400855654817,1015.99329030305
6927,14604,6899,"EMPDv2","Pub","Colombaroli_a14",37.7486666666667,14.3233611111111,998,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.473281827877908,4909.33325142125,13.4502280860856,6.76098404072524,21.8788852058077,641.919793738732
6928,14605,10484,"IBERIA","Puerto de Los Tornos","TORNOS01_0",43.15,-3.433333333,920,"not known","terrestrial, bog/fen/swamp","core","-34","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.721301948558172,3700.12687283059,10.137333898166,3.00875625848735,18.4065104603896,739.262255209531
6928,14606,10485,"IBERIA","Puerto de Los Tornos","TORNOS01_0.03",43.15,-3.433333333,920,"not known","terrestrial, bog/fen/swamp","core","7","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.721301948558172,3700.12687283059,10.137333898166,3.00875625848735,18.4065104603896,739.262255209531
6928,14607,10486,"IBERIA","Puerto de Los Tornos","TORNOS01_0.05",43.15,-3.433333333,920,"not known","terrestrial, bog/fen/swamp","core","32","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.721301948558172,3700.12687283059,10.137333898166,3.00875625848735,18.4065104603896,739.262255209531
6929,14608,21972,"SMPDSv1","Puerto de los Tornos-1","Barboni_a1301",43.150906,-3.441026,918,"3.673","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.722520999837321,3702.80028086477,10.1446583037391,3.02175936384567,18.4053494764126,740.230127644698
6930,14609,21973,"SMPDSv1","Puerto de los Tornos-2","Barboni_a1302",43.150906,-3.441026,918,"3.673","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.722520999837321,3702.80028086477,10.1446583037391,3.02175936384567,18.4053494764126,740.230127644698
6931,14610,10405,"IBERIA","Puerto de Serranillos","SERRANIL_0",40.3072,-4.9342,1700,"0.024","terrestrial, bog/fen/swamp","core","-50","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.489616318850624,2210.406009437,5.80126648755614,-1.59827193029383,15.011506695466,559.02020045215
6931,14611,10406,"IBERIA","Puerto de Serranillos","SERRANIL_0.05",40.3072,-4.9342,1700,"0.024","terrestrial, bog/fen/swamp","core","27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.489616318850624,2210.406009437,5.80126648755614,-1.59827193029383,15.011506695466,559.02020045215
6932,14612,21974,"SMPDSv1","Puerto del Escudo","Barboni_a1300",43.083333,-3.866667,940,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.707749026330672,3711.81483651717,10.1693557164854,3.097873490299,18.3617081921013,736.083746689385
6933,14613,10512,"IBERIA","Puerto del Pico","PICO_035",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-51","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14614,10513,"IBERIA","Puerto del Pico","PICO_055",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-46","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14615,10514,"IBERIA","Puerto del Pico","PICO_095",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14616,10515,"IBERIA","Puerto del Pico","PICO_135",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-26","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14617,10516,"IBERIA","Puerto del Pico","PICO_175",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14618,10517,"IBERIA","Puerto del Pico","PICO_195",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","-10","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14619,10518,"IBERIA","Puerto del Pico","PICO_235",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14620,10519,"IBERIA","Puerto del Pico","PICO_295",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","25","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14621,10520,"IBERIA","Puerto del Pico","PICO_315",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","33","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6933,14622,10521,"IBERIA","Puerto del Pico","PICO_335",40.3233,-5.0145,1395,"2e-04","terrestrial, bog/fen/swamp","core","41","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.455842476447052,2957.07476978623,8.10157471174309,0.496195929909375,17.48671603044,535.303090287161
6934,14623,24190,"Neotoma","Puerto Eden","PEDEN2",-49.133333,-74.416667,50,"not known","terrestrial, bog/fen/swamp","profile or section","0","Ashworth, A.C., V. Markgraf, and C. Villagrán. 1991. Late Quaternary climatic history of the Chilean Channels based on fossil pollen and beetle analyses, with an analysis of the modern vegetation and pollen rain. Journal of Quaternary Science 6:279-291.","10.1002/jqs.3390060403",7,"cool-temperate rainforest",1.68649957740152,2621.38747355287,7.18188348918595,3.77814298513494,10.5101203646871,1234.8209796504
6935,14624,21975,"SMPDSv1","Pukasjon","Seppa_b151",57.85,14.38,299,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07644181796575,2400.85221325181,5.89563035397393,-3.26397659410299,15.2411339056245,667.412115331938
6936,14625,4031,"CMPD","Punandian","Punandian",39.4,122,32,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.659881226462991,4085.27431804832,10.0666745459484,-6.33550761522792,23.9473005320845,682.725415634173
6937,14626,11180,"Bush et al., 2020","PuntaLaguna","PuntaLaguna",20.65,-87.64,28,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795939916274214,9394.42672664319,25.7381554154608,22.7291749106773,27.7249581713854,1210.29122281608
6938,14627,14574,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-55","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14575,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-51","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14576,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-47","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14577,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-44","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14578,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-40","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14579,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-34","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14580,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-28","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14581,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-22","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14582,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-16","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14583,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-10","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14584,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-8","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14585,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-7","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14586,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-5","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14587,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-3","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14588,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","-1","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14589,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","6","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14590,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","13","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14591,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","21","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14592,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","28","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14593,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","35","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6938,14627,14594,"Neotoma","Purple Lake","PURPLE",38.07438,-111.57115,3226,"not known","lake","core","48","Morris, J.L., A. Brunelle, A.S. Munson, J. Spencer, and M.J. Power. 2013. Holocene vegetation and fire reconstructions from the Aquarius Plateau, Utah, USA. Quaternary International 310:111-123.; Morris, J.L., and A. Brunelle. 2012. Pollen accumulation in lake sediments during historic spruce beetle disturbances in subalpine forests of southern Utah, USA. The Holocene 22(9):961-974.",,17,"temperate evergreen needleleaf open woodland",0.439891963292614,1306.57736805914,1.06017842022637,-6.9770480018491,11.5958040741398,459.397468217404
6939,14628,21976,"SMPDSv1","Puscizna Rekowianska","EPDcoretop_E536",49.483333,19.816667,656,"0.0028","terrestrial, blanket bog","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.18061502594582,2530.6740957557,5.96807581450979,-5.10608751504573,15.3909335456118,888.667350765972
6940,14629,21977,"SMPDSv1","Pushovskoe boloto","Pushovskoe boloto_SS",52.6932,45.8533,258,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.691533658916983,2916.60277281303,4.78270637473435,-12.0069050126865,20.1745581533651,527.882908272261
6941,14630,8264,"EMPDv2","Puszcza Notecka","Milecka_a1",52.7635,16.3044,54,"not known","terrestrial, bog/fen/swamp","peat","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.76423745104663,3192.76260942416,8.5608329747779,-1.56785789795009,17.9012315625129,554.600069617051
6942,14631,21979,"SMPDSv1","Puy de Pailleret","Barboni_a161",45.5,2.83,1575,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.41669688168584,2132.84996260932,5.38248453133499,-2.31037529186389,14.3783633958682,1275.41812779181
6942,14632,21980,"SMPDSv1","Puy de Pailleret","Barboni_a162",45.5,2.83,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.38428701830256,2217.13149387398,5.70434538316865,-1.99426046033498,14.6610299003943,1245.58812925091
6942,14633,21981,"SMPDSv1","Puy de Pailleret","Barboni_a163",45.5,2.83,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.36269664074119,2274.90092612445,5.9189192843911,-1.7835172393157,14.8494742367451,1225.70146355698
6942,14634,21982,"SMPDSv1","Puy de Pailleret","Barboni_a164",45.5,2.83,1400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.34111743296277,2333.94517132386,6.13349318561354,-1.57277401829643,15.0379185730958,1205.81479786304
6942,14635,21987,"SMPDSv1","Puy de Pailleret","Barboni_a196",45.5,2.83,1575,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.41669688168584,2132.84996260932,5.38248453133499,-2.31037529186389,14.3783633958682,1275.41812779181
6942,14636,21988,"SMPDSv1","Puy de Pailleret","Barboni_a197",45.5,2.83,1361,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.32429252804473,2380.94310747963,6.30086082856704,-1.4083943059014,15.1849051554494,1190.30319862177
6942,14637,21978,"SMPDSv1","Puy de Pailleret","EPDcoretop_E506",45.516667,2.816667,1590,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.42382968791145,2116.44308302734,5.31871707055848,-2.37328455966309,14.3207671229997,1281.40599487589
6943,14638,6974,"EMPDv2","Puy des Gouttes","EPDcoretop_E1391",45.83,2.96,1134,"0.0015","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.24497637772236,2671.21386897112,7.26688004440815,-0.476632536334352,16.0018817176664,1107.07114449128
6944,14639,21983,"SMPDSv1","Puy du Bois","Miras_i1",45.6805638888888,1.95525555555555,714,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.06254909697317,3312.69591440279,9.07587921754189,1.42852397423203,17.4900339541407,932.410580976853
6944,14640,21984,"SMPDSv1","Puy du Bois","Miras_i2",45.6802805555555,1.95708611111111,755,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07883140207155,3241.39162050858,8.88052498769473,1.22460106105734,17.3184293168089,945.617182329241
6944,14641,21985,"SMPDSv1","Puy du Bois","Miras_i3",45.6802,1.95939444444444,806,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09916579212589,3152.69589386656,8.63752299689469,0.970972862594014,17.1049475228026,962.052590289106
6944,14642,21986,"SMPDSv1","Puy du Bois","Miras_i4",45.6802583333333,1.95980833333333,814,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10236497014477,3138.78122680294,8.59940062137793,0.931187426769495,17.0714513838993,964.631751991517
6945,14643,11181,"Bush et al., 2020","Puyo137","Puyo137",-1.46207,-78.2110977,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.74036716855431,6747.74621122628,18.4869759211679,17.6885895305152,18.8219412108164,2241.78914497304
6946,14644,11182,"Bush et al., 2020","Puyo138","Puyo138",-1.46093,-78.2113037,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.74043639496746,6747.78592487765,18.4870847256922,17.6887391816395,18.8220682800696,2241.86631011296
6947,14645,11183,"Bush et al., 2020","Puyo139","Puyo139",-1.46095,-78.211998,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.74036966990131,6747.74961334257,18.4869852420344,17.6886475550604,18.8220178961908,2241.77876492459
6948,14646,11184,"Bush et al., 2020","Puyo140","Puyo140",-1.46122,-78.2123032,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.7403200413026,6747.72215329709,18.4869100090331,17.6885669892343,18.821963409647,2241.71676624512
6949,14647,11185,"Bush et al., 2020","Puyo141","Puyo141",-1.46123,-78.2132034,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.74023467352294,6747.67576188152,18.4867829092644,17.6884506149273,18.8219000785738,2241.60456870191
6950,14648,11186,"Bush et al., 2020","Puyo142","Puyo142",-1.46119,-78.2145004,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.7401157640397,6747.61128568885,18.4866062621612,17.688291261779298,18.821815568902,2241.4476249049
6951,14649,11187,"Bush et al., 2020","Puyo143","Puyo143",-1.45876,-78.2160034,1738,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.74016266315527,6747.64108662278,18.4866879085555,17.6884733720114,18.8220118782057,2241.47959198963
6952,14650,11188,"Bush et al., 2020","Puyo144","Puyo144",-1.46009,-78.2207031,1804,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.69465686475422,6636.08274263239,18.1810486099517,17.3969538943911,18.5129713310338,2183.55970196461
6953,14651,11189,"Bush et al., 2020","Puyo145","Puyo145",-1.45419,-78.2209015,1849,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.66447479003872,6560.48509129685,17.9739317569777,17.1996570498084,18.303330102335,2145.04707503159
6954,14652,11190,"Bush et al., 2020","Puyo146","Puyo146",-1.44745,-78.2212982,1687,"not known","terrestrial","soil sample","-54","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.77534079201536,6833.82082147549,18.7227967711657,17.9141325217132,19.061432387442,2286.04864453437
6955,14653,13157,"Neotoma","Puyuk Lake","PUYUK",63.5,-162.2,15,"not known","lake","core","26","Ager, T.A. 1980. A 16,000 year pollen record from St. Michael Island, Norton Sound, western Alaska. Page 3 in American Quaternary Association, Sixth Biennial Meeting, Abstracts and Program, 18-20 August 1980. Institute for Quaternary Studies, University of Maine, Orono, Maine, USA.; Ager, T.A. 1982. Vegetational history of western Alaska during the WIsconsin glacial interval and the Holocene. Pages 75-93 in D.M. Hopkins, J.V. Matthews, Jr., C.E. Schweger, and S.B. Young, editors. Paleoecology of Beringia. Academic Press, New York, New York, USA.; Ager, T.A., and J.P. Bradbury. 1982. Quaternary history of vegetation and climate of the Yukon Delta-Norton Sound Area. In W.L. Conrad, editor. The United States Geological Survey in Alaska: Accomplishments during 1981. U.S. Geological Survey Circular 868:103-105.; Ager, T.A., and L.B. Brubaker. 1985. Quaternary palynology and vegetational history of Alaska. Pages 353-384 in V.M. Bryant, Jr. and R.G. Holloway, editors. Pollen records of late Quaternary North American sediments. American Association of Stragigraphic Palynologists Foundation, Dallas, Texas, USA.",,31,"tundra",0.896592447419414,1279.83638732357,-3.2990903583538,-16.8069684276014,12.2743478134488,347.057270235591
6956,14654,21989,"SMPDSv1","Pyat-kapel-urochishche","pyat-kapel-urochishche_SS",54.86193,41.1396,114,"0.01","terrestrial, soil","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.835624859244894,2745.4721204822,4.71805332186427,-11.0628931372881,18.8983609771885,584.148791887793
6957,14655,14196,"Neotoma","Pye Lake","PYELAKE",44.9759327777778,-62.09061,9,"not known","lake","core","-40","Mott, R.J., I.R. Walker, S.L. Palmer, and M. Lavoie. 2009. A late-glacial Holocene palaeoecological record from Pye Lake on the eastern shore of Nova Scotia, Canada. Canadian Journal of Earth Sciences 46:637-650.; Stea, R.R., and R.J. Mott. 1998. Deglaciation of Nova Scotia: stratigraphy and chronology of lake sediment cores and buried organic sections. Géographie physique et Quaternaire 52(1):1-19.",,9,"cool mixed forest",1.8723469054299,2696.23057240732,6.29594783777691,-5.26430568941357,17.9969703908554,1377.54401563915
6958,14656,8475,"EMPDv2","Pylkovo peatland-1","Novenko_c39",52.6932,45.8537,256,"0.06","terrestrial","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.689937718978863,2921.36116825706,4.80301535900746,-11.987565574101,20.1976460758797,527.006129862375
6959,14657,8476,"EMPDv2","Pylkovo peatland-2","Novenko_c40",52.6932,45.8533,258,"0.06","terrestrial","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.691533658916983,2916.60277281303,4.78270637473435,-12.0069050126865,20.1745581533651,527.882908272261
6960,14658,10142,"Herzschuh et al., 2019","Qai-09Q","Qai-09Q",39.06,94.18,2821,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.0419733920667713,2300.64361865168,2.98844295666946,-12.3021725200675,16.8025004573569,46.661393643469
6961,14659,4032,"CMPD","Qaidam Basin","Qaidam Basin 01",37.01,102.14,3099,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.286798723550228,1618.31659923618,1.16705634418229,-11.6239398195973,12.2749459039941,287.925008748151
6961,14660,4033,"CMPD","Qaidam Basin","Qaidam Basin 06",37.29,101.85,2798,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251659239167774,1836.36345405826,1.90157711278945,-11.452776073492,13.5754367456865,255.17917809281
6961,14661,4034,"CMPD","Qaidam Basin","Qaidam Basin 07",37.32,101.87,2677,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.246354681984146,1955.16663549456,2.36679685343841,-11.1690788296258,14.2027330698905,251.360347119533
6961,14662,4035,"CMPD","Qaidam Basin","Qaidam Basin 09",37.17,102.15,2604,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271923773296606,2119.46661004432,3.17751858751184,-10.2716233885581,14.8631136736466,279.658631676124
6961,14663,4036,"CMPD","Qaidam Basin","Qaidam Basin 11",37.03,102.28,2719,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.285800816899161,2013.32529034182,2.8154741516998,-10.3721666350264,14.2929418833232,292.204465386555
6961,14664,4037,"CMPD","Qaidam Basin","Qaidam Basin 12",36.72,101.18,2707,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.315720495262247,2299.13806440079,4.16419026402398,-9.04738145863031,15.1613140683931,331.52506575049
6961,14665,4038,"CMPD","Qaidam Basin","Qaidam Basin 17",37.14,99.59,3248,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.242719227059488,1430.19636242623,-0.00320442062658158,-13.3441448795927,11.4036242174823,245.406298194292
6961,14666,4039,"CMPD","Qaidam Basin","Qaidam Basin 18",37.14,99.59,3235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.24334360367693,1447.37782315907,0.0851311201187294,-13.2633617278497,11.486996831862,246.366821231877
6961,14667,4040,"CMPD","Qaidam Basin","Qaidam Basin 20",37.19,98.89,3695,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.203864016744461,958.545675940525,-2.75297610622332,-15.9208943379026,9.01196592962324,200.103942571802
6961,14668,4041,"CMPD","Qaidam Basin","Qaidam Basin 21",37.05,98.88,3403,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.209994763638013,1344.06496120928,-0.568135819824454,-13.8945657164204,11.1444809733516,215.729877966078
6961,14669,4042,"CMPD","Qaidam Basin","Qaidam Basin 22",36.96,98.26,2942,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.184848614369101,2179.91407196033,3.34599853566961,-10.4222749612916,15.3373397836229,209.048139444107
6961,14670,4043,"CMPD","Qaidam Basin","Qaidam Basin 23",37,98.19,2969,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.175683015608702,2185.68889479775,3.31781331522849,-10.5507531823297,15.4334514813924,199.598867380245
6961,14671,4044,"CMPD","Qaidam Basin","Qaidam Basin 24",37.07,97.74,2900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168296489484132,2369.16693141542,4.06915450835496,-9.97995142013087,16.2842464475512,194.437997267701
6961,14672,4045,"CMPD","Qaidam Basin","Qaidam Basin 25A",37.14,97.58,2841,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.167297630603077,2472.74063008344,4.49510811097743,-9.63383929602205,16.7358158114235,194.580472570416
6961,14673,4046,"CMPD","Qaidam Basin","Qaidam Basin 25B",37.14,97.58,2844,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.167279445864313,2467.44683219548,4.47284714074006,-9.65365432345825,16.7132773339805,194.483335522141
6961,14674,4047,"CMPD","Qaidam Basin","Qaidam Basin 27",37.25,97.49,2870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168461636152206,2454.80938013343,4.42192510726824,-9.69413985882467,16.6502161528177,195.529755711454
6961,14675,4048,"CMPD","Qaidam Basin","Qaidam Basin 28",37.34,97.25,2931,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.163038539685979,2334.95528924193,3.8828298664335,-10.2451596066603,16.1642052340784,187.304845048928
6961,14676,4049,"CMPD","Qaidam Basin","Qaidam Basin 29",37.36,96.77,2875,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.154495600685932,2485.79048011354,4.46311588448535,-9.85570481101556,16.8632729881879,179.531639973278
6961,14677,4050,"CMPD","Qaidam Basin","Qaidam Basin 30",37.41,96.48,3230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.130965033624689,1940.47223907666,1.96443192524178,-12.2204552620375,14.5335333201704,146.088558649791
6961,14678,4051,"CMPD","Qaidam Basin","Qaidam Basin 31",37.44,96.25,3734,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106468084845464,1229.1758083136299,-1.7143620342029,-15.5265341070848,10.9445145221959,110.849610642011
6961,14679,4052,"CMPD","Qaidam Basin","Qaidam Basin 32",37.49,95.96,3342,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110054709538857,1836.18948195461,1.37550573248092,-12.8641831057526,14.1348200149174,121.822562840086
6961,14680,4053,"CMPD","Qaidam Basin","Qaidam Basin 33",37.6,95.59,3291,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0971674693404608,1940.64667069901,1.80055933590429,-12.5670842243027,14.7115843736971,108.422634237957
6961,14681,4054,"CMPD","Qaidam Basin","Qaidam Basin 34",37.78,95.4,3322,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0837567907278184,1856.48717134356,1.31901317915194,-13.1160140852185,14.3854478555418,92.5323867754667
6961,14682,4055,"CMPD","Qaidam Basin","Qaidam Basin 35",37.84,95.36,3171,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.085368540216215,2081.56249215692,2.36005472496048,-12.2296742874394,15.4688318482417,95.9495364843401
6961,14683,4056,"CMPD","Qaidam Basin","Qaidam Basin 36",38.03,95.02,3202,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0728410341250993,2015.29479822396,2.00139963972309,-12.5861277578397,15.2273156723397,81.1707113681106
6961,14684,4057,"CMPD","Qaidam Basin","Qaidam Basin 37",38.04,94.88,3134,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0724986528530108,2099.69860609959,2.38230945856579,-12.2622904661935,15.6337182816673,81.219244586598
6961,14685,4058,"CMPD","Qaidam Basin","Qaidam Basin 40",37.91,95.2,3171,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0771014769038335,2071.54771987926,2.28045179320446,-12.322478955259,15.4697925367242,86.4481240413792
6961,14686,4059,"CMPD","Qaidam Basin","Qaidam Basin L01",36.61,100.57,3196,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.285391137486643,1579.06143877025,0.892689325032749,-12.2548748509624,11.9789868328819,289.640886107647
6961,14687,4060,"CMPD","Qaidam Basin","Qaidam Basin L02",36.56,100.74,3189,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288348257874063,1594.02362838154,0.979278936532698,-12.1445291346979,12.040076362063,292.823823007071
6961,14688,4061,"CMPD","Qaidam Basin","Qaidam Basin L03",36.56,100.74,3194,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288182267584286,1587.81071631624,0.949799391089428,-12.170852255933,12.0109118822043,292.547731415483
6961,14689,4062,"CMPD","Qaidam Basin","Qaidam Basin L04",37.01,98.5,3314,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.18959324204516,1566.94053412388,0.486666807122729,-13.0079791443807,12.4086756302321,202.061878526273
6961,14690,4063,"CMPD","Qaidam Basin","Qaidam Basin L05",37.33,96.06,3524,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.108090189360241,1551.93650168198,-0.00853770219852895,-14.0441579321552,12.70192637794,116.718410729914
6961,14691,4064,"CMPD","Qaidam Basin","Qaidam Basin L06",37.34,96.05,3533,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.107573529185959,1539.88306232138,-0.0720263817935207,-14.1019841291099,12.6411942562694,116.016390153445
6961,14692,4065,"CMPD","Qaidam Basin","Qaidam Basin L07",37.08,97.31,2848,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164677713521731,2470.78854705525,4.47007374450812,-9.69818820058968,16.7397044495383,191.689715486071
6961,14693,4066,"CMPD","Qaidam Basin","Qaidam Basin L08",37.18,96.55,2850,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.143428245453752,2569.99283810899,4.7567750564508,-9.71486345662097,17.2845863557368,168.209554481874
6961,14694,4067,"CMPD","Qaidam Basin","Qaidam Basin L09",37.08,97,2813,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.157407340320359,2572.91482951702,4.84661375365324,-9.47308527573261,17.2147591509772,184.670099175173
6961,14695,4068,"CMPD","Qaidam Basin","Qaidam Basin L10",39.06,94.18,2821,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0419733920667713,2300.64361865168,2.98844295666946,-12.3021725200675,16.8025004573569,46.661393643469
6961,14696,4069,"CMPD","Qaidam Basin","Qaidam Basin L11",38.8,93.7,2772,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0408979894773259,2282.11484875995,2.95963416257651,-12.1756491111622,16.694402449895,45.2628946172414
6961,14697,4070,"CMPD","Qaidam Basin","Qaidam Basin S01",36.45,99.36,3813,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.243758716893905,965.201580658884,-2.53184892289927,-15.5087295003517,8.90905962749076,240.928415362199
6961,14698,4071,"CMPD","Qaidam Basin","Qaidam Basin S02",36.45,99.36,3750,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.244132852009073,1017.04858584202,-2.23117485191044,-15.2498797281908,9.20919205788826,242.285372352033
6961,14699,4072,"CMPD","Qaidam Basin","Qaidam Basin S03",37.29,97.26,4087,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134126699085677,582.758011822363,-5.6601861330094,-18.9093718808537,6.70227294738725,125.836600303311
6961,14700,4073,"CMPD","Qaidam Basin","Qaidam Basin S04",36.46,99.37,3616,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.244925024559919,1129.71483593492,-1.59773648841646,-14.7053990050922,9.8409951800083,245.074124943011
6961,14701,4074,"CMPD","Qaidam Basin","Qaidam Basin S05",36.46,99.37,3590,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.245097150194182,1152.42298536034,-1.47324093454501,-14.598174013101,9.96517868829533,245.648478043946
6961,14702,4075,"CMPD","Qaidam Basin","Qaidam Basin S06",37.29,97.25,3914,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.13358323526839,792.172990766195,-4.2045068104037,-17.6043217243758,8.18653425477977,130.029382561586
6961,14703,4076,"CMPD","Qaidam Basin","Qaidam Basin S07",37.29,97.24,3772,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.13418994525435,1011.45891117699,-2.83061819648537,-16.3768625238277,9.58105431041926,135.118366184568
6961,14704,4077,"CMPD","Qaidam Basin","Qaidam Basin S08",37.29,97.23,3682,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136981687375685,1134.62812265777,-2.09757170182025,-15.7126940153954,10.3061499798316,140.164603237295
6961,14705,4078,"CMPD","Qaidam Basin","Qaidam Basin S09",36.44,99.35,3592,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.245095131825358,1152.87019434685,-1.47140107448517,-14.5949842504715,9.96817414551147,245.771064142029
6961,14706,4079,"CMPD","Qaidam Basin","Qaidam Basin S10",37.29,97.22,3575,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.140242872805428,1288.12838803653,-1.22747650840587,-14.9244645328182,11.1666380121213,146.192191415127
6961,14707,4080,"CMPD","Qaidam Basin","Qaidam Basin S11",36.42,99.31,3433,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.2453450700306,1296.13935993116,-0.710226119647394,-13.939693545014,10.734828696466,248.626623895581
6961,14708,4081,"CMPD","Qaidam Basin","Qaidam Basin S12",37.27,97.2,3428,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1445960880218,1513.31648260528,-0.0230948559147305,-13.8322419368724,12.3569566759511,154.569911916276
6961,14709,4082,"CMPD","Qaidam Basin","Qaidam Basin S13",37.27,97.21,3426,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.144806250982424,1515.74109959543,-0.00968797482733577,-13.8188586604587,12.3687967816612,154.83047452237
6961,14710,4083,"CMPD","Qaidam Basin","Qaidam Basin S14",37.26,97.2,3300,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.148477491529187,1719.34411069039,1.0173824493452,-12.8876508894398,13.3835803308098,162.052530728813
6961,14711,4084,"CMPD","Qaidam Basin","Qaidam Basin S15",36.58,98.54,3248,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188719767258575,1674.44915726268,1.0260883892232,-12.4892993404999,12.9458522405287,204.486083692723
6961,14712,4085,"CMPD","Qaidam Basin","Qaidam Basin S16",36.58,98.53,3245,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188497918040783,1679.6810636725,1.05085503562063,-12.467582563827,12.9730026362372,204.375165143787
6961,14713,4086,"CMPD","Qaidam Basin","Qaidam Basin S17",37,98.38,3184,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.187436387112996,1776.72608898792,1.50372268051851,-12.089525658503,13.4548903089526,204.207089119113
6961,14714,4087,"CMPD","Qaidam Basin","Qaidam Basin S18",37,98.23,3172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177082301657939,1853.40866831983,1.81082044519888,-11.8980763956478,13.8927752367259,195.406283612354
6961,14715,4088,"CMPD","Qaidam Basin","Qaidam Basin S19",37.25,97.21,3137,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.154448735590276,2004.7251313818,2.38788294054034,-11.6282625478493,14.7192144522562,173.066401877956
6961,14716,4089,"CMPD","Qaidam Basin","Qaidam Basin S20",36.46,99.05,3121,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.216014352044615,1672.86046655335,1.09039922044894,-12.3981165164983,12.7789772999798,229.090317867844
6961,14717,4090,"CMPD","Qaidam Basin","Qaidam Basin S21",37.21,97.3,3114,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.162385818919659,2012.74720070366,2.46302353798162,-11.4910341585829,14.7157695980534,181.951789366299
6961,14718,4091,"CMPD","Qaidam Basin","Qaidam Basin S22",37.22,97.19,3027,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.156946263215807,2195.02493854989,3.2467300062441,-10.8587615379872,15.5756205450809,178.716822833946
6961,14719,4092,"CMPD","Qaidam Basin","Qaidam Basin S23",37.21,97.18,2985,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.157414045698426,2266.02759961241,3.55721441389723,-10.5853893350417,15.889788677036501,180.263733772024
6961,14720,4093,"CMPD","Qaidam Basin","Qaidam Basin S24",37.21,96.54,2850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.143204293391874,2570.65889094543,4.75763423945686,-9.71845588660342,17.2892623737578,167.893360248519
6962,14721,8998,"EMPDv2","Qassiarsuk","Schofield_a29",61.1571,-45.5222,80,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51676787030073,963.610879925257,0.533508932322533,-5.80684590104758,8.19187282083488,1082.72646057865
6962,14722,8999,"EMPDv2","Qassiarsuk","Schofield_a30",61.1572,-45.5222,80,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51674893984051,963.615536460613,0.533524524070312,-5.80684394050498,8.19190326678744,1082.7166365264
6962,14723,9000,"EMPDv2","Qassiarsuk","Schofield_a31",61.1571,-45.522,80,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51682563473199,963.60880886568,0.533510251605641,-5.80682065484389,8.19186648780476,1082.75233296514
6962,14724,9001,"EMPDv2","Qassiarsuk","Schofield_a32",61.1573,-45.522,80,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51678777015156,963.618123299291,0.533541440810432,-5.8068167313162,8.19192738736362,1082.73268352538
6962,14725,9002,"EMPDv2","Qassiarsuk","Schofield_a33",61.1573,-45.5218,80,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51684554003264,963.61605043658,0.533542752445986,-5.80679148877919,8.19192104439122,1082.75855775432
6962,14726,9003,"EMPDv2","Qassiarsuk","Schofield_a34",61.1573,-45.5217,80,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51687442853439,963.615012834804,0.533543403381695,-5.80677886969956,8.19191786637479,1082.77149614347
6962,14727,9010,"EMPDv2","Qassiarsuk","Schofield_a41",61.1569,-45.5226,75,"not known","lacustrine, drained lake","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51396028255556,967.970902420067,0.556146463271709,-5.79212597640886,8.21218054146184,1082.14460155749
6962,14728,9018,"EMPDv2","Qassiarsuk","Schofield_a49",61.157,-45.5246,72,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51172767905148,970.615267213427,0.569751375781428,-5.78351187986325,8.22448645532413,1081.54613404341
6962,14729,9019,"EMPDv2","Qassiarsuk","Schofield_a50",61.1568,-45.5218,56,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5038659479766,984.646764544865,0.642286392154363,-5.73588503826369,8.28947737123479,1080.16921966332
6962,14730,9020,"EMPDv2","Qassiarsuk","Schofield_a51",61.1521,-45.518,13,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48264573203009,1022.63937450119,0.836487262569861,-5.60847245489788,8.46291282436427,1076.4147842238
6962,14731,9021,"EMPDv2","Qassiarsuk","Schofield_a52",61.1525,-45.516,19,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48637659980424,1017.26288751484,0.809358001189605,-5.62594118558182,8.43855240621359,1077.29444189972
6962,14732,9030,"EMPDv2","Qassiarsuk","Schofield_a61",61.158,-45.5174,28,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48974580167077,1009.50987980229,0.769460505193284,-5.65257187236324,8.4037121599205,1077.54437153825
6962,14733,9031,"EMPDv2","Qassiarsuk","Schofield_a62",61.1532,-45.517,15,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48379605761743,1020.88603522064,0.827606243918093,-5.61422986404556,8.45509158685855,1076.65377487649
6962,14734,9032,"EMPDv2","Qassiarsuk","Schofield_a63",61.15,-45.5168,12,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48287074406586,1023.41915326218,0.840671934516421,-5.60542265215593,8.46626887339061,1076.67556016407
6963,14735,10143,"Herzschuh et al., 2019","QHBQ","QHBQ",36.61,100.57,3196,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.285391137486643,1579.06143877025,0.892689325032749,-12.2548748509624,11.9789868328819,289.640886107647
6964,14736,4094,"CMPD","Qidong","Qidong",31.9,121.7,10,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06098486770686,5690.99758253866,15.5917741987361,3.42806244807124,27.4188656451007,1165.88285372985
6965,14737,4095,"CMPD","Qilianshan","Qilianshan-Qil-102a",37.05,101.55,2661,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271969991274516,2101.58761704131,3.12174372384267,-10.3279927188454,14.7027424893606,280.91868771408
6965,14738,4096,"CMPD","Qilianshan","Qilianshan-Qil-103",37.08,101.55,2789,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271043063001921,1945.3087898858,2.4680109581843,-10.8579270339678,13.9573016562945,277.649880485227
6965,14739,4097,"CMPD","Qilianshan","Qilianshan-Qil-104",37.2,101.55,2958,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.26740133389004,1732.49558351123,1.5399165054656,-11.6293994049948,12.9299985769774,270.365393370073
6965,14740,4098,"CMPD","Qilianshan","Qilianshan-Qil-105",37.32,101.48,2945,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245352374208168,1648.73169030096,1.04518914473726,-12.2549857855536,12.6241026130497,246.312409963768
6965,14741,4099,"CMPD","Qilianshan","Qilianshan-Qil-106",37.33,101.44,3135,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.251222952745298,1464.02102471955,0.25713795753842,-12.8023020328965,11.6250559749858,249.404353028063
6965,14742,4100,"CMPD","Qilianshan","Qilianshan-Qil-108",37.34,101.38,3642,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.268684249083674,1004.62799229285,-1.81735090971055,-14.2272303954626,8.98243206279369,258.663565992789
6965,14743,4101,"CMPD","Qilianshan","Qilianshan-Qil-109",37.34,101.37,3380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.258751452813861,1233.42209375325,-0.766134791579266,-13.521792248621,10.3337920697944,253.085873131358
6965,14744,4102,"CMPD","Qilianshan","Qilianshan-Qil-200m",37.593,101.35,3200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.246571264634098,1365.33717421135,-0.233588516548234,-13.2476007362431,11.1253337260857,242.232601259493
6965,14745,4103,"CMPD","Qilianshan","Qilianshan-Qil-35",37.733,101.266,3370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.2495434650188,1192.68106642283,-1.03510245643915,-13.8452293948713,10.1583787283746,241.777329134304
6965,14746,4104,"CMPD","Qilianshan","Qilianshan-Qil-50m",37.593,101.35,3200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.246571264634098,1365.33717421135,-0.233588516548234,-13.2476007362431,11.1253337260857,242.232601259493
6965,14747,4105,"CMPD","Qilianshan","Qilianshan-Qil-52a",37.817,100.466,3540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.216821727464337,879.713532860439,-3.02036307910394,-16.0225676038285,8.46359839725909,203.532010760552
6965,14748,4106,"CMPD","Qilianshan","Qilianshan-Qil-54",38.05,100.2,4070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.217914576675347,441.167761467653,-5.88623673827537,-18.429440618759,5.4171601777598,194.009988279584
6965,14749,4107,"CMPD","Qilianshan","Qilianshan-Qil-55",38.05,100.2,3720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.205792118995953,700.755364370177,-4.24451221702342,-17.2390099006485,7.35397109923156,189.15916702428
6965,14750,4108,"CMPD","Qilianshan","Qilianshan-Qil-57",38.05,100.2,3458,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.197302579856202,921.553037467465,-3.0155641468291,-16.3478874773773,8.8038124175904109,185.527980827452
6965,14751,4109,"CMPD","Qilianshan","Qilianshan-Qil-58",38.05,100.2,3090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.186137645604894,1262.64913606423,-1.28940807876991,-15.0962346080497,10.8402307578807,180.427688764733
6965,14752,4110,"CMPD","Qilianshan","Qilianshan-Qil-59",38.124,100.298,2857,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.184882263772937,1491.68577721461,-0.162712470470476,-14.1756880653952,12.0985708958765,181.878326125755
6965,14753,4111,"CMPD","Qilianshan","Qilianshan-Qil-60",38.034,100.562,3084,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.197754906939213,1282.45114135249,-1.06599027680521,-14.6997728659658,10.9029045049924,191.541072296642
6965,14754,4112,"CMPD","Qilianshan","Qilianshan-Qil-61",38.029,100.6,3101,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.199012289936927,1267.96312028306,-1.12638664120795,-14.7276910446517,10.8166387811778,192.53636294861101
6965,14755,4113,"CMPD","Qilianshan","Qilianshan-Qill-107",37.338,101.401,3787,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.274709271981005,884.726091805803,-2.3901747322768,-14.6034932201506,8.23974982629341,262.117090772312
6966,14756,4114,"CMPD","Qinghai","Qinghai 01",34.9,102.83,3140,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.463709313604224,1968.73195619979,3.29692158923546,-8.81816009845692,13.348705467888,472.319456682437
6966,14757,4115,"CMPD","Qinghai","Qinghai 02",34.75,102.6,3100,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.459857870557246,2006.4119191015,3.42145220020663,-8.78452053088549,13.5193258615155,470.275760088046
6966,14758,4116,"CMPD","Qinghai","Qinghai 03",34.7,102.5,3397,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.473668137468025,1752.70961237577,2.47564918635644,-9.36029048809272,12.2751805859335,479.818221973279
6966,14759,4117,"CMPD","Qinghai","Qinghai 04",34.68,102.5,3170,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.467644294322965,1954.97226467891,3.25431179161401,-8.83015196634599,13.2534711243527,477.245251940305
6966,14760,4118,"CMPD","Qinghai","Qinghai 05",34.32,102.33,3602,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.485866792203432,1581.22444030924,1.82297516734329,-9.74313875977986,11.4066984180386,490.123176416907
6966,14761,4119,"CMPD","Qinghai","Qinghai 06",34.2,102.5,3470,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.508807427486525,1750.95043807574,2.6175987088934,-8.91416247397336,12.17655532682,515.176330204043
6966,14762,4120,"CMPD","Qinghai","Qinghai 07",34.05,102.72,3181,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513993493015063,2058.49690772683,3.84167831846601,-7.95969658783027,13.6032295015123,526.194602359261
6966,14763,4121,"CMPD","Qinghai","Qinghai 08",33.93,102.87,3414,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.536220105542487,1859.82217863199,3.17336410531197,-8.1813369726517,12.6181807033122,543.897202875829
6966,14764,4122,"CMPD","Qinghai","Qinghai 09",33.68,102.97,3485,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.561855043394951,1930.75123820534,3.6074979517754,-7.43028756406814,12.8124775581063,574.083197877426
6966,14765,4123,"CMPD","Qinghai","Qinghai 10",33.95,102.62,3480,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.518948089374127,1768.85396267185,2.73693608054812,-8.70862709430902,12.2300769802697,526.506089578601
6966,14766,4124,"CMPD","Qinghai","Qinghai 11",33.9,102.55,3396,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.518499843160169,1852.34784887314,3.06876682469557,-8.46544248285579,12.6242078900272,527.839102796795
6966,14767,4125,"CMPD","Qinghai","Qinghai 12",33.82,102.58,3330,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.520687740633231,1928.25589044151,3.37789524756471,-8.20920946574415,12.9695342898575,531.773472761637
6966,14768,4126,"CMPD","Qinghai","Qinghai 13",33.72,102.5,3355,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.543588670780354,2021.37234611273,3.862388162574,-7.52876161827996,13.2823767882804,558.144723200914
6966,14769,4127,"CMPD","Qinghai","Qinghai 14",33.28,102.52,3495,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.554535971956412,1931.73333818131,3.59724530491945,-7.48884210755543,12.8090974609251,570.580009617745
6966,14770,4128,"CMPD","Qinghai","Qinghai 15",32.72,102.38,3489,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.613118458465295,2235.74642176973,5.07199028804056,-5.31955681223107,13.8090282996741,641.929823615003
6966,14771,4129,"CMPD","Qinghai","Qinghai 16",33.28,102.52,3495,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.554535971956412,1931.73333818131,3.59724530491945,-7.48884210755543,12.8090974609251,570.580009617745
6966,14772,4130,"CMPD","Qinghai","Qinghai 17",32.49,102.37,3509,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.617226390381396,2262.34029730986,5.20820181537767,-5.0725828085129,13.87295185505,649.414257217538
6966,14773,4131,"CMPD","Qinghai","Qinghai 18",32.72,102.38,3489,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.613118458465295,2235.74642176973,5.07199028804056,-5.31955681223107,13.8090282996741,641.929823615003
6966,14774,4132,"CMPD","Qinghai","Qinghai 19",32.71,102.14,3718,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.583449430149713,1817.63271167454,3.36279659127479,-7.04019393843325,12.0943359972235,602.359997568988
6966,14775,4133,"CMPD","Qinghai","Qinghai 20",32.71,102.14,3718,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.583449430149713,1817.63271167454,3.36279659127479,-7.04019393843325,12.0943359972235,602.359997568988
6966,14776,4134,"CMPD","Qinghai","Qinghai 21",32.73,102.1,3750,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580315301458556,1764.9639062901,3.12978421350558,-7.27864990162803,11.8739878987495,597.705502901053
6966,14777,4135,"CMPD","Qinghai","Qinghai 22",32.73,102.1,3780,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.578278231113165,1723.48262390846,2.9474494017382,-7.45414003301391,11.6955172197648,594.676252738382
6966,14778,4136,"CMPD","Qinghai","Qinghai 23",32.73,102.1,3750,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580315301458556,1764.9639062901,3.12978421350558,-7.27864990162803,11.8739878987495,597.705502901053
6966,14779,4137,"CMPD","Qinghai","Qinghai 24",32.73,102.1,3780,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.578278231113165,1723.48262390846,2.9474494017382,-7.45414003301391,11.6955172197648,594.676252738382
6966,14780,4138,"CMPD","Qinghai","Qinghai 25",32.75,102.08,3550,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.588154809187853,2004.81954915256,4.12759912701005,-6.39719034217222,12.8882190961884,609.565356229269
6966,14781,4139,"CMPD","Qinghai","Qinghai 26",32.83,102.04,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.582482559931806,2105.78180413544,4.48278686241825,-6.23441702038077,13.3444377224792,605.2087450746
6966,14782,4140,"CMPD","Qinghai","Qinghai 27",33.19,101.47,3496,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.567170849838794,1839.49968961736,3.36806634337843,-7.3928952714872,12.2368582141814,577.161977285743
6966,14783,4141,"CMPD","Qinghai","Qinghai 28",33.37,101.33,4192,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.481027723057765,1090.54101353779,-0.612895321769833,-11.8233751914603,8.91054972304334,480.932352451222
6966,14784,4142,"CMPD","Qinghai","Qinghai 29",33.43,101.07,4159,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.468247972266064,1141.63916944135,-0.403080139611933,-11.7385427956995,9.21319179029879,472.296508667075
6966,14785,4143,"CMPD","Qinghai","Qinghai 30",33.3,100.45,4137,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.464099630682569,1116.53386748829,-0.539642560794972,-11.8611313429575,9.08728885136796,466.902034766033
6966,14786,4144,"CMPD","Qinghai","Qinghai 31",33.93,99.74,4344,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.393338337610454,894.489741605292,-2.1453501294574,-13.8706178122211,8.02285880190615,394.18223927858
6966,14787,4145,"CMPD","Qinghai","Qinghai 32",34.67,100.64,3285,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.3683298760577,1716.30045405404,1.85954531594821,-10.8392273667452,12.3046622994482,380.859229573893
6966,14788,4146,"CMPD","Qinghai","Qinghai 33",34.66,100.63,3360,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.371053469818466,1660.32829903455,1.61963690670212,-11.0114449598866,12.0374423771846,382.999631481996
6966,14789,4147,"CMPD","Qinghai","Qinghai 34",34.66,100.63,3370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.371400335801463,1652.7592590119,1.58691811496192,-11.0352083357422,12.0012530069989,383.256932861245
6966,14790,4148,"CMPD","Qinghai","Qinghai 35",34.62,100.57,3370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.371607770404016,1657.59223204914,1.60939357423683,-11.0150809211445,12.0227422390797,383.850297757282
6966,14791,4149,"CMPD","Qinghai","Qinghai 36",34.53,100.41,3771,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.383906432094785,1364.57236980754,0.287673263395104,-11.9956763544112,10.5807096311377,392.909603708527
6966,14792,4150,"CMPD","Qinghai","Qinghai 37",34.47,100.4,4140,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.396619571178907,1105.36671258562,-0.960204301179161,-12.9099120172179,9.20971740816737,401.557735752995
6966,14793,4151,"CMPD","Qinghai","Qinghai 38",34.59,99.85,4140,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.369683511343801,1037.04822881058,-1.50644713897638,-13.6639918358398,8.91436255653701,372.823296134359
6966,14794,4152,"CMPD","Qinghai","Qinghai 39",34.58,99.88,3734,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.361252466478239,1379.01754663124,0.198100638353852,-12.3439145306062,10.7305491243685,371.850440031131
6966,14795,4153,"CMPD","Qinghai","Qinghai 40",34.51,99.97,3760,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.364666697952627,1363.10490818464,0.143141771381784,-12.3493074232492,10.6375041628494,375.169789481558
6966,14796,4154,"CMPD","Qinghai","Qinghai 41",34.51,99.97,3760,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.364666697952627,1363.10490818464,0.143141771381784,-12.3493074232492,10.6375041628494,375.169789481558
6966,14797,4155,"CMPD","Qinghai","Qinghai 42",34.51,99.97,3730,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.363933562516699,1389.02885686044,0.265245320896153,-12.2564529342182,10.7689048669051,374.940684371674
6966,14798,4156,"CMPD","Qinghai","Qinghai 43",34.36,100.25,3765,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373938313254049,1377.69976608204,0.27617715414392,-12.1322828702973,10.6735954636323,385.032908762824
6966,14799,4157,"CMPD","Qinghai","Qinghai 44",34.55,99.57,4298,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.358472880721345,890.767511379236,-2.39336849030005,-14.4863754619215,8.10599181749675,358.87222956068
6966,14800,4158,"CMPD","Qinghai","Qinghai 45",34.58,99.45,4782,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.3679794552796,520.433288440705,-4.66978831312634,-16.2689056485147,5.68485451165048,355.652260656271
6966,14801,4159,"CMPD","Qinghai","Qinghai 46",34.56,99.33,4519,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.359098510311168,698.997101244959,-3.54202275851447,-15.4242814239961,6.91934117864861,353.309908218555
6966,14802,4160,"CMPD","Qinghai","Qinghai 47",34.72,99.08,4529,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.343544217318379,653.450742110943,-3.9241184489908,-15.864777343892,6.65066374105557,336.048777611792
6966,14803,4161,"CMPD","Qinghai","Qinghai 48",34.72,99.08,4529,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.343544217318379,653.450742110943,-3.9241184489908,-15.864777343892,6.65066374105557,336.048777611792
6966,14804,4162,"CMPD","Qinghai","Qinghai 49",34.72,99.08,4529,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.343544217318379,653.450742110943,-3.9241184489908,-15.864777343892,6.65066374105557,336.048777611792
6966,14805,4163,"CMPD","Qinghai","Qinghai 50",35.1,98.8,4350,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311905569006442,769.144163471862,-3.39886411480015,-15.7381701776147,7.49292067812348,309.121430348239
6966,14806,4164,"CMPD","Qinghai","Qinghai 51",35.04,98.64,4443,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311537027598008,670.880151719162,-4.02641948298034,-16.271645998889,6.84888435407261,304.96322645325
6966,14807,4165,"CMPD","Qinghai","Qinghai 52",34.96,98.55,4233,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.290309705396788,871.703077542057,-2.83623751822815,-15.2701239617993,8.18503995977239,293.431115370307
6966,14808,4166,"CMPD","Qinghai","Qinghai 53",34.9,98.2,4282,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.280669297460251,821.672223464993,-3.16043920076682,-15.5280895037815,7.8957335192367,283.074645270959
6966,14809,4167,"CMPD","Qinghai","Qinghai 54",35.05,97.7,4282,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263130504360663,838.641094282252,-3.10364273960791,-15.4724814241278,8.04860176698391,267.097014949398
6966,14810,4168,"CMPD","Qinghai","Qinghai 55",35.04,97.67,4314,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.265492276692111,802.225080464597,-3.31793649995448,-15.6468353314805,7.81215745352565,268.007226895984
6966,14811,4169,"CMPD","Qinghai","Qinghai 56",34.96,98.12,4256,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.27593083000552,852.685884498381,-2.98846108340513,-15.3914426258055,8.10274314746793,279.682587122818
6966,14812,4170,"CMPD","Qinghai","Qinghai 57",34.94,98.14,4263,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.2772343408313,844.285538974661,-3.03439535821571,-15.4273023189263,8.046896569546,280.638372537442
6966,14813,4171,"CMPD","Qinghai","Qinghai 58",34.78,98.12,4280,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.281426329065791,823.976735293454,-3.13491489730177,-15.4821588100478,7.9056489545138,284.230226339018
6966,14814,4172,"CMPD","Qinghai","Qinghai 59",35.51,99.51,4358,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311959117130183,761.01470940877,-3.45999476875842,-15.8582762204739,7.4543286337537,307.400507695799
6966,14815,4173,"CMPD","Qinghai","Qinghai 60",35.69,99.57,3752,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.291146659050426,1166.57099504401,-1.24334889183964,-14.1378164021367,9.89478542337575,294.472247829531
6966,14816,4174,"CMPD","Qinghai","Qinghai 61",35.83,99.9,3890,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294512826854904,1024.27549591435,-1.97465816144599,-14.744362744202,9.0865145004102,293.076026043708
6966,14817,4175,"CMPD","Qinghai","Qinghai 62",35.83,99.9,3890,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294512826854904,1024.27549591435,-1.97465816144599,-14.744362744202,9.0865145004102,293.076026043708
6966,14818,4176,"CMPD","Qinghai","Qinghai 63",35.96,100.17,3230,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.287538741527632,1565.47790242369,0.774544947960077,-12.4769341532896,11.9138837703105,294.429518698035
6966,14819,4177,"CMPD","Qinghai","Qinghai 64",36.08,100.03,2925,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278728844327981,1824.5014219552,1.93939013135235,-11.5637911261446,13.1626521660902,288.739326068134
6966,14820,4178,"CMPD","Qinghai","Qinghai 65",36.5,100.77,3105,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.298404251267736,1731.30550285547,1.65760890415881,-11.4318857524605,12.673283150216,305.506421440106
6966,14821,4179,"CMPD","Qinghai","Qinghai 66",36.74,99.59,3670,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.241709055694332,1046.25939546627,-2.06227846719447,-15.1331935339128,9.37815365315831,238.82907460705
6966,14822,4180,"CMPD","Qinghai","Qinghai 67",36.72,99.25,3065,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.229848165617441,1638.47550977664,0.941492552370318,-12.57892250304,12.5147784571734,238.916199714766
6966,14823,4181,"CMPD","Qinghai","Qinghai 68",36.78,98.96,3063,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.21611004250268,1803.89012318958,1.72622220515241,-11.7967359743485,13.3952268936242,231.771206271898
6966,14824,4182,"CMPD","Qinghai","Qinghai 69",36.5,100.77,3105,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.298404251267736,1731.30550285547,1.65760890415881,-11.4318857524605,12.673283150216,305.506421440106
6966,14825,4183,"CMPD","Qinghai","Qinghai 70",36.01,97.64,3099,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.170414603562046,2143.96516270589,3.13533112495046,-10.6893679259593,15.2599366005002,196.844169796305
6966,14826,4184,"CMPD","Qinghai","Qinghai 71",36.12,97.35,2900,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.159664227698815,2410.72704128665,4.23399651557853,-9.85135039997844,16.5017663198711,187.919037582739
6966,14827,4185,"CMPD","Qinghai","Qinghai 72",36.38,96.3,2865,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.137992893226446,2559.06501844089,4.70529300098018,-9.75951760862965,17.2566117568307,163.464899343401
6966,14828,4186,"CMPD","Qinghai","Qinghai 73",35.78,94.34,4075,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146423980239001,1063.08399436463,-2.10728979456582,-14.7441303169229,9.68127976443504,152.608850728694
6966,14829,4187,"CMPD","Qinghai","Qinghai 74",35.89,94.42,3680,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132050743644538,1471.02781746346,-0.0743509074710467,-13.293966172706,12.0382099019895,143.032360103967
6966,14830,4188,"CMPD","Qinghai","Qinghai 75",35.91,94.7,3460,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1266123889039,1735.65692717032,1.14379662606187,-12.4265570731084,13.4383656604312,140.409375751714
6966,14831,4189,"CMPD","Qinghai","Qinghai 76",36.07,94.68,3304,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.120847959974255,1920.29326710183,1.95434136919472,-11.8464377622221,14.3793562289225,135.743953172953
6966,14832,4190,"CMPD","Qinghai","Qinghai 77",36.64,95.2,3010,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110687226520178,2352.63686783321,3.73185094169422,-10.6834148982601,16.4976051389648,128.192121886248
6966,14833,4191,"CMPD","Qinghai","Qinghai 78",37.73,95.34,2997,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.097292664712598,2394.28933049519,3.79945609702833,-10.8847706618043,16.8228571585236,112.07195541317
6966,14834,4192,"CMPD","Qinghai","Qinghai 79",37.73,95.34,2997,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.097292664712598,2394.28933049519,3.79945609702833,-10.8847706618043,16.8228571585236,112.07195541317
6966,14835,4193,"CMPD","Qinghai","Qinghai 80",37.73,95.34,2997,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.097292664712598,2394.28933049519,3.79945609702833,-10.8847706618043,16.8228571585236,112.07195541317
6966,14836,4194,"CMPD","Qinghai","Qinghai 81",39.57,94.28,1860,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0437615615991105,3375.2359862042,7.06865249762844,-9.84799567138298,21.5771559629619,50.8568828596183
6966,14837,4195,"CMPD","Qinghai","Qinghai 82",40.28,95.35,1735,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0490602358200528,3278.53256935385,6.57414033513841,-10.4581929362718,21.2063358926335,55.8683366672302
6966,14838,4196,"CMPD","Qinghai","Qinghai 83",35.74,103.96,3700,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.55365706712112,1548.37618593769,1.92195968064042,-9.24534615167845,11.000432134423,542.875932843314
6966,14839,4197,"CMPD","Qinghai","Qinghai 84",35.76,103.95,3342,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.484912014459813,1711.01083428849,2.34439602534813,-9.30130686476329,12.042107684632,480.972907425621
6966,14840,4198,"CMPD","Qinghai","Qinghai 85",35.77,103.95,3195,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.472308572090673,1829.14062165632,2.7633548150205,-9.09374066892139,12.6861428890474,471.054827437649
6966,14841,4199,"CMPD","Qinghai","Qinghai 86",35.8,104.06,2391,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.409109554451462,2503.99783069826,5.09656467052066,-7.91879168585687,16.2451662011127,420.05878806577
6966,14842,4200,"CMPD","Qinghai","Qinghai 87",35.8,104.06,2391,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.409109554451462,2503.99783069826,5.09656467052066,-7.91879168585687,16.2451662011127,420.05878806577
6966,14843,4266,"CMPD","Qinghai","Qinghai S01",37.2946666666667,101.85095,2736,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249134055324727,1897.99948566471,2.14535207664821,-11.3014701403589,13.8995573160539,253.475159570642
6966,14844,4267,"CMPD","Qinghai","Qinghai S02",37.2307833333333,102.01445,2615.92,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268601358260808,2099.67323810495,3.08100779882257,-10.3834952895952,14.7831895473704,275.940365812438
6966,14845,4268,"CMPD","Qinghai","Qinghai S03",37.02335,102.37695,2435.04,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.279727586157833,2309.02675689978,3.95426969857307,-9.63329374181418,15.7638011071561,289.847994631703
6966,14846,4269,"CMPD","Qinghai","Qinghai S04",37.2935,101.85405,2798.32,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251633984099707,1835.77483306801,1.89891288535357,-11.4547114248766,13.5729698175101,255.133034130732
6966,14847,4270,"CMPD","Qinghai","Qinghai S05",37.1728,102.150133333333,2604.368,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271818169914308,2118.74819613834,3.17408187467379,-10.2752007954833,14.8603995042668,279.534663124764
6966,14848,4271,"CMPD","Qinghai","Qinghai S06",37.0264833333333,102.280966666667,2718.976,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.285936234085307,2013.73030043043,2.81781012119997,-10.3691730441768,14.2940483596318,292.356625786454
6966,14849,4272,"CMPD","Qinghai","Qinghai S07",37.0289833333333,102.248066666667,3101.712,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288053867758319,1615.61420689674,1.16477939092839,-11.5950159407604,12.2596543223181,288.998068003749
6966,14850,4273,"CMPD","Qinghai","Qinghai S08",37.2938333333333,101.852716666667,2779.776,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.250882192796763,1854.2651091448,1.97214827593684,-11.4092965518337,13.670095095654,254.633989768259
6966,14851,4274,"CMPD","Qinghai","Qinghai S09",37.0086166666667,102.177533333333,3458,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.294191792797384,1267.21878314988,-0.354098342095672,-12.680047768735,10.3741112796129,289.424349997842
6966,14852,4275,"CMPD","Qinghai","Qinghai S10",37.0069666666667,102.137316666667,3098.976,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.286840397448883,1618.65862380439,1.168727240516,-11.622811226162,12.2762280269297,287.98548203425503
6966,14853,4276,"CMPD","Qinghai","Qinghai S11",35.72715,94.16875,4345.072,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.157623939006768,789.189571384905,-3.62503380119909,-15.796178970261,7.9079376671202,158.659344480561
6966,14854,4277,"CMPD","Qinghai","Qinghai S12",35.7575666666667,94.33515,4062.352,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146013427869296,1075.07840636319,-2.04334155398637,-14.6973892037995,9.75448035428899,152.406668966513
6966,14855,4278,"CMPD","Qinghai","Qinghai S13",37.0062666666667,100.81145,3164.944,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.266770203841571,1521.55570693767,0.568067953281866,-12.5599035986934,11.8154310485148,267.819012999641
6966,14856,4279,"CMPD","Qinghai","Qinghai S14",37.2374166666667,99.8364,3232.736,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.250612820969438,1426.66262777331,0.018796472201299,-13.2839491336049,11.3520310638276,251.223884348518
6966,14857,4280,"CMPD","Qinghai","Qinghai S15",37.2739666666667,98.9854666666667,3431.856,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.202355467203741,1173.88839901862,-1.54459066950098,-14.8970243559941,10.2597816413662,202.030338205882
6966,14858,4281,"CMPD","Qinghai","Qinghai S16",37.19385,98.8852666666667,3695.424,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.20372667327713,957.978408305407,-2.75712127246649,-15.9253438087384,9.00911798657547,199.9534234639
6966,14859,4282,"CMPD","Qinghai","Qinghai S17",36.7537666666667,99.7389,3270.432,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.24838718667267,1411.33786634926,-0.0985935743329991,-13.429915882315001,11.295393562908,251.359435282447
6966,14860,4283,"CMPD","Qinghai","Qinghai S18",36.59685,100.271683333333,3201.424,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.281421475563678,1564.70011433032,0.797030551338689,-12.3963940474291,11.9243633494991,285.79401794442
6966,14861,4284,"CMPD","Qinghai","Qinghai S19",36.70385,99.55175,3556.8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.243950848358207,1156.71438560568,-1.44553087236552,-14.5932520383377,9.98639728718549,243.342263072714
6966,14862,4285,"CMPD","Qinghai","Qinghai S20",36.7194166666667,101.183116666667,2706.512,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.315739226220159,2299.71354174045,4.16677403893328,-9.04437638785823,15.1637610948852,331.550452392358
6966,14863,4286,"CMPD","Qinghai","Qinghai S21",37.2168,100.450966666667,3257.36,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.254762254274515,1374.54514093394,-0.205012117644103,-13.3729426886236,11.0948236423402,252.979567230351
6966,14864,4287,"CMPD","Qinghai","Qinghai S22",37.31535,101.868483333333,2677.328,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.246486775847421,1955.34599670016,2.36840223560967,-11.1663190379225,14.2025632995998,251.510804275543
6966,14865,4288,"CMPD","Qinghai","Qinghai S23",36.8533666666667,101.055733333333,2948.496,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.280153947771127,1832.64744386046,2.03038498192367,-11.2044624532019,13.2897970036273,286.93090467485
6966,14866,4289,"CMPD","Qinghai","Qinghai S24",37.1437833333333,99.59085,3247.632,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.242717658482656,1430.53000752822,-0.00130632076973338,-13.3423010712996,11.4051667220844,245.399059399158
6966,14867,4290,"CMPD","Qinghai","Qinghai S25",37.0479666666667,98.87725,3402.976,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.209942990863084,1344.58869600625,-0.565575680249322,-13.8921021646416,11.1475918782031,215.70582280728
6966,14868,4291,"CMPD","Qinghai","Qinghai S26",36.05535,98.1197833333333,3343.088,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.187604619743979,1748.45379439802,1.38906404249814,-12.1071024990228,13.3240611611902,208.469109202645
6966,14869,4292,"CMPD","Qinghai","Qinghai S27",36.4410166666667,98.2285833333333,3210.24,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.17770088972302,1833.93004168303,1.74440356055236,-11.8942678887869,13.7926156904845,197.506388514745
6966,14870,4293,"CMPD","Qinghai","Qinghai S28",36.65185,99.3695166666667,3185.616,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.245425478672586,1526.39416454726,0.453727507758251,-12.9468393445891,11.8946698781849,251.735903313376
6966,14871,4294,"CMPD","Qinghai","Qinghai S29",36.4763666666667,100.821583333333,3231.824,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.295090033963266,1569.60838116314,0.910972881326939,-12.0908299844092,11.9103027833298,299.245506097548
6966,14872,4295,"CMPD","Qinghai","Qinghai S30",37.1431833333333,99.5906333333333,3235.168,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.243318711642902,1447.0418027131,0.0835544266902206,-13.2647045287232,11.4853046042962,246.325406370362
6966,14873,4296,"CMPD","Qinghai","Qinghai S31",37.13645,97.5780666666667,2841.184,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.16727049805695,2472.65234154904,4.49468706096822,-9.63430100087839,16.7355299671571,194.558514339595
6966,14874,4297,"CMPD","Qinghai","Qinghai S32",36.9966166666667,98.1907,2969.472,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.175674279307603,2184.98772661961,3.314817366817,-10.5531456913113,15.4303296084966,199.587729612869
6966,14875,4298,"CMPD","Qinghai","Qinghai S33",37.2535166666667,97.49305,2870.368,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168520847082173,2448.62761711026,4.39630646276316,-9.71633614820635,16.6240342661551,195.448414053037
6966,14876,4299,"CMPD","Qinghai","Qinghai S34",37.4100333333333,96.4818833333333,3229.696,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.131003545457334,1940.75178636362,1.96590697039199,-12.2189068741266,14.5346802473723,146.133894410306
6966,14877,4300,"CMPD","Qinghai","Qinghai S35",37.4852,95.9623833333333,3341.872,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110149803125187,1836.11738398353,1.37577617227044,-12.8629880864488,14.1338826900141,121.932059001933
6966,14878,4301,"CMPD","Qinghai","Qinghai S36",37.5968333333333,95.5874,3290.8,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0971798856782443,1941.0379445836,1.8025483824587,-12.564956335663,14.7133283842025,108.44382464
6966,14879,4302,"CMPD","Qinghai","Qinghai S37",37.7824333333333,95.4047666666667,3321.808,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.08379199898515,1856.44009048661,1.31888443950288,-13.1161206802677,14.3850499207584,92.5669653417651
6966,14880,4303,"CMPD","Qinghai","Qinghai S38",38.0330333333333,95.01585,3202.336,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0727474357950999,2014.49833674378,1.99722061549062,-12.5902834716864,15.224067259258,81.0574169577019
6966,14881,4304,"CMPD","Qinghai","Qinghai S39",35.9120833333333,94.6867333333333,3450.096,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126160449279619,1746.12822732976,1.1904909449461,-12.3927150558201,13.4928271219982,140.014054261713
6966,14882,4305,"CMPD","Qinghai","Qinghai S40",38.0406833333333,94.87925,3134.24,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0724766319245893,2099.2944898857,2.38036533294734,-12.2640863799044,15.6319395762332,81.1913330015234
6966,14883,4306,"CMPD","Qinghai","Qinghai S41",37.9098833333333,95.2,3170.72,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0771085056261523,2071.94330411818,2.28227102333502,-12.3208916001071,15.471631000223,86.4585674921255
6966,14884,4307,"CMPD","Qinghai","Qinghai S42",35.9567833333333,94.8159166666667,3328.192,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126650417625892,1914.04283675155,1.93602317581033,-11.8662315464783,14.3283596638837,142.659041764537
6966,14885,4308,"CMPD","Qinghai","Qinghai S43",37.34105,97.2484,2931.168,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.159186968698542,2357.72369066195,3.9566368890176,-10.2241502043221,16.2858181051613,183.246488908274
6966,14886,4309,"CMPD","Qinghai","Qinghai S44",37.83915,95.3620333333333,3170.72,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0854140816447977,2081.9907462115402,2.36221224652566,-12.227566142856,15.4705672185697,96.0047942039763
6966,14887,4310,"CMPD","Qinghai","Qinghai S45",36.0507166666667,97.5336666666667,2937.856,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.162322729545851,2353.53218562789,4.01057577522672,-9.99849109272364,16.2387163110722,190.439206094066
6966,14888,4311,"CMPD","Qinghai","Qinghai S46",37.0743,97.74265,2900.464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168326183057997,2368.04308393381,4.06440676215228,-9.98406727730742,16.2792652694815,194.442255061859
6966,14889,4312,"CMPD","Qinghai","Qinghai S47",36.0162833333333,97.9387666666667,3088.032,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172929790910906,2073.69032988813,2.8444545243901,-10.9022713961917,14.9347153228356,198.021582725109
6966,14890,4313,"CMPD","Qinghai","Qinghai S48",36.4907666666667,98.6232333333333,3548.896,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.202995419307277,1329.10256037197,-0.670635678053568,-13.9432864617518,11.1136349329673,212.624653880556
6966,14891,4314,"CMPD","Qinghai","Qinghai S49",36.7668,98.9294,3080.128,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.21498214241537,1785.09926760525,1.63544202357927,-11.8778694289591,13.3143326673548,230.435295859907
6966,14892,4315,"CMPD","Qinghai","Qinghai S50",35.8821,94.4781333333333,3662.592,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.131972658740251,1493.61369881945,0.0327411841396345,-13.2186352922204,12.1602293441282,143.285356335137
6966,14893,4316,"CMPD","Qinghai","Qinghai S51",36.5112333333333,94.95705,2748.16,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.102413424661893,2672.00984933434,5.00367731307298,-9.74052467254141,17.9580792559308,121.003074811948
6966,14894,4317,"CMPD","Qinghai","Qinghai S52",36.3666166666667,95.0394666666667,2825.376,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.105869273481316,2573.24171604398,4.62387111773579,-10.003444841459,17.5011217761799,124.566166246991
6966,14895,4318,"CMPD","Qinghai","Qinghai S53",36.3551333333333,95.4471166666667,2867.024,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114898050236536,2566.80335174819,4.62924011904929,-9.97264598539764,17.41959766731,135.691656625262
6966,14896,4319,"CMPD","Qinghai","Qinghai S54",37.137,97.5794333333333,2844.224,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.167265893025645,2467.2263216597,4.4719517248387,-9.65433419631417,16.7123651162349,194.473584993444
6966,14897,4320,"CMPD","Qinghai","Qinghai S55",36.3584666666667,95.9679,2838.448,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126383299439359,2614.52012877547,4.87079139677143,-9.72547699308645,17.5603674448024,150.08572235058
6966,14898,4321,"CMPD","Qinghai","Qinghai S56",38.05605,94.7501333333333,3022.064,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.073026468677918,2240.78810751111,3.01163883239026,-11.722160783199,16.292907888018,82.5071743635762
6966,14899,4322,"CMPD","Qinghai","Qinghai S57",35.8750833333333,94.56815,3552.24,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.128868077634872,1621.26285207096,0.625535237784908,-12.7952964618494,12.8429259089183,141.527183994517
6966,14900,4323,"CMPD","Qinghai","Qinghai S58",36.1146,94.8143666666667,3161.904,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.120574149634584,2119.13983276302,2.80933805969205,-11.2372979823915,15.3376668220858,137.679248503771
6966,14901,4324,"CMPD","Qinghai","Qinghai S59",37.3615166666667,96.7674833333333,2875.232,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.154449297292575,2485.35362030106,4.46098694782701,-9.85825170284734,16.8617025571004,179.468171627447
6966,14902,4325,"CMPD","Qinghai","Qinghai S60",37.44055,96.25235,3734.336,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110554117450926,1213.62711399521,-1.78598749083144,-15.5785649766522,10.8432267580091,114.838525914795
6966,14903,4326,"CMPD","Qinghai","Qinghai S61",37.4818833333333,95.4340333333333,3170.416,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0991207162102538,2125.52836447976,2.64977787502446,-11.8216147987672,15.5756069090476,112.327510993677
6966,14904,4327,"CMPD","Qinghai","Qinghai S62",35.8930333333333,94.4214166666667,3739.504,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134166171506454,1407.36882433443,-0.377701390178662,-13.5116000847242,11.6871553459117,144.494097903279
6966,14905,4328,"CMPD","Qinghai","Qinghai S63",36.2509166666667,96.8637666666667,2787.68,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.149322946964253,2609.45554999722,4.98690458500532,-9.36668903460037,17.4100096997558,177.739350191298
6966,14906,4329,"CMPD","Qinghai","Qinghai S64",36.1240666666667,97.3178833333333,2869.76,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.158208732953132,2452.50826953362,4.40322604941055,-9.7200317585612,16.6911703690442,186.761287751362
6966,14907,4330,"CMPD","Qinghai","Qinghai_1",36.63,100.1,3250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271624573301517,1491.78678182556,0.388167856328561,-12.8814540532502,11.6019314017321,275.251281973467
6966,14908,4331,"CMPD","Qinghai","Qinghai_2",36.56,100.74,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.294611456096966,1834.61453478352,2.09360575428831,-11.1495151520145,13.1424937007203,303.260085169084
6966,14909,4332,"CMPD","Qinghai","Qinghai_3",36.59,100.46,3207,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.283924914266462,1563.90129318444,0.810317200611627,-12.3488235977084,11.911250448501,288.092145455916
6967,14910,4201,"CMPD","Qinghai Lake","Qinghai Lake 1",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14911,10144,"Herzschuh et al., 2019","Qinghai Lake","Qinghai Lake 1_2",36.67,100.52,3200,"not known","not known","not known","9.5","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.283740180410399,1569.90635960188,0.843631050909099,-12.3092892280942,11.940385133926,287.703977316515
6967,14912,4202,"CMPD","Qinghai Lake","Qinghai Lake 2",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14913,10145,"Herzschuh et al., 2019","Qinghai Lake","Qinghai Lake 2_2",36.67,100.52,3200,"not known","not known","not known","21.8","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.283740180410399,1569.90635960188,0.843631050909099,-12.3092892280942,11.940385133926,287.703977316515
6967,14914,4203,"CMPD","Qinghai Lake","Qinghai Lake 3",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14915,10146,"Herzschuh et al., 2019","Qinghai Lake","Qinghai Lake 3_2",36.67,100.52,3200,"not known","not known","not known","34.200000000000003","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.283740180410399,1569.90635960188,0.843631050909099,-12.3092892280942,11.940385133926,287.703977316515
6967,14916,4204,"CMPD","Qinghai Lake","Qinghai Lake 4",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14917,10147,"Herzschuh et al., 2019","Qinghai Lake","Qinghai Lake 4_2",36.67,100.52,3200,"not known","not known","not known","46.6","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.283740180410399,1569.90635960188,0.843631050909099,-12.3092892280942,11.940385133926,287.703977316515
6967,14918,4205,"CMPD","Qinghai Lake","Qinghai Lake 5",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14919,4206,"CMPD","Qinghai Lake","Qinghai Lake 6",36.32,99.36,3196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.249587493175903,1521.11580789898,0.432404573212857,-12.9486519889742,11.8600745654969,256.539550150155
6967,14920,4207,"CMPD","Qinghai Lake","Qinghai Lake 801",36.7666666666667,99.6333333333333,3218,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.24840397737885,1476.12144980948,0.224240221233011,-13.1430411844729,11.6200900814097,252.782401795875
6967,14921,4208,"CMPD","Qinghai Lake","Qinghai Lake 802",36.7766666666667,99.6233333333333,3243,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.247049426894528,1445.55087758172,0.0689464025273179,-13.2828272955469,11.4735290797281,250.866904107969
6967,14922,4209,"CMPD","Qinghai Lake","Qinghai Lake 803",36.7866666666667,99.6133333333333,3268,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245695736519856,1415.17714549642,-0.0870346029886659,-13.4233674019778,11.3263616029054,248.949990836999
6967,14923,4210,"CMPD","Qinghai Lake","Qinghai Lake 804",36.7966666666667,99.6033333333333,3293,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.244342709308418,1384.9106065974,-0.243710103443233,-13.5646700130042,11.1785810761334,247.031579932448
6967,14924,4211,"CMPD","Qinghai Lake","Qinghai Lake 805",36.8066666666667,99.5933333333333,3318,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.242990219220284,1354.79186776226,-0.401087318044628,-13.7067435390252,11.0301809942855,245.111589052735
6967,14925,4212,"CMPD","Qinghai Lake","Qinghai Lake 806",36.8166666666667,99.5833333333333,3343,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.241638125499872,1324.84189860179,-0.559173371061423,-13.8495962847955,10.8811549271786,243.189935644291
6967,14926,4213,"CMPD","Qinghai Lake","Qinghai Lake 807",36.8266666666667,99.5733333333333,3368,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.240286246306744,1295.01677480759,-0.717975285790791,-13.9932364426037,10.7314965248491,241.266537022062
6967,14927,4214,"CMPD","Qinghai Lake","Qinghai Lake 808",36.8366666666667,99.5633333333333,3393,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238934448858602,1265.36526543048,-0.877499978522597,-14.137672085442,10.581199522838,239.341310451278
6967,14928,4215,"CMPD","Qinghai Lake","Qinghai Lake 809",36.8466666666667,99.5533333333333,3418,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.237582568721156,1235.88858802998,-1.03775425250741,-14.2829111601767,10.4302577474764,237.414173230423
6967,14929,4216,"CMPD","Qinghai Lake","Qinghai Lake 810",36.8566666666667,99.5433333333333,3443,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.236230419582177,1206.5572619109,-1.19874479193676,-14.4289614807288,10.2786651211651,235.485042775254
6967,14930,4217,"CMPD","Qinghai Lake","Qinghai Lake 811",36.8666666666667,99.5333333333333,3468,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.234877846374511,1177.4032922839,-1.36047815594393,-14.5758307212737,10.1264156676414,233.553836703778
6967,14931,4218,"CMPD","Qinghai Lake","Qinghai Lake 812",36.8766666666667,99.5233333333333,3493,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.233524684846463,1148.45048660574,-1.5229607726338,-14.7235264094702,9.97350351722504,231.620472922036
6967,14932,4219,"CMPD","Qinghai Lake","Qinghai Lake 813",36.8866666666667,99.5133333333333,3518,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.232170731130129,1119.66207947323,-1.6861989331504,-14.8720559197272,9.81992291203638,229.684869710596
6967,14933,4220,"CMPD","Qinghai Lake","Qinghai Lake 814",36.8966666666667,99.5033333333333,3543,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.230815810837092,1091.05629507526,-1.85019878579081,-15.0214264665197,9.66566821117965,227.746945811603
6967,14934,4221,"CMPD","Qinghai Lake","Qinghai Lake 815",36.9066666666667,99.4933333333333,3568,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.229459756200478,1062.67605368355,-2.01496633017417,-15.1716450977619,9.51073389588289,225.80662051626
6967,14935,4222,"CMPD","Qinghai Lake","Qinghai Lake 816",36.9166666666667,99.4833333333333,3593,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.228102352805538,1034.49094761597,-2.18050741147472,-15.3227186882489,9.35511457458756,223.863813752613
6967,14936,4223,"CMPD","Qinghai Lake","Qinghai Lake B1",37.1336111111111,99.5128333333333,3250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.241263256929988,1430.45728190998,-0.00752698937946363,-13.3499239699408,11.4124632528177,244.175388278612
6967,14937,4224,"CMPD","Qinghai Lake","Qinghai Lake B2",37.3533333333333,98.9056666666667,3450,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.199821392623706,1147.92203236546,-1.70323619203052,-15.0555604219649,10.1277249452699,198.850314929493
6967,14938,4225,"CMPD","Qinghai Lake","Qinghai Lake B3",37.4781944444444,99.4135277777778,3496,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.206129126562061,970.686286908249,-2.68987495275352,-15.9843494577026,9.06842271603534,197.832653199129
6967,14939,4226,"CMPD","Qinghai Lake","Qinghai Lake B4",37.1356388888889,99.5174444444445,3246,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.241517857114547,1435.48930935141,0.0188074678046705,-13.3256870580456,11.4364980645217,244.511072045525
6967,14940,4227,"CMPD","Qinghai Lake","Qinghai Lake B5",37.0952777777778,99.7670277777778,3207,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.253460397196834,1466.83084848872,0.219334931086216,-13.1063289893407,11.5428553261212,255.274853692083
6967,14941,4228,"CMPD","Qinghai Lake","Qinghai Lake H1",36.7510833333333,99.6104166666667,3826,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.222407096518481,815.157286315817,-3.51030360869571,-16.4972098115564,8.05845801846713,214.095111522244
6967,14942,4229,"CMPD","Qinghai Lake","Qinghai Lake H2",36.7396666666667,99.6173333333333,3920,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.237019615551132,825.389039716101,-3.3840825204799,-16.2853784208905,8.0783688936387,229.689884245254
6967,14943,4230,"CMPD","Qinghai Lake","Qinghai Lake H3",36.7808611111111,99.6610277777778,3468,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238012846250652,1181.22751108844,-1.32855444242361,-14.5382468534706,10.1351593157527,236.757437436037
6967,14944,4231,"CMPD","Qinghai Lake","Qinghai Lake H4",36.7868333333333,99.6809444444444,3359,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.243033608390983,1305.45843341341,-0.654674872081967,-13.9319195665419,10.7745534966926,244.07601912943
6967,14945,4232,"CMPD","Qinghai Lake","Qinghai Lake H5",36.8921666666667,99.637,3218,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.247291462186426,1473.86878197402,0.215949566234611,-13.1487609390299,11.6096276800148,251.320679882687
6967,14946,4233,"CMPD","Qinghai Lake","Qinghai Lake Ha1",37.3293888888889,100.534666666667,4122,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.237237382269015,485.678368211231,-5.30335150420434,-17.6875298288797,5.70121780997514,216.313398748851
6967,14947,4234,"CMPD","Qinghai Lake","Qinghai Lake Ha2",37.76025,100.509111111111,3331,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.210257528228504,1076.10666695127,-2.00598662626179,-15.2828933134365,9.66714326246707,201.176208636079
6967,14948,4235,"CMPD","Qinghai Lake","Qinghai Lake Ha3",37.6266666666667,100.401583333333,3013,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.217249448058844,1418.07774252167,-0.252739783938683,-13.8146104200172,11.5297969632013,213.68474122491
6967,14949,4236,"CMPD","Qinghai Lake","Qinghai Lake Ha4",37.3211111111111,100.502972222222,3013,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.228085450072204,1487.63516627923,0.157266083339941,-13.3556696118706,11.8301912612235,226.812034565338
6967,14950,4237,"CMPD","Qinghai Lake","Qinghai Lake L01",36.596,100.589888888889,3170,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.286759502511198,1612.61066745613,1.05435813520938,-12.1062708145137,12.1349079724304,291.623139281186
6967,14951,4238,"CMPD","Qinghai Lake","Qinghai Lake L02",36.6549722222222,100.497111111111,3175.5,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.284600848318653,1600.86704725408,0.990001605201476,-12.1821785403819,12.0862893257211,289.189593262791
6967,14952,4239,"CMPD","Qinghai Lake","Qinghai Lake L03",36.7248611111111,100.360361111111,3169,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.282116380282424,1602.88397560442,0.987378997532952,-12.211125852402,12.1044870948024,286.709855954693
6967,14953,4240,"CMPD","Qinghai Lake","Qinghai Lake L04",36.7159444444444,100.306444444444,3169,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.281462828849043,1601.55061308918,0.976303129288089,-12.2313114820006,12.1005507609989,286.123160561681
6967,14954,4241,"CMPD","Qinghai Lake","Qinghai Lake L05",36.7737222222222,100.222916666667,3169,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.266573367288826,1552.07006417215,0.668855306429947,-12.6576581830408,11.9166151715985,270.483709392517
6967,14955,4242,"CMPD","Qinghai Lake","Qinghai Lake L06",36.6351944444444,100.607083333333,3171,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.286387241328975,1609.97356087487,1.04291301054991,-12.1137585312851,12.1234518589338,291.065761222165
6967,14956,4243,"CMPD","Qinghai Lake","Qinghai Lake L07",36.7836666666667,100.352527777778,3169.4,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.269166050488212,1543.85855545502,0.657251992207809,-12.5732162944963,11.8834472929053,272.127138680237
6967,14957,4244,"CMPD","Qinghai Lake","Qinghai Lake L08",36.8087777777778,100.137111111111,3169,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.264886266015144,1546.23844547938,0.635588913075403,-12.6957499252076,11.893906061088,268.646067770671
6967,14958,4245,"CMPD","Qinghai Lake","Qinghai Lake L09",37.1101944444444,99.8165555555556,3187.2,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.254881755097231,1494.11045626263,0.359637361925608,-12.9744190634306,11.671814700063,257.11773269918
6967,14959,4246,"CMPD","Qinghai Lake","Qinghai Lake L10",37.0369166666667,100.200611111111,3194,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",0.260110899582511,1502.94271414683,0.422528936705635,-12.8869893120343,11.6993098447499,262.420041152976
6967,14960,4247,"CMPD","Qinghai Lake","Qinghai Lake L11",36.9527777777778,99.8775833333333,3176.5,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.258697280949825,1517.76371108378,0.48064350287815,-12.8597188885665,11.7758434177302,261.732662370838
6967,14961,4248,"CMPD","Qinghai Lake","Qinghai Lake L12",36.8350833333333,100.00794444444401,3170,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.262680163645838,1537.32908312291,0.58474448528336,-12.7534724687932,11.8581507234912,266.286537595103
6967,14962,4249,"CMPD","Qinghai Lake","Qinghai Lake N1",36.5236944444444,100.641666666667,3377,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.281800765856362,1370.4215634746,-0.122027389502469,-13.1437500385752,10.9611883498301,282.461836318028
6967,14963,4250,"CMPD","Qinghai Lake","Qinghai Lake N2",36.53,100.644222222222,3280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.284801425351022,1483.73454442972,0.439838667139867,-12.6427959360453,11.5169467265526,287.51072780482
6967,14964,4251,"CMPD","Qinghai Lake","Qinghai Lake N3",36.5431388888889,100.718666666667,3209,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.287722779899125,1569.97073066781,0.863135740389645,-12.2517741901193,11.9267403081348,291.849433490481
6967,14965,4252,"CMPD","Qinghai Lake","Qinghai Lake N4",36.5074722222222,100.639916666667,3479,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278994818281524,1256.74801137091,-0.703109662821256,-13.6603464564858,10.3847666133862,277.578679368989
6967,14966,4253,"CMPD","Qinghai Lake","Qinghai Lake N5",36.5074722222222,100.639888888889,3480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278963223027335,1255.6339896672,-0.708901771003597,-13.6655097089054,10.3790400729784,277.525912683998
6967,14967,4254,"CMPD","Qinghai Lake","Qinghai Lake N6",36.5085555555556,100.631138888889,3632,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.274046704426143,1090.97554915199,-1.59074605769949,-14.4525983777782,9.50823121814048,269.404632468366
6967,14968,4255,"CMPD","Qinghai Lake","Qinghai Lake N7",36.5123888888889,100.637416666667,3598,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.275062681778183,1126.33942343696,-1.39690815636559,-14.2793140187134,9.69950253774551,271.100492007894
6967,14969,4256,"CMPD","Qinghai Lake","Qinghai Lake N8",36.4366388888889,101.084805555556,3486,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.292327433023585,1273.64846313389,-0.506016189750828,-13.3022130495636,10.4269460036586,290.638464341962
6967,14970,4257,"CMPD","Qinghai Lake","Qinghai Lake Q01",37.3333333333333,99.75,3250,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.218698282470943,1212.19333261117,-1.29094016664113,-14.7385520049895,10.3847683033427,213.933879692221
6967,14971,4258,"CMPD","Qinghai Lake","Qinghai Lake Q02",37.3433333333333,99.74,3275,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.216158582485808,1205.66816287982,-1.33116058758304,-14.7599324987051,10.3633976588229,211.974998540928
6967,14972,4259,"CMPD","Qinghai Lake","Qinghai Lake Q03",37.3533333333333,99.73,3300,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.215308352910791,1178.01688201514,-1.48214270252852,-14.8934611005741,10.2150299870422,210.630008763349
6967,14973,4260,"CMPD","Qinghai Lake","Qinghai Lake Q04",37.3633333333333,99.72,3325,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.214464898733146,1150.6214619961,-1.63300674504155,-15.0269383864288,10.0667931850236,209.294184566643
6967,14974,4261,"CMPD","Qinghai Lake","Qinghai Lake Q05",37.3733333333333,99.71,3350,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.213628110957803,1123.5552998821,-1.7837519137659,-15.160363603031,9.91868836854616,207.967385368088
6967,14975,4262,"CMPD","Qinghai Lake","Qinghai Lake Q1",38.0168333333333,100.069222222222,3419,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.194469043601466,955.951787724304,-2.85545223982401,-16.2640207432418,9.02540694783187,183.610559514989
6967,14976,4263,"CMPD","Qinghai Lake","Qinghai Lake Q2",38.1257222222222,100.191888888889,3490,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.197147042442714,885.647022793613,-3.22655468996352,-16.5266892078425,8.58412086720331,184.454605023195
6967,14977,4264,"CMPD","Qinghai Lake","Qinghai Lake Q3",38.1631111111111,100.004083333333,3596,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.196670397217596,786.294508816778,-3.83289318705964,-17.0468628406401,7.95573328428277,182.027499964116
6967,14978,4265,"CMPD","Qinghai Lake","Qinghai Lake Q4",38.1631111111111,100.004083333333,3338,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.189012434782908,1013.02156290403,-2.60079120285366,-16.1430879932997,9.39564607319744,178.935095949327
6968,14979,10148,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql01",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14980,10149,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql02",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14981,10150,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql03",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14982,10151,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql04",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14983,10152,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql05",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14984,10153,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql06",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14985,10154,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql07",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14986,10155,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql08",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14987,10156,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql09",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14988,10157,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql10",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6968,14989,10158,"Herzschuh et al., 2019","Qinghai ql","Qinghai ql11",34.025,107.355,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.649896926577759,2631.53007804618,6.0900505147335,-5.35536880429036,16.8996142891265,640.312843341293
6969,14990,4333,"CMPD","Qinghai-Tibet","Qinghai-Tibet 06",29.89,92.54,4180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.644001034508388,1816.64396260006,3.7629173388762,-5.38521714974833,11.7672958567505,772.002335775888
6969,14991,4334,"CMPD","Qinghai-Tibet","Qinghai-Tibet 07",30.15,101.86,3810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.666922897775209,2232.98654079793,5.46346502738038,-3.63085094921875,13.1701924564613,738.304041660824
6969,14992,4335,"CMPD","Qinghai-Tibet","Qinghai-Tibet 38",31.59,91.56,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.374614242672094,1136.02117508965,-0.981200767023381,-12.64921603403,9.39469797358287,413.7055244452
6969,14993,4336,"CMPD","Qinghai-Tibet","Qinghai-Tibet 42",30.25,97.27,4140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.548831575716121,1234.47984481122,1.12024460265444,-7.69069043943928,9.19224640243947,589.113404004491
6969,14994,4337,"CMPD","Qinghai-Tibet","Qinghai-Tibet 61",29.26,90.61,3710,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.612298389903221,2687.72649777878,6.9437889456301,-2.79859641409881,14.9430514649791,786.303233059373
6970,14995,4338,"CMPD","Qinglan","Qinglan",19.5,110.8,4,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40739795662786,8928.8577634209,24.4626240093723,18.0460053697208,28.9685732886095,1855.1493386072
6971,14996,4339,"CMPD","Qingmuguan","Qingmuguan HDS",29.738622,106.311419,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05664468217492,6227.09681236361,17.0605392119551,6.32026417737901,27.065612306083,1112.19031411156
6971,14997,4340,"CMPD","Qingmuguan","Qingmuguan HDT",29.738622,106.311419,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05664468217492,6227.09681236361,17.0605392119551,6.32026417737901,27.065612306083,1112.19031411156
6971,14998,4341,"CMPD","Qingmuguan","Qingmuguan Q-1S",29.7488599,106.312192,575,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05919761172342,6192.41205108437,16.9655124687243,6.22336482097932,26.9600016196174,1114.41853602212
6971,14999,4342,"CMPD","Qingmuguan","Qingmuguan Q-1T",29.7488599,106.312192,575,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05919761172342,6192.41205108437,16.9655124687243,6.22336482097932,26.9600016196174,1114.41853602212
6971,15000,4343,"CMPD","Qingmuguan","Qingmuguan Q-2S",29.7497,106.30955,516,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05346387452375,6273.04329326322,17.1864199815431,6.44719028344419,27.208016677266,1109.18630264197
6971,15001,4344,"CMPD","Qingmuguan","Qingmuguan Q-2T",29.7497,106.30955,516,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05346387452375,6273.04329326322,17.1864199815431,6.44719028344419,27.208016677266,1109.18630264197
6971,15002,4345,"CMPD","Qingmuguan","Qingmuguan Q-3S",29.74276,106.30852,523,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05404674372054,6263.84863104346,17.1612291261465,6.4221717425438,27.1788037393411,1109.77777692066
6971,15003,4346,"CMPD","Qingmuguan","Qingmuguan Q-3T",29.74276,106.30852,523,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05404674372054,6263.84863104346,17.1612291261465,6.4221717425438,27.1788037393411,1109.77777692066
6971,15004,4347,"CMPD","Qingmuguan","Qingmuguan Q-4S",29.73524,106.30912,550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05656751445368,6227.30244456752,17.0611025878562,6.32116939333549,27.0655245230786,1112.13949935427
6971,15005,4348,"CMPD","Qingmuguan","Qingmuguan Q-4T",29.73524,106.30912,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05656751445368,6227.30244456752,17.0611025878562,6.32116939333549,27.0655245230786,1112.13949935427
6971,15006,4349,"CMPD","Qingmuguan","Qingmuguan ST-1S",29.749977,106.31459,549,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0567347649536,6227.84766115464,17.0625963319305,6.32148450883074,27.0696366923496,1112.18444094194
6971,15007,4350,"CMPD","Qingmuguan","Qingmuguan ST-1T",29.749977,106.31459,549,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0567347649536,6227.84766115464,17.0625963319305,6.32148450883074,27.0696366923496,1112.18444094194
6971,15008,4351,"CMPD","Qingmuguan","Qingmuguan ST-2S",29.731365,106.309123,516,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05326017468756,6273.99021691054,17.1890142929056,6.45100320901868,27.2089377654026,1109.17535016343
6971,15009,4352,"CMPD","Qingmuguan","Qingmuguan ST-2T",29.731365,106.309123,516,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05326017468756,6273.99021691054,17.1890142929056,6.45100320901868,27.2089377654026,1109.17535016343
6971,15010,4353,"CMPD","Qingmuguan","Qingmuguan ZS-S",29.7277129643,106.3072353601,518,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0533824678702,6271.47527454683,17.1821240398543,6.44436104559667,27.2005055435459,1109.31172744645
6971,15011,4354,"CMPD","Qingmuguan","Qingmuguan ZS-T",29.7277129643,106.3072353601,518,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0533824678702,6271.47527454683,17.1821240398543,6.44436104559667,27.2005055435459,1109.31172744645
6972,15012,10159,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 01",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15013,10160,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 02",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15014,10161,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 03",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15015,10162,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 04",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15016,4355,"CMPD","Qingshuigou","Qingshuigou 05",27.5,102.4,3660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.670972626290989,2929.92316009205,8.02718673997823,0.54894185026169,14.148722155244,819.4576605768
6972,15017,10163,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 06",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15018,10164,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 07",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15019,10165,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 08",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15020,10166,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 09",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15021,10167,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 10",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15022,10168,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 11",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15023,10169,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 12",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15024,10170,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 13",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15025,10171,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 14",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15026,10172,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 15",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15027,10173,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 16",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15028,10174,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 17",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15029,10175,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 18",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15030,10176,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 19",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15031,10177,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 20",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15032,10178,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 21",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15033,4356,"CMPD","Qingshuigou","Qingshuigou 22",27.5,102.4,3660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.670972626290989,2929.92316009205,8.02718673997823,0.54894185026169,14.148722155244,819.4576605768
6972,15034,10179,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 23",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15035,10180,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 24",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6972,15036,10181,"Herzschuh et al., 2019","Qingshuigou","Qingshuigou 25",27.505,102.405,3660,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.670956137431191,2932.15237735883,8.03329418454475,0.557312374589765,14.1516666948583,819.581002016278
6973,15037,4357,"CMPD","Qinzhou Bay","Qinzhou Bay Q24-2",21.8696083333333,108.505980555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15038,4358,"CMPD","Qinzhou Bay","Qinzhou Bay Q24-3",21.8667111111111,108.509477777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15039,4359,"CMPD","Qinzhou Bay","Qinzhou Bay Q24-4",21.8811416666667,108.512383333333,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15040,4360,"CMPD","Qinzhou Bay","Qinzhou Bay Q24-5",21.8796944444444,108.514291666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15041,4361,"CMPD","Qinzhou Bay","Qinzhou Bay Q24-6",21.8610777777778,108.516941666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15042,4362,"CMPD","Qinzhou Bay","Qinzhou Bay Q32-1",21.8459833333333,108.591577777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15043,4363,"CMPD","Qinzhou Bay","Qinzhou Bay Q32-2",21.8455777777778,108.593058333333,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15044,4364,"CMPD","Qinzhou Bay","Qinzhou Bay Q32-3",21.8441444444444,108.599594444444,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15045,4365,"CMPD","Qinzhou Bay","Qinzhou Bay Q32-4",21.8427388888889,108.606505555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15046,4366,"CMPD","Qinzhou Bay","Qinzhou Bay Q37-1",21.8096444444444,108.505375,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15047,4367,"CMPD","Qinzhou Bay","Qinzhou Bay Q37-2",21.8094111111111,108.504938888889,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15048,4368,"CMPD","Qinzhou Bay","Qinzhou Bay Q37-3",21.8090194444444,108.504366666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6973,15049,4369,"CMPD","Qinzhou Bay","Qinzhou Bay Q37-4",21.8085361111111,108.503352777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
6974,15050,8982,"EMPDv2","Qorlortup","Schofield_a13",61.1938,-45.5546,154,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54179513457536,901.939031705466,0.202679223123994,-6.02926290432726,7.90180705375758,1083.32537650325
6974,15051,8983,"EMPDv2","Qorlortup","Schofield_a14",61.1938,-45.5543,149,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.53908173632865,906.182161001336,0.225390959623813,-6.0144304848467,7.92219668917411,1082.80255003566
6974,15052,8984,"EMPDv2","Qorlortup","Schofield_a15",61.1938,-45.5541,130,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52853980187743,922.334701101886,0.311673167905747,-5.95819343213632,7.9996898887103,1080.69931443623
6974,15053,8985,"EMPDv2","Qorlortup","Schofield_a16",61.193600000000004,-45.5543,131,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52907687420809,921.468093365968,0.30709865135611,-5.96118157343959,7.99555616781491,1080.80525222644
6974,15054,8986,"EMPDv2","Qorlortup","Schofield_a17",61.1934,-45.5542,146,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.53750438481679,908.711522501199,0.23895905288338,-6.00554724879907,7.93431788316877,1082.51632311909
6974,15055,8987,"EMPDv2","Qorlortup","Schofield_a18",61.1934,-45.5541,138,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.53306774727924,915.502840876792,0.275288265668116,-5.98186663457709,7.96694566935148,1081.63284866827
6974,15056,8988,"EMPDv2","Qorlortup","Schofield_a19",61.1931,-45.5539,130,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52872110780142,922.30298377059,0.311576208833676,-5.95817717273233,7.99948588729537,1080.79007893155
6974,15057,8989,"EMPDv2","Qorlortup","Schofield_a20",61.193,-45.5562,121,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52309946824863,930.046379925501,0.352375884541932,-5.93186058787478,8.03619173596569,1079.50546160041
6974,15058,8990,"EMPDv2","Qorlortup","Schofield_a21",61.1914,-45.5546,121,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52383162487944,929.966030636288,0.35217874187123,-5.93167173197235,8.03570921120485,1079.85578088838
6974,15059,8991,"EMPDv2","Qorlortup","Schofield_a22",61.1915,-45.5545,121,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52384128107649,929.969747115463,0.352195641270383,-5.93165683124277,8.03573693015483,1079.8587894951
6974,15060,8992,"EMPDv2","Qorlortup","Schofield_a23",61.1912,-45.5541,154,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54239511853102,901.825913492224,0.202323639749969,-6.0292297184698,7.90106628750612,1083.62954379738
6974,15061,8993,"EMPDv2","Qorlortup","Schofield_a24",61.1909,-45.5537,161,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.54647776298997,895.893888999701,0.170507277106752,-6.04988745100546,7.8724293844099,1084.4903015942
6974,15062,9011,"EMPDv2","Qorlortup","Schofield_a42",61.193,-45.5539,120,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52318136370682,930.890640008937,0.356969632199042,-5.92859498676167,8.04024264820228,1079.67982234906
6974,15063,9012,"EMPDv2","Qorlortup","Schofield_a43",61.192,-45.5514,123,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52572205557698,928.252585810332,0.343256576840923,-5.93715248456178,8.02768438802048,1080.42191110009
6974,15064,9013,"EMPDv2","Qorlortup","Schofield_a44",61.1919,-45.5515,123,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52571234220827,928.248887613122,0.343239752386112,-5.93716734991568,8.02765678478655,1080.41888372301
6974,15065,9014,"EMPDv2","Qorlortup","Schofield_a45",61.1918,-45.5514,123,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52575822047713,928.243830478445,0.343227287354701,-5.93715560220296,8.02762642007461,1080.44081869196
6974,15066,9015,"EMPDv2","Qorlortup","Schofield_a46",61.1919,-45.5513,123,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5257679358417,928.247527888179,0.343244108349095,-5.93714073849914,8.0276540189169,1080.44384670354
6974,15067,9022,"EMPDv2","Qorlortup","Schofield_a53",61.1937,-45.5111,119,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5345817365108,931.430694672356,0.362295539242422,-5.92004231946053,8.04360825320868,1084.91197160232
6974,15068,9023,"EMPDv2","Qorlortup","Schofield_a54",61.1937,-45.5505,126,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52733208510086,925.743264481383,0.329902806545617,-5.94588125676729,8.01592834667082,1080.70936935959
6974,15069,9024,"EMPDv2","Qorlortup","Schofield_a55",61.193600000000004,-45.55,125,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52693329672597,926.594695087341,0.334439842651448,-5.9428579345187,8.01997117962705,1080.66927842911
6974,15070,9025,"EMPDv2","Qorlortup","Schofield_a56",61.1933,-45.5508,111,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.51899648666443,938.615869986305,0.397949327781943,-5.90155228144123,8.07699767725913,1079.03071781328
6974,15071,9026,"EMPDv2","Qorlortup","Schofield_a57",61.1933,-45.551,118,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52282209449663,932.602809641544,0.36615961346807,-5.92228724403763,8.04844932562622,1079.78926760777
6974,15072,9027,"EMPDv2","Qorlortup","Schofield_a58",61.1934,-45.5512,121,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.5244136811547,930.030941491733,0.352547613883592,-5.93118730010555,8.03624493205601,1080.0906505019
6974,15073,9028,"EMPDv2","Qorlortup","Schofield_a59",61.1934,-45.551,113,"not applicable","terrestrial","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.52003099253466,936.903243747551,0.388878286906449,-5.90749389122728,8.06887213775402,1079.22009759732
6975,15074,14471,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","-48","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14472,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","-34","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14473,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","-20","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14474,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","-6","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14475,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","6","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14476,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","19","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6975,15074,14477,"Neotoma","Quag Pond","QUAG",42.56725,-71.95695,332,"not known","lake","core","44","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95. Parshall, T., and D.R. Foster. 2002. Fire on the New England landscape: regional and temporal variation, cultural and environmental controls. Journal of Biogeography 29(10-11):1305-1317.","10.1007/s100219900007;
10.1046/j.1365-2699.2002.00758.x",9,"cool mixed forest",1.33782592792446,3144.90439700002,7.0957933801976,-7.3128638656775,20.2272687762981,1098.60925380821
6976,15075,13366,"Neotoma","Quallen Lake [Terhell Pond]","TERHELL",47.19324,-95.786645,448,"not known","lake","core","3","McAndrews, J.H. 1967. Pollen analysis and vegetational history of the Itasca region, Minnesota. Pages 219-236 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary Paleoecology. Yale University Press, New Haven, Connecticut, USA.; McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.79793960763989,2954.30472816778,4.43090878227236,-14.8837387828219,20.4231922145611,642.925138158034
6976,15075,13367,"Neotoma","Quallen Lake [Terhell Pond]","TERHELL",47.19324,-95.786645,448,"not known","lake","core","36","McAndrews, J.H. 1967. Pollen analysis and vegetational history of the Itasca region, Minnesota. Pages 219-236 in E.J. Cushing and H.E. Wright, Jr., editors. Quaternary Paleoecology. Yale University Press, New Haven, Connecticut, USA.; McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.79793960763989,2954.30472816778,4.43090878227236,-14.8837387828219,20.4231922145611,642.925138158034
6977,15076,14796,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","-54","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14797,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","-39","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14798,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","-28","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14799,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","-18","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14800,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","-8","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14801,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","1","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14802,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","8","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14803,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","15","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14804,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","24","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14805,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","31","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14806,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","37","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14807,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","43","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6977,15076,14808,"Neotoma","Quamichan Lake","QUAMICH",48.799565,-123.66048,33,"not known","lake","core","47","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,8,"cool evergreen needleleaf forest",2.60910049509661,3678.67227909708,10.0785541893071,3.74394009687155,17.043895875447,1986.45838301006
6978,15077,13158,"Neotoma","Quarles Pond","QUARLES",37.995833,-79.072222,500,"not known","lake","core","0","Craig, A.J. 1969. Vegetational history of the Shenandoah Valley, Virginia. Geological Society of America Special Paper 123:283-296.",,13,"temperate deciduous broadleaf forest",1.07709636770864,4334.88528022998,11.835873184862299,-0.439816494317646,22.8956102690423,1076.78715157626
6979,15078,7088,"EMPDv2","Quart du Bois","EPDcoretop_E1984",46.89,4.03,420,"not known","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.966215812855035,3612.01196000266,9.89592317808947,1.67172530665625,18.5158518766856,829.613907579644
6980,15079,21990,"SMPDSv1","Quartzevoe","EPDcoretop_E537",43.666667,41.166667,2726,"0.002","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.28132305133056,925.375852265205,-3.41953519612928,-17.5905094660105,8.86880743151071,1053.77529216533
6981,15080,24288,"Neotoma","Quebrada del Amor","QUEBAMOR_0",-0.6013,-72.39808,381,"not known","terrestrial","core","-49","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15081,24289,"Neotoma","Quebrada del Amor","QUEBAMOR_1",-0.6013,-72.39808,381,"not known","terrestrial","core","-43","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15082,24299,"Neotoma","Quebrada del Amor","QUEBAMOR_11",-0.6013,-72.39808,381,"not known","terrestrial","core","16","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15083,24300,"Neotoma","Quebrada del Amor","QUEBAMOR_12",-0.6013,-72.39808,381,"not known","terrestrial","core","22","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15084,24301,"Neotoma","Quebrada del Amor","QUEBAMOR_13",-0.6013,-72.39808,381,"not known","terrestrial","core","28","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15085,24302,"Neotoma","Quebrada del Amor","QUEBAMOR_14",-0.6013,-72.39808,381,"not known","terrestrial","core","34","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15086,24303,"Neotoma","Quebrada del Amor","QUEBAMOR_15",-0.6013,-72.39808,381,"not known","terrestrial","core","40","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15087,24304,"Neotoma","Quebrada del Amor","QUEBAMOR_16",-0.6013,-72.39808,381,"not known","terrestrial","core","46","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15088,24290,"Neotoma","Quebrada del Amor","QUEBAMOR_2",-0.6013,-72.39808,381,"not known","terrestrial","core","-37","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15089,24291,"Neotoma","Quebrada del Amor","QUEBAMOR_3",-0.6013,-72.39808,381,"not known","terrestrial","core","-32","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15090,24292,"Neotoma","Quebrada del Amor","QUEBAMOR_4",-0.6013,-72.39808,381,"not known","terrestrial","core","-26","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15091,24293,"Neotoma","Quebrada del Amor","QUEBAMOR_5",-0.6013,-72.39808,381,"not known","terrestrial","core","-20","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15092,24294,"Neotoma","Quebrada del Amor","QUEBAMOR_6",-0.6013,-72.39808,381,"not known","terrestrial","core","-14","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15093,24295,"Neotoma","Quebrada del Amor","QUEBAMOR_7",-0.6013,-72.39808,381,"not known","terrestrial","core","-8","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15094,24296,"Neotoma","Quebrada del Amor","QUEBAMOR_8",-0.6013,-72.39808,381,"not known","terrestrial","core","-2","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15095,24297,"Neotoma","Quebrada del Amor","QUEBAMOR_9",-0.6013,-72.39808,381,"not known","terrestrial","core","4","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6981,15096,24298,"Neotoma","Quebrada del Amor","QUEBAMOR-10",-0.6013,-72.39808,381,"not known","terrestrial","core","10","Berrío, J.C., M.V. Arbeláez, J.F. Duivenvoorden, A.M. Cleef, and H. Hooghiemstra. 2003. Pollen representation and successional vegetation change on the sandstone plateau of Araracuara, Colombian Amazonia. Review of Palaeobotany and Palynology 126(3-4):163-181.","10.1016/S0034-6667(03)00083-6",1,"tropical evergreen broadleaf forest",2.17722032314022,9331.49674806961,25.5657445152592,24.332768455457,26.3643933700494,2928.81803214305
6982,15097,11191,"Bush et al., 2020","Quechulac","Quechulac",19.37,-97.35,2364,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.602083036334578,5666.54941960819,15.5247929304334,12.5609472330665,17.8634780389477,868.363714043799
6983,15098,1271,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs A",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","6","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15099,1272,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_1",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15100,1273,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_2",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15101,1274,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_3",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15102,1275,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_4",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15103,1276,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_5",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6983,15104,1277,"Australian pollen","Queen Victoria Springs","Queen Victoria Springs B_6",-30.3289,123.2672,376,"not applicable","terrestrial","midden sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.142227703066286,6864.04770945465,18.8056101628895,11.0807228325704,26.1258770311908,225.513248827874
6984,15105,13159,"Neotoma","Queens Lake","QUEENS",64.116667,-110.566667,480,"not known","lake","core","0","MacDonald, G.M., T.W.D. Edwards, K.A. Moser, R. Pienitz, and J.P. Smol. 1993. Rapid response of treeline vegetation and lakes to past climate warming. Nature 361:243-246.; Moser, K.A., and G.M. MacDonald. 1990. Holocene vegetation change at treeline north of Yellowknife, Northwest Territories, Canada. Quaternary Research 34:227-239.",,15,"cold evergreen needleleaf forest",0.667737036347469,974.642374176299,-9.87101105097382,-30.5951221754792,11.4286170924434,265.443401229159
6985,15106,15497,"Neotoma","Queets River","CJH076",47.75,-124.09,122,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.94955049728759,3491.98745619848,9.56708892109173,3.91276388297559,15.9209188751727,2221.69304851163
6986,15107,21991,"SMPDSv1","Queyras Park","Ortu_b54",44.695,6.969,2579,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.14180010273248,1021.8224879076,0.528133248282053,-6.50742323605256,8.75998144012684,1756.68263904754
6986,15108,21992,"SMPDSv1","Queyras Park","Ortu_b55",44.7,6.949,2380,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.99570846408816,1232.4004334048,1.60493975263753,-5.55210089762677,9.90036365864005,1680.21793238359
6986,15109,21993,"SMPDSv1","Queyras Park","Ortu_b56",44.709,6.928,2193,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.86539505455479,1443.63697472642,2.61579969470194,-4.65357820831028,10.9699619604803,1608.34274404192
6986,15110,21994,"SMPDSv1","Queyras Park","Ortu_b57",44.714,6.919,2107,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.80749620296523,1545.87777249732,3.08058799987795,-4.23993559080904,11.4615280664257,1575.23038739939
6987,15111,14732,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","7","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6987,15111,14733,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","15","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6987,15111,14734,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","23","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6987,15111,14735,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","29","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6987,15111,14736,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","37","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6987,15111,14737,"Neotoma","Quidi Vidi Lake","QV2",47.5812449999999,-52.68972,13,"not known","lake","core","43","Unpublished data",,9,"cool mixed forest",2.11573293079216,2247.6261545901302,5.22969603181984,-4.41895002896484,15.4658995180619,1387.81811658839
6988,15112,24332,"Neotoma","Quilichao-1","QUIL1_1",3.10116,-76.52225,970,"not known","terrestrial","core","-43","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrío, J.C., H. Hooghiemstra, R. Marchant, and O. Rangel. 2002. Late-glacial and Holocene history of the dry forest area in the south Colombian Cauca Valley. Journal of Queternary Science 17(7):667-682.",";
10.1002/jqs.701",4,"warm-temperate evergreen and mixed forest",2.18644297028386,8173.12250824477,22.3921164609446,21.9891284596334,22.7617749503995,2979.83585547598
6988,15113,24333,"Neotoma","Quilichao-1","QUIL1_5",3.10116,-76.52225,970,"not known","terrestrial","core","-28","Berrío Mogollón, J.C. 2002. Doctoral dissertation. Amsterdam, The Netherlands.;
Berrío, J.C., H. Hooghiemstra, R. Marchant, and O. Rangel. 2002. Late-glacial and Holocene history of the dry forest area in the south Colombian Cauca Valley. Journal of Queternary Science 17(7):667-682.",";
10.1002/jqs.701",4,"warm-temperate evergreen and mixed forest",2.18644297028386,8173.12250824477,22.3921164609446,21.9891284596334,22.7617749503995,2979.83585547598
6989,15114,15490,"Neotoma","Quinault Ridge","CJH069",47.58,-124.25,15,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.15230462947203,3548.05488755443,9.72069832206694,4.38374650726816,15.7143835884721,2343.07136248215
6990,15115,1278,"Australian pollen","Quincan Crater","Quincan Crater_a",-17.3,145.5833,790,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.624098912275736,7834.24320327351,21.4636800089685,16.5418410954307,24.9604164866087,1136.71387422148
6990,15116,1279,"Australian pollen","Quincan Crater","Quincan Crater_b",-17.3,145.5833,790,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.624098912275736,7834.24320327351,21.4636800089685,16.5418410954307,24.9604164866087,1136.71387422148
6990,15117,1280,"Australian pollen","Quincan Crater","Quincan Crater_c",-17.3,145.5833,790,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.624098912275736,7834.24320327351,21.4636800089685,16.5418410954307,24.9604164866087,1136.71387422148
6991,15118,21995,"SMPDSv1","Quintanar de la Sierra II","Barboni_a1303",42.033333,-3.016667,1470,"0.32","terrestrial, marsh","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.300717159775936,3354.20550944163,9.18960413545653,0.842313033420322,19.9272939357432,369.355717903304
6992,15119,16525,"Neotoma","Quisibis Lake","KG022",47.28,-67.98,160,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47208489174993,2386.22587184228,3.04668559115905,-13.3496116798996,17.914519275157,1045.19425443548
6993,15120,4370,"CMPD","Qujiang","Qujiang",24.6,113.65,137,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.44670850339585,7768.88976655473,21.2846294974102,12.3193094167443,28.4847079262812,1773.73183458577
6994,15121,17542,"Neotoma","R Lake","LFR68091",50.71265,-99.65325,715,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87. Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.652331619181543,2317.76275653615,1.11996408278822,-18.270798954869,17.3838211635169,487.514552312363
6994,15122,13201,"Neotoma","R Lake","RILEY",54.305556,-84.558333,147,"not known","lake","core","0","McAndrews, J.H., J.L. Riley, and A.M. Davis. 1982. Vegetation history of the Hudson Bay Lowland: a postglacial pollen diagram from the Sutton Ridge. Naturaliste Canadien 109:597-608.",,15,"cold evergreen needleleaf forest",1.08182922870867,1697.15543941845,-2.69745927781963,-23.6061278666948,15.3454088019069,595.409839020441
6995,15123,6673,"EMPDv2","R050","Binney2017_E3471",70.75,136.27,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.506224927188215,1082.34559128612,-16.2827111635406,-45.165179673807,12.9592851542097,166.712089214979
6996,15124,6674,"EMPDv2","R051","Binney2017_E3472",70.75,136.27,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.506224927188215,1082.34559128612,-16.2827111635406,-45.165179673807,12.9592851542097,166.712089214979
6997,15125,6675,"EMPDv2","R052","Binney2017_E3473",70.75,136.27,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.506224927188215,1082.34559128612,-16.2827111635406,-45.165179673807,12.9592851542097,166.712089214979
6998,15126,6676,"EMPDv2","R053","Binney2017_E3474",70.75,136.27,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.506224927188215,1082.34559128612,-16.2827111635406,-45.165179673807,12.9592851542097,166.712089214979
6999,15127,6677,"EMPDv2","R054","Binney2017_E3475",70.75,136.27,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.506224927188215,1082.34559128612,-16.2827111635406,-45.165179673807,12.9592851542097,166.712089214979
7000,15128,6678,"EMPDv2","R055","Binney2017_E3476",70.75,136.27,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.50537220159454,1082.87117421322,-16.2613474827646,-45.1187736374291,12.9607926629098,166.378261210992
7001,15129,6679,"EMPDv2","R056","Binney2017_E3477",70.97,136.53,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.507997527226103,1066.98821662611,-16.2112702719766,-44.8189124368489,12.7929735629394,165.936014613271
7002,15130,6680,"EMPDv2","R057","Binney2017_E3478",70.83,136.53,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.505952544448634,1076.49671722401,-16.2326753023942,-44.9708935436661,12.8917402417869,165.992408557357
7003,15131,6681,"EMPDv2","R058","Binney2017_E3479",71.15,136,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.512497312529985,1064.82103812808,-16.2701912751207,-44.9648683542615,12.7893332245205,167.288362473167
7004,15132,6682,"EMPDv2","R059","Binney2017_E3480",71.15,136,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.512497312529985,1064.82103812808,-16.2701912751207,-44.9648683542615,12.7893332245205,167.288362473167
7005,15133,6683,"EMPDv2","R060","Binney2017_E3481",71.15,136,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.512497312529985,1064.82103812808,-16.2701912751207,-44.9648683542615,12.7893332245205,167.288362473167
7006,15134,6684,"EMPDv2","R061","Binney2017_E3482",71.15,136,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.512497312529985,1064.82103812808,-16.2701912751207,-44.9648683542615,12.7893332245205,167.288362473167
7007,15135,6685,"EMPDv2","R062","Binney2017_E3483",70,135.75,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.513817319512646,1143.19631164808,-16.8180652635993,-47.1936178820574,13.6539477048432,175.900786149574
7008,15136,6686,"EMPDv2","R063","Binney2017_E3484",67.75,134.58,180,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.507263801890603,1272.78508419749,-15.9401894894264,-47.2949318009596,14.4731338242849,191.142770749049
7009,15137,6687,"EMPDv2","R064","Binney2017_E3485",67.75,134.58,180,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.507263801890603,1272.78508419749,-15.9401894894264,-47.2949318009596,14.4731338242849,191.142770749049
7010,15138,6688,"EMPDv2","R065","Binney2017_E3486",67.78,134.75,180,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.508324436623042,1256.75610750223,-16.0487359379847,-47.3202990829282,14.3618380190816,190.247285581604
7011,15139,6689,"EMPDv2","R066","Binney2017_E3487",67.78,134.92,190,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.512623616274334,1252.23266550925,-16.0590301820039,-47.305530975720004,14.3169052140695,191.607320785144
7012,15140,6690,"EMPDv2","R067","Binney2017_E3488",67.67,134.83,190,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.511748567877584,1255.75052005491,-16.0427919860242,-47.3363446278951,14.3316544188544,191.88117465449
7013,15141,6691,"EMPDv2","R068","Binney2017_E3489",67.5,134.83,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.514163966748366,1251.89635006021,-16.0629806832349,-47.3650543768762,14.2959305434715,193.236545200613
7014,15142,6692,"EMPDv2","R069","Binney2017_E3490",67.83,134.87,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.515520568085579,1244.4920385474,-16.117429708952,-47.3615465643893,14.258519702215,192.331099711083
7015,15143,6693,"EMPDv2","R070","Binney2017_E3491",67.58,135.58,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.521906657798455,1246.32962674969,-16.0343650003032,-47.1927216536868,14.2407442897566,194.739768630994
7016,15144,6694,"EMPDv2","R071","Binney2017_E3492",67.67,135.42,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.521045718739694,1245.61317687362,-16.0529120322592,-47.2287568302587,14.2386896158936,194.254751537697
7017,15145,6695,"EMPDv2","R072","Binney2017_E3493",67.92,135.58,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.52185552134562,1240.6698353621,-16.0861386387664,-47.218736734365,14.2153647176851,193.498036268505
7018,15146,6696,"EMPDv2","R074","Binney2017_E3494",67.33,134.75,220,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.518281021871144,1242.46220191452,-16.1364452021214,-47.4783119320438,14.2192678365933,195.295432393279
7019,15147,6697,"EMPDv2","R075","Binney2017_E3495",67.67,134.5,190,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.509422443944336,1259.97967473752,-16.0473743368573,-47.411581635363,14.3777629223956,191.749384881206
7020,15148,6698,"EMPDv2","R076","Binney2017_E3496",67.62,134.67,220,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.518771735872844,1242.7866049396,-16.151260232842,-47.5032207302518,14.2340069868325,194.893474831145
7021,15149,6699,"EMPDv2","R077","Binney2017_E3497",67.75,134.75,220,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.520012664535536,1242.24907525448,-16.1383134502341,-47.4562406647958,14.2230190411656,194.716562236115
7022,15150,6700,"EMPDv2","R078","Binney2017_E3498",67.75,135,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.516462801356917,1256.33731724011,-16.0135190400562,-47.2956910344943,14.3257885004128,193.53633726174
7023,15151,6701,"EMPDv2","R079","Binney2017_E3499",67.98,135.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.517211769257516,1241.18586733083,-16.130448303662,-47.338544968005,14.2335022751836,192.179343988705
7024,15152,6702,"EMPDv2","R080","Binney2017_E3500",67.5,134.83,220,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.520083432401527,1240.00053634912,-16.1424983460531,-47.4414139515845,14.2000299373112,195.162420794363
7025,15153,6703,"EMPDv2","R081","Binney2017_E3501",67.72,135.58,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.522217733995584,1244.76955523347,-16.0504666470031,-47.2052198290466,14.2320616802721,194.385255717463
7026,15154,6704,"EMPDv2","R082","Binney2017_E3502",67.92,135.42,220,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.526584461117442,1226.27825979261,-16.1984798227064,-47.337646654963,14.1029691193314,194.903580907772
7027,15155,6705,"EMPDv2","R083","Binney2017_E3503",66.5,136.5,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.545038059199729,1225.08762793183,-16.0644101218678,-47.1046968038527,14.0219862079913,205.047101561395
7028,15156,6706,"EMPDv2","R084","Binney2017_E3504",64,125,120,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631210451601367,1620.70253109595,-10.3916725250303,-39.3474234312852,17.084912682914702,284.507268726118
7029,15157,6707,"EMPDv2","R085","Binney2017_E3505",64,125,120,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631210451601367,1620.70253109595,-10.3916725250303,-39.3474234312852,17.084912682914702,284.507268726118
7030,15158,6708,"EMPDv2","R086","Binney2017_E3506",64,125,120,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631210451601367,1620.70253109595,-10.3916725250303,-39.3474234312852,17.084912682914702,284.507268726118
7031,15159,6709,"EMPDv2","R087","Binney2017_E3507",64,125,120,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631210451601367,1620.70253109595,-10.3916725250303,-39.3474234312852,17.084912682914702,284.507268726118
7032,15160,6710,"EMPDv2","R088","Binney2017_E3508",67.75,135,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.502090500198261,1290.83137529222,-15.7736194281458,-47.0706138725217,14.5971357935602,189.12279859730899
7033,15161,6711,"EMPDv2","R089","Binney2017_E3509",67.75,135,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.502090500198261,1290.83137529222,-15.7736194281458,-47.0706138725217,14.5971357935602,189.12279859730899
7034,15162,6712,"EMPDv2","R090","Binney2017_E3510",64.67,141.67,600,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.797859174743827,999.600413362336,-16.7756143460551,-46.2576103363006,11.7281334749275,283.127097897169
7035,15163,6713,"EMPDv2","R091","Binney2017_E3511",64.67,143.17,600,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.725490617163503,995.856233623575,-17.0476493094731,-46.5361363418073,11.7953202493145,257.915023122716
7036,15164,6714,"EMPDv2","R092","Binney2017_E3512",59.5,150.75,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.32142927061504,1318.40924699876,-3.27148256632468,-18.1482410275318,12.3453843337154,501.065810204258
7037,15165,6715,"EMPDv2","R093","Binney2017_E3513",59.92,150.75,300,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.31267284281259,1171.94073715594,-4.77915346856786,-20.2335842866034,11.3268373513424,483.703428871028
7038,15166,6716,"EMPDv2","R094","Binney2017_E3514",65.5,151,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.615724559857986,1248.94561538317,-12.1015521347098,-36.3326843971718,13.6735845530069,253.47373366224
7039,15167,6717,"EMPDv2","R095","Binney2017_E3515",69,161.33,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.570917470634705,827.576113815082,-12.691182887149,-31.7847985559918,10.080775889474,177.279268882359
7040,15168,6718,"EMPDv2","R097","Binney2017_E3516",60.17,151.33,500,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.29817895623568,998.220293775538,-6.88147851108126,-23.3641031440879,10.2294726405993,465.695064749914
7041,15169,6719,"EMPDv2","R098","Binney2017_E3517",59.5,150.75,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.32142927061504,1318.40924699876,-3.27148256632468,-18.1482410275318,12.3453843337154,501.065810204258
7042,15170,6720,"EMPDv2","R101","Binney2017_E3518",62.67,147.5,500,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.973377231314894,1026.41204272661,-10.0878931736387,-30.8381793567399,10.9858384884967,346.934146436491
7043,15171,6721,"EMPDv2","R102","Binney2017_E3519",60.17,151.33,1060,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.16235713098989,619.842501589661,-12.2981724297501,-31.3330027769285,7.68547365599912,394.832066318961
7044,15172,6722,"EMPDv2","R105","Binney2017_E3520",65.5,151,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.615724559857986,1248.94561538317,-12.1015521347098,-36.3326843971718,13.6735845530069,253.47373366224
7045,15173,6723,"EMPDv2","R107","Binney2017_E3521",64.67,141.67,400,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.767968895618582,1132.47129155637,-15.7241359886592,-45.2848508181669,12.7232234518917,276.951334306579
7046,15174,6724,"EMPDv2","R108","Binney2017_E3522",64.67,141.67,400,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.767968895618582,1132.47129155637,-15.7241359886592,-45.2848508181669,12.7232234518917,276.951334306579
7047,15175,6725,"EMPDv2","R109","Binney2017_E3523",59.5,150.75,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.31775220595424,1270.17405568947,-3.74348968171298,-18.7985565277501,12.0175617389872,496.661662125775
7048,15176,6726,"EMPDv2","R110","Binney2017_E3524",60,150.17,300,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26454091998866,1165.64555603509,-5.31028295076932,-21.4032875777087,11.2926243787671,466.685946933705
7049,15177,6727,"EMPDv2","R111","Binney2017_E3525",62.67,147.5,600,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.971544761444936,950.636671774316,-10.9953786375306,-32.0892797793958,10.4787249284529,343.780321117334
7050,15178,6728,"EMPDv2","R112","Binney2017_E3526",60,150.17,300,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26454091998866,1165.64555603509,-5.31028295076932,-21.4032875777087,11.2926243787671,466.685946933705
7051,15179,6729,"EMPDv2","R113","Binney2017_E3527",69,161.33,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.570917470634705,827.576113815082,-12.691182887149,-31.7847985559918,10.080775889474,177.279268882359
7052,15180,6730,"EMPDv2","R114","Binney2017_E3528",65.5,151,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.615724559857986,1248.94561538317,-12.1015521347098,-36.3326843971718,13.6735845530069,253.47373366224
7053,15181,6731,"EMPDv2","R115","Binney2017_E3529",64.75,141.75,500,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.782080167458675,1044.95394516112,-16.4675915771133,-46.0395956630182,12.0948382884183,278.437965230857
7054,15182,6732,"EMPDv2","R116","Binney2017_E3530",67.75,135,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.502090500198261,1290.83137529222,-15.7736194281458,-47.0706138725217,14.5971357935602,189.12279859730899
7055,15183,6733,"EMPDv2","R117","Binney2017_E3531",62.67,147.5,500,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.973377231314894,1026.41204272661,-10.0878931736387,-30.8381793567399,10.9858384884967,346.934146436491
7056,15184,6734,"EMPDv2","R118","Binney2017_E3532",62.67,147.5,400,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.97526978341908,1104.74034921919,-9.18040770974686,-29.587078934084,11.4929520485406,350.087971755647
7057,15185,6735,"EMPDv2","R119","Binney2017_E3533",69.5,173,70,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.694573173387157,681.477182861253,-12.6090162250235,-29.968461855897498,8.90729287683422,194.194555109541
7058,15186,6736,"EMPDv2","R120","Binney2017_E3534",69.5,173,70,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.694573173387157,681.477182861253,-12.6090162250235,-29.968461855897498,8.90729287683422,194.194555109541
7059,15187,6737,"EMPDv2","R122","Binney2017_E3535",69.75,173.33,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.686584677483557,659.026071426373,-12.5876139639912,-29.8573140830947,8.65897672856664,189.12869815162
7060,15188,6738,"EMPDv2","R123","Binney2017_E3536",66,180,100,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32305230166418,754.885782606466,-8.05283109238939,-22.5086995416613,8.99065476047098,409.612898874512
7061,15189,6739,"EMPDv2","R125","Binney2017_E3537",63.5,118.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.598622258188839,1600.4054590668,-9.07365712127951,-35.8081270172681,16.8346002804578,276.033567049107
7062,15190,6740,"EMPDv2","R126","Binney2017_E3538",62.25,117.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.591627440267504,1680.83595213736,-8.18594706091104,-34.3929512533287,17.1900029975278,282.15890769853
7063,15191,6741,"EMPDv2","R127","Binney2017_E3539",62.25,117.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.591627440267504,1680.83595213736,-8.18594706091104,-34.3929512533287,17.1900029975278,282.15890769853
7064,15192,6742,"EMPDv2","R128","Binney2017_E3540",63.5,128.75,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.656036379491488,1591.28193325332,-11.6514473845406,-42.2014782555384,16.746508626298102,285.02012144611
7065,15193,6743,"EMPDv2","R129","Binney2017_E3541",62.25,129.5,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.65981327155474,1740.87180100639,-10.0956873613345,-40.2321172116648,17.5972113345837,296.79284546584
7066,15194,6744,"EMPDv2","R130","Binney2017_E3542",62.25,129.5,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.65981327155474,1740.87180100639,-10.0956873613345,-40.2321172116648,17.5972113345837,296.79284546584
7067,15195,6745,"EMPDv2","R131","Binney2017_E3543",63.5,128.75,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.656036379491488,1591.28193325332,-11.6514473845406,-42.2014782555384,16.746508626298102,285.02012144611
7068,15196,6746,"EMPDv2","R132","Binney2017_E3544",62,129.33,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638262239059234,1753.22389276708,-10.2931236727367,-40.8184417566347,17.7108004106775,287.662328846345
7069,15197,6747,"EMPDv2","R133","Binney2017_E3545",62,129.33,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638262239059234,1753.22389276708,-10.2931236727367,-40.8184417566347,17.7108004106775,287.662328846345
7070,15198,6748,"EMPDv2","R134","Binney2017_E3546",62,129.33,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638262239059234,1753.22389276708,-10.2931236727367,-40.8184417566347,17.7108004106775,287.662328846345
7071,15199,6749,"EMPDv2","R135","Binney2017_E3547",63.5,128.75,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.656036379491488,1591.28193325332,-11.6514473845406,-42.2014782555384,16.746508626298102,285.02012144611
7072,15200,6750,"EMPDv2","R136","Binney2017_E3548",62.42,129.5,250,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.658259120778577,1719.69048374603,-10.3588701342649,-40.6117041719799,17.479954380248,294.633992135511
7073,15201,6751,"EMPDv2","R137","Binney2017_E3549",62,129.33,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638262239059234,1753.22389276708,-10.2931236727367,-40.8184417566347,17.7108004106775,287.662328846345
7074,15202,6752,"EMPDv2","R138","Binney2017_E3550",62,129.33,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638262239059234,1753.22389276708,-10.2931236727367,-40.8184417566347,17.7108004106775,287.662328846345
7075,15203,6753,"EMPDv2","R139","Binney2017_E3551",62,132.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639710351885093,1681.81111094647,-11.3731651590405,-42.9605575155617,17.1276508799711,287.078639656824
7076,15204,6754,"EMPDv2","R140","Binney2017_E3552",62,132.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639710351885093,1681.81111094647,-11.3731651590405,-42.9605575155617,17.1276508799711,287.078639656824
7077,15205,6755,"EMPDv2","R141","Binney2017_E3553",62,132.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639710351885093,1681.81111094647,-11.3731651590405,-42.9605575155617,17.1276508799711,287.078639656824
7078,15206,6756,"EMPDv2","R142","Binney2017_E3554",62,132.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639710351885093,1681.81111094647,-11.3731651590405,-42.9605575155617,17.1276508799711,287.078639656824
7079,15207,6757,"EMPDv2","R143","Binney2017_E3555",62,132.17,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639710351885093,1681.81111094647,-11.3731651590405,-42.9605575155617,17.1276508799711,287.078639656824
7080,15208,6758,"EMPDv2","R144","Binney2017_E3556",62.25,133.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631658817721034,1602.11230318807,-12.2544017119505,-44.077260547247,16.5496714623973,278.373646291368
7081,15209,6759,"EMPDv2","R145","Binney2017_E3557",62.25,133.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.631658817721034,1602.11230318807,-12.2544017119505,-44.077260547247,16.5496714623973,278.373646291368
7082,15210,6760,"EMPDv2","R146","Binney2017_E3558",63.33,129,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639166936642829,1652.45423534451,-11.288965258309,-41.9939553755948,17.147823575042,280.015429579323
7083,15211,6761,"EMPDv2","R147","Binney2017_E3559",63.33,129,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639166936642829,1652.45423534451,-11.288965258309,-41.9939553755948,17.147823575042,280.015429579323
7084,15212,6762,"EMPDv2","R148","Binney2017_E3560",63.33,129,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639166936642829,1652.45423534451,-11.288965258309,-41.9939553755948,17.147823575042,280.015429579323
7085,15213,6763,"EMPDv2","R149","Binney2017_E3561",63.33,129,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639166936642829,1652.45423534451,-11.288965258309,-41.9939553755948,17.147823575042,280.015429579323
7086,15214,6764,"EMPDv2","R150","Binney2017_E3562",63.33,129,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.639166936642829,1652.45423534451,-11.288965258309,-41.9939553755948,17.147823575042,280.015429579323
7087,15215,6765,"EMPDv2","R151","Binney2017_E3563",63,127.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.637676783971642,1702.37266927084,-10.3208241370291,-40.1364091853876,17.4711561731992,288.47805494281903
7088,15216,6766,"EMPDv2","R152","Binney2017_E3564",63,127.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.637676783971642,1702.37266927084,-10.3208241370291,-40.1364091853876,17.4711561731992,288.47805494281903
7089,15217,6767,"EMPDv2","R153","Binney2017_E3565",63,127.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.637676783971642,1702.37266927084,-10.3208241370291,-40.1364091853876,17.4711561731992,288.47805494281903
7090,15218,6768,"EMPDv2","R154","Binney2017_E3566",63,127.5,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.637676783971642,1702.37266927084,-10.3208241370291,-40.1364091853876,17.4711561731992,288.47805494281903
7091,15219,6769,"EMPDv2","R155","Binney2017_E3567",61.98,129.37,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638089670276075,1753.85241933279,-10.2915471364639,-40.8244925226003,17.7137802525102,287.661506506911
7092,15220,6770,"EMPDv2","R156","Binney2017_E3568",71.05,135.23,15,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.51826197501871,1095.72592287368,-16.4113761682708,-45.669500271725,13.1482538735205,171.590233695601
7093,15221,6771,"EMPDv2","R157","Binney2017_E3569",63.72,121.62,150,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.582367769715205,1648.66649038243,-9.52043702739084,-37.7672803440932,17.340573054364,270.209024365875
7094,15222,6772,"EMPDv2","R158","Binney2017_E3570",63.67,123.25,20,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.576129390804058,1620.26246628125,-10.4666406663959,-39.513533898802,17.3044189390854,263.033667351295
7095,15223,6773,"EMPDv2","R159","Binney2017_E3571",61.98,129.37,200,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.638089670276075,1753.85241933279,-10.2915471364639,-40.8244925226003,17.7137802525102,287.661506506911
7096,15224,6774,"EMPDv2","R160","Binney2017_E3572",61.3,129.55,260,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.677384206532758,1741.80958564276,-9.99030445462639,-40.0666078958603,17.5493613750772,308.326579641996
7097,15225,6775,"EMPDv2","R161","Binney2017_E3573",64.83,120.97,160,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.599766177123121,1583.87576426871,-9.95699340615333,-37.9933962528033,16.9724321640561,269.844478928301
7098,15226,6776,"EMPDv2","R162","Binney2017_E3574",63.67,123.25,120,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.602616102040418,1624.2219177663,-10.0650326169258,-38.6996456155081,17.191313779535,276.13139444808
7099,15227,6610,"EMPDv2","R42","Binney2017_E3372",71.17,-179.65,204,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.68789163880706,99.6939096574524,-13.4345724006042,-27.8309308832341,1.83797075022645,155.721868459181
7100,15228,6806,"EMPDv2","R43","Binney2017_E4282",71.17,-179,7,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.05158857999158,196.041191304711,-12.6020139554783,-27.5974453316931,3.05842377591457,227.534872754261
7101,15229,6611,"EMPDv2","R44","Binney2017_E3374",71.17,-179.75,197,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.708440206965016,102.954694761179,-13.4400153724986,-27.8882896502454,1.890074475048,159.782538766675
7102,15230,6612,"EMPDv2","R45","Binney2017_E3375",71.17,-179.42,169,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.756565190945037,114.303438230328,-13.3018573113177,-27.8043856555402,2.04042280650955,169.55486268877
7103,15231,6613,"EMPDv2","R46","Binney2017_E3376",71.17,-179.42,169,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.756565190945037,114.303438230328,-13.3018573113177,-27.8043856555402,2.04042280650955,169.55486268877
7104,15232,6614,"EMPDv2","R47","Binney2017_E3377",71.17,-179.42,169,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.756565190945037,114.303438230328,-13.3018573113177,-27.8043856555402,2.04042280650955,169.55486268877
7105,15233,6615,"EMPDv2","R48","Binney2017_E3378",71.17,-179.17,253,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.596663217960481,76.0643084158524,-13.5931006781447,-27.7727093808238,1.48213238860877,136.546506142967
7106,15234,6616,"EMPDv2","R50","Binney2017_E3380",71.2,-178.7,215,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.659525713564643,90.7160905514301,-13.4031323823908,-27.6601631810614,1.69186086578147,149.71434744397
7107,15235,6617,"EMPDv2","R51","Binney2017_E3381",67.75,-178.83,280,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.38368861468903,360.778876354513,-10.7584596093149,-24.9540919287918,5.0339129192763,381.576140998941
7108,15236,6618,"EMPDv2","R52","Binney2017_E3382",63.42,176.55,103,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19931878946435,945.912777991324,-7.07391700371982,-21.5155475778276,10.8174322351489,411.771222803858
7109,15237,6619,"EMPDv2","R53","Binney2017_E3383",63.17,176.75,121,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24080748536186,939.776061379435,-6.89818545647054,-21.1508811254609,10.7212143548995,428.127614541061
7110,15238,6620,"EMPDv2","R54","Binney2017_E3384",62.17,149.5,822,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01218328734873,789.085252950835,-12.5536722491802,-33.5985906257259,9.31316598012959,356.559618282607
7111,15239,6621,"EMPDv2","R55","Binney2017_E3385",62.17,149.5,870,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.03412311089172,747.406319340604,-12.7785745234389,-33.676659366349,8.95496194154282,360.358217919123
7112,15240,6622,"EMPDv2","R56","Binney2017_E3386",62.08,149,1040,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.08739527236666,609.039469417152,-13.8398165588875,-34.5973433476461,7.75271452966281,366.573210845659
7113,15241,6623,"EMPDv2","R57","Binney2017_E3387",62.1,149,1053,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.09046473265959,599.244453084168,-13.9341282772017,-34.6965826162646,7.66826089252964,366.672750819385
7114,15242,6624,"EMPDv2","R58","Binney2017_E3388",60.75,151.88,810,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17869179086868,799.380369907734,-10.4989926530056,-29.3081637334041,9.12554458925359,410.599093995794
7115,15243,6625,"EMPDv2","R59","Binney2017_E3389",59.85,150.62,115,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.31559548717102,1340.28583817271,-3.18249938246171,-18.133862948209,12.5063335410429,496.319569335664
7116,15244,6626,"EMPDv2","R60","Binney2017_E3390",59.55,151.83,95,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.39751712641658,1318.48614923413,-3.19904800454624,-18.1397061910594,12.1967557093881,528.999729774131
7117,15245,6627,"EMPDv2","R61","Binney2017_E3391",59.75,149.92,3,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.25181096589885,1445.4219674375,-2.80791432285119,-18.2477522020154,13.2072286494664,482.164520033894
7118,15246,6628,"EMPDv2","R62","Binney2017_E3392",62.17,149.5,820,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.01127867404489,790.831403822434,-12.5443013210861,-33.5953377615333,9.32809114840404,356.401343297752
7119,15247,6629,"EMPDv2","R63","Binney2017_E3393",62.17,149.5,870,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.03412311089172,747.406319340604,-12.7785745234389,-33.676659366349,8.95496194154282,360.358217919123
7120,15248,6630,"EMPDv2","R64","Binney2017_E3394",60.75,151.88,810,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17869179086868,799.380369907734,-10.4989926530056,-29.3081637334041,9.12554458925359,410.599093995794
7121,15249,6631,"EMPDv2","R65","Binney2017_E3395",60.75,151.88,810,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17869179086868,799.380369907734,-10.4989926530056,-29.3081637334041,9.12554458925359,410.599093995794
7122,15250,6632,"EMPDv2","R66","Binney2017_E3396",60.75,151.88,810,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17869179086868,799.380369907734,-10.4989926530056,-29.3081637334041,9.12554458925359,410.599093995794
7123,15251,6633,"EMPDv2","R67","Binney2017_E3397",60.12,151,400,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30777918194646,1079.69208656544,-5.8482148491063,-21.8010639018695,10.7055643592746,474.23482734683
7124,15252,6634,"EMPDv2","R68","Binney2017_E3398",60.32,151.15,850,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19026233288059,755.084674977972,-10.5125185186901,-28.8787105932052,8.70378843022247,413.053860358384
7125,15253,6635,"EMPDv2","R69","Binney2017_E3399",61.02,151.72,980,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.12719609661155,697.956543859493,-12.193071359068,-31.9323867786263,8.42439269935953,387.069716211001
7126,15254,6636,"EMPDv2","R70","Binney2017_E3400",61.17,152.08,870,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.13305178281882,780.073383823987,-11.4505967234598,-31.1673475619286,9.09384545206229,394.113411505086
7127,15255,6637,"EMPDv2","R71","Binney2017_E3401",61.12,152.27,810,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14370709943785,822.620080923004,-11.0450513416887,-30.7298948830175,9.43216819748504,401.426726117012
7128,15256,6638,"EMPDv2","R72","Binney2017_E3402",61.13,152.33,750,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14764778534853,862.392025427798,-10.6574665067604,-30.2846005683815,9.73513041579681,405.366109203251
7129,15257,6639,"EMPDv2","R73","Binney2017_E3403",63.38,147.65,969,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.888614045038223,689.485925961893,-15.2282695475535,-38.437517047651,8.73327326192024,307.750654993062
7130,15258,6640,"EMPDv2","R74","Binney2017_E3404",63.32,147.63,850,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.884319561303172,766.539127089347,-14.243499702164,-37.1342494788289,9.33814169511687,309.962376829328
7131,15259,6641,"EMPDv2","R75","Binney2017_E3405",64.18,148.2,850,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.819194221253348,728.94813269573,-15.4927166361643,-39.1343449767491,9.21916347158663,289.358818763092
7132,15260,6642,"EMPDv2","R76","Binney2017_E3406",64.3,144.93,700,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.718511854523863,934.989696652022,-16.0760095782184,-43.2164403308484,11.1687788993994,255.842685646308
7133,15261,6643,"EMPDv2","R77","Binney2017_E3407",64.3,144.9,700,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.718246450481816,934.454855177151,-16.0938151203461,-43.2516508198237,11.1663791321397,255.704091412544
7134,15262,6644,"EMPDv2","R78","Binney2017_E3408",64.5,143.78,550,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.678806985309376,1023.47321646455,-16.700508804605,-45.8165227177312,12.0354382143127,243.561077927099
7135,15263,6645,"EMPDv2","R79","Binney2017_E3409",64.75,141.12,800,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.858068001796683,864.981376133738,-17.8245109903388,-47.2646837427887,10.6919482898704,299.67827692312
7136,15264,6646,"EMPDv2","R80","Binney2017_E3410",64.22,145.16,800,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.774988258047242,916.372997506743,-15.6995123976947,-42.4180085605736,10.8534726323537,274.89388028897
7137,15265,6647,"EMPDv2","R81","Binney2017_E3411",67.5,172.08,490,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.936769291366006,626.368999045485,-13.1341964849991,-30.2260716503891,8.5135449273741,275.940003113093
7138,15266,6648,"EMPDv2","R82","Binney2017_E3412",67.5,172.08,490,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.936769291366006,626.368999045485,-13.1341964849991,-30.2260716503891,8.5135449273741,275.940003113093
7139,15267,6649,"EMPDv2","R83","Binney2017_E3413",67.5,172.08,490,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.936769291366006,626.368999045485,-13.1341964849991,-30.2260716503891,8.5135449273741,275.940003113093
7140,15268,13163,"Neotoma","Ra Lake","RALAKE",65.233333,-126.416667,330,"not known","lake","core","-32","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.705074625651215,1455.94924410669,-7.12777484733636,-28.194658393343,14.6653226121448,306.684836665774
7141,15269,24369,"Neotoma","Ra'irua marsh","RAIDA4_13",-23.868164,-147.678742,10,"not known","terrestrial, marsh","core","-23","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1073/pnas.1821732116",,"not applicable",,,,,,
7141,15270,24370,"Neotoma","Ra'irua marsh","RAIDA4_23",-23.868164,-147.678742,10,"not known","terrestrial, marsh","core","3","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1073/pnas.1821732116",,"not applicable",,,,,,
7141,15271,24368,"Neotoma","Ra'irua marsh","RAIDA4_3",-23.868164,-147.678742,10,"not known","terrestrial, marsh","core","-50","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1073/pnas.1821732116",,"not applicable",,,,,,
7141,15272,24371,"Neotoma","Ra'irua marsh","RAIDA4_33",-23.868164,-147.678742,10,"not known","terrestrial, marsh","core","30","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1073/pnas.1821732116",,"not applicable",,,,,,
7142,15273,24427,"Neotoma","Rabadilla de Vaca mire","RABAVACAM_0",-4.25658333333333,-79.1209166666667,3200,"not known","terrestrial, bog/fen/swamp","core","-55","Rodríguez, F., and H. Behling. 2011. Late Holocene vegetation, fire, climate and upper forest line dynamics in the Podocarpus National Park, southeastern Ecuador. Vegetation History and Archaeobotany 20:1-14.","10.1007/s00334-010-0252-4",4,"warm-temperate evergreen and mixed forest",0.457228995735877,4181.23198136181,11.4554300859228,11.0344530916957,11.8276062679114,598.33786039557
7142,15274,24429,"Neotoma","Rabadilla de Vaca mire","RABAVACAM_4",-4.25658333333333,-79.1209166666667,3200,"not known","terrestrial, bog/fen/swamp","core","23","Rodríguez, F., and H. Behling. 2011. Late Holocene vegetation, fire, climate and upper forest line dynamics in the Podocarpus National Park, southeastern Ecuador. Vegetation History and Archaeobotany 20:1-14.","10.1007/s00334-010-0252-4",4,"warm-temperate evergreen and mixed forest",0.457228995735877,4181.23198136181,11.4554300859228,11.0344530916957,11.8276062679114,598.33786039557
7142,15275,24428,"Neotoma","Rabadilla de Vaca mire","RABAVACAM)2",-4.25658333333333,-79.1209166666667,3200,"not known","terrestrial, bog/fen/swamp","core","-16","Rodríguez, F., and H. Behling. 2011. Late Holocene vegetation, fire, climate and upper forest line dynamics in the Podocarpus National Park, southeastern Ecuador. Vegetation History and Archaeobotany 20:1-14.","10.1007/s00334-010-0252-4",4,"warm-temperate evergreen and mixed forest",0.457228995735877,4181.23198136181,11.4554300859228,11.0344530916957,11.8276062679114,598.33786039557
7143,15276,1281,"Australian pollen","Radium Creek, RC1","RC1 in_1995",-30.2728333333333,139.358166666667,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.139461255520313,6861.17308367237,18.7977344758147,10.3014692481895,26.9686145849005,236.050683300167
7143,15277,1282,"Australian pollen","Radium Creek, RC1","RC1 in_1996",-30.2728333333333,139.358166666667,350,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.139461255520313,6861.17308367237,18.7977344758147,10.3014692481895,26.9686145849005,236.050683300167
7143,15278,1283,"Australian pollen","Radium Creek, RC1","RC1 out_1995",-30.2728333333333,139.358166666667,350,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.139461255520313,6861.17308367237,18.7977344758147,10.3014692481895,26.9686145849005,236.050683300167
7143,15279,1284,"Australian pollen","Radium Creek, RC1","RC1 out_1996",-30.2728333333333,139.358166666667,350,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.139461255520313,6861.17308367237,18.7977344758147,10.3014692481895,26.9686145849005,236.050683300167
7144,15280,1285,"Australian pollen","Radium Creek, RC2","RC2 in_1995",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7144,15281,1286,"Australian pollen","Radium Creek, RC2","RC2 in_1996",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7144,15282,1287,"Australian pollen","Radium Creek, RC2","RC2 out_1995",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7144,15283,1288,"Australian pollen","Radium Creek, RC2","RC2 out_1996",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7145,15284,1289,"Australian pollen","Radium Creek, RC3","RC3 in_1996",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7145,15285,1290,"Australian pollen","Radium Creek, RC3","RC3 out_1996",-30.2688333333333,139.358333333333,300,"not applicable","cave","surface sample","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.134135401051517,6977.50838559872,19.1164613304075,10.6107511252266,27.2754922545904,227.479437647546
7146,15286,13160,"Neotoma","Radtke Lake","RADTKE",43.4,-88.1,274,"not known","lake","core","-21","Webb, S.L. 1983. The Holocene extension of the range of American Beech (Fagus grandifolia) into Wisconsin: paleoecological evidence for long-distance seed dispersal. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.937108982851426,3361.10380767146,7.27169223125162,-9.1789549407208,21.703292637549,804.41014657687106
7146,15286,13161,"Neotoma","Radtke Lake","RADTKE",43.4,-88.1,274,"not known","lake","core","29","Webb, S.L. 1983. The Holocene extension of the range of American Beech (Fagus grandifolia) into Wisconsin: paleoecological evidence for long-distance seed dispersal. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.937108982851426,3361.10380767146,7.27169223125162,-9.1789549407208,21.703292637549,804.41014657687106
7147,15287,21996,"SMPDSv1","Raehdensee","Raehdensee_ss",52.07074,14.4465,88,"0.118","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.778415488247999,3300.54231894381,8.91506244368226,-1.15704900057331,18.1762603819796,561.416617779423
7148,15288,17357,"Neotoma","Raemisch Farm Pond","TW062",43,-90,338,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.889164328329134,3241.87605326874,6.51773982439963,-10.7507823512505,21.2834575509915,769.264297508828
7149,15289,21997,"SMPDSv1","Raggejav'ri","Bjune_a253",70.455,27.1833333333333,128,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.61428777545396,1212.16543374662,-1.60974313418155,-13.7663946435948,12.1616633954649,543.514794566128
7150,15290,21998,"SMPDSv1","Raigastvere Lake","EPDcoretop_E540",58.6,26.666667,52,"1.22","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01911864648751,2440.43070070525,4.92919422131984,-7.25069872462353,16.686238138674,613.307446924547
7151,15291,15085,"Neotoma","Rainbow Lake","RNBWC",44.93616,-109.500239999999,2963,"not known","lake","core","-43","Rust, R.A., and T.A. Minckley. 2020. Fire and hydrological mediated diversity change in sub-alpine forests through the Holocene. Journal of Vegetation Science in press.",,15,"cold evergreen needleleaf forest",0.593830162914894,1413.91890124221,0.483370385457179,-9.89957112932163,12.606836053566,500.441663134727
7152,15292,21999,"SMPDSv1","Rakes Brakes Bottom","Grant_a11",50.912481,-1.686209,72,"0.081","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.18206150362884,3585.58533183112,9.82352145707157,4.13528270888918,16.3053659493124,810.5696387176
7153,15293,22000,"SMPDSv1","Rakushechnyj-yar","Rakushechnyj-yar_SS",47.5383,40.6558,30,"0.01","terrestrial, soil","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.54207588917425,4027.87190402898,10.3756768892832,-4.0611023597999,23.597368093798,528.702488873808
7154,15294,13164,"Neotoma","Ramsay Lake","RAMSAYLK",45.6,-76.1,200,"not known","lake","core","-30","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.17482737739826,2838.27033040654,4.9469779753821,-11.7409966812507,19.5208571087047,933.630594783331
7154,15294,13165,"Neotoma","Ramsay Lake","RAMSAYLK",45.6,-76.1,200,"not known","lake","core","10","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.17482737739826,2838.27033040654,4.9469779753821,-11.7409966812507,19.5208571087047,933.630594783331
7154,15294,13166,"Neotoma","Ramsay Lake","RAMSAYLK",45.6,-76.1,200,"not known","lake","core","50","Mott, R.J. 1978. Populus in late-Pleistocene pollen spectra. Candian Journal of Botany 56:1021-1031.; Mott, R.J., and L.D. Farley-Gill. 1981. Two late Quaternary pollen profiles from Gatineau Park, Quebec. Geological Survey of Canada Paper 80-31.",,9,"cool mixed forest",1.17482737739826,2838.27033040654,4.9469779753821,-11.7409966812507,19.5208571087047,933.630594783331
7155,15295,22001,"SMPDSv1","Ramsjön","Seppa_b168",59.83,17.22,69,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.995476015842422,2227.72268031075,4.89146404945371,-4.8958923025117,15.3984164117558,575.711757355093
7156,15296,22002,"SMPDSv1","Ran Viken","EPDcoretop_E541",56.283333,14.3,813,"0.06","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44561195199349,1426.71487524661,0.600085834088113,-10.338913377606,11.6568964986066,808.215504867355
7157,15297,13167,"Neotoma","Ranger Lake","RANGER",67.147222,-153.65,820,"not known","lake","core","0","Brubaker, L.B., H.L. Garfinkel, and M.E. Edwards. 1983. A late Wisconsin and Holocene vegetation history from the central Brooks Range: implications for Alaskan palaeoecology. Quaternary Research 20:194-214.",,31,"tundra",0.662010912137669,744.936945246638,-10.1873212826554,-26.4181735082979,8.90979439191108,209.430378602038
7158,15298,16496,"Neotoma","Rankin Inlet","JTA307",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15299,16492,"Neotoma","Rankin Inlet","JTA308",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15300,16487,"Neotoma","Rankin Inlet","JTA309",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15301,16488,"Neotoma","Rankin Inlet","JTA310",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15302,16486,"Neotoma","Rankin Inlet","JTA311",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15303,16494,"Neotoma","Rankin Inlet","JTA312",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15304,16493,"Neotoma","Rankin Inlet","JTA313",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15305,16491,"Neotoma","Rankin Inlet","JTA314",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15306,16484,"Neotoma","Rankin Inlet","JTA315",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15307,16489,"Neotoma","Rankin Inlet","JTA316",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15308,16485,"Neotoma","Rankin Inlet","JTA317",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15309,16495,"Neotoma","Rankin Inlet","JTA318",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7158,15310,16490,"Neotoma","Rankin Inlet","JTA319",62.83,-91.83,90,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.790821230470609,649.283804632696,-12.3407236422458,-31.8927242325238,8.78647090515812,264.639616578431
7159,15311,22003,"SMPDSv1","Rankviktjern","Bjune_a59",61.67720907,11.7513539,553,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.34672896447782,1629.97331209627,1.5157562448732,-9.8774115024716,12.7600020559807,688.192015553344
7160,15312,11520,"Neotoma","Rannells Ranch Pond","FH-5",39.137365,-96.53011,398,"not known","artificial water body","surface sample","-58","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.746879961943876,4694.70524651319,12.4943640401333,-2.87308961077643,26.4486755796594,831.09684981731
7161,15313,1291,"Australian pollen","Rano Kao","Rano Kao_a",-27.1833,-109.4333,132,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",20,"xerophytic woods/scrub",,,,,,
7161,15314,1292,"Australian pollen","Rano Kao","Rano Kao_b",-27.1833,-109.4333,132,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",20,"xerophytic woods/scrub",,,,,,
7161,15315,1293,"Australian pollen","Rano Kao","Rano Kao_c",-27.1833,-109.4333,132,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",20,"xerophytic woods/scrub",,,,,,
7162,15316,13168,"Neotoma","Rapid Lake","RAPID",42.728889,-109.193889,3134,"not known","lake","core","0","Fall, P.L. 1988. Vegetation dynamics in the southern Rocky Mountains: late Pleistocene and Holocene timberline fluctuations. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Fall, P.L., P.T. Davis, and G.A. Zielinski. 1994. Late Quaternary vegetation and climate of the Wind River Range, Wyoming. Quaternary Research 43:393-404.; Zielinski, G.A., and P.T. Davis. 1987. Late Pleistocene age of the type Temple Lake Moraine, Wind River Range, Wyoming, U.S.A. Géographie physique et Quaternaire 41:397-401.",,17,"temperate evergreen needleleaf open woodland",0.545213426314773,1180.23133508421,-0.808343887670366,-11.0526701368928,11.2976239792753,468.903604610644
7163,15317,10641,"Neotoma","Ras El Ma   ","REM core",33.473611,-5.138611,1633,"not recorded","terrestrial, marsh","core top","-50","El Bait, M.N., Rhoujjati, A., Eynaud, F., Benkaddour, A., Dezileau, L., Wainer, K., Goslar, T., Khater, C., Tabel, J. and Cheddadi, R., 2014. An 18 000‐year pollen and sedimentary record from the cedar forests of the Middle Atlas, Morocco. Journal of Quaternary Science, 29(5), pp.423-432.","10.1002/jqs.2708",20,"xerophytic woods/scrub",0.339513206661383,5028.00174640199,13.7753472504164,5.2338921428074,24.5396826364786,482.411479671253
7164,15318,9667,"Gaillard et al., 1992","Rashult","Rashult A",56.713649,14.184913,152,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0327550074742,2580.35579050692,6.58392712440401,-2.45695352856734,15.8570810370898,665.226350552539
7164,15319,9668,"Gaillard et al., 1992","Rashult","Rashult B",56.713649,14.184913,152,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0327550074742,2580.35579050692,6.58392712440401,-2.45695352856734,15.8570810370898,665.226350552539
7164,15320,9669,"Gaillard et al., 1992","Rashult","Rashult C",56.713649,14.184913,152,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0327550074742,2580.35579050692,6.58392712440401,-2.45695352856734,15.8570810370898,665.226350552539
7165,15321,22004,"SMPDSv1","Rasletjernet","Bjune_a277",61.39,8.76333333333333,1461,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65632140930908,921.133939324325,-1.42338252308378,-11.2466021933525,8.52847627979061,795.786194023138
7166,15322,22005,"SMPDSv1","Rasna","EPDcoretop_E542",49.230556,15.370833,680,"0.12","terrestrial, blanket bog","peat core top","-9","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06560288796378,2771.27529748896,7.02734320896915,-3.376292684801,16.3638907866943,815.75956896209
7167,15323,22006,"SMPDSv1","Ratasjoen","Bjune_a265",62.2683333333333,9.83666666666666,1169,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.44531828413385,995.556299641262,-1.60248627641355,-12.6692219721384,9.20275012011092,657.58543143892
7168,15324,13169,"Neotoma","Rattle Lake","RATTLE",49.35,-92.7,460,"not known","lake","core","0","Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168. Björck, S. 1985. Deglaciation chronology and revegetation in northwestern Ontario. Canadian Journal of Earth Sciences 22:850-871.","10.1017/S0033822200005348",9,"cool mixed forest",1.00096368831141,2324.90595398815,1.36894092935511,-18.2253790808699,18.0715516256322,713.732323503995
7169,15325,14258,"Neotoma","Rattlesnake Cave","RATSNKCV",43.5580999999999,-112.6283,1596,"not known","cave","excavation","-29","Bright, R.C., and O.K. Davis. 1982. Quaternary paleoecology of the Idaho National Engineering Laboratory, Snake River Plain, Idaho. American Midland Naturalist 108(1):21-33. Davis, O.K., J.C. Sheppard, and S. Robertson. 1986. Contrasting climatic histories for the Snake River Plain, Idaho, resulting from multiple thermal maxima. Quaternary Research 26:321-339.","10.2307/2425288",17,"temperate evergreen needleleaf open woodland",0.340327070372441,2868.84671616334,6.74202824320205,-5.59678544543845,19.653310019701,336.9328266338
7170,15326,22007,"SMPDSv1","Raudtjern","Bjune_a290",60.345,11.3533333333333,260,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32238385409613,2116.63077507389,4.08238745974388,-6.74421320657514,14.9092506099596,756.744656735435
7171,15327,22008,"SMPDSv1","Rauvanlampi","Seppa_b45",62.87,28.92,111,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07726165422846,2096.65452765177,2.66345451067216,-11.3455927597964,16.5182427903329,565.733361338284
7172,15328,11352,"Neotoma","Raven Lake (Cole 1969)","HC007",49.28218,-91.27361,476,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,15,"cold evergreen needleleaf forest",1.03902594118044,2241.28649820176,1.19908272793423,-18.0476399063791,17.4427421911327,733.867615207212
7173,15329,11633,"Neotoma","Ray Ranch Pond","GPPS-2",41.03533,-102.445445,1144,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.411872769090321,3763.09210938246,9.66077811739366,-3.91484171910721,23.8091996003001,443.345917768869
7174,15330,13170,"Neotoma","Rayburn's Dome","RAYBURN",32.466667,-93.166667,61,"not known","not known","core","0","Kolb, C.R., and G.G. Fredlund. 1981. Palynological studies: Vacherie and Rayburn's Domes, north Louisiana salt dome basin. Top Report E530-02200-T-2, Institute for Environmental Studies, Louisiana State University, Baton Rouge, Louisiana, USA.",,4,"warm-temperate evergreen and mixed forest",1.02452636725448,6656.62975849667,18.2373418041005,6.95946346949885,27.9370005339122,1324.50006869709
7175,15331,16711,"Neotoma","Raylene's Bog","PWD7",41.283333,-70.016667,9,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40137420468468,3952.68605024739,10.5981142718656,-1.74939016907504,22.4009463858415,1274.28875971092
7176,15332,8244,"EMPDv2","Razdolnaya_2 (Razdolnaya river)","Mikishin-Gvozdeva_b75",43.6422222222222,131.925555555556,2,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.923973177229125,3180.37937571709,5.81118796540316,-12.4741809803201,21.4647094449909,724.884648819856
7177,15333,16718,"Neotoma","RB03A","RB03A",57.758333,-76.305,120,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.23010568121475,831.05350992712,-6.77707881002472,-24.9014669437985,8.9164508904761,488.123749902784
7178,15334,16719,"Neotoma","RB04B","RB04B",57.725,-76.11,120,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.24514049187604,860.856901409568,-6.56938766304592,-24.7019898820669,9.09847381343752,499.147810642197
7179,15335,16720,"Neotoma","RB06A","RB06A",57.735,-76.146667,135,"not known","lake","surface sample","Modern","Gajewski, K., 1991. Représentation pollinique actuelle à la limite des arbres au Nouveau-Québec. Canadian Journal of Earth Sciences, 28(4), pp.643-648.","10.1139/e91-055",15,"cold evergreen needleleaf forest",1.25926560396442,855.469629852974,-6.60556682694934,-24.7263146999549,9.06732742500484,504.475505233757
7180,15336,13171,"Neotoma","Rebel Lake","REBEL",67.416667,-149.8,914,"not known","lake","core","0","Ager, T.A., and L.B. Brubaker. 1985. Quaternary palynology and vegetational history of Alaska. Pages 353-384 in V.M. Bryant, Jr. and R.G. Holloway, editors. Pollen records of late Quaternary North American sediments. American Association of Stragigraphic Palynologists Foundation, Dallas, Texas, USA.; Edwards, M.E., P.M. Anderson, H.L. Garfinkel, and L.B. Brubaker. 1985. Late Wisconsin and Holocene vegetational history of the Upper Koyukuk region, Brooks Range, Alaska. Canadian Journal of Botany 63:616-626.",,31,"tundra",0.561010042987727,890.341391218083,-9.83306086999057,-27.3058993788865,10.2068507975412,187.644110400776
7181,15337,7766,"EMPDv2","Rebun Island","Leipe_b1",45.46,140.97,27,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63876089702343,2600.69556641061,5.08580143493213,-8.40460265769235,18.6181433479744,1089.49655622481
7181,15338,7775,"EMPDv2","Rebun Island","Leipe_b10",45.38,141.03,304,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63862510931425,2381.76025192603,3.90323127959667,-10.0025281426353,17.778696035858,1092.85039720312
7181,15339,7776,"EMPDv2","Rebun Island","Leipe_b11",45.4,140.99,193,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.6365713631856,2466.57848595764,4.37574635461169,-9.35851987444162,18.1117948002944,1090.5639224242
7181,15340,7777,"EMPDv2","Rebun Island","Leipe_b12",45.36,141,153,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63890704753276,2506.19564593912,4.59173421996635,-9.05350032487453,18.2667334748469,1093.28500787624
7181,15341,7767,"EMPDv2","Rebun Island","Leipe_b2",45.42,141.04,5,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63794900833605,2622.24503636576,5.20196072014703,-8.2302217330442,18.696554088729,1090.00811205439
7181,15342,7768,"EMPDv2","Rebun Island","Leipe_b3",45.45,141.04,53,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63715876638131,2576.9112938357,4.96441107663392,-8.56413929796446,18.5281223860206,1088.69474058569
7181,15343,7769,"EMPDv2","Rebun Island","Leipe_b4",45.42,141.05,67,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63685276400392,2568.29775924065,4.92215118377609,-8.61133207337971,18.4968449909583,1089.53843041826
7181,15344,7770,"EMPDv2","Rebun Island","Leipe_b5",45.41,141.05,61,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63699516693591,2574.73122588329,4.9564757175417,-8.56137248635739,18.5211230688518,1089.94135052833
7181,15345,7771,"EMPDv2","Rebun Island","Leipe_b6",45.34,141.04,29,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63664066827272,2610.55407470647,5.14915640382181,-8.27396806816428,18.6558936375836,1091.98369294391
7181,15346,7772,"EMPDv2","Rebun Island","Leipe_b7",45.43,141.03,8,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63823785747803,2618.92823880727,5.18363027488819,-8.25922637722355,18.6844495529748,1089.90321725229
7181,15347,7773,"EMPDv2","Rebun Island","Leipe_b8",45.43,141.01,17,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63820337195292,2611.64212542581,5.14588990723883,-8.31080826261296,18.6581641625902,1089.98549649348
7181,15348,7774,"EMPDv2","Rebun Island","Leipe_b9",45.39,141.05,125,"not known","not known","not known","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63711735912925,2523.74975944283,4.68751064049648,-8.92400999113869,18.3306599079483,1090.94831850437
7182,15349,8251,"EMPDv2","Rechitsa (Sukhodol river)","Mikishin-Gvozdeva_b82",43.2288888888889,132.381666666667,1,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.932764919695531,3175.02964725928,5.93574178087067,-11.9873520936436,21.4518242554461,736.956235415968
7183,15350,22009,"SMPDSv1","Recogne","Barboni_a355",49.9,5.4,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44883280656128,3006.0203422134,8.19241414757524,-0.494352681853936,16.7272536397272,1098.11399999362
7183,15351,22010,"SMPDSv1","Recogne","Barboni_a356",49.9,5.4,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44883280656128,3006.0203422134,8.19241414757524,-0.494352681853936,16.7272536397272,1098.11399999362
7183,15352,22011,"SMPDSv1","Recogne","Barboni_a357",49.9,5.4,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44883280656128,3006.0203422134,8.19241414757524,-0.494352681853936,16.7272536397272,1098.11399999362
7183,15353,22012,"SMPDSv1","Recogne","Barboni_a358",49.9,5.4,550,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44883280656128,3006.0203422134,8.19241414757524,-0.494352681853936,16.7272536397272,1098.11399999362
7184,15354,13744,"Neotoma","Red Deer Lake","REDDEER",52.7231944444444,-113.061666666666,775,"not known","lake","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.613199684026492,2353.10251427721,2.6757802725533,-13.715498581059,16.5628851581225,447.850148391539
7184,15354,13745,"Neotoma","Red Deer Lake","REDDEER",52.7231944444444,-113.061666666666,775,"not known","lake","core","-5","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.613199684026492,2353.10251427721,2.6757802725533,-13.715498581059,16.5628851581225,447.850148391539
7184,15354,13746,"Neotoma","Red Deer Lake","REDDEER",52.7231944444444,-113.061666666666,775,"not known","lake","core","13","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.613199684026492,2353.10251427721,2.6757802725533,-13.715498581059,16.5628851581225,447.850148391539
7184,15354,13747,"Neotoma","Red Deer Lake","REDDEER",52.7231944444444,-113.061666666666,775,"not known","lake","core","32","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",15,"cold evergreen needleleaf forest",0.613199684026492,2353.10251427721,2.6757802725533,-13.715498581059,16.5628851581225,447.850148391539
7185,15355,14223,"Neotoma","Red Green Lake","REDGREEN",68.65421,-149.681235,668,"not known","lake","core","-47","Oswald, W.W., L.B. Brubaker, F.S. Hu, and G.W. Kling. 2003. Holocene pollen records from the central Arctic Foothills, northern Alaska: testing the role of substrate in the response of tundra to climate change. Journal of Ecology 91:1034-1048.",,31,"tundra",0.482249647058527,886.463402079015,-10.0960066156991,-27.655763758225,10.2113779634072,156.368658010503
7186,15356,16776,"Neotoma","Red Lake","RJM038",51.066805,-94.01576,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.878532699260266,2407.41667760976,1.19577440078067,-19.4929356952934,18.7032237177025,624.653364605614
7187,15357,16775,"Neotoma","Red Lake East Bay","RJM037",51.1636649999999,-93.697995,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.896345407547592,2380.29776281364,1.05043624293354,-19.6426171763185,18.6017133834738,632.106913581415
7188,15358,16781,"Neotoma","Red Lake, Pipestone Bay","RJM043",51.068485,-94.217505,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.874088975711082,2411.96881619497,1.21473738340517,-19.4808854921648,18.7216919596803,622.24915409223
7189,15359,16967,"Neotoma","Red Pond","RWS022",44.25,-71.35,1350,"not known","lake","surface sample","Modern","Spear, R.W., 1981. The history of high-elevation vegetation in the White Mountains of New Hampshire. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",2.39985308324435,1259.38765752864,-3.03183941273737,-19.2526050296487,11.1803004100912,1461.60137894044
7190,15360,17548,"Neotoma","Red Shed Lake","MTJBRS",46.9893299999999,-110.08441,1372,"not known","lake","surface sample","Modern","Unpublished data",,22,"steppe",0.459992436767992,2798.1963155994,5.88938353633759,-8.04823489482515,19.7316045127869,406.421441704524
7191,15361,1294,"Australian pollen","Redhead Lagoon","Redhead Lagoon 1",-32.99,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874506831352492,6331.70386205955,17.3471338686563,11.3509274681894,22.4570876545763,1133.51330028145
7191,15362,1295,"Australian pollen","Redhead Lagoon","Redhead Lagoon 10",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15363,1296,"Australian pollen","Redhead Lagoon","Redhead Lagoon 11",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15364,1297,"Australian pollen","Redhead Lagoon","Redhead Lagoon 12",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15365,1298,"Australian pollen","Redhead Lagoon","Redhead Lagoon 2",-32.99,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874506831352492,6331.70386205955,17.3471338686563,11.3509274681894,22.4570876545763,1133.51330028145
7191,15366,1299,"Australian pollen","Redhead Lagoon","Redhead Lagoon 3",-32.99,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874506831352492,6331.70386205955,17.3471338686563,11.3509274681894,22.4570876545763,1133.51330028145
7191,15367,1300,"Australian pollen","Redhead Lagoon","Redhead Lagoon 4",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15368,1301,"Australian pollen","Redhead Lagoon","Redhead Lagoon 5",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15369,1302,"Australian pollen","Redhead Lagoon","Redhead Lagoon 6",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15370,1303,"Australian pollen","Redhead Lagoon","Redhead Lagoon 7",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15371,1304,"Australian pollen","Redhead Lagoon","Redhead Lagoon 8",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15372,1305,"Australian pollen","Redhead Lagoon","Redhead Lagoon 9",-33,151.72,66,"small (0.01-1 km2)","lake","surface sample","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874584398887673,6331.36327845664,17.3462007628949,11.3497514199788,22.4563344255832,1133.41694482016
7191,15373,1306,"Australian pollen","Redhead Lagoon","Redhead Lagoon core F4c_30",-32.99,151.72,66,"small (0.01-1 km2)","lake","core","-19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874506831352492,6331.70386205955,17.3471338686563,11.3509274681894,22.4570876545763,1133.51330028145
7191,15374,1307,"Australian pollen","Redhead Lagoon","Redhead Lagoon core F4c_38",-32.99,151.72,66,"small (0.01-1 km2)","lake","core","28","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.874506831352492,6331.70386205955,17.3471338686563,11.3509274681894,22.4570876545763,1133.51330028145
7192,15375,13172,"Neotoma","Redondo Lake","REDONDO",67.683333,-155.033333,460,"not known","lake","core","2","Brubaker, L.B., H.L. Garfinkel, and M.E. Edwards. 1983. A late Wisconsin and Holocene vegetation history from the central Brooks Range: implications for Alaskan palaeoecology. Quaternary Research 20:194-214.",,31,"tundra",0.69218870199438,876.188359189286,-8.87880177157087,-25.1788561377965,9.85669930631628,222.603112620921
7193,15376,13173,"Neotoma","Redrock Lake","REDROCK",40.083333,-105.541667,3095,"not known","lake","core","20","Maher, L.J., Jr. 1973. Pollen evidence suggests that climate changes in the Colorado Rockies during the last 5000 years were out of phase with those in the northeastern United States. Pages 227-228 in Abstracts of the IXth INQUA Congress Meetings, 2-10 December 1973, Christchurch, New Zealand.; Maher, L.J. 1972. Absolute pollen diagram of Redrock Lake, Boulder County, Colorado. Quaternary Research 2:531-553.",,17,"temperate evergreen needleleaf open woodland",0.487299603337741,1310.38430012259,-0.152928173726791,-11.1332170244958,11.5293974736563,457.103839354122
7194,15377,13174,"Neotoma","Redstone Lake","REDSTONE",67.25,-152.6,914,"not known","lake","core","0","Edwards, M.E., P.M. Anderson, H.L. Garfinkel, and L.B. Brubaker. 1985. Late Wisconsin and Holocene vegetational history of the Upper Koyukuk region, Brooks Range, Alaska. Canadian Journal of Botany 63:616-626.",,31,"tundra",0.636224155303157,715.289536185279,-10.7730640776809,-27.176376023555,8.73340178794648,199.375740069324
7195,15378,7139,"EMPDv2","Reenadinna Wood","EPDcoretop_E2151",52.04,-9.59,20,"0.25","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.72643860902012,3683.58095925535,10.0920026280968,5.72070334388818,15.2575436052025,1105.80532177385
7195,15379,22013,"SMPDSv1","Reenadinna Wood","Mitchell_a14",52.0208333333333,-9.52083333333333,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.73897414184229,3666.57837362623,10.0454202017157,5.68306477150584,15.2153741504935,1113.8638967407
7195,15380,22014,"SMPDSv1","Reenadinna Wood","Mitchell_a15",52.0208333333333,-9.52083333333333,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.73897414184229,3666.57837362623,10.0454202017157,5.68306477150584,15.2153741504935,1113.8638967407
7195,15381,22015,"SMPDSv1","Reenadinna Wood","Mitchell_a28",52.0208333333333,-9.52083333333333,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.73897414184229,3666.57837362623,10.0454202017157,5.68306477150584,15.2153741504935,1113.8638967407
7195,15382,22016,"SMPDSv1","Reenadinna Wood","Mitchell_a29",52.0208333333333,-9.52083333333333,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.73897414184229,3666.57837362623,10.0454202017157,5.68306477150584,15.2153741504935,1113.8638967407
7195,15383,22017,"SMPDSv1","Reenadinna Wood","Mitchell_a30",52.0208333333333,-9.52083333333333,30,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.73897414184229,3666.57837362623,10.0454202017157,5.68306477150584,15.2153741504935,1113.8638967407
7196,15384,22018,"SMPDSv1","Reeti","CH/WVDK/G13",46.661206,8.020061,2390,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.13034091157839,804.388671859871,-0.424156853575771,-7.19073393616104,7.11560844048675,2209.93959287446
7197,15385,11192,"Bush et al., 2020","Refugio1","Refugio1",-13.09,-71.708,3248,"not known","lake","lake surface sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.79919674856601,4234.30565777762,11.6008374185688,9.57241770314357,12.907094259897,1171.22340868402
7198,15386,11193,"Bush et al., 2020","Refugio2","Refugio2",-13.1,-71.703,3272,"not known","lake","lake surface sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.788416484504281,4193.81774766916,11.4899116374497,9.45850969903964,12.798250860385,1155.007384881
7199,15387,7202,"EMPDv2","Reiarsdalsvatn","EPDcoretop_E2552",58.33,7.79,245,"0.0442","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.19913927705123,2264.54810428546,5.48942596901397,-3.56643407514183,14.5871335126725,1304.10507476157
7200,15388,13175,"Neotoma","Reichow Pond","REICHOW",47.190745,-95.77364,455,"not known","lake","core","-12","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.805284939312217,2949.28352969246,4.42207594029197,-14.8695124710162,20.3911296868876,648.355486925789
7200,15388,13176,"Neotoma","Reichow Pond","REICHOW",47.190745,-95.77364,455,"not known","lake","core","0","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.805284939312217,2949.28352969246,4.42207594029197,-14.8695124710162,20.3911296868876,648.355486925789
7200,15388,13177,"Neotoma","Reichow Pond","REICHOW",47.190745,-95.77364,455,"not known","lake","core","15","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.805284939312217,2949.28352969246,4.42207594029197,-14.8695124710162,20.3911296868876,648.355486925789
7200,15388,13178,"Neotoma","Reichow Pond","REICHOW",47.190745,-95.77364,455,"not known","lake","core","30","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.805284939312217,2949.28352969246,4.42207594029197,-14.8695124710162,20.3911296868876,648.355486925789
7200,15388,13179,"Neotoma","Reichow Pond","REICHOW",47.190745,-95.77364,455,"not known","lake","core","45","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,9,"cool mixed forest",0.805284939312217,2949.28352969246,4.42207594029197,-14.8695124710162,20.3911296868876,648.355486925789
7201,15389,13180,"Neotoma","Reidel Lake","REIDEL",46.211944,-95.284167,443,"not known","lake","core","1","Almquist-Jacobson, H., J.E. Almendinger, and S.E. Hobbie. 1992. Influence of terrestrial vegetation on sediment-forming processes in kettle lakes of west-central Minnesota. Quaternary Research 38(1):103-116.; Almendinger, J.E. 1988. Lake and groundwater paleohydrology: a groundwater model to explain past lake levels in west-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.79199517529495,3032.83576684606,4.84754732399541,-14.2923206373009,20.8097270825553,651.292031582878
7201,15389,13181,"Neotoma","Reidel Lake","REIDEL",46.211944,-95.284167,443,"not known","lake","core","13","Almquist-Jacobson, H., J.E. Almendinger, and S.E. Hobbie. 1992. Influence of terrestrial vegetation on sediment-forming processes in kettle lakes of west-central Minnesota. Quaternary Research 38(1):103-116.; Almendinger, J.E. 1988. Lake and groundwater paleohydrology: a groundwater model to explain past lake levels in west-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.79199517529495,3032.83576684606,4.84754732399541,-14.2923206373009,20.8097270825553,651.292031582878
7202,15390,13182,"Neotoma","Reindeer Lake","REINDEER",69.116667,-132.166667,25,"not known","lake","core","0","Spear, R.W. 1993. The palynological record of Late-Quaternary arctic tree-line in northwest Canada. Review of Palaeobotany and Palynology 79:99-111.",,31,"tundra",0.475699201214293,926.075098195507,-10.5368022449182,-28.4809564235339,11.2918474008418,159.927404979436
7203,15391,22019,"SMPDSv1","Reinkalvvatn","Bjune_a255",70.5883333333333,29.6033333333333,220,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.7653577594384,1137.77478005416,-1.25396081253247,-11.6935973351627,11.6101426821811,595.670492206377
7204,15392,22020,"SMPDSv1","Reinstjonn","Bjune_a204",59.8516666666666,7.02166666666666,1318,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.56552812626005,1287.70875351688,0.736848447229397,-8.86396699967146,10.4781917133596,854.182194265826
7205,15393,22021,"SMPDSv1","Rekowskie Lake","Swieta_e1",54.0666666666666,17.4666666666666,530,"0.066","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01945949075841,2496.61332832999,6.28290945130922,-3.57995377313967,15.1482014706153,696.601141574879
7205,15394,22022,"SMPDSv1","Rekowskie Lake","Swieta_e2",54.0666666666666,17.4666666666666,530,"0.066","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01945949075841,2496.61332832999,6.28290945130922,-3.57995377313967,15.1482014706153,696.601141574879
7205,15395,22023,"SMPDSv1","Rekowskie Lake","Swieta_e3",54.0666666666666,17.4666666666666,530,"0.066","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01945949075841,2496.61332832999,6.28290945130922,-3.57995377313967,15.1482014706153,696.601141574879
7206,15396,22024,"SMPDSv1","Relusjarvi","Seppa_b90",61.07,25.47,126,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03235436126988,2162.68939750988,3.48269070610775,-9.19540199087205,16.2252345266356,573.229723300239
7207,15397,11353,"Neotoma","Remi Lake (Cole 1969)","HC008",49.42222,-82.1688,235,"not known","terrestrial","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.25534873185784,2148.91173843379,0.575389400609238,-18.4851037292735,17.0135319513231,834.967226850499
7208,15398,1308,"Australian pollen","Rennix Gap","Rennix Gap_0",-36.3667,148.5,1570,"not known","not known","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.01024253981733,2417.61702784283,6.4488039897814,-1.4886406468571,14.272263942529,1213.92161896499
7208,15399,1309,"Australian pollen","Rennix Gap","Rennix Gap_25",-36.3667,148.5,1570,"not known","not known","core","30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.01024253981733,2417.61702784283,6.4488039897814,-1.4886406468571,14.272263942529,1213.92161896499
7209,15400,11346,"Neotoma","Repulse Bay (Cole 1969) [Naujaat]","HC002",66.52364,-86.23529,122,"not known","not known","surface sample","-16","Cole, H.S. 1969. Objective reconstruction of the paleoclimate record through application of eigenvectors of present-day pollen spectra and climate to the late Quaternary pollen stratigraphy. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,31,"tundra",0.709643042148165,480.487785675301,-13.4249776644432,-31.5071066701279,7.28994062913945,208.547467783151
7210,15401,11368,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL1",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15402,11365,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL10",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15403,11367,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL2",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15404,11366,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL3",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15405,11371,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL4",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15406,11364,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL5",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15407,11373,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL6",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15408,11372,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL7",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15409,11369,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL8",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7210,15410,11370,"Neotoma","Repulse Bay (Nichols Site E) [Naujaat]","SET2POL9",66.5233,-86.2403,19,"not known","not known","surface sample","-22","Andrews, J.T., and H. Nichols. 1981. Modern pollen deposition and Holocene palaeotemperature reconstructions, central northern Canada. Arctic and Alpine Research 13(4):387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.706731906118896,546.670134245802,-12.8710129439752,-31.2351489557258,7.82560217699656,212.077874144527
7211,15411,4371,"CMPD","Reshuitang","Reshuitang",43.75,117.65,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.362675337930273,2470.09773073318,1.59280982285128,-17.8518179914637,18.8743682083926,345.680202554966
7212,15412,9670,"Gaillard et al., 1992","Resmo","Resmo A",56.568443,16.449332,30,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.863058832649787,2672.3337903823,7.02814052064176,-1.70180864149453,16.3133442977142,566.742758697474
7212,15413,9671,"Gaillard et al., 1992","Resmo","Resmo B",56.568443,16.449332,30,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.863058832649787,2672.3337903823,7.02814052064176,-1.70180864149453,16.3133442977142,566.742758697474
7212,15414,9672,"Gaillard et al., 1992","Resmo","Resmo C",56.568443,16.449332,30,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.863058832649787,2672.3337903823,7.02814052064176,-1.70180864149453,16.3133442977142,566.742758697474
7213,15415,8469,"EMPDv2","Retun","Novenko_c20",53.7848,35.9836,161,"0.01","terrestrial, soil","soil sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.940305064180525,2694.39190897702,5.13814199943737,-9.3972710204464,18.0548155433562,655.14648355261
7214,15416,22025,"SMPDSv1","Retyun","Retyun_SS",53.7848,35.9836,161,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.940305064180525,2694.39190897702,5.13814199943737,-9.3972710204464,18.0548155433562,655.14648355261
7215,15417,4372,"CMPD","Reyueshan","Reyueshan 1",36.43,101.11,3440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.29413942422586,1328.50463302341,-0.225934851896805,-13.0437104757015,10.7066274830518,293.537005766266
7215,15418,4373,"CMPD","Reyueshan","Reyueshan 2",36.41,101.03,3361,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.295677815591428,1422.17463370687,0.229054242166421,-12.6508307970783,11.1785231512001,297.052604846153
7216,15419,22026,"SMPDSv1","Rezabinec","EPDcoretop_E549",49.25,14.116667,369,"0.06","terrestrial, blanket bog","peat core top","-22","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.830270933230683,3151.99769801397,8.33755573548846,-2.21888072991115,17.8036411239726,631.959974136566
7217,15420,7194,"EMPDv2","Rezina marsh","EPDcoretop_E2493",39.99,20.78,1760,"0.0312","terrestrial, marsh","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.78057957873549,2265.99768439366,4.86949611973996,-6.15798535276493,15.1949438038407,803.681157158833
7218,15421,8294,"EMPDv2","Rezzoaglio","Montanari_b8",44.5261083333333,9.38568611111111,702,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.21354376957976,3395.03322176546,9.3014608815492,0.498177529722784,18.36223015794,1142.48898913374
7219,15422,22027,"SMPDSv1","Rheinsberg","Dambach_a399",52.9722,12.854,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.808613506556249,3252.84982682367,8.86406651943141,-0.465482868652217,17.7588674974192,566.262604466885
7219,15423,22028,"SMPDSv1","Rheinsberg","Dambach_a400",52.9894,12.8915,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.808772323007214,3252.35107972488,8.86182900217414,-0.473002788512923,17.7607096153431,566.33856970951
7219,15424,22029,"SMPDSv1","Rheinsberg","Dambach_a402",52.9951,12.8514,60,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803741215163878,3273.95036648278,8.9213426040406,-0.483341761199308,17.8364031978526,561.706537248326
7219,15425,22030,"SMPDSv1","Rheinsberg","Dambach_a403",52.9951,12.8514,60,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803741215163878,3273.95036648278,8.9213426040406,-0.483341761199308,17.8364031978526,561.706537248326
7219,15426,22031,"SMPDSv1","Rheinsberg","Dambach_a404",53.0025,12.8439,65,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.801272697539649,3284.62588363457,8.95036961900869,-0.491288526954752,17.8749124696322,559.419626320187
7219,15427,22032,"SMPDSv1","Rheinsberg","Dambach_a405",53.1167,13.0833,80,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.797904849120708,3316.48947652049,9.03263839419908,-0.552717797253793,18.0023812749358,555.119055067136
7219,15428,22033,"SMPDSv1","Rheinsberg","Dambach_a406",53.1333,13.0167,65,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805285006830295,3280.71821919475,8.93644297874659,-0.51910347106393,17.8710823340556,561.4065970789
7219,15429,22034,"SMPDSv1","Rheinsberg","Dambach_a407",53.1333,13.0167,66,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.804850261990436,3282.97054811324,8.9425844346207,-0.520650685977857,17.8790095800264,561.002369239392
7219,15430,22035,"SMPDSv1","Rheinsberg","Dambach_a408",53.15,13,65,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.80600012358241,3279.75971314194,8.93417060721379,-0.515621133490758,17.8655945040639,561.672527084536
7219,15431,22036,"SMPDSv1","Rheinsberg","Dambach_a409",53.15,13.0833,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803467244991235,3292.11445588282,8.96629896602711,-0.537550178552393,17.915735859038602,559.662972256877
7219,15432,22037,"SMPDSv1","Rheinsberg","Dambach_a410",53.15,13.0833,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803467244991235,3292.11445588282,8.96629896602711,-0.537550178552393,17.915735859038602,559.662972256877
7219,15433,22038,"SMPDSv1","Rheinsberg","Dambach_a411",53.15,13.0833,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803467244991235,3292.11445588282,8.96629896602711,-0.537550178552393,17.915735859038602,559.662972256877
7219,15434,22039,"SMPDSv1","Rheinsberg","Dambach_a412",53.15,13.0833,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803467244991235,3292.11445588282,8.96629896602711,-0.537550178552393,17.915735859038602,559.662972256877
7219,15435,22040,"SMPDSv1","Rheinsberg","Dambach_a413",53.15,13.0833,70,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.803467244991235,3292.11445588282,8.96629896602711,-0.537550178552393,17.915735859038602,559.662972256877
7219,15436,22041,"SMPDSv1","Rheinsberg","Dambach_a414",53.15,13.1,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795282383420754,3338.06795570523,9.09107174806033,-0.567701481780617,18.0757928405896,551.918688859253
7219,15437,22042,"SMPDSv1","Rheinsberg","Dambach_a415",53.15,13.1,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795282383420754,3338.06795570523,9.09107174806033,-0.567701481780617,18.0757928405896,551.918688859253
7219,15438,22043,"SMPDSv1","Rheinsberg","Dambach_a416",53.15,13.1,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795282383420754,3338.06795570523,9.09107174806033,-0.567701481780617,18.0757928405896,551.918688859253
7219,15439,22044,"SMPDSv1","Rheinsberg","Dambach_a417",53.15,13.1,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795282383420754,3338.06795570523,9.09107174806033,-0.567701481780617,18.0757928405896,551.918688859253
7219,15440,22045,"SMPDSv1","Rheinsberg","Dambach_a418",53.15,13.1,90,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.795282383420754,3338.06795570523,9.09107174806033,-0.567701481780617,18.0757928405896,551.918688859253
7219,15441,22046,"SMPDSv1","Rheinsberg","Dambach_a419",53.1667,13.0833,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812189888579113,3246.07713408413,8.84025652945225,-0.509030517107863,17.7549935798955,567.621276266365
7219,15442,22047,"SMPDSv1","Rheinsberg","Dambach_a420",53.1667,13.0833,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812189888579113,3246.07713408413,8.84025652945225,-0.509030517107863,17.7549935798955,567.621276266365
7219,15443,22048,"SMPDSv1","Rheinsberg","Dambach_a421",53.1667,13.0833,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812189888579113,3246.07713408413,8.84025652945225,-0.509030517107863,17.7549935798955,567.621276266365
7220,15444,13188,"Neotoma","Rholl Lake","RHOLL",47.6,-96.166667,367,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.717883337746858,2947.44672885252,4.17854518943542,-15.5623362746173,20.4875825078574,577.141200204083
7220,15444,13189,"Neotoma","Rholl Lake","RHOLL",47.6,-96.166667,367,"not known","lake","core","12","Unpublished data",,9,"cool mixed forest",0.717883337746858,2947.44672885252,4.17854518943542,-15.5623362746173,20.4875825078574,577.141200204083
7220,15444,13190,"Neotoma","Rholl Lake","RHOLL",47.6,-96.166667,367,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.717883337746858,2947.44672885252,4.17854518943542,-15.5623362746173,20.4875825078574,577.141200204083
7221,15445,8350,"EMPDv2","Ria de Vigo","MunozSobrino_a36 (San Simón ST26)",42.279779,-8.633931,-18,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60710147669748,5372.93110744634,14.7203591984831,10.601208166196,19.3140727757039,1553.91689723978
7222,15446,13611,"Neotoma","Ría Lagartos","LAGARTOS",21.5661,-88.0865,3,"not known","coastal, lagoon","core","-30","Carrillo-Bastos, A., G.A. Islebe, and N. Torrescano-Valle. 2013. 3800 years of quantitative precipitation reconstruction from the northwest Yucatan Peninsula. PLoS ONE 8(12):e84333.","10.1371/journal.pone.0084333",22,"steppe",0.705818559438693,9385.66588845106,25.714153119044,22.3294145018005,28.0686659940495,1070.11379885727
7222,15446,13612,"Neotoma","Ría Lagartos","LAGARTOS",21.5661,-88.0865,3,"not known","coastal, lagoon","core","44","Carrillo-Bastos, A., G.A. Islebe, and N. Torrescano-Valle. 2013. 3800 years of quantitative precipitation reconstruction from the northwest Yucatan Peninsula. PLoS ONE 8(12):e84333.","10.1371/journal.pone.0084333",22,"steppe",0.705818559438693,9385.66588845106,25.714153119044,22.3294145018005,28.0686659940495,1070.11379885727
7223,15447,14730,"Neotoma","Ría Lagartos-2","LAGARTO2",21.5794444444444,-88.0721388888889,2,"not known","coastal, other","core","8","Aragón-Moreno, A.A., G.A. Islebe, and N. Torrescano-Valle. 2012. A ~3800-yr, high-resolution record of vegetation and climate change on the north coast of the Yucatan Peninsula. Review of Palaeobotany and Palynology 178:35-42.","10.1016/j.revpalbo.2012.04.002",22,"steppe",0.703265078321584,9385.17625803324,25.7128116658445,22.3124364051165,28.0912191702723,1066.15972503663
7224,15448,7115,"EMPDv2","Riabelais (palaeo-channel of Choisille river)","EPDcoretop_E2092",47.4,0.65,46,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.76753284967595,4184.4820231615,11.4643343100315,4.36611957535945,19.101790435621,645.018174106615
7225,15449,22049,"SMPDSv1","Ribnoe","EPDcoretop_E551",43.708333,41.206944,2115,"0.01","lake","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21136968356979,1550.60985984458,0.478733199369204,-12.8777043702913,12.2214793269849,1056.06227665333
7226,15450,13191,"Neotoma","Rice Lake","RICELAKE",48.00942,-101.53972,620,"not known","lake","core","-30","Unpublished data",,22,"steppe",0.508993538628719,2882.27271539279,4.39224084107296,-13.8568860073351,20.5407577962483,423.772424342151
7226,15450,13192,"Neotoma","Rice Lake","RICELAKE",48.00942,-101.53972,620,"not known","lake","core","-6","Unpublished data",,22,"steppe",0.508993538628719,2882.27271539279,4.39224084107296,-13.8568860073351,20.5407577962483,423.772424342151
7226,15450,13193,"Neotoma","Rice Lake","RICELAKE",48.00942,-101.53972,620,"not known","lake","core","22","Unpublished data",,22,"steppe",0.508993538628719,2882.27271539279,4.39224084107296,-13.8568860073351,20.5407577962483,423.772424342151
7226,15450,13194,"Neotoma","Rice Lake","RICELAKE",48.00942,-101.53972,620,"not known","lake","core","49","Unpublished data",,22,"steppe",0.508993538628719,2882.27271539279,4.39224084107296,-13.8568860073351,20.5407577962483,423.772424342151
7226,15451,13198,"Neotoma","Rice Lake","RICEMNA",46.922222,-95.575,443,"not known","lake","core","-1","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15451,13199,"Neotoma","Rice Lake","RICEMNA",46.922222,-95.575,443,"not known","lake","core","22","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15451,13200,"Neotoma","Rice Lake","RICEMNA",46.922222,-95.575,443,"not known","lake","core","47","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15452,13195,"Neotoma","Rice Lake","RICEMNB",46.922222,-95.575,443,"not known","lake","core","-15","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15452,13196,"Neotoma","Rice Lake","RICEMNB",46.922222,-95.575,443,"not known","lake","core","7","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15452,13197,"Neotoma","Rice Lake","RICEMNB",46.922222,-95.575,443,"not known","lake","core","32","McAndrews, J.H. 1969. Paleobotany of a wild rice lake in Minnesota. Canadian Journal of Botany 47:1671-1679.",,9,"cool mixed forest",0.807171726221995,2966.44143960695,4.50784105112314,-14.7722290943354,20.4774964299964,652.589620898144
7226,15453,14209,"Neotoma","Rice Lake","RICEMSH2",44.199085,-78.14232,184,"not known","lake","core","-27","McAndrews, J.H. 1994. Pollen diagrams for southern Ontario applied to archaeology. Pages 179-195 in Great Lakes Archaeology and Paleoecology: Exploring Interdisciplinary Initiatives for the Nineties. University of Waterloo, Waterloo, Ontario, Canada.; Yu, Z., and J.H. McAndrews. 1994. Holocene water levels at Rice Lake, Ontario, Canada: sediment, pollen and plant macrofossil evidence. The Holocene 4:141-152.; McAndrews, J.H. 1984. Late Quaternary vegetation history of Rice Lake, Ontario, and the McIntyre Archaeological Site. Archaeological Survey of Canada Paper 126:161-189..",,9,"cool mixed forest",1.05506162857772,3169.52417856136,7.01541083288998,-7.69527376658054,20.5338840914687,884.562534955459
7226,15454,14208,"Neotoma","Rice Lake","RICEON",44.199085,-78.14232,184,"not known","lake","core","-23","Yu, Z., and J.H. McAndrews. 1994. Holocene water levels at Rice Lake, Ontario, Canada: sediment, pollen and plant macrofossil evidence. The Holocene 4:141-152.; McAndrews, J.H. 1984. Late Quaternary vegetation history of Rice Lake, Ontario, and the McIntyre Archaeological Site. Archaeological Survey of Canada Paper 126:161-189..",,9,"cool mixed forest",1.05506162857772,3169.52417856136,7.01541083288998,-7.69527376658054,20.5338840914687,884.562534955459
7227,15455,13984,"Neotoma","Ridge and Slough (02-05-20-13)","05-02-13",26.102,-80.7375,2,"not known","terrestrial, bog/fen/swamp","core","-22","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,22,"steppe",0.90580759393516,8881.53350176279,24.3329684979802,19.2602408204433,28.4521057724492,1324.94907703347
7227,15455,13985,"Neotoma","Ridge and Slough (02-05-20-13)","05-02-13",26.102,-80.7375,2,"not known","terrestrial, bog/fen/swamp","core","40","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,22,"steppe",0.90580759393516,8881.53350176279,24.3329684979802,19.2602408204433,28.4521057724492,1324.94907703347
7228,15456,13986,"Neotoma","Ridge and Slough (02-05-20-14)","05-20-14",26.1025,-80.7359999999999,2,"not known","terrestrial, bog/fen/swamp","core","-23","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,22,"steppe",0.905860525369701,8881.48855783713,24.3328453639373,19.2600764490999,28.4520106191196,1325.01111244795
7228,15456,13987,"Neotoma","Ridge and Slough (02-05-20-14)","05-20-14",26.1025,-80.7359999999999,2,"not known","terrestrial, bog/fen/swamp","core","36","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,22,"steppe",0.905860525369701,8881.48855783713,24.3328453639373,19.2600764490999,28.4520106191196,1325.01111244795
7229,15457,13988,"Neotoma","Ridge and Slough (02-05-21-2)","05-21-2",25.8285,-80.768,1,"not known","terrestrial, bog/fen/swamp","core","3","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887146174246055,8931.70586940716,24.4704270394717,19.4932065820789,28.5166025975075,1306.84081817697
7229,15457,13989,"Neotoma","Ridge and Slough (02-05-21-2)","05-21-2",25.8285,-80.768,1,"not known","terrestrial, bog/fen/swamp","core","17","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887146174246055,8931.70586940716,24.4704270394717,19.4932065820789,28.5166025975075,1306.84081817697
7229,15457,13990,"Neotoma","Ridge and Slough (02-05-21-2)","05-21-2",25.8285,-80.768,1,"not known","terrestrial, bog/fen/swamp","core","31","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887146174246055,8931.70586940716,24.4704270394717,19.4932065820789,28.5166025975075,1306.84081817697
7229,15457,13991,"Neotoma","Ridge and Slough (02-05-21-2)","05-21-2",25.8285,-80.768,1,"not known","terrestrial, bog/fen/swamp","core","45","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887146174246055,8931.70586940716,24.4704270394717,19.4932065820789,28.5166025975075,1306.84081817697
7230,15458,13992,"Neotoma","Ridge and Slough (02-05-21-4)","05-21-4",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","-41","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7230,15458,13993,"Neotoma","Ridge and Slough (02-05-21-4)","05-21-4",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","-18","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7230,15458,13994,"Neotoma","Ridge and Slough (02-05-21-4)","05-21-4",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","5","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7230,15458,13995,"Neotoma","Ridge and Slough (02-05-21-4)","05-21-4",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","28","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7231,15459,13996,"Neotoma","Ridge and Slough (02-05-21-5)","05-21-5",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","6","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7231,15459,13997,"Neotoma","Ridge and Slough (02-05-21-5)","05-21-5",25.829,-80.7675,1,"not known","terrestrial, bog/fen/swamp","core","43","Bernhardt, C.E., and D.A. Willard. 2009. Response of the Everglades ridge and slough landscape to climate variability and 20th-century water management. Ecological Applications 19(7):1723-1738.",,17,"temperate evergreen needleleaf open woodland",0.887180216626735,8931.6677284393,24.4703225436693,19.4930367435088,28.5165451632592,1306.87853529282
7232,15460,22059,"SMPDSv1","Riederhorn","CH/WVDK/R2",46.374037,8.015493,2130,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78846646460228,1091.10227420216,1.01038874045013,-6.10462055922506,8.79056041506968,2036.94224676755
7232,15461,22060,"SMPDSv1","Riederhorn","CH/WVDK/R3",46.373824,8.013216,2030,"not applicable","terrestrial","pollen trap","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.68802816006197,1204.70980205095,1.54217813371464,-5.71319923071432,9.41387490716466,1984.49445209004
7232,15462,22061,"SMPDSv1","Riederhorn","CH/WVDK/R4",46.370405,8.01344,2000,"not applicable","terrestrial","pollen trap","-44","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.65792163730727,1239.65757241712,1.70220121907951,-5.5952348329245,9.60141115990105,1968.5897833967001
7232,15463,22062,"SMPDSv1","Riederhorn","CH/WVDK/R5",46.372997,8.016586,2150,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.8088064648053,1068.79093755744,0.903943806718668,-6.1828732622052,8.66569864062865,2047.40730799438
7232,15464,22063,"SMPDSv1","Riederhorn","CH/WVDK/R6",46.371203,8.015658,2215,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87452809475395,997.757752099625,0.559930770081482,-6.43596339123084,8.26283444334295,2080.99412063599
7232,15465,22050,"SMPDSv1","Riederhorn","Knaap_a20",46.374037,8.015493,2130,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78846646460228,1091.10227420216,1.01038874045013,-6.10462055922506,8.79056041506968,2036.94224676755
7232,15466,22051,"SMPDSv1","Riederhorn","Knaap_a21",46.374037,8.015493,2130,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78846646460228,1091.10227420216,1.01038874045013,-6.10462055922506,8.79056041506968,2036.94224676755
7232,15467,22052,"SMPDSv1","Riederhorn","Knaap_a22",46.374037,8.015493,2130,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78846646460228,1091.10227420216,1.01038874045013,-6.10462055922506,8.79056041506968,2036.94224676755
7232,15468,22053,"SMPDSv1","Riederhorn","Knaap_a23",46.372997,8.016586,2150,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.8088064648053,1068.79093755744,0.903943806718668,-6.1828732622052,8.66569864062865,2047.40730799438
7232,15469,22054,"SMPDSv1","Riederhorn","Knaap_a24",46.372997,8.016586,2150,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.8088064648053,1068.79093755744,0.903943806718668,-6.1828732622052,8.66569864062865,2047.40730799438
7232,15470,22055,"SMPDSv1","Riederhorn","Knaap_a25",46.372997,8.016586,2150,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.8088064648053,1068.79093755744,0.903943806718668,-6.1828732622052,8.66569864062865,2047.40730799438
7232,15471,22056,"SMPDSv1","Riederhorn","Knaap_a26",46.371203,8.015658,2215,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87452809475395,997.757752099625,0.559930770081482,-6.43596339123084,8.26283444334295,2080.99412063599
7232,15472,22057,"SMPDSv1","Riederhorn","Knaap_a27",46.371203,8.015658,2215,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87452809475395,997.757752099625,0.559930770081482,-6.43596339123084,8.26283444334295,2080.99412063599
7232,15473,22058,"SMPDSv1","Riederhorn","Knaap_a28",46.371203,8.015658,2215,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87452809475395,997.757752099625,0.559930770081482,-6.43596339123084,8.26283444334295,2080.99412063599
7233,15474,17644,"Phelps et al., 2020","Rietvlei Still Bay","RIETVLEI_2",-34.35415,21.53545,15,"not known","not known","core","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.441677678365604,6366.06210932918,17.4412660529566,13.6006294921833,21.3884338977285,557.279739403365
7233,15475,17645,"Phelps et al., 2020","Rietvlei Still Bay","RIETVLEI_6.25",-34.35415,21.53545,15,"not known","not known","core","50","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.441677678365604,6366.06210932918,17.4412660529566,13.6006294921833,21.3884338977285,557.279739403365
7234,15476,14251,"Neotoma","Rife Swamp","RIFESWMP",43.4677777777778,-79.9868055555556,277,"not known","lake","core","-50","Turton, C.L., and J.H. McAndrews. 2002. Wetland history along the Niagara Escarpment: two swamps near Crawford Lake. Leading Edge 2001 Conference: Focus on the Biosphere.",,9,"cool mixed forest",1.09679496184043,3147.04800278877,7.11223019277739,-6.98279926699352,20.2167077359416,944.672708013155
7235,15477,22064,"SMPDSv1","Riffelsee","EPDcoretop_E1143",45.983333,7.761944,2757,"0.01","lake","lacustrine core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.23281138706407,500.381852132803,-2.11344882279104,-8.51723761090449,5.18405565880434,2233.65581193317
7236,15478,17386,"Neotoma","Rifle Lake","TW093",44.25,-84.48,378,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.948352581538315,2929.67400617987,6.10909559127523,-8.06869510970859,19.5727572448888,768.047429800099
7237,15479,22065,"SMPDSv1","Rifugio Mondovi","Ortu_a7",44.183333,7.733333,1760,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42889425328254,2141.5692137985902,5.53821681209547,-1.84846293636603,13.9912908793778,1358.18996082148
7237,15480,22066,"SMPDSv1","Rifugio Mondovi","Ortu_a8",44.183333,7.733333,1760,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42889425328254,2141.5692137985902,5.53821681209547,-1.84846293636603,13.9912908793778,1358.18996082148
7238,15481,22067,"SMPDSv1","Riisitunturi","FIN/SPH/R20",66.2072361111111,28.61695,275,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.32844870410453,1485.95331558534,-0.819602453852842,-14.7556142916992,13.8649834147641,555.966099504538
7239,15482,22068,"SMPDSv1","Rila Mountains","Tonkov_a1",42.1177805555555,23.4953527777777,2200,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02685130885217,1670.72361878278,2.28126458056397,-8.70909318716321,12.0046868085607,854.497332995251
7239,15483,22069,"SMPDSv1","Rila Mountains","Tonkov_b1",42.1311083333333,23.4846333333333,2050,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.977168398719812,1841.13475973419,3.05696547744155,-7.94505683563349,12.7967741404204,830.517013309343
7239,15484,22070,"SMPDSv1","Rila Mountains","Tonkov_c1",42.1389888888888,23.4689111111111,1950,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.945644114365895,1957.40820797544,3.56846964220521,-7.4463389753489,13.3198310879684,814.592670807381
7239,15485,22071,"SMPDSv1","Rila Mountains","Tonkov_d1",42.1436527777777,23.4347055555555,1800,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900354763734059,2135.88519572643,4.32727783740025,-6.71552060547728,14.0984795054856,790.72583775849
7239,15486,22072,"SMPDSv1","Rila Mountains","Tonkov_e1",42.147197222222204,23.4257361111111,1700,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.87052459425613,2259.69019191165,4.83906997234646,-6.21838127733345,14.624532661006,774.684426867133
7239,15487,22073,"SMPDSv1","Rila Mountains","Tonkov_f1",42.1619722222222,23.4059444444444,1750,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.885712006986319,2197.07783150639,4.58424097673741,-6.46206422277755,14.3566216858964,782.773517026841
7239,15488,22074,"SMPDSv1","Rila Mountains","Tonkov_g1",42.1662416666666,23.4159055555555,1900,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.9311209820472,2015.44904208984,3.82288184357199,-7.19407283859871,13.5699319344139,806.817600357105
7239,15489,22075,"SMPDSv1","Rila Mountains","Tonkov_h1",42.209728,23.405572,1800,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.899544270335426,2139.54415170817,4.35692904089675,-6.65066951944551,14.107199434489,790.635043182242
7239,15490,22076,"SMPDSv1","Rila Mountains","Tonkov_i1",42.2329944444444,23.4068916666666,1400,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.785589850512603,2652.26899461598,6.39123971505746,-4.69143890470038,16.2106254857446,726.57898761095
7239,15491,9181,"EMPDv2","Rila Mountains","Tonkov_s1",42.1237555555556,23.4709416666667,2300,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06226323552193,1559.35557978344,1.76153737723698,-9.21777200618103,11.4659014765542,870.761445114213
7239,15492,9182,"EMPDv2","Rila Mountains","Tonkov_t1",42.21702222,23.42,1750,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.884053139720425,2202.48872829964,4.61934719797783,-6.39037697380958,14.3775036588379,782.536335233221
7239,15493,9183,"EMPDv2","Rila Mountains","Tonkov_t2",42.22093889,23.41416667,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.840774283875037,2390.67722139392,5.37840825657086,-5.66288099004695,15.1629359136753,758.557011992711
7239,15494,9184,"EMPDv2","Rila Mountains","Tonkov_t3",42.23039167,23.42694444,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.798880517214372,2586.61594315266,6.14214109154312,-4.92649194176831,15.9536362387461,734.583642343318
7240,15495,22077,"SMPDSv1","Rinderplatz","EPDcoretop_E1194",46.64472222,11.49444444,1780,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.29806891255872,1218.0041899428,1.34367091846991,-6.45118160049979,9.29364626692036,1617.86025235404
7241,15496,1310,"Australian pollen","Ringarooma","Humus 1_0",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15497,1311,"Australian pollen","Ringarooma","Humus 1_12",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15498,1312,"Australian pollen","Ringarooma","Humus 1_15",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15499,1313,"Australian pollen","Ringarooma","Humus 1_17",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15500,1314,"Australian pollen","Ringarooma","Humus 1_18",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15501,1315,"Australian pollen","Ringarooma","Humus 1_19",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15502,1316,"Australian pollen","Ringarooma","Humus 1_6",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15503,1317,"Australian pollen","Ringarooma","Humus 1_9",-41.283,147.45,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15083971184052,2644.95366783553,7.24644840502885,2.35337841768052,12.5734385145147,1076.10394064547
7241,15504,1318,"Australian pollen","Ringarooma","Humus 2_0",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15505,1319,"Australian pollen","Ringarooma","Humus 2_1",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-31","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15506,1320,"Australian pollen","Ringarooma","Humus 2_10",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15507,1321,"Australian pollen","Ringarooma","Humus 2_11",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","35","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15508,1322,"Australian pollen","Ringarooma","Humus 2_12",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15509,1323,"Australian pollen","Ringarooma","Humus 2_13",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","49","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15510,1324,"Australian pollen","Ringarooma","Humus 2_2",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15511,1325,"Australian pollen","Ringarooma","Humus 2_3",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-18","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15512,1326,"Australian pollen","Ringarooma","Humus 2_4",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15513,1327,"Australian pollen","Ringarooma","Humus 2_5",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15514,1328,"Australian pollen","Ringarooma","Humus 2_6",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15515,1329,"Australian pollen","Ringarooma","Humus 2_7",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","9","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15516,1330,"Australian pollen","Ringarooma","Humus 2_8",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15517,1331,"Australian pollen","Ringarooma","Humus 2_9",-41.296,147.4,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16288624483246,2644.0453441317,7.24395984693617,2.35816648175391,12.5712220199128,1087.07492562403
7241,15518,1332,"Australian pollen","Ringarooma","River 1_0",-41.3,147.433,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","-38","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15643465737216,2644.26759621385,7.24456875675027,2.35378383522023,12.572182290445,1081.02238296913
7241,15519,1333,"Australian pollen","Ringarooma","River 1_4",-41.3,147.433,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","32","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15643465737216,2644.26759621385,7.24456875675027,2.35378383522023,12.572182290445,1081.02238296913
7241,15520,1334,"Australian pollen","Ringarooma","River 2_5",-41.292,147.417,885,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core","45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15885676103663,2644.34025299862,7.24476781643457,2.35650049045421,12.5719667350283,1083.4002857765
7242,15521,8609,"EMPDv2","Ringsbreen","Pardoe_c57",61.27,7.5,1225,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.93360465111867,1254.60920760178,0.709653508073001,-8.69788842554042,10.2939591157391,981.774674360273
7242,15522,8610,"EMPDv2","Ringsbreen","Pardoe_c58",61.27,7.5,1200,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.98140360458551,1269.26078211923,0.818680291945941,-8.5296128254957,10.3563893773993,1004.82559190547
7242,15523,8611,"EMPDv2","Ringsbreen","Pardoe_c59",61.27,7.5,1180,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",2.01972909843499,1281.09393099729,0.905901719044293,-8.39499234545992,10.4063335867274,1023.26632594162
7242,15524,8612,"EMPDv2","Ringsbreen","Pardoe_c60",61.27,7.5,1140,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",2.09661180565317,1304.97732014147,1.080344573241,-8.12575138538835,10.5062220053837,1060.14779401393
7242,15525,8613,"EMPDv2","Ringsbreen","Pardoe_c61",61.27,7.5,1100,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",2.17380596073755,1329.18643973959,1.2547874274377,-7.85651042531679,10.6061104240399,1097.02926208624
7243,15526,11194,"Bush et al., 2020","RioCuba","RioCuba",17.95,-90.48,81,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.00694785453143,9515.64806981353,26.0702686844206,22.6842007839955,28.5160236058853,1588.00823710496
7244,15527,11195,"Bush et al., 2020","RioGuerrero","RioGuerrero",19.21,-90.73,5,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.870717040843877,9684.3027846844,26.5323363963956,23.1614208595987,28.8500386806885,1359.32538847336
7245,15528,17366,"Neotoma","Ripley","TW071",43.001389,-88.991944,255,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.950119367970056,3513.39440200816,7.91338636983082,-8.51391749226322,22.1298603095208,838.568524320546
7246,15529,23200,"SMPDSv1","Risastjorna","Bjune_a88",58.17372197,7.44949327,230,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.35440169104322,2329.6703919655,5.886406304287,-2.67860308089712,14.5190837957435,1396.43592461896
7247,15530,22078,"SMPDSv1","Ritasjarvi","Bjune_a176",67.75,20.766666666666602,360,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13499585986855,1309.25089047796,-1.95448158038836,-16.0283191289277,12.5596293820507,468.848314269722
7248,15531,22079,"SMPDSv1","Ritzengrat","CH/WVDK/Z3",46.001309,7.781345,2520,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99075558142759,725.028107074274,-0.843962204010661,-7.42152556116816,6.66738343577475,2130.07102640379
7249,15532,16674,"Neotoma","Riviere Allard","PJHR027",49.65,-77.816667,288,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.34436486695948,2028.94970544789,0.0305983219114214,-18.8949290316684,16.1192838669031,875.157088400303
7250,15533,16672,"Neotoma","Riviere Heva","PJHR025",48.25,-78.2,303,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.29683384917816,2190.4052663316,1.01669047115672,-17.7218091123444,16.8908989927503,894.134062588529
7251,15534,16667,"Neotoma","Riviere Montmorency","PJHR020",47.416667,-71.2,772,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.96369996072232,1961.51398901203,0.795924941975593,-15.7866515579707,15.7014793155862,1341.9515296842
7252,15535,16690,"Neotoma","Riviere Saint-Jean","PJHR050",48.666667,-65.166667,424,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.65559315826739,2011.11815641226,1.82275357560283,-13.185321028315,16.2471545981113,1112.20112532562
7253,15536,16688,"Neotoma","Riviere-Ouelle","PJHR048",47.45,-69.833333,30,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.34248775901879,2440.54403566055,3.3008297605942,-13.0361616837967,18.1829274391922,950.730014432266
7254,15537,11886,"Neotoma","Road Side Lake","BU427",46.75019,-87.91738,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06390416915048,2603.30127513537,4.01518019404934,-12.1801560723806,18.6093077705542,801.613489102207
7255,15538,11861,"Neotoma","Roadside ditch","KKMFA09",39.36833333,-84.65666667,183,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.08758449858964,4692.60984318048,12.7478207734938,-1.13683166215599,24.6816091672753,1100.3961293941
7256,15539,11381,"Neotoma","Roberts Creek 01","RC01",42.986111,-91.500278,308,"not known","fluvial","surface sample","0","Baker, R.G., L.J. Maher, Jr., C.A. Chumbley, and K.L. Van Zant. 1992. Patterns of Holocene environmental change in the midwestern United States. Quaternary Research 37(3):379-389. Chumbley, C.A. 1989. Late-glacial and Holocene vegetation of the Roberts Creek Basin, northeast Iowa. Dissertation. University of Iowa, Iowa City, Iowa, USA.; Chumbley, C.A., R.G. Baker, and E.A. Bettis III. 1990. Midwestern Holocene paleoenvironments revealed by floodplain deposits in northeastern Iowa. Science 249:272-274.","10.1016/0033-5894(92)90074-S",13,"temperate deciduous broadleaf forest",0.91833188013456,3609.0880041169,7.96841558337058,-9.44746894903539,22.5940581228343,834.476206800084
7257,15540,13203,"Neotoma","Robinson's Pond","ROBPOND",48.26,-58.8,32,"not known","lake","core","-14","Unpublished data",,9,"cool mixed forest",1.93472369430114,2133.44811625261,4.24596203836298,-6.96874907678952,15.6519482182011,1248.32230672292
7258,15541,22080,"SMPDSv1","Rocha da Pena","Connor_b5",37.257717,-8.109223,440,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.423241581878086,5697.16328099978,15.6086665232871,8.15888131293415,24.4413667213015,543.996259799407
7259,15542,17367,"Neotoma","Rock","TW072",43.081389,-88.931667,252,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.950316602724364,3511.8873830655,7.92017089367526,-8.46603939984066,22.1212531760389,837.166837588473
7260,15543,1335,"Australian pollen","Rock Arch Swamp","Rock Arch Swamp core",-34.5108,150.6537,575,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-10","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.743423345590584,4917.18348137598,13.4717355654136,6.70170656467172,19.7921625793233,943.896064380282
7261,15544,22081,"SMPDSv1","Rock Island Lake","Rock Island_core top",61.0327777777777,149.592777777777,849,"not known","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.15326809880977,745.846221781354,-11.2734427472652,-30.4602418461065,8.7004112302905,399.059596584815
7262,15545,14105,"Neotoma","Rock Lake","ROCKAK",60.4536499999999,-150.2538,236,"not known","lake","core","-30","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",1.46131956671209,1589.01304056009,1.42867709737301,-9.01646591905477,12.6879898306293,651.139635273283
7262,15545,14106,"Neotoma","Rock Lake","ROCKAK",60.4536499999999,-150.2538,236,"not known","lake","core","-15","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",1.46131956671209,1589.01304056009,1.42867709737301,-9.01646591905477,12.6879898306293,651.139635273283
7262,15545,14107,"Neotoma","Rock Lake","ROCKAK",60.4536499999999,-150.2538,236,"not known","lake","core","30","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",1.46131956671209,1589.01304056009,1.42867709737301,-9.01646591905477,12.6879898306293,651.139635273283
7262,15545,14108,"Neotoma","Rock Lake","ROCKAK",60.4536499999999,-150.2538,236,"not known","lake","core","45","Lynch, J.A., J.S. Clark, N.H. Bigelow, M.E. Edwards, and B.P. Finney. 2003. Geographic and temporal variations in fire history in boreal ecosystems of Alaska. Journal of Geophysical Research: Atmospheres 108(D1):8152.","10.1029/2001JD000332",15,"cold evergreen needleleaf forest",1.46131956671209,1589.01304056009,1.42867709737301,-9.01646591905477,12.6879898306293,651.139635273283
7263,15546,16507,"Neotoma","Rock Pond","KG004",46.18,-68.38,203,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47092443113099,2554.91230761958,4.22311107435773,-11.2046002793434,18.3592156559218,1086.53282742948
7263,15547,15743,"Neotoma","Rock Pond","RCKT_C90",44.18982,-74.30458,486,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.32973450113437,2746.61601870045,5.2427311641942,-9.64734866494331,18.6392420295197,1030.43703153986
7264,15548,15751,"Neotoma","Rockyhock Bay","DRW053",36.166667,-76.683333,6,"not known","not known","surface sample","Modern","Whitehead, D.R., 1981. Late‐Pleistocene Vegetational Changes in Northeastern North Carolina: Ecological Archives M051-001. Ecological Monographs, 51(4), pp.451-471.","10.2307/2937324",4,"warm-temperate evergreen and mixed forest",1.10702203594678,5734.80553714024,15.711795992165,4.80629115757307,25.7790365337161,1243.88916707453
7264,15549,12514,"Neotoma","Rockyhock Bay","ROCKYHOC",36.166667,-76.683333,6,"not known","lake","core","0","Whitehead, D.R. 1981. Late-Pleistocene vegetational changes in northeastern North Carolina. Ecological Monographs 51(4):451-471.","10.2307/2937324",4,"warm-temperate evergreen and mixed forest",1.10702203594678,5734.80553714024,15.711795992165,4.80629115757307,25.7790365337161,1243.88916707453
7265,15550,22082,"SMPDSv1","Rodenbourg Bretzboesh","EPDcoretop_E959",49.691667,6.27,285,"0.01","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14644625364815,3387.7298428243,9.28145162417616,0.844590312482344,17.6192769641039,852.909598459689
7266,15551,8217,"EMPDv2","Rodnikovoye","Mikishin-Gvozdeva_b48",42.5008333333333,130.802777777778,1,"1.76","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.911592689684614,3318.63222242456,6.61904091376003,-11.1493163486347,21.9792679606089,750.054584210639
7267,15552,13766,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","-38","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13767,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","-30","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13768,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","-25","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13769,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","-12","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13770,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","-3","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13771,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","5","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13772,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","14","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13773,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","19","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13774,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","27","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7267,15552,13775,"Neotoma","Roe Island","ROEISLND",38.0723,-122.032935,0,"not known","coastal, other","core","41","Malamud-Roam, F., and B.L. Ingram. 2004. Late Holocene δ13C and pollen records of paleosalinity from tidal marshes in the San Francisco Bay estuary, California. Quaternary Research 62(2):134-145. May, M.D. 1999. Vegetation and salinity changes over the last 2000 years at two islands in the northern San Francisco Estuary, California. Master's thesis. University of California Berkeley, Berkeley, California, USA.","10.1016/j.yqres.2004.02.011",22,"steppe",0.414957993194774,5562.80821037726,15.2405704393898,8.28330200347269,21.5464954656694,537.909497939486
7268,15553,14712,"Neotoma","Roe Lake","ROEBC",48.7827,-123.30328,100,"not known","lake","core","-61.078022","Lucas, J.D., and T. Lacourse. 2013. Holocene vegetation history and fire regimes of Pseudotsuga menziesii forests in the Gulf Islands National Park Reserve, southwestern British Columbia, Canada. Quaternary Research 79(3):366-376. Lucas, J.D. 2012. Holocene vegetation and fire history of Pender Island, British Columbia, Canada. Master's thesis. University of Victoria, Victoria, British Columbia, Canada.","10.1016/j.yqres.2013.03.001",13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15553,14713,"Neotoma","Roe Lake","ROEBC",48.7827,-123.30328,100,"not known","lake","core","-48.96644974","Lucas, J.D., and T. Lacourse. 2013. Holocene vegetation history and fire regimes of Pseudotsuga menziesii forests in the Gulf Islands National Park Reserve, southwestern British Columbia, Canada. Quaternary Research 79(3):366-376. Lucas, J.D. 2012. Holocene vegetation and fire history of Pender Island, British Columbia, Canada. Master's thesis. University of Victoria, Victoria, British Columbia, Canada.","10.1016/j.yqres.2013.03.001",13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15553,14714,"Neotoma","Roe Lake","ROEBC",48.7827,-123.30328,100,"not known","lake","core","-4.582325459","Lucas, J.D., and T. Lacourse. 2013. Holocene vegetation history and fire regimes of Pseudotsuga menziesii forests in the Gulf Islands National Park Reserve, southwestern British Columbia, Canada. Quaternary Research 79(3):366-376. Lucas, J.D. 2012. Holocene vegetation and fire history of Pender Island, British Columbia, Canada. Master's thesis. University of Victoria, Victoria, British Columbia, Canada.","10.1016/j.yqres.2013.03.001",13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15553,14715,"Neotoma","Roe Lake","ROEBC",48.7827,-123.30328,100,"not known","lake","core","27.51359749","Lucas, J.D., and T. Lacourse. 2013. Holocene vegetation history and fire regimes of Pseudotsuga menziesii forests in the Gulf Islands National Park Reserve, southwestern British Columbia, Canada. Quaternary Research 79(3):366-376. Lucas, J.D. 2012. Holocene vegetation and fire history of Pender Island, British Columbia, Canada. Master's thesis. University of Victoria, Victoria, British Columbia, Canada.","10.1016/j.yqres.2013.03.001",13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14703,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","-54","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14704,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","-43","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14705,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","-23","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14706,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","-14","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14707,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","-4","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14708,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","4","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14709,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","17","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14710,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","31","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7268,15554,14711,"Neotoma","Roe Lake","ROEOAK",48.7827,-123.30328,100,"not known","lake","core","40","Pellatt, M.G., M.M. McCoy, and R.W. Mathewes. 2015. Paleoecology and fire history of Garry oak ecosystems in Canada: implications for conservation and environmental management. Biodiversity and Conservation 24(7):1621-1639.; McCoy, M.M. 2006. High Resolution fire and vegetation history of Garry oak ecosystems in British Columbia. Master's thesis. Simon Fraser, Burnaby, British Columbia, Canada.",,13,"temperate deciduous broadleaf forest",2.48520908604516,3588.35579457634,9.83111176596258,3.35623707381056,16.9276982655741,1900.73869228958
7269,15555,22083,"SMPDSv1","Roethsee","Roethsee_ss",52.69485,13.9429,92,"0.033","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.79139611165836,3299.83947263122,8.93573925010351,-0.96860308353214,18.1191988522189,561.910323603524
7270,15556,13204,"Neotoma","Rogers Lake","ROGERSLK",41.3525,-72.29915,11,"not known","lake","core","0","Davis, M.B. 1967. Pollen accumulation rates at Rogers Lake, Connecticut, during late- and postglacial time. Review of Paleobotany and Palynology 2(1-4):219-230. http://deepblue.lib.umich.edu/handle/2027.42/33322.; Davis, M.B., and E.S. Deevey, Jr. 1964. Pollen accumulation rates: estimates from late-glacial sediment of Rogers Lake. Science 145:1293-1295.; Davis, M.B. 1969. Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake. Ecology 50:409-422.",,13,"temperate deciduous broadleaf forest",1.2552394233149,4017.45397181025,10.7740766237007,-1.76854299284376,22.7256752381423,1159.53914223227
7271,15557,9105,"EMPDv2","Rokytecka slat","Svobodova_a20",49.0189536,13.4138358,1120,"2","terrestrial, bog/fen/swamp","peat","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.95075429907747,2057.36800668222,4.71534231986656,-4.11850749310702,13.1641025950204,1410.37363192989
7272,15558,9093,"EMPDv2","Rokytska slat, Sumava","Svobodova_a11",49.0181888888889,13.4188666666667,1089.1,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.8998818488595,2101.60112551448,4.87332381764355,-4.03294539722495,13.3650881727022,1377.16087996379
7273,15559,17332,"Neotoma","Rolling Stone","TW035",45.434167,-88.946389,468,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02381110058188,2634.47284122947,3.96362161324986,-12.7256599623643,18.8252478212437,791.512233007518
7274,15560,22084,"SMPDSv1","Roman Area","Sadori_e1",41.891379,12.486393,16,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.593566353574907,5786.75525567466,15.8541239881498,8.30767601359677,24.2823244611402,683.568146298607
7274,15561,22085,"SMPDSv1","Roman Area","Sadori_e10",41.8875,12.715556,57,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.605857201542453,5701.92731557711,15.621718672814,8.03489329817778,24.0742430128143,695.080796485195
7274,15562,22086,"SMPDSv1","Roman Area","Sadori_e2",41.891379,12.486393,16,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.593566353574907,5786.75525567466,15.8541239881498,8.30767601359677,24.2823244611402,683.568146298607
7274,15563,22087,"SMPDSv1","Roman Area","Sadori_e3",41.8925,12.485278,13,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.592883237097939,5792.80936678442,15.8707105939299,8.32608912722644,24.2970836793387,682.970836843543
7274,15564,22088,"SMPDSv1","Roman Area","Sadori_e4",41.889722,12.490542,21,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.594740573662134,5776.63020903056,15.8263841343303,8.27669547348328,24.2576401924785,684.602116470957
7274,15565,22089,"SMPDSv1","Roman Area","Sadori_e5",41.888333,12.600278,43,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.601195322890997,5731.0535166731,15.7015164840359,8.13064880223775,24.1461441178683,690.600359107855
7274,15566,22090,"SMPDSv1","Roman Area","Sadori_e6",41.888333,12.600278,43,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.601195322890997,5731.0535166731,15.7015164840359,8.13064880223775,24.1461441178683,690.600359107855
7274,15567,22091,"SMPDSv1","Roman Area","Sadori_e7",41.655364,12.655364,59,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.586867800630261,5804.64588338229,15.9031394065268,8.43456910533028,24.3043689051135,681.708681317489
7274,15568,22092,"SMPDSv1","Roman Area","Sadori_e8",41.655364,12.655364,59,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.586867800630261,5804.64588338229,15.9031394065268,8.43456910533028,24.3043689051135,681.708681317489
7274,15569,22093,"SMPDSv1","Roman Area","Sadori_e9",41.8875,12.715556,57,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.605857201542453,5701.92731557711,15.621718672814,8.03489329817778,24.0742430128143,695.080796485195
7275,15570,22094,"SMPDSv1","Romanovskoe boloto","Romanovskoe boloto_SS",56.8844,60.388,270,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.911299472856345,2306.66364209015,1.80796241109141,-15.8201327441856,18.4962621260335,549.024342683293
7276,15571,22095,"SMPDSv1","RON1","Barboni_a502",36.768889,-5.367222,1357,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414277205423973,4659.66818020051,12.7662141923302,3.96525157594224,24.3293709163791,540.170195670836
7277,15572,22096,"SMPDSv1","RON2","Barboni_a503",36.75,-5.318889,770,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421942659938819,5563.74299798166,15.2431315013196,7.86077096020939,24.3912455831415,561.566920780625
7278,15573,22097,"SMPDSv1","RON3","Barboni_a504",36.768889,-5.267222,740,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.421058872343455,5525.36215191552,15.1379784983987,7.41319393839421,24.7344115556682,557.052528127774
7279,15574,22098,"SMPDSv1","RON4","Barboni_a505",36.768889,-5.25,660,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.420572162323076,5644.64689828992,15.4647860227121,7.88163183586468,24.8023380725128,557.945095751866
7280,15575,22099,"SMPDSv1","RON5","Barboni_a506",36.817222,-5.168889,1160,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379704938859935,5008.57706460452,13.722128944122,5.24629798811739,24.7391654822678,497.958594361432
7281,15576,22100,"SMPDSv1","RON6","Barboni_a507",36.7,-4.967222,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373439038474864,4798.45729063307,13.1464583305016,5.14705233716011,23.749729108231,487.158603383377
7282,15577,22101,"SMPDSv1","RON7","Barboni_a508",36.668889,-4.968889,1140,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386052317098363,5119.25037222411,14.0253434855455,6.33766818374442,23.9766811028114,506.152098213016
7283,15578,22102,"SMPDSv1","RON8","Barboni_a509",36.667222,-5.068889,1075,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39310555588334,5195.0385556213,14.232982344168,6.65811016106984,23.97993092422,515.720129358712
7284,15579,4374,"CMPD","Rongchi","Rongchi 1",31.22,119.68,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10261677330245,5676.32650109055,15.5515794550426,2.96383853051078,27.7544700410257,1217.92330836577
7284,15580,4375,"CMPD","Rongchi","Rongchi 2",31.22,119.68,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11784499827484,5655.4893372483,15.4944913349268,2.93049544959889,27.6691417529706,1232.74411935827
7285,15581,22103,"SMPDSv1","Ronnaugtjern","Bjune_a57",61.60563094,9.35624847,988,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.596978946682,1212.88869919787,-0.0706591468291252,-10.6605663298286,10.3447595378627,771.57953366362
7286,15582,9673,"Gaillard et al., 1992","Ronnerum","Ronnerum",56.758388,16.57599,51,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.862850441047995,2623.76585384291,6.81792020886174,-2.05028052006679,16.23281111672,563.253791958694
7287,15583,114,"APD","Rooiberg Shelter I","ROOIBG1_1",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-40","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15584,115,"APD","Rooiberg Shelter I","ROOIBG1_10",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-18","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15585,116,"APD","Rooiberg Shelter I","ROOIBG1_11",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-16","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15586,117,"APD","Rooiberg Shelter I","ROOIBG1_12",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-15","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15587,118,"APD","Rooiberg Shelter I","ROOIBG1_13",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-14","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15588,119,"APD","Rooiberg Shelter I","ROOIBG1_14",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-13","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15589,120,"APD","Rooiberg Shelter I","ROOIBG1_15",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-12","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15590,121,"APD","Rooiberg Shelter I","ROOIBG1_16",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-10","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15591,122,"APD","Rooiberg Shelter I","ROOIBG1_2",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-37","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15592,123,"APD","Rooiberg Shelter I","ROOIBG1_3",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-34","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15593,124,"APD","Rooiberg Shelter I","ROOIBG1_4",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-30","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15594,125,"APD","Rooiberg Shelter I","ROOIBG1_5",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-28","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15595,126,"APD","Rooiberg Shelter I","ROOIBG1_6",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-26","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15596,127,"APD","Rooiberg Shelter I","ROOIBG1_7",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-24","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15597,128,"APD","Rooiberg Shelter I","ROOIBG1_8",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-22","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7287,15598,129,"APD","Rooiberg Shelter I","ROOIBG1_9",-28.516666666666602,28,1980,"not applicable","terrestrial","sediment sample","-20","Carrión, J.S., Scott, L. and Vogel, J.C., 1999. Twentieth century changes in montane vegetation in the eastern Free State, South Africa, derived from palynology of hyrax dung middens. Journal of Quaternary Science 14(1), pp.1-16.;
Scott, L. and Vogel, J.C., 1992. Short-term changes of climate and vegetation revealed by pollen analysis of hyrax dung in South Africa. Review of Palaeobotany and Palynology, 74(3-4), pp.283-291.","10.1002/(SICI)1099-1417(199902)14:1<1::AID-JQS412>3.0.CO;2-Y;
10.1016/0034-6667(92)90012-6",22,"steppe",0.500639160653759,4705.7384616707,12.8924341415636,6.11459133644694,18.5163991835317,761.95705333575
7288,15599,17646,"Phelps et al., 2020","Rooiberg Shelter II","ROOIBG2_1",-28.666667,28.4,1740,"not applicable","terrestrial","not known","9","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.473877539697217,5217.08872553726,14.2933937685952,7.31833831956995,19.9128159972379,726.946387785337
7288,15600,17647,"Phelps et al., 2020","Rooiberg Shelter II","ROOIBG2_3",-28.666667,28.4,1740,"not applicable","terrestrial","not known","28","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.473877539697217,5217.08872553726,14.2933937685952,7.31833831956995,19.9128159972379,726.946387785337
7289,15601,1336,"Australian pollen","Rooty Breaks Swamp","Rooty Breaks Swamp",-37.3333,148.8333,1100,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.843223628942184,3224.64372076353,8.83464033085898,1.51213060677122,16.0112078641387,979.559450388767
7290,15602,22104,"SMPDSv1","Ropinsalmi","FIN/SPH/M24",68.6789305555556,21.564025,402,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.31653043846905,1187.20051992263,-2.63596990280916,-16.2825171860501,11.9445452556597,515.37636138945
7291,15603,13795,"Neotoma","Roque Island Hollow","ROQUEIS",44.573075,-67.530695,20,"not known","small hollow","core","21","Schauffler, M. 1998. Paleoecology of coastal and interior Picea (spruce) stands in Maine. Doctoral dissertation. University of Maine, Orono, Maine, USA.; Schauffler, M., and G.L. Jacobson, Jr. 2002. Persistence of coastal spruce refugia during the Holocene in northern New England, USA, detected by stand-scale pollen stratigraphies. Journal of Ecology 90(2):235-250.","10.1046/j.1365-2745.2001.00656.x",9,"cool mixed forest",1.58825206263444,2967.00393696958,6.88085896915161,-6.06846774028839,18.9511839444197,1251.741255133
7292,15604,11196,"Bush et al., 2020","Rosada","Rosada",21.34,-89.3,2,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.544696142935124,9460.10076500472,25.9180842876842,22.6161883143974,28.0990268278089,834.96621306753
7293,15605,7183,"EMPDv2","Rosaninsee","EPDcoretop_E2355",46.95,13.78,2070,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.68603529251775,796.803040662414,-0.943163426435885,-8.40404271761431,6.82882176917679,1737.15454225556
7294,15606,11197,"Bush et al., 2020","Rosario","Rosario",16.53,-90.16,118,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",1.51483172315762,9451.59324648323,25.8947760177623,23.0075415158051,28.0205356673931,2497.4139556647
7295,15607,17535,"Neotoma","Rose 1a (Watts and Wright 1966)","WAWHEW01",43,-101.42,992,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",22,"steppe",0.441915907692053,3499.06692593818,8.39185203632321,-6.01579683263388,23.0189562426725,447.444451233394
7296,15608,17536,"Neotoma","Rose 1b (Watts and Wright 1966)","WAWHEW02",43,-101.42,992,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",22,"steppe",0.441915907692053,3499.06692593818,8.39185203632321,-6.01579683263388,23.0189562426725,447.444451233394
7297,15609,17537,"Neotoma","Rose 2 (Watts and Wright 1966)","WAWHEW03",42.83,-102,1082,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",22,"steppe",0.425716410276542,3479.41476665012,8.46196400528158,-5.51298230579002,22.8829376609061,433.810278201475
7298,15610,17538,"Neotoma","Rose 3 (Watts and Wright 1966)","WAWHEW04",42.75,-102.33,1082,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",22,"steppe",0.417417932987301,3486.76212689984,8.50674457833591,-5.41902429654288,22.9050362586699,425.893208689924
7299,15611,17539,"Neotoma","Rose 4 (Watts and Wright 1966)","WAWHEW05",42.75,-103.83,1478,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",17,"temperate evergreen needleleaf open woodland",0.374034096799446,3180.03961559882,7.7919912305323,-4.73013725679796,21.5289440220369,379.444737983587
7300,15612,17540,"Neotoma","Rose 5 (Watts and Wright 1966)","WAWHEW06",42.75,-104.33,1526,"not known","artificial water body","surface sample","Modern","Watts, W.A. and Wright Jr, H.E., 1966. Late‐Wisconsin pollen and seed analysis from the Nebraska Sandhills. Ecology, 47(2), pp.202-210.","10.2307/1933766",17,"temperate evergreen needleleaf open woodland",0.367316444601823,3122.35860952716,7.58895992794859,-4.84839659839703,21.2699266873602,371.401518157201
7301,15613,12209,"Neotoma","Rose Canyon","HMCMRC",32.3936,-110.6985,2160,"not known","terrestrial","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",20,"xerophytic woods/scrub",0.347420035469973,3728.21563842834,10.2142894203516,1.55332812868556,19.8450437063188,474.902312856578
7302,15614,11617,"Neotoma","Rose Hill","ROS-1C",44.314775,-98.777025,569,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.515189565463989,3526.84667358402,7.54632119243416,-9.66966076059455,23.5319936629461,486.949763406859
7302,15615,11618,"Neotoma","Rose Hill","ROS-1M",44.314775,-98.777025,569,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.515189565463989,3526.84667358402,7.54632119243416,-9.66966076059455,23.5319936629461,486.949763406859
7303,15616,13206,"Neotoma","Rose Swamp","ROSE1",44.18,-79.44,228,"not known","terrestrial, bog/fen/swamp","core","-28","Dibb, G.C. 1985. Late palaeo-indian settlement patterns along the margins of the Simcoe Lowlands in southcentral Ontario. Thesis. Department of Anthropology, Trent University, Peterborough, Ontario. 273 pp.",,9,"cool mixed forest",1.07446494350714,3107.80172810741,6.81317941921389,-7.73945193824169,20.2577660181799,912.250036754182
7303,15616,13207,"Neotoma","Rose Swamp","ROSE1",44.18,-79.44,228,"not known","terrestrial, bog/fen/swamp","core","43","Dibb, G.C. 1985. Late palaeo-indian settlement patterns along the margins of the Simcoe Lowlands in southcentral Ontario. Thesis. Department of Anthropology, Trent University, Peterborough, Ontario. 273 pp.",,9,"cool mixed forest",1.07446494350714,3107.80172810741,6.81317941921389,-7.73945193824169,20.2577660181799,912.250036754182
7304,15617,13208,"Neotoma","Ross Pond","ROSSPOND",43.921389,-69.410278,37,"not known","lake","core","-22","Kellogg, D.C. 1991. Prehistoric landscapes, paleoenvironments, and archaeology of Western Muscongus Bay, Maine. Dissertation. University of Maine, Orono, Maine, USA.",,9,"cool mixed forest",1.44913854859179,3128.3408523961202,7.19188603551924,-6.71994938253221,20.1659131947688,1166.38976283746
7305,15618,22105,"SMPDSv1","Rotavatn","Bjune_a96",60.3805846,4.9973034,48,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.85521482511894,2569.12360341191,7.03869480386825,0.784014903198917,13.9040852562441,2010.79702297881
7306,15619,15549,"Neotoma","Rotenberger Site 1","DAW020",26.363333,-80.849167,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.910243578656684,8656.42893056631,23.7162436453871,18.1704786956885,28.2134520998837,1315.18279704282
7307,15620,22106,"SMPDSv1","Rotenegg","CH/WVDK/G08",46.654372,8.010647,2020,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73482524222211,1201.83489911271,1.52665379627421,-5.73949339750163,9.38887729904523,2003.51908089649
7307,15621,22107,"SMPDSv1","Rotenegg","CH/WVDK/G14",46.653248,8.010504,1955,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66919268876518,1276.66201719416,1.86847588516517,-5.48519076827273,9.7869387530037,1967.53699435645
7308,15622,22108,"SMPDSv1","Rotmoos Obergurgl","EPDcoretop_E1202",46.843333,11.023889,2267,"not known","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.038176421821,654.880995667919,-1.39794348600322,-8.32081597695578,5.96857623805293,1971.96469287733
7309,15623,22109,"SMPDSv1","Rotmoos-Eriz","EPDcoretop_E1153",46.794167,7.841667,1190,"not known","terrestrial, bog/fen/swamp","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.9783320922593,2241.49582098251,5.67999837941218,-2.62035693819504,14.1687376412857,1526.97267274387
7310,15624,24473,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka Tawa Stand 5",-38.1729,176.2637,500,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.86457249963993,4151.61519042877,11.3742881929555,6.15635851474325,16.4682955094856,1786.89188263174
7310,15625,24474,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka Tawa Stand 6",-38.18,176.256,500,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.86495763882873,4151.40036375486,11.3736996267256,6.15578241269899,16.4678269590762,1786.89152080517
7310,15626,24469,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka_1",-38.22,176.301,560,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.90182417253845,4024.29828973559,11.0254747663989,5.79071009698592,16.1516982966876,1812.00510901307
7310,15627,24470,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka_2",-38.22,176.301,560,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.90182417253845,4024.29828973559,11.0254747663989,5.79071009698592,16.1516982966876,1812.00510901307
7310,15628,24471,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka_3",-38.22,176.301,560,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.90182417253845,4024.29828973559,11.0254747663989,5.79071009698592,16.1516982966876,1812.00510901307
7310,15629,24472,"Southern Hemisphere pollen","Rotohokahoka Lagoon","Rotohokahoka_4",-38.22,176.301,560,"medium (1.1-50 km2)","lake","surface sample","-30","Macphail, M.K., 1980. Fossil and modern Beilschmiedia (lauraceae) pollen in New Zealand. New Zealand Journal of Botany, 18(4), pp.453-457.","10.1080/0028825X.1980.10425165",16,"temperate sclerophyll woodland and shrubland",1.90182417253845,4024.29828973559,11.0254747663989,5.79071009698592,16.1516982966876,1812.00510901307
7311,15630,22110,"SMPDSv1","Rotsee","EPDcoretop_E553",47.075556,8.325556,419,"4.19","lake","lacustrine core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.27561487350282,3504.38563147914,9.60105652460038,0.276966945076759,18.7041730334902,1018.42207631557
7311,15631,22111,"SMPDSv1","Rotsee","EPDcoretop_E554",47.075556,8.325556,419,"4.19","lake","lacustrine core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.27561487350282,3504.38563147914,9.60105652460038,0.276966945076759,18.7041730334902,1018.42207631557
7312,15632,1337,"Australian pollen","Rotten Swamp","Rotten Swamp_0",-35.7,148.8833,1445,"not known","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.947572661292133,2563.47669754859,6.96287791021906,-0.663618713885985,14.5595072885951,1127.29983782883
7312,15633,1338,"Australian pollen","Rotten Swamp","Rotten Swamp_9",-35.7,148.8833,1445,"not known","terrestrial, bog/fen/swamp","core","37","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.947572661292133,2563.47669754859,6.96287791021906,-0.663618713885985,14.5595072885951,1127.29983782883
7312,15634,1339,"Australian pollen","Rotten Swamp","Rotten Swamp_a",-35.7,148.8833,1445,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.947572661292133,2563.47669754859,6.96287791021906,-0.663618713885985,14.5595072885951,1127.29983782883
7312,15635,1340,"Australian pollen","Rotten Swamp","Rotten Swamp_b",-35.7,148.8833,1445,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.947572661292133,2563.47669754859,6.96287791021906,-0.663618713885985,14.5595072885951,1127.29983782883
7313,15636,1341,"Australian pollen","Rottnest Island","Rottnest Island (RS)",-32,115.5,25,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.473639346725214,6654.74986307699,18.2321914056904,13.2078625564858,24.404906063886,689.646302326754
7314,15637,7140,"EMPDv2","Rough Island","EPDcoretop_E2152",52.03,-9.53,20,"0.0053","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.72019637687353,3683.16163977895,10.0908538076135,5.71571871077472,15.2635559505279,1102.25975037205
7314,15638,22112,"SMPDSv1","Rough Island","Mitchell_a11",52.0333333333333,-9.53333333333333,17,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.71472093391915,3688.05281011066,10.1042542742758,5.72529852932207,15.2776973670193,1098.8489232969
7314,15639,22113,"SMPDSv1","Rough Island","Mitchell_a12",52.0333333333333,-9.53333333333333,17,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.71472093391915,3688.05281011066,10.1042542742758,5.72529852932207,15.2776973670193,1098.8489232969
7315,15640,14087,"Neotoma","Roulston Lake (MS-78-15)","MS-78-15",46.89451,-67.4,151,"not known","lake","core","49","Mott, R.J. 1985. Late-glacial climatic change in the Maritimes. Pages 281-300 in C.R. Harington, editor. Climatic Change in Canada. Volume 5. Critical Periods in the Quaternary Climatic History of Northern North America. SYLLOGEUS 55.; Jette, H., and R.J. Mott. 1995. Vegetation and climate of maritime Canada 6000 years B.P.: a synthesis. Geographie physique et Quaternaire 49:141-162.; Mott, R.J., D.R. Grant, R. Stea, and S. Occhietti. 1986. Late-glacial climatic oscillation in Atlantic Canada equivalent to the Allerød/Younger Dryas event. Nature 323: 247-250..",,9,"cool mixed forest",1.52707829521838,2539.10361717929,4.06757900489626,-11.5577594624195,18.3537295143178,1113.65106699949
7316,15641,13554,"Neotoma","Round Grove Lake","RNDGROVE",44.709,-94.4935,318,"not known","lake","core","-23","Unpublished data",,22,"steppe",0.822131536462409,3444.25384631612,6.82901845231918,-11.7249712393009,22.5146475718033,714.036424372714
7316,15641,13555,"Neotoma","Round Grove Lake","RNDGROVE",44.709,-94.4935,318,"not known","lake","core","28","Unpublished data",,22,"steppe",0.822131536462409,3444.25384631612,6.82901845231918,-11.7249712393009,22.5146475718033,714.036424372714
7317,15642,11513,"Neotoma","Round Lake","NDBERO",48.02619,-99.23122,439,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.588240237020592,2840.38775681975,3.58484621160076,-16.068639003331,20.2183644985988,476.250401348794
7317,15643,11502,"Neotoma","Round Lake","NDMHRO",48.031485000000004,-100.276595,469,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.597798826576929,2781.89950678325,3.40504097689477,-16.1640835070511,19.9946236020667,484.43283350647
7317,15644,16728,"Neotoma","Round Lake","REB001",41.23644,-86.664385,216,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.999796090870581,3995.17382494451,10.1103088858483,-5.06553990465377,23.1641741920184,935.622830391945
7317,15645,17384,"Neotoma","Round Lake","TW091",44.32,-85.33,395,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.956919294380176,2971.00737721759,6.36792404566169,-7.54822393661884,19.6906554494003,778.699030624517
7317,15646,17410,"Neotoma","Round Lake","TW117",42.88,-84.45,254,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.940423950892961,3474.3507325944,8.30644265905346,-6.12579952995826,21.547453500103,820.973845395699
7317,15647,17428,"Neotoma","Round Lake","TW136",41.95,-84.28,320,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.9896425589424,3655.40425687817,8.94595343789676,-5.71781240543574,21.951707154524,882.237607478527
7318,15648,22114,"SMPDSv1","Round Loch of Glenhead","EPDcoretop_E924",55.092103,-4.430034,300,"0.11991","lake","core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.37620124793538,2506.63269128711,6.86748682544414,1.53823196890365,12.8429309376359,1786.7176197462
7319,15649,15744,"Neotoma","Round P.","DRW043",44.12496,-73.732865,527,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.39219460249227,2662.38404585093,4.93361808983053,-9.8703961374368,18.2518386606019,1064.35848192591
7320,15650,15554,"Neotoma","Round Pond","DCG06",42.65,-73.43,529,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.39192054494995,2821.83931610314,5.70026547575359,-8.90584249212955,18.8825931675568,1101.31496727367
7320,15651,14252,"Neotoma","Round Pond","ROUNDON",52.531655,-91.3723611111111,358,"not known","lake","core","-30","Unpublished data",,15,"cold evergreen needleleaf forest",1.04740880899793,2137.9070890237,-0.421711626682233,-21.3373782283553,17.7306885967555,679.787161234812
7321,15652,8289,"EMPDv2","Rovegno","Montanari_b3",44.5767277777778,9.27866388888889,662,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.20540649345257,3500.33390633136,9.58995590775715,0.711609649998313,18.6934279678352,1142.3209894123
7322,15653,11506,"Neotoma","Roy Lake","SDMARO",45.6952,-97.44989,547,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.595479580887519,3283.95610609719,6.16772893198131,-12.1685705597976,22.3725224359769,523.424219041489
7323,15654,23167,"SMPDSv1","Royhommane","Bjune_a216",58.6466666666666,7.8,205,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21639337741391,2303.32461146893,5.62226287220345,-3.49229677522203,14.7524612686051,1308.58240572066
7324,15655,7441,"EMPDv2","Royrtjorna","Hjelle_a30",59.5264889,5.68815,25,"0.068","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.63114203303789,2724.79488344401,7.46519146149045,0.942604320235526,14.4612798838353,1971.57010908391
7325,15656,22115,"SMPDSv1","Royslitjern","Bjune_a63",61.09301038,10.5206517,461,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36077824333636,1829.36827284103,2.69902126634961,-8.58217612779076,13.6671229230066,732.569453756012
7326,15657,22116,"SMPDSv1","Roztocze","Pidek_a1",50.5927777777777,23.0641666666666,243,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809090582964552,3068.69227296176,7.75892980554376,-4.12091455029185,17.7976076960724,612.565314639478
7326,15658,22117,"SMPDSv1","Roztocze","Pidek_a10",50.5927777777777,23.0641666666666,243,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809090582964552,3068.69227296176,7.75892980554376,-4.12091455029185,17.7976076960724,612.565314639478
7326,15659,22118,"SMPDSv1","Roztocze","Pidek_a11",50.5902777777777,23.0591666666666,243,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809010904511207,3068.78327816598,7.75952751131792,-4.11950864293816,17.797564284489,612.556367301247
7326,15660,22119,"SMPDSv1","Roztocze","Pidek_a12",50.5877777777777,23.0577777777777,247,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812703060314373,3065.84905144847,7.74917365206399,-4.12885159132384,17.782806756826,615.299070478118
7326,15661,22120,"SMPDSv1","Roztocze","Pidek_a13",50.5947222222222,23.0577777777777,257,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.821961462340605,3058.20081049117,7.72200603640057,-4.15395989585401,17.7453770102046,622.006021778108
7326,15662,22121,"SMPDSv1","Roztocze","Pidek_a14",50.5869444444444,23.0630555555555,279,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.842490114014778,3041.83798571446,7.66350135703929,-4.20892833280615,17.6642666685565,637.108748975209
7326,15663,22122,"SMPDSv1","Roztocze","Pidek_a15",50.5822222222222,23.0669444444444,305,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.866708813139097,3022.47066985678,7.59408803890408,-4.27369472726182,17.5680018616617,654.855098908471
7326,15664,22123,"SMPDSv1","Roztocze","Pidek_a16",50.5825,23.0736111111111,246,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812080309474562,3066.62043220104,7.75103276794968,-4.12983405368443,17.7873401047636,614.839221263151
7326,15665,22124,"SMPDSv1","Roztocze","Pidek_a17",50.5725,23.0538888888888,348,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.906429132153543,2990.46825547123,7.48000927983469,-4.37762009187741,17.4081266078869,683.957370495031
7326,15666,22125,"SMPDSv1","Roztocze","Pidek_a18",50.5877777777777,23.0577777777777,247,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812703060314373,3065.84905144847,7.74917365206399,-4.12885159132384,17.782806756826,615.299070478118
7326,15667,22126,"SMPDSv1","Roztocze","Pidek_a19",50.5947222222222,23.0577777777777,257,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.821961462340605,3058.20081049117,7.72200603640057,-4.15395989585401,17.7453770102046,622.006021778108
7326,15668,22127,"SMPDSv1","Roztocze","Pidek_a2",50.5902777777777,23.0591666666666,243,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809010904511207,3068.78327816598,7.75952751131792,-4.11950864293816,17.797564284489,612.556367301247
7326,15669,22128,"SMPDSv1","Roztocze","Pidek_a20",50.5822222222222,23.0669444444444,305,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.866708813139097,3022.47066985678,7.59408803890408,-4.27369472726182,17.5680018616617,654.855098908471
7326,15670,22129,"SMPDSv1","Roztocze","Pidek_a3",50.5877777777777,23.0577777777777,247,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812703060314373,3065.84905144847,7.74917365206399,-4.12885159132384,17.782806756826,615.299070478118
7326,15671,22130,"SMPDSv1","Roztocze","Pidek_a4",50.5947222222222,23.0577777777777,257,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.821961462340605,3058.20081049117,7.72200603640057,-4.15395989585401,17.7453770102046,622.006021778108
7326,15672,22131,"SMPDSv1","Roztocze","Pidek_a5",50.5869444444444,23.0630555555555,279,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.842490114014778,3041.83798571446,7.66350135703929,-4.20892833280615,17.6642666685565,637.108748975209
7326,15673,22132,"SMPDSv1","Roztocze","Pidek_a6",50.5822222222222,23.0669444444444,305,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.866708813139097,3022.47066985678,7.59408803890408,-4.27369472726182,17.5680018616617,654.855098908471
7326,15674,22133,"SMPDSv1","Roztocze","Pidek_a7",50.5825,23.0736111111111,246,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.812080309474562,3066.62043220104,7.75103276794968,-4.12983405368443,17.7873401047636,614.839221263151
7326,15675,22134,"SMPDSv1","Roztocze","Pidek_a8",50.5725,23.0538888888888,348,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.906429132153543,2990.46825547123,7.48000927983469,-4.37762009187741,17.4081266078869,683.957370495031
7326,15676,22135,"SMPDSv1","Roztocze","Pidek_a9",50.5722222222222,23.0686111111111,355,"not applicable","terrestrial","moss polster or moss","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.913197824781778,2985.21160987706,7.46049929575377,-4.39750517502282,17.382404195308,688.855258174293
7327,15677,6796,"EMPDv2","RS139","Binney2017_E3604",62.33,150.77,340,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.774384242634273,1258.31710093403,-11.6913647871904,-36.0680784321274,13.3947955499925,308.07690116879
7328,15678,6797,"EMPDv2","RS143","Binney2017_E3605",60.3,152.31,480,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.2842416154421,1016.62161835856,-7.37826563787513,-24.6591140472737,10.5061706521839,462.980250624651
7329,15679,6798,"EMPDv2","RS145","Binney2017_E3607",59,151.83,700,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30872766956958,848.5261964856,-8.24399099090475,-25.0226685575606,9.18738937670404,469.195675038677
7330,15680,6799,"EMPDv2","RS146","Binney2017_E3608",59.02,151.85,580,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32389799071691,931.820230422072,-7.28624025703902,-23.7441775864061,9.73563618866991,480.870858761003
7331,15681,6800,"EMPDv2","RS147","Binney2017_E3609",64.78,175.52,32,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.05804023586649,962.801511246019,-7.82176054489433,-22.9839273841721,11.1073887012404,353.17392504474
7332,15682,6801,"EMPDv2","RS149","Binney2017_E3611",64.83,175.25,36,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.04621778646291,967.572525567455,-7.91749527601514,-23.1572225465736,11.1598635480351,349.087555046427
7333,15683,6802,"EMPDv2","RS151","Binney2017_E3613",64.5,177.17,55,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.14032903218507,909.66022215806,-7.59393148152402,-22.3834104082338,10.5783104756367,379.376132275398
7334,15684,6803,"EMPDv2","RS152","Binney2017_E3614",59.57,150.65,309,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.29352879237328,1165.77181543304,-4.96110494317621,-20.6234991154667,11.2803441330895,480.815271785941
7335,15685,16950,"Neotoma","RS23","RS23SS",73.85,-94.9,110,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",31,"tundra",0.594501544354607,218.038665856157,-16.9856582450423,-34.155349675399,4.19053356405228,131.946119682243
7336,15686,16951,"Neotoma","RS25","RS25SS",73.516667,-95.483333,180,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.627885594265962,220.986731731,-16.9925440974867,-34.2853276225263,4.24319783491358,140.671887807497
7337,15687,16952,"Neotoma","RS26","RS26SS",73.35,-95.383333,170,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",31,"tundra",0.620795064580574,223.604434814843,-16.9775634979002,-34.3089520235609,4.27666949464563,139.446202718355
7338,15688,16954,"Neotoma","RS30","RS30SS",72.483333,-95.033333,240,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.678943964134381,222.625359767415,-17.1095394179527,-34.5447655817397,4.27513761406443,154.267580249197
7339,15689,16955,"Neotoma","RS31","RS31SS",72.216667,-94.95,210,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.645343947745695,249.013945302279,-16.9698314680707,-34.786550617488,4.6144041860413,149.018934364149
7340,15690,16956,"Neotoma","RS32","RS32SS",72.033333,-94.633333,240,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.658385226555802,249.767196348369,-17.0035125218375,-34.8500831114413,4.62298835210389,152.774648858547
7341,15691,16957,"Neotoma","RS33","RS33SS",72.016667,-94.766667,130,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.607749260828618,261.961418552491,-16.8153512006944,-34.7048557820781,4.76558971215973,140.987403644114
7342,15692,16958,"Neotoma","RS34","RS34SS",72.016667,-94.883333,110,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.598007973733513,264.009385773137,-16.7853134614002,-34.6870634241203,4.78893279550182,138.696911912238
7343,15693,16960,"Neotoma","RS37","RS37SS",72.666667,-95.083333,270,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.697594379239967,213.35055534902,-17.1709009028082,-34.4766008185101,4.1547987598728104,157.636020634711
7344,15694,16961,"Neotoma","RS38","RS38SS",72.683333,-94.383333,150,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.624214190579681,247.74836937442,-16.842819660101,-34.4351736651794,4.58283450540587,142.833029261876
7345,15695,16962,"Neotoma","RS40","RS40SS",72.6,-93.866667,130,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.604948444288731,265.049379887259,-16.6681864965945,-34.3265228566795,4.79188475452196,139.894293094377
7346,15696,16963,"Neotoma","RS41","RS41SS",72.833333,-93.95,220,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.660866581065309,222.083448705289,-17.0525026804369,-34.3050981401779,4.25719040141228,149.63383559221
7347,15697,16964,"Neotoma","RS42","RS42SS",72.8,-95.133333,180,"not known","lake","surface sample","Modern","Gajewski, K., 1995. Modern and Holocene pollen assemblages from some small Arctic lakes on Somerset Island, NWT, Canada. Quaternary Research, 44(2), pp.228-236.","10.1006/qres.1995.1067",28,"tundra",0.637865075143559,228.523976783769,-16.9886495591732,-34.4124319969994,4.34194849735271,144.489562239903
7348,15698,22136,"SMPDSv1","Rubanova kosa","Rubanova kosa_SS",45.3095,36.7986,23,"not known","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.557233230674946,4160.2828566587,11.2833944890412,-0.990278230352046,22.9392408371471,565.843528459495
7349,15699,7920,"EMPDv2","Rubiera","Mercuri_i1",44.6535,10.794213,48,"not applicable","terrestrial, soil","soil sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.770549422198488,4811.32120426975,13.1817019295062,2.94387048375293,23.0543699413514,805.290656647382
7350,15700,22137,"SMPDSv1","Rubnoe","Rubnoe_SS",43.7,41.2069,2115,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21074269263892,1550.74469543163,0.47863760881944,-12.8794245640003,12.2226827154289,1055.69199977558
7351,15701,13209,"Neotoma","Ruby Lake","RUBYLAKE",45.283333,-91.458333,335,"not known","lake","core","-15","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.933136874432536,3106.50919706668,5.76604192941983,-11.9314315629206,20.897276178896,764.368260162071
7351,15701,13210,"Neotoma","Ruby Lake","RUBYLAKE",45.283333,-91.458333,335,"not known","lake","core","2","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.933136874432536,3106.50919706668,5.76604192941983,-11.9314315629206,20.897276178896,764.368260162071
7351,15701,13211,"Neotoma","Ruby Lake","RUBYLAKE",45.283333,-91.458333,335,"not known","lake","core","19","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.933136874432536,3106.50919706668,5.76604192941983,-11.9314315629206,20.897276178896,764.368260162071
7351,15701,13212,"Neotoma","Ruby Lake","RUBYLAKE",45.283333,-91.458333,335,"not known","lake","core","36","Gajewski, K., editor. 1985. Late-Holocene pollen data from lakes with varved sediments in northeastern and northcentral United States. IES Report 124, Center for Climatic Research, University of Wisconsin, Madison, Wisconsin, USA.; Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quaternary Research 29(3):255-262. Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Review of Palaeobotany and Palynology 44(3-4):277-292. http://www.sciencedirect.com/science/article/pii/0034666785900211.","10.1016/0033-5894(88)90034-8",9,"cool mixed forest",0.933136874432536,3106.50919706668,5.76604192941983,-11.9314315629206,20.897276178896,764.368260162071
7352,15702,22138,"SMPDSv1","Rucava 1","LV/LK/RU1",56.205278,21.086389,15.7,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06751434094638,2777.89806161699,6.95459577779677,-3.46191365215435,16.8140340350657,712.595976225919
7353,15703,22139,"SMPDSv1","Rudushskoe Lake","EPDcoretop_E560",56.5,27.55,150,"0.61","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.960112766527711,2576.90006792306,5.32499252077584,-7.41083007558677,16.8373290944041,621.002241492846
7354,15704,22140,"SMPDSv1","Ruegen","Dambach_a435",54.3722,13.426,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.879783107122601,3039.52502978129,8.20990876687076,-0.887422948364839,17.1590777453095,604.596646877736
7354,15705,22141,"SMPDSv1","Ruegen","Dambach_a436",54.3741,13.4374,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.879816778737664,3039.03277203861,8.20810836352694,-0.89026686351591,17.1584060758965,604.626688730369
7354,15706,22142,"SMPDSv1","Ruegen","Dambach_a437",54.38,13.4438,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.880037687132787,3038.21585908266,8.20539744989179,-0.893005720102907,17.1565259450338,604.733709617658
7354,15707,22143,"SMPDSv1","Ruegen","Dambach_a438",54.3807,13.4452,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.880061395113797,3038.10294613152,8.20501140121126,-0.893465500821521,17.1562974158247,604.746139643413
7354,15708,22144,"SMPDSv1","Ruegen","Dambach_a439",54.3851,13.4341,50,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.880288990003837,3037.88573280749,8.20457310922231,-0.892172587364773,17.1550160748005,604.833068292257
7354,15709,22145,"SMPDSv1","Ruegen","Dambach_a440",54.4768,13.5545,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.86271080353042,3065.30455860255,8.27372550942162,-0.913334610545935,17.3208250153444,595.854526529475
7354,15710,22146,"SMPDSv1","Ruegen","Dambach_a441",54.4771,13.5602,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.862713489362419,3065.41347904541,8.27386023994336,-0.9146189327109,17.3216959437911,595.859129523657
7354,15711,22147,"SMPDSv1","Ruegen","Dambach_a442",54.4771,13.5636,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.862710082336505,3065.4833383714,8.27395574780939,-0.915376183596036,17.3222306802051,595.86058967275
7354,15712,22148,"SMPDSv1","Ruegen","Dambach_a443",54.5679,13.6326,150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.937742341984651,2895.63051998929,7.78568908444573,-1.07108650137851,16.580559241257,634.402729811628
7354,15713,22149,"SMPDSv1","Ruegen","Dambach_a444",54.5681,13.6496,140,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932521588971796,2905.21134527264,7.81261246529438,-1.06493485050546,16.625840967556,631.773045410285
7354,15714,22150,"SMPDSv1","Ruegen","Dambach_a445",54.5681,13.6589,100,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.912257858804859,2951.69326989063,7.94542506968753,-1.02924514542885,16.8318913474581,621.323567644662
7354,15715,22151,"SMPDSv1","Ruegen","Dambach_a446",54.5692,13.6683,100,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.912267833730077,2950.75211246698,7.94237273399663,-1.03156796304408,16.8293940499314,621.350715189633
7354,15716,22152,"SMPDSv1","Ruegen","Dambach_a447",54.5692,13.6683,100,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.912267833730077,2950.75211246698,7.94237273399663,-1.03156796304408,16.8293940499314,621.350715189633
7355,15717,22153,"SMPDSv1","Ruisseau de Laurenti","Barboni_a1304",42.675,2.029444,1905,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.04620925952208,2229.69219154169,5.8206419952504,-1.675283704523,14.8249204086618,1022.96934021961
7356,15718,16659,"Neotoma","Ruisseau Jardin Site 1","PJHR012",47.633333,-70.916667,773,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.96403391442594,1961.00096786706,0.758058674919651,-15.9064527910695,15.7251296794744,1336.76266156652
7357,15719,16660,"Neotoma","Ruisseau Jardin Site 2","PJHR013",47.633333,-70.916667,742,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.94145707100153,1980.29525098589,0.85388055202883,-15.8260875948092,15.8234752021916,1323.10326306311
7357,15720,16661,"Neotoma","Ruisseau Jardin Site 2","PJHR014",47.633333,-70.916667,742,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.94145707100153,1980.29525098589,0.85388055202883,-15.8260875948092,15.8234752021916,1323.10326306311
7358,15721,22154,"SMPDSv1","Rukatunturi","EPDcoretop_E562",66.166667,29.15,462,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.75750457078131,1031.33644685529,-3.4194456289858,-16.247753336356,11.1869960601382,649.817347262478
7359,15722,8233,"EMPDv2","Rukav","Mikishin-Gvozdeva_b64",42.7886111111111,131.281944444444,-1,"0.007","lake","sediment sample","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.931279857846343,3242.02474900015,6.28500836831154,-11.5260158746209,21.7003882864251,749.211808080833
7360,15723,22155,"SMPDSv1","Rummu","Seppa_b137",59.45,25.3,41,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06383094638931,2400.10547286119,4.88028373063754,-6.87403805163589,16.607529734036,625.948851759473
7361,15724,22156,"SMPDSv1","Rumpetrollvatn","Bjune_a245",70.655,23.715,67,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.20570782156838,1211.74245545193,-1.13566440523023,-12.3325319968721,11.9387876302704,754.801374186971
7362,15725,22157,"SMPDSv1","Runder Koellnsee","Runder Koellnsee_ss",52.98064,13.6685,74,"0.027","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789857275687685,3321.96909768083,9.02758338441189,-0.72787766892324,18.1076158814283,555.081220108294
7363,15726,23182,"SMPDSv1","Rundvannet","Bjune_a302",70.6883333333333,23.725,116,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.17136264157419,1186.35737280849,-1.4663510260342,-12.935991482339,11.8360831298183,744.761685424493
7364,15727,4376,"CMPD","Ruoergai","Ruoergai",33.9,102.55,3396,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.518499843160169,1852.34784887314,3.06876682469557,-8.46544248285579,12.6242078900272,527.839102796795
7364,15728,4377,"CMPD","Ruoergai","Ruoergai RM",33.95,102.35,3401,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.514131436648857,1833.6488664732,2.97874266805047,-8.57653939499357,12.5465183106413,523.013375542316
7365,15729,4378,"CMPD","Ruoguo Glacier","Ruoguo Glacier 01",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15730,4379,"CMPD","Ruoguo Glacier","Ruoguo Glacier 02",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15731,4380,"CMPD","Ruoguo Glacier","Ruoguo Glacier 04",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15732,4381,"CMPD","Ruoguo Glacier","Ruoguo Glacier 05",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15733,4382,"CMPD","Ruoguo Glacier","Ruoguo Glacier 06",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15734,4383,"CMPD","Ruoguo Glacier","Ruoguo Glacier 07",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15735,4384,"CMPD","Ruoguo Glacier","Ruoguo Glacier 08",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15736,4385,"CMPD","Ruoguo Glacier","Ruoguo Glacier 09",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7365,15737,4386,"CMPD","Ruoguo Glacier","Ruoguo Glacier 10",30.47,93.97,4630,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.463698961617139,1188.0687558207,0.387798024059404,-9.50454181791912,9.23795176010671,525.936426106144
7366,15738,4387,"CMPD","RuoguoG Hugong","RuoguoG Hugong 1",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15739,4388,"CMPD","RuoguoG Hugong","RuoguoG Hugong 2",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15740,4389,"CMPD","RuoguoG Hugong","RuoguoG Hugong 3",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15741,4390,"CMPD","RuoguoG Hugong","RuoguoG Hugong 4",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15742,4391,"CMPD","RuoguoG Hugong","RuoguoG Hugong 5",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15743,4392,"CMPD","RuoguoG Hugong","RuoguoG Hugong 6",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7366,15744,4393,"CMPD","RuoguoG Hugong","RuoguoG Hugong 7",30.47,93.97,3950,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.565213358660985,1949.64662596108,4.34982227811382,-4.74724954956909,12.2998806270926,672.513058168215
7367,15745,22158,"SMPDSv1","Ruokonen","Seppa_b54",63.07,26.12,135,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01959034198258,2070.2366033646,2.86265145823631,-10.2386985465525,16.1500447128652,535.196568700845
7368,15746,4394,"CMPD","Ruomohong","Ruomohong 1",36.37,96.18,2763,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.12750554466574,2710.82764282836,5.26388809718364,-9.40383418497282,17.964180918756,152.33043480667
7368,15747,4395,"CMPD","Ruomohong","Ruomohong 2",36.38,96.43,2940,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.141634933561279,2447.84789169978,4.26474122777769,-10.0880120411645,16.7552260952309,166.539805086524
7369,15748,16965,"Neotoma","Rush Basin","RUSHBAS",37.426389,-108.095,3610,"not known","lake","surface sample","Modern","Petersen, K.L., 1988. Climate and the Dolores River Anasazi: a paleoenvironmental reconstruction from a 10,000-year pollen record, La Plata Mountains, Southwestern Colorado. University of Utah, Anthropological Papers 113. University of Utah Pres, Salt Lake City, Utah, USA.",,17,"temperate evergreen needleleaf open woodland",0.802616461220363,707.318250756305,-3.84470823925235,-15.2630198760878,7.53093609039508,735.55300918827
7370,15749,17393,"Neotoma","Rush Lake","TW100",43.98,-83.17,183,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.966906221009029,3205.81317009855,7.20511929730984,-7.29291833850662,20.5315223995214,822.971193663223
7370,15750,17421,"Neotoma","Rush Lake","TW129",42.23,-86.2,198,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.969320383936098,3742.28594372981,9.24942558805495,-5.60907256810781,22.4853633416843,874.392469203807
7371,15751,1342,"Australian pollen","Russell River Inlet","R1",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7371,15752,1343,"Australian pollen","Russell River Inlet","R2",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7371,15753,1344,"Australian pollen","Russell River Inlet","R3",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7371,15754,1345,"Australian pollen","Russell River Inlet","R4",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7371,15755,1346,"Australian pollen","Russell River Inlet","R5",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7371,15756,1347,"Australian pollen","Russell River Inlet","R6",-17.24,145.95,235,"not applicable","coastal, estuarine","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.11545258648306,8616.15072713661,23.605892403114,19.4971416443598,26.4605001003857,1910.88693476359
7372,15757,22159,"SMPDSv1","Russkii Kashim","Russkii Kashim_SS",53.4509,46.6672,305,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.72161522956416,2889.54500917251,4.61759980781392,-12.2190476709558,20.1353088780638,541.518889130777
7373,15758,9505,"EMPDv2","Russkij-ust-mash","Novenko_c144",57.8714,56.3138,214,"0.01","terrestrial","litter","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.0951492365386,2283.84313309798,1.83835977608768,-15.6848629554643,18.3148263023928,627.887001054954
7373,15759,9506,"EMPDv2","Russkij-ust-mash","Novenko_c145",57.8758,56.3147,218,"0.01","terrestrial","litter","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09509270435715,2282.61770136568,1.82446710433068,-15.707020262549,18.303027231108,627.739349427006
7373,15760,9507,"EMPDv2","Russkij-ust-mash","Novenko_c146",57.8739,56.3125,190,"0.1","terrestrial, soil","soil sample","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09716096861228,2289.33789600416,1.91485607351464,-15.556501990969,18.3798435396649,629.269196745892
7373,15761,9508,"EMPDv2","Russkij-ust-mash","Novenko_c147",57.8814,56.3156,193,"0.1","terrestrial","moss polster or moss","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09733034848259,2288.16411049131,1.90335969856844,-15.574160529599,18.3701679624533,629.22182660104
7374,15762,8474,"EMPDv2","Russky peatland","Novenko_c37",53.4509,46.6672,305,"0.09","terrestrial","litter","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.72161522956416,2889.54500917251,4.61759980781392,-12.2190476709558,20.1353088780638,541.518889130777
7375,15763,8263,"EMPDv2","Russkyi_Paris","Mikishin-Gvozdeva_b94",43.01,131.910555555556,1,"not applicable","coastal, other","litter","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.945194312546312,3210.59819217277,6.139674115161,-11.6953134386961,21.5834196792505,751.678878192179
7376,15764,13213,"Neotoma","Rutz Lake","RUTZLAKE",44.87083,-93.8589749999999,314,"not known","lake","core","5","Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Waddington, J.C.B. 1969. A stratigraphic record of the pollen influx to a lake in the Big Woods of Minnesota. Geological Society of America Special Paper 123:263-282.","10.1016/0033-5894(75)90027-7",13,"temperate deciduous broadleaf forest",0.844035883362764,3415.13280416751,6.75393661942264,-11.7321405988037,22.3595130074471,726.082229811019
7376,15764,13214,"Neotoma","Rutz Lake","RUTZLAKE",44.87083,-93.8589749999999,314,"not known","lake","core","47","Stuiver, M. 1975. Climate versus changes in 13C content of the organic component of lake sediments during the late Quaternary. Quaternary Research 5(2):251-262. Waddington, J.C.B. 1969. A stratigraphic record of the pollen influx to a lake in the Big Woods of Minnesota. Geological Society of America Special Paper 123:263-282.","10.1016/0033-5894(75)90027-7",13,"temperate deciduous broadleaf forest",0.844035883362764,3415.13280416751,6.75393661942264,-11.7321405988037,22.3595130074471,726.082229811019
7377,15765,22160,"SMPDSv1","Ruuhilampi","Seppa_b72",60.33,24.47,103,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0447751065017,2220.3117411817,3.95276158824547,-8.17469628679998,16.1491821285206,582.769867577493
7378,15766,4396,"CMPD","Ruyuan","Ruyuan",24.51,113.12,260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41490947279753,7382.36405727349,20.2256549514342,10.8015027279456,28.0567948767956,1701.01765605027
7378,15767,4397,"CMPD","Ruyuan","Ruyuan 2",24.66,113.09,204,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.41930258870275,7526.90809309057,20.6216660084673,11.3407067560652,28.2555386401745,1712.35156100909
7379,15768,6252,"EMPDv2","Ryam","Binney2017_E2241",56.03,78.53,120,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.636707134765604,2409.55277786493,0.756645020786986,-18.3896388748415,19.6505749991052,389.715986594572
7380,15769,1348,"Australian pollen","Ryans Swamp","Ryans Swamp 2_1",-35.1528,150.65,1,"not known","terrestrial, bog/fen/swamp","core","11","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.954975682798378,6081.27121069565,16.6610170156045,11.3600786539608,21.3048747733533,1145.30291467408
7380,15770,1349,"Australian pollen","Ryans Swamp","Ryans Swamp 2_2",-35.1528,150.65,1,"not known","terrestrial, bog/fen/swamp","core","22","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.954975682798378,6081.27121069565,16.6610170156045,11.3600786539608,21.3048747733533,1145.30291467408
7380,15771,1350,"Australian pollen","Ryans Swamp","Ryans Swamp 2_4",-35.1528,150.65,1,"not known","terrestrial, bog/fen/swamp","core","44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.954975682798378,6081.27121069565,16.6610170156045,11.3600786539608,21.3048747733533,1145.30291467408
7381,15772,8237,"EMPDv2","Ryazanovskoe_Severovostok","Mikishin-Gvozdeva_b68",42.8122222222222,131.308055555556,1,"0.53","lake","sediment sample","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.931900771947958,3236.59962820418,6.25970688362098,-11.5567943883086,21.6793614304752,748.898930102619
7382,15773,8047,"EMPDv2","Rybnovsk_1","Mikishin-Gvozdeva_a109",53.2669444444444,141.791944444444,2,"0.026","coastal, lacustrine","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21997248565447,1846.21737195477,-1.0503735698361,-19.7565738368737,15.3628205529524,637.495630213171
7383,15774,8072,"EMPDv2","Rybnovsk_2","Mikishin-Gvozdeva_a135",53.3194444444444,141.803055555556,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22180838355816,1845.24494240074,-1.05118527793183,-19.7470030827152,15.3589840889942,637.620015549386
7384,15775,7033,"EMPDv2","Rynholec","EPDcoretop_E1604",50.13,13.93,478,"0.03","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.896033981315998,2966.85461608094,7.76282387953045,-2.4610020628041,17.0815103625243,656.307266645227
7385,15776,22161,"SMPDSv1","Rypelarstjern","Bjune_a22",68.98168642,19.45342362,162,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.31898063165195,1217.84470269554,0.12730561868448,-8.85323044134629,11.6034257402449,854.881850386482
7386,15777,22162,"SMPDSv1","Rypestol","Bjune_a223",58.185,7.87,123,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.00432066530955,2473.14397574002,6.31755495394375,-2.51924329391691,15.20496618679,1209.8639145069
7387,15778,10616,"BIOME6000 Japan","Ryugahara moor","D5004",39.133333,140.066667,1180,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.01950619555936,2483.88933012646,4.77754876479942,-8.09977349267588,18.1946603191073,1457.16581796633
7388,15779,8299,"EMPDv2","S.Pietro Vara","Montanari_b13",44.3348916666667,9.59008333333333,293,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.00984924784615,4401.51126660178,12.0589349769912,2.81876414570958,21.4238130143063,1024.29281904062
7389,15780,8297,"EMPDv2","S.Stefano d Aveto","Montanari_b11",44.547,9.45165833333333,1017,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.37306184306414,2676.02461384525,7.19352997083019,-1.16880462370883,15.9691264034609,1218.77365533875
7390,15781,23255,"SMPDSv1","S/LB/Bad_STN","S/LB/Bad_STN",68.3,18.8,386,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.16321784837162,1110.70130446967,-1.2128541244488,-11.634587973446,11.0881106486709,796.928077518999
7391,15782,23256,"SMPDSv1","S/LB/NJ","S/LB/NJ",68.4,18.7,450,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.34461813984551,1058.91502244987,-1.36496423302046,-11.5171543181908,10.7076331681756,846.459413739437
7392,15783,23257,"SMPDSv1","S/LB/Tib","S/LB/Tib",68.3,18.7,450,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.31452843497157,1064.4432850852,-1.36821894145679,-11.5993732567968,10.746246879874,838.468414973552
7393,15784,23258,"SMPDSv1","S/MH/1A_B","S/MH/1A_B",66.333,19.6,495,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36891525938429,1255.66987820858,-1.97392000377998,-15.7937281857666,11.9171221657814,561.199538699998
7394,15785,23259,"SMPDSv1","S/MH/2A-B","S/MH/2A-B",66.483,22.267,100,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1295693443482,1704.97071825059,0.532088883325513,-13.1525626163286,14.7114004301487,513.351108221864
7395,15786,23260,"SMPDSv1","S/MH/3A","S/MH/3A",67.517,22.617,245,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10259879839422,1476.2818122124,-1.08334716184827,-15.1983262306343,13.6625356646341,467.782917762178
7396,15787,23261,"SMPDSv1","S/MH/4A_B","S/MH/4A_B",67.517,22.583,240,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10082230563534,1485.36274403503,-1.0274745543923,-15.142417500493,13.7104589763441,467.952594039382
7397,15788,23262,"SMPDSv1","S/MH/5A_B","S/MH/5A_B",67.583,22.817,275,"not applicable","terrestrial","pollen trap","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.10421961564977,1425.60517695091,-1.43890675471307,-15.6014868041384,13.4233207759095,460.641172571276
7398,15789,23263,"SMPDSv1","S/MH/6A_B","S/MH/6A_B",68.267,21.533,430,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29523757702468,1172.84844887037,-2.70225215658432,-16.3306318049004,11.8381907543642,511.499905159268
7399,15790,23264,"SMPDSv1","S/MH/7A_B","S/MH/7A_B",68.467,21.083,590,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.61842582440793,975.28130982061,-3.53383831871691,-16.2879672947724,10.5016057450782,605.489585940521
7400,15791,6576,"EMPDv2","S035","Binney2017_E3294",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7401,15792,6577,"EMPDv2","S036","Binney2017_E3295",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7402,15793,6578,"EMPDv2","S037","Binney2017_E3296",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7403,15794,6579,"EMPDv2","S038","Binney2017_E3297",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7404,15795,6580,"EMPDv2","S039","Binney2017_E3298",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7405,15796,6581,"EMPDv2","S040","Binney2017_E3299",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7406,15797,6582,"EMPDv2","S041","Binney2017_E3300",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7407,15798,6583,"EMPDv2","S042","Binney2017_E3301",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7408,15799,6584,"EMPDv2","S043","Binney2017_E3302",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7409,15800,6585,"EMPDv2","S044","Binney2017_E3303",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7410,15801,6586,"EMPDv2","S045","Binney2017_E3304",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7411,15802,6587,"EMPDv2","S046","Binney2017_E3305",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7412,15803,6588,"EMPDv2","S047","Binney2017_E3306",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7413,15804,6589,"EMPDv2","S048","Binney2017_E3307",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7414,15805,6590,"EMPDv2","S049","Binney2017_E3308",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7415,15806,6591,"EMPDv2","S050","Binney2017_E3309",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7416,15807,6592,"EMPDv2","S051","Binney2017_E3310",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7417,15808,6593,"EMPDv2","S052","Binney2017_E3311",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7418,15809,6594,"EMPDv2","S054","Binney2017_E3313",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7419,15810,6595,"EMPDv2","S055","Binney2017_E3314",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7420,15811,6596,"EMPDv2","S056","Binney2017_E3315",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7421,15812,6597,"EMPDv2","S057","Binney2017_E3316",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7422,15813,6598,"EMPDv2","S058","Binney2017_E3317",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7423,15814,6599,"EMPDv2","S059","Binney2017_E3318",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7424,15815,6600,"EMPDv2","S060","Binney2017_E3319",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7425,15816,6601,"EMPDv2","S061","Binney2017_E3320",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7426,15817,6602,"EMPDv2","S062","Binney2017_E3321",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7427,15818,6603,"EMPDv2","S063","Binney2017_E3322",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7428,15819,6604,"EMPDv2","S064","Binney2017_E3323",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7429,15820,6605,"EMPDv2","S065","Binney2017_E3324",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7430,15821,6606,"EMPDv2","S066","Binney2017_E3325",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7431,15822,6607,"EMPDv2","S067","Binney2017_E3326",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7432,15823,6608,"EMPDv2","S068","Binney2017_E3327",60,151,743,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7433,15824,6609,"EMPDv2","S111","Binney2017_E3368",68.7,158.4,5,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.554524657483292,963.926781216786,-12.9998184708749,-33.832133103105,11.6464145648225,181.289044215997
7434,15825,6552,"EMPDv2","S115","Binney2017_E3216",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7435,15826,6553,"EMPDv2","S116","Binney2017_E3217",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7436,15827,6554,"EMPDv2","S117","Binney2017_E3218",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7437,15828,6555,"EMPDv2","S118","Binney2017_E3219",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7438,15829,6556,"EMPDv2","S119","Binney2017_E3220",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7439,15830,6557,"EMPDv2","S120","Binney2017_E3221",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7440,15831,6558,"EMPDv2","S121","Binney2017_E3222",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7441,15832,6559,"EMPDv2","S122","Binney2017_E3223",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7442,15833,6560,"EMPDv2","S123","Binney2017_E3224",69.3,177.5,255,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.952353557460803,435.886852364695,-12.8501790221952,-29.0925809677783,6.23088713826468,246.170127712301
7443,15834,6561,"EMPDv2","S124","Binney2017_E3225",65.75,-172.8,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.84988006207086,679.862580765178,-6.03625562068785,-18.5328896297519,7.58458664989603,577.280513480125
7444,15835,6562,"EMPDv2","S125","Binney2017_E3226",65.75,-172.8,50,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.84988006207086,679.862580765178,-6.03625562068785,-18.5328896297519,7.58458664989603,577.280513480125
7445,15836,6563,"EMPDv2","S128","Binney2017_E3227",65,-175.8,185,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.82223494514701,598.646035080225,-6.7376697982514004,-19.1706616630992,6.9617836306453,575.112165558521
7446,15837,6564,"EMPDv2","S129","Binney2017_E3228",65.2,-175.7,128,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.84426091007822,618.056335464241,-6.56492636750803,-19.008997053458,7.10888488004315,580.330987543843
7447,15838,6565,"EMPDv2","S130","Binney2017_E3229",65.8,-175,158,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.83224483684887,590.415257590455,-6.89720465850766,-19.4897697778481,6.90753233051839,563.182294890533
7448,15839,6566,"EMPDv2","S131","Binney2017_E3230",65.95,-176.3,164,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.72916625340777,538.341523316315,-7.59071924026166,-20.3644960087652,6.48936735161263,522.833987393754
7449,15840,6567,"EMPDv2","S132","Binney2017_E3231",65.9,-175.6,92,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.74127252762874,580.237910571654,-7.17821241713095,-20.0514532935673,6.82514743947843,528.193703384815
7450,15841,6568,"EMPDv2","S133","Binney2017_E3232",65.5,-175.7,243,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.84793481837497,570.095644594818,-7.03958011802082,-19.4934469051592,6.75925295157816,574.955792306587
7451,15842,6569,"EMPDv2","S134","Binney2017_E3233",65.7,-177.5,282,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.60739700209094,469.634128671888,-8.74489527666528,-21.8887078332847,6.00947058361265,482.440749260931
7452,15843,6570,"EMPDv2","S135","Binney2017_E3234",65.7,-179.5,-6,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.45228990232067,679.913520285156,-7.22478211073257,-20.6781760001519,7.86688702172217,460.991794601886
7453,15844,6571,"EMPDv2","S136","Binney2017_E3235",65.3,180,2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25982445342812,886.503852999575,-6.96712121009157,-21.245521837694,10.1151849983878,406.932081167982
7454,15845,6572,"EMPDv2","S137","Binney2017_E3236",65.3,180,2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25982445342812,886.503852999575,-6.96712121009157,-21.245521837694,10.1151849983878,406.932081167982
7455,15846,6573,"EMPDv2","S139","Binney2017_E3237",65.3,180,2,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25982445342812,886.503852999575,-6.96712121009157,-21.245521837694,10.1151849983878,406.932081167982
7456,15847,6574,"EMPDv2","S141","Binney2017_E3238",66.1,178.3,291,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25294851878669,590.902135892292,-10.090841158142,-25.1606004982015,7.68674312736898,372.738003888375
7457,15848,6575,"EMPDv2","S142","Binney2017_E3239",65.6,-176.7,71,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.75188982639453,606.014573001768,-6.60924810079573,-19.051469291668,6.93675185702414,539.112891013548
7458,15849,6548,"EMPDv2","S143","Binney2017_E3212",68.6,160.5,4,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.562143104888505,903.770858713107,-12.5747128612231,-32.2286818717301,10.900737838519,179.199903079642
7459,15850,6549,"EMPDv2","S144","Binney2017_E3213",68.6,160,16,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.568451999682737,918.812631667502,-12.6876308486175,-32.6464805169717,11.0943201223992,182.600074212172
7460,15851,6550,"EMPDv2","S145","Binney2017_E3214",71.5,-179,6,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",1.03380703622317,197.120234760508,-12.599150368507,-27.5992375299208,3.0670114187085,223.127206889704
7461,15852,6551,"EMPDv2","S146","Binney2017_E3215",71.5,180,10,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.705738072540381,794.180020580506,-11.0104332377444,-27.5332167531086,10.0004903528881,181.924626910336
7462,15853,6273,"EMPDv2","S19","Binney2017_E2603",70,153.4,57,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.584111137621596,924.730550037209,-14.2271212928565,-36.510928936268,11.434289991074,189.985116052363
7463,15854,6274,"EMPDv2","S20","Binney2017_E2605",70,153.4,57,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.584111137621596,924.730550037209,-14.2271212928565,-36.510928936268,11.434289991074,189.985116052363
7464,15855,6275,"EMPDv2","S21","Binney2017_E2606",70,153.4,57,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.584111137621596,924.730550037209,-14.2271212928565,-36.510928936268,11.434289991074,189.985116052363
7465,15856,6276,"EMPDv2","S22","Binney2017_E2607",70,153.4,57,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.584111137621596,924.730550037209,-14.2271212928565,-36.510928936268,11.434289991074,189.985116052363
7466,15857,6277,"EMPDv2","S23","Binney2017_E2608",70,153.4,57,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.584111137621596,924.730550037209,-14.2271212928565,-36.510928936268,11.434289991074,189.985116052363
7467,15858,6278,"EMPDv2","S24","Binney2017_E2609",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7468,15859,6279,"EMPDv2","S25","Binney2017_E2610",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7469,15860,6280,"EMPDv2","S26","Binney2017_E2611",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7470,15861,6281,"EMPDv2","S27","Binney2017_E2612",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7471,15862,6282,"EMPDv2","S28","Binney2017_E2613",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7472,15863,6283,"EMPDv2","S29","Binney2017_E2614",70.25,153.35,25,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.562338866891701,923.597809999305,-14.2210445946277,-36.3733832177745,11.4622534175885,180.432498922913
7473,15864,10182,"Herzschuh et al., 2019","S2Q","S2Q",36.46,99.05,3121,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.216014352044615,1672.86046655335,1.09039922044894,-12.3981165164983,12.7789772999798,229.090317867844
7474,15865,6284,"EMPDv2","S30","Binney2017_E2616",70.2,152.1,44,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.59340213848706,914.744876383079,-14.2488638205365,-36.4561253552894,11.3724271514459,190.112442146522
7475,15866,6285,"EMPDv2","S31","Binney2017_E2617",70.2,152.1,44,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.59340213848706,914.744876383079,-14.2488638205365,-36.4561253552894,11.3724271514459,190.112442146522
7476,15867,6286,"EMPDv2","S32","Binney2017_E2618",70.2,152.1,44,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.59340213848706,914.744876383079,-14.2488638205365,-36.4561253552894,11.3724271514459,190.112442146522
7477,15868,6287,"EMPDv2","S33","Binney2017_E2619",70.2,152.1,44,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.59340213848706,914.744876383079,-14.2488638205365,-36.4561253552894,11.3724271514459,190.112442146522
7478,15869,6288,"EMPDv2","S34","Binney2017_E2620",70.2,152.1,44,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.59340213848706,914.744876383079,-14.2488638205365,-36.4561253552894,11.3724271514459,190.112442146522
7479,15870,6289,"EMPDv2","S35","Binney2017_E2621",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7480,15871,6290,"EMPDv2","S36","Binney2017_E2622",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7481,15872,6291,"EMPDv2","S37","Binney2017_E2623",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7482,15873,6292,"EMPDv2","S38","Binney2017_E2624",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7483,15874,6293,"EMPDv2","S39","Binney2017_E2625",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7484,15875,10183,"Herzschuh et al., 2019","S3Q","S3Q",37.01,98.5,3314,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.18959324204516,1566.94053412388,0.486666807122729,-13.0079791443807,12.4086756302321,202.061878526273
7485,15876,6294,"EMPDv2","S40","Binney2017_E2627",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7486,15877,6295,"EMPDv2","S41","Binney2017_E2628",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7487,15878,6296,"EMPDv2","S42","Binney2017_E2629",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7488,15879,6297,"EMPDv2","S43","Binney2017_E2630",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7489,15880,6298,"EMPDv2","S44","Binney2017_E2631",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7490,15881,6299,"EMPDv2","S45","Binney2017_E2632",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7491,15882,6300,"EMPDv2","S46","Binney2017_E2633",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7492,15883,6301,"EMPDv2","S47","Binney2017_E2634",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7493,15884,6302,"EMPDv2","S48","Binney2017_E2635",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7494,15885,6303,"EMPDv2","S49","Binney2017_E2636",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7495,15886,6304,"EMPDv2","S50","Binney2017_E2638",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7496,15887,6305,"EMPDv2","S51","Binney2017_E2639",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7497,15888,6306,"EMPDv2","S52","Binney2017_E2640",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7498,15889,6307,"EMPDv2","S53","Binney2017_E2641",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7499,15890,6308,"EMPDv2","S54","Binney2017_E2642",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7500,15891,6309,"EMPDv2","S55","Binney2017_E2643",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7501,15892,6310,"EMPDv2","S56","Binney2017_E2644",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7502,15893,6311,"EMPDv2","S57","Binney2017_E2645",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7503,15894,6312,"EMPDv2","S58","Binney2017_E2646",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7504,15895,6313,"EMPDv2","S59","Binney2017_E2647",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7505,15896,6314,"EMPDv2","S60","Binney2017_E2649",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7506,15897,6315,"EMPDv2","S61","Binney2017_E2650",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7507,15898,6316,"EMPDv2","S62","Binney2017_E2651",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7508,15899,6317,"EMPDv2","S63","Binney2017_E2652",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7509,15900,6318,"EMPDv2","S64","Binney2017_E2653",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7510,15901,6319,"EMPDv2","S65","Binney2017_E2654",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7511,15902,6320,"EMPDv2","S66","Binney2017_E2655",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7512,15903,6321,"EMPDv2","S67","Binney2017_E2656",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7513,15904,6322,"EMPDv2","S68","Binney2017_E2657",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7514,15905,6323,"EMPDv2","S69","Binney2017_E2658",60,151,743,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.24287370724048,818.507203941134,-9.16016098855096,-26.6034256831302,9.05989814220417,436.03027025315
7515,15906,10184,"Herzschuh et al., 2019","S6Q","S6Q",37.08,97.31,2848,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.164677713521731,2470.78854705525,4.47007374450812,-9.69818820058968,16.7397044495383,191.689715486071
7516,15907,6324,"EMPDv2","S72","Binney2017_E2662",72,127,3,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.791058343825584,1055.3935989615,-16.7460035088595,-46.0000658486555,13.5165594663093,257.16251747447
7517,15908,6325,"EMPDv2","S77","Binney2017_E2667",70.6,134.6,270,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.565889037681271,1076.14072970562,-17.4843066062285,-48.2622203824665,13.0967221875641,193.61591986702
7518,15909,6326,"EMPDv2","S78","Binney2017_E2668",70.6,134.6,270,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.565889037681271,1076.14072970562,-17.4843066062285,-48.2622203824665,13.0967221875641,193.61591986702
7519,15910,6327,"EMPDv2","S79","Binney2017_E2669",70.6,134.6,270,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.565889037681271,1076.14072970562,-17.4843066062285,-48.2622203824665,13.0967221875641,193.61591986702
7520,15911,10185,"Herzschuh et al., 2019","S7Q","S7Q",37.21,97.3,3114,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.162385818919659,2012.74720070366,2.46302353798162,-11.4910341585829,14.7157695980534,181.951789366299
7521,15912,10186,"Herzschuh et al., 2019","S8Q","S8Q",37.08,97,2813,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.157407340320359,2572.91482951702,4.84661375365324,-9.47308527573261,17.2147591509772,184.670099175173
7522,15913,10187,"Herzschuh et al., 2019","S9Q","S9Q",37.18,96.55,2850,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.143428245453752,2569.99283810899,4.7567750564508,-9.71486345662097,17.2845863557368,168.209554481874
7523,15914,22176,"SMPDSv1","Saare","Seppa_b133",58.65,26.78,65,"0.2","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.020079615,2437.82787751902,4.87904986550941,-7.41468011130217,16.6628810487412,615.275953427961
7524,15915,22180,"SMPDSv1","Saarijavri","Bjune_a168",67.6166666666666,22.6166666666666,278,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.11417646683025,1417.59541637497,-1.43998530951631,-15.549242069596,13.3426068676075,466.43983088174
7524,15916,22177,"SMPDSv1","Saarijavri","Seppa_b24",65.28,28.4,269,"0.2","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.32146926877035,1524.1012710013,-0.644348854692594,-14.7417926316889,14.0620621881128,568.108125520604
7524,15917,22178,"SMPDSv1","Saarijavri","Seppa_b50",62.18,27.9,88,"0.2","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04489707792732,2218.56372259626,3.46707382771835,-9.9920674759678,16.8624833340751,565.533489440562
7524,15918,22179,"SMPDSv1","Saarijavri","Seppa_b7",67.43,27.73,215,"0.2","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1303063502727,1527.80535008827,-0.738629968181252,-14.8503963933414,14.2069063795937,461.308055333954
7525,15919,22181,"SMPDSv1","Saarjarv","Seppa_b128",57.62,27.33,188,"0.2","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.972310152196639,2523.94161415788,5.13344918481053,-7.45602642864869,16.5680361573869,615.358633708922
7526,15920,8073,"EMPDv2","Sabakh","Mikishin-Gvozdeva_a136",52.8077777777778,141.165277777778,9,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16038830717146,1919.90201626114,-1.06846600309989,-20.5948063493174,15.7104731943502,623.844815757514
7527,15921,11198,"Bush et al., 2020","Sabanita","Sabanita",18.4,-88.57,30,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.920443751063544,9410.70357849111,25.7827495301126,23.0233708635093,27.6320268566613,1426.19803323232
7528,15922,22182,"SMPDSv1","Sabbion","Barboni_a1305",44.13,7.473333333,2216,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.63860765422031,1549.28811375224,3.15784957881547,-3.94220971080945,11.5138402041389,1492.30654592001
7529,15923,16551,"Neotoma","Sabbothday Pond","KG045",43.98,-70.35,91,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.43333821076499,3131.34427123685,7.12625902538019,-7.03408988388743,20.2792389665049,1151.75798593139
7530,15924,11199,"Bush et al., 2020","Sacpuy","Sacpuy",16.98,-90.02,128,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.30200164124938,9418.04959733742,25.8028756091436,22.7548023600518,28.0207373698197,2110.4448975743
7531,15925,22183,"SMPDSv1","Saesvasstjonn","Bjune_a198",59.6633333333333,7.51,899,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.14687453154753,1591.53956253181,2.53903266249234,-6.6131034095706704,11.8351207937109,1181.05541307013
7532,15926,22184,"SMPDSv1","Saetertjern","Bjune_a77",59.952863,11.72711824,308,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.31017054762131,2026.10039384643,3.61637833877036,-7.34401884825852,14.5336483214602,746.780237302732
7533,15927,22185,"SMPDSv1","Sagalassos","Bakker_b13",37.6673833333333,30.5083166666666,1522,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3740084085067,3663.47965923163,9.97122331670122,-0.705639692407429,20.4725451796138,503.561099973683
7533,15928,22186,"SMPDSv1","Sagalassos","Bakker_b14",37.6681166666666,30.5085333333333,1447,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.381147472226757,3803.46938180585,10.4057873497252,-0.152876217185673,20.8410662606081,516.59536250404
7533,15929,22187,"SMPDSv1","Sagalassos","Bakker_b15",37.6785,30.5123166666666,1528,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37345626035525,3651.34090986713,9.93225669362236,-0.755278594251231,20.4378113581903,502.362954218724
7533,15930,22188,"SMPDSv1","Sagalassos","Bakker_b18",37.6850833333333,30.5137333333333,1774,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349447938760667,3238.50629955143,8.50369682650318,-2.57199870296083,19.2241325886956,459.553582557536
7533,15931,22189,"SMPDSv1","Sagalassos","Bakker_b19",37.68305,30.5174166666666,1822,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.344736206467281,3163.52776620182,8.22429794769575,-2.92728832179624,18.9869619385589,451.344102159943
7533,15932,22190,"SMPDSv1","Sagalassos","Bakker_b20",37.6755166666666,30.52795,1495,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376871686193419,3710.24690348934,10.1194217180278,-0.517522852294258,20.5960571061761,508.407092094492
7533,15933,22191,"SMPDSv1","Sagalassos","Bakker_b23",37.6752666666666,30.5154666666666,1453,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380652121854819,3790.60080700942,10.3670256423245,-0.202388799938914,20.8069800921653,515.505417121444
7533,15934,22192,"SMPDSv1","Sagalassos","Bakker_b47",37.6806,30.5306,1568,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.369935309394056,3578.18197695261,9.69355435503534,-1.05905853707654,20.233678608097,495.702447247972
7533,15935,22193,"SMPDSv1","Sagalassos","Bakker_b48",37.67705,30.5037333333333,1529,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373221837478531,3650.52352647974,9.92963805704119,-0.758481462612568,20.436334491084,502.074228291785
7533,15936,22194,"SMPDSv1","Sagalassos","Bakker_b49",37.6770833333333,30.5273833333333,1525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374003400512331,3655.33773383488,9.94509441653439,-0.739182675862443,20.4479125482934,503.165979515576
7533,15937,22195,"SMPDSv1","Sagalassos","Bakker_b52",37.6673166666666,30.5078833333333,1488,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.377248832816445,3725.9270538339,10.1684961746386,-0.454696414763962,20.6399147690558,509.470041383569
7533,15938,22196,"SMPDSv1","Sagalassos","Bakker_b7",37.6759166666666,30.5287833333333,1498,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376599006701367,3704.59070379849,10.1016414919492,-0.540148542038252,20.5808639349662,507.892475839648
7534,15939,13215,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","1","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7534,15939,13216,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","6","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7534,15939,13217,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","12","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7534,15939,13218,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","18","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7534,15939,13219,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","30","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7534,15939,13220,"Neotoma","Sagehen Marsh","SAGEHEN1",37.473889,-108.503889,2085,"not known","terrestrial, marsh","core","42","Petersen, K.L. 1985. Palynology in Montezuma County, southwestern Colorado: the local history of the Pinyon Pine (Pinus edulis). Pages 47-62 in B.F. Jacobs, P.L. Fall, and O.K. Davis, editors. Late Quaternary Vegetation and Climates in the American Southwest. Contribution Series 16. American Association of Stratigraphic Palynologists, Dallas, Texas, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L. 1984. Man and environment in the Dolores River Valley, SE Colorado: some pollen evidence. American Quaternary Association, Eighth Meeting, Program and Abstracts, 13-15 August 1984, University of Colorado, Boulder, p102.; Petersen, K.L. 1985. The history of the marsh in Sagehen Flats: the pollen record. Pages 229-238 in K.L. Petersen, V.L. Clay, M.H. Matthews, and S.W. Neusius, compilers. Chapter 22. Dolores Archeological Program: Studies in Environmental Archaeology, U.S. Department of Interior, Bureau of Reclamation, Science and Engineering Center, Denver, Colorado, USA.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.291924358499431,3331.59491790133,8.35528383879685,-4.84730138446785,21.3312599683265,362.732717794567
7535,15940,22197,"SMPDSv1","Sagistalsee","EPDcoretop_E1155",46.679956,7.976475,1935,"0.072","lake","lacustrine core top","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6459192902473,1301.93137542218,1.98118427068467,-5.40291142860894,9.92175175472086,1954.76476921231
7536,15941,22198,"SMPDSv1","Sainijarvi","Seppa_b30",64.13,26.53,119,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02444158600358,1972.9436412681,2.20549168629,-11.2293010101803,15.9306861032328,518.321694341835
7537,15942,16555,"Neotoma","Saint George Lake","KG049",44.4,-69.35,154,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.49240768749973,2832.66920224056,5.81929530569436,-8.60362284778359,19.1987368822632,1158.44672520428
7538,15943,8286,"EMPDv2","Saint Jacques","Montanari_a12",45.8635611111111,7.73086944444444,1689,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.10687807159587,1753.6159722132,3.88708132418243,-3.90450600651774,12.2366203892349,1693.90700694991
7539,15944,13296,"Neotoma","Saint John Island Pond","STJOHN",53.95,-58.916667,137,"not known","lake","core","0","Jordan, R.H. 1975. Pollen diagrams from Hamilton Inlet, central Labrador, and their environmental implications for the northern maritime Archaic. Arctic Anthropology 12:92-116.",,15,"cold evergreen needleleaf forest",1.93050747190127,1293.94867543981,-1.58165819440378,-16.2309145917747,12.0317577518535,954.879167204593
7540,15945,15701,"Neotoma","Saint John's Harbour","DLEF045",58.45,-62.78,10,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.87014572272297,908.885242585165,-4.14612771489086,-18.9131629142221,9.44121296437279,769.362972997573
7541,15946,11385,"Neotoma","Saint Joseph Lake","TW226",45.02874,-88.51223,267,"not known","lake","surface sample","-26","Unpublished data",,9,"cool mixed forest",0.954656046949472,3085.67165092505,6.1481753845598,-10.103033793768,20.6346649641239,775.366031096686
7542,15947,11979,"Neotoma","Saint Kevin Lake","SM-SKL",39.31055,-106.42677,3580,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.588979554341568,791.103135602738,-3.32810131417264,-14.5075834295171,8.12236725493638,525.806123006295
7543,15948,13963,"Neotoma","Saint Olaf Lake","MNWSSO",43.90284,-93.417225,366,"not known","lake","core","-27","Unpublished data",,13,"temperate deciduous broadleaf forest",0.879212828797918,3501.89703534564,7.26567736987198,-10.6828255216234,22.5018033328653,780.327244059141
7543,15948,13964,"Neotoma","Saint Olaf Lake","MNWSSO",43.90284,-93.417225,366,"not known","lake","core","17","Unpublished data",,13,"temperate deciduous broadleaf forest",0.879212828797918,3501.89703534564,7.26567736987198,-10.6828255216234,22.5018033328653,780.327244059141
7544,15949,22199,"SMPDSv1","Saint Sixte","EPDcoretop_E593",45.425,5.625,650,"0.02","lacustrine, drained lake","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08126697496049,3447.85397628381,9.44617527748989,1.05727054309521,18.4504434270084,1005.28060318379
7545,15950,22200,"SMPDSv1","Saint Viaud Contin","EPDcoretop_E631",47.265,-2.016667,2,"not known","not known","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.937791924084757,4438.74827237516,12.1609541708909,6.03105382789329,18.8361210246578,811.3968274838
7546,15951,7119,"EMPDv2","Saint-Benoit-sur-Loire (palaeo-channel)","EPDcoretop_E2105",47.81,2.32,110,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.790477284573649,4038.38083188254,11.0640570736508,3.57100396092377,18.9087091199597,645.576845634553
7547,15952,16048,"Neotoma","Saint-Jean Ile d'Orléans","PJHR043",46.932778,-70.932778,68,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.48433369455961,2555.12104395671,3.76705704811632,-12.725961840175,18.4640347748572,1072.13731973951
7548,15953,7128,"EMPDv2","Saint-Michel-en-Brenne","EPDcoretop_E2117",46.81,1.16,83,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.802538028313249,4142.84103842808,11.3502494203509,4.08440855076751,19.1502074741379,678.829784991464
7549,15954,16686,"Neotoma","Saint-Raymond","PJHR044",46.891944,-71.807778,160,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.5647554921949,2524.36419220649,3.43585165092294,-13.5075376855676,18.3032431491246,1133.13785411317
7550,15955,16692,"Neotoma","Saint-Ulric","PJHR052",48.783333,-67.7,106,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.50047796638088,2186.3568066455,2.09014427895828,-14.3533326128582,17.154517436173,1009.46848508578
7551,15956,22201,"SMPDSv1","Saint-Ursin","EPDcoretop_E972",48.519444,-0.253333,234,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.976319133164817,3605.26827423344,9.87744732666697,3.22165709040832,17.0427166958254,753.345765744341
7552,15957,16589,"Neotoma","Sainte-Croix de Lotbinière","PJHR037",46.605833,-71.775,70,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.52406421089443,2674.08360913701,4.20395544675352,-12.558039414538,18.9193386701602,1126.05844568926
7553,15958,22202,"SMPDSv1","Saivojavri","Bjune_a167",67.7166666666666,22.4333333333333,316,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13235696174714,1352.74398244059,-1.82137488276784,-15.8971072134073,12.9690372316604,467.934397069058
7554,15959,24194,"Neotoma","Sajama","SAJAMA1",-18.166667,-68.883333,4250,"not known","not known","core","0","Ybert, J.P., and Y. Miranda. 1984. Analisis palinologico de un corte del Sajama. Actas II Congreso Geologico Bolivia, 691-694.",,22,"steppe",0.193179039071801,2572.82347354607,7.04883143437278,3.16370108414411,9.45329207788272,282.213025254534
7555,15960,8225,"EMPDv2","Sak-Pau","Mikishin-Gvozdeva_b56",42.5255555555556,130.651388888889,2,"1.43","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.844688266258411,3295.59056330634,6.41481928418039,-11.5699625033738,21.8949623222766,698.099506035197
7556,15961,22203,"SMPDSv1","SAKH","SAKH_01",47.21,142.81,117,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.55259926112069,2064.65941453433,2.20941112090409,-12.47591639208,16.2341832611078,955.413982923921
7556,15962,22204,"SMPDSv1","SAKH","SAKH_03",47.15,142.76,57,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.60522710595936,2138.68631559999,2.52629935663119,-12.3058161350865,16.5834608332111,984.904073963455
7556,15963,22205,"SMPDSv1","SAKH","SAKH_04",47.38,142.81,29,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.63708840000178,2121.48938594795,2.43983572182598,-12.4068491702176,16.5047074517242,993.125563579895
7556,15964,22206,"SMPDSv1","SAKH","SAKH_06",47.87,142.49,107,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53432173985357,1950.79712080362,1.33830159553979,-14.0999168592578,15.7123429114298,911.928396677637
7556,15965,22207,"SMPDSv1","SAKH","SAKH_08",48.42,142.7,6,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.58809810172448,1935.0265767651,1.01949889581301,-15.0563754378293,15.6387486781485,911.024793605501
7556,15966,22208,"SMPDSv1","SAKH","SAKH_10",48.84,142.93,16,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.51287977648557,1958.05275229492,1.08089140799286,-15.1363905143854,15.7184805468626,866.326242896569
7556,15967,22209,"SMPDSv1","SAKH","SAKH_11",49.08,142.95,16,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49486173060775,1966.81947510091,1.10331305614349,-15.1670178498174,15.7548309539229,854.095096949014
7556,15968,22210,"SMPDSv1","SAKH","SAKH_13",49.61,142.85,91,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40819772467968,1939.21413882978,0.792899553810653,-15.8532300025675,15.6254948404975,801.566381646908
7556,15969,22211,"SMPDSv1","SAKH","SAKH_15",50.27,142.66,201,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30028393517894,1781.44681221655,-0.446394564983566,-17.9215581717832,14.8816002760379,722.357366570111
7556,15970,22212,"SMPDSv1","SAKH","SAKH_17",50.87,142.67,125,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.23770246154015,1826.70507523504,-0.532923681705694,-18.5238975117429,15.1439215121284,682.53092785333
7556,15971,22213,"SMPDSv1","SAKH","SAKH_19",51.45,142.76,52,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21121444409331,1861.46663326478,-0.532960402616456,-18.7518840385581,15.3515669964754,660.67244904104
7556,15972,22214,"SMPDSv1","SAKH","SAKH_21",51.77,143.12,34,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.22068092254649,1849.96167758133,-0.632599947813038,-18.8342812600011,15.3140765644423,658.04171692642
7556,15973,22215,"SMPDSv1","SAKH","SAKH_23",52.39,143.09,37,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.24300860180915,1813.48824228369,-0.899044551043067,-19.116649847691,15.1464004415395,656.75829765265
7556,15974,22216,"SMPDSv1","SAKH","SAKH_25",53.01,143.08,28,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25808377369006,1806.06190596608,-0.967969837853182,-19.1808443733636,15.1208086948809,655.037472253982
7556,15975,22217,"SMPDSv1","SAKH","SAKH_26",53.16,143.06,28,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.26031238044078,1803.56351347259,-0.994506103504649,-19.2206342774588,15.1106522134285,654.077264069824
7556,15976,22218,"SMPDSv1","SAKH","SAKH_28",53.65,142.86,49,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.26392939598568,1773.48394919759,-1.25073649265643,-19.5459719713128,14.9802240089142,646.93807932099
7556,15977,22219,"SMPDSv1","SAKH","SAKH_29",53.94,142.77,45,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.26685448642556,1769.46713898268,-1.31098264544546,-19.6314314094554,14.9716270187841,643.785763706866
7556,15978,22220,"SMPDSv1","SAKH","SAKH_31",53.6,142.54,2,"not applicable","marine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",,"not applicable",,,,,,
7556,15979,22221,"SMPDSv1","SAKH","SAKH_33",51.46,142.78,32,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.20263671731841,1881.27960057958,-0.458219348736295,-18.7213887333365,15.4569823391027,657.009140485169
7556,15980,22222,"SMPDSv1","SAKH","SAKH_35",51.25,142.21,19,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16190969050743,1942.78621645417,-0.384810632625599,-19.1373105074436,15.7690941059526,645.732547470853
7556,15981,22223,"SMPDSv1","SAKH","SAKH_36",50.78,142.15,333,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.31732506403556,1629.28916683642,-1.39750180965438,-19.0961719887994,14.0969062456704,715.557223777342
7556,15982,22224,"SMPDSv1","SAKH","SAKH_37",50.77,142.15,275,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.287677397944,1690.64727157901,-1.18402872853446,-19.0739119445962,14.4253269496586,704.079913102561
7556,15983,22225,"SMPDSv1","SAKH","SAKH_39",50.18,143.7,81,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.39176280974983,1914.51608165614,0.643502629388809,-16.0615432324673,15.491160538676,778.829814704353
7556,15984,22226,"SMPDSv1","SAKH","SAKH_40",50.04,143.61,135,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.38776754475435,1852.89541501408,0.293429746908553,-16.4780436911368,15.1959272044804,774.68459312518
7556,15985,22227,"SMPDSv1","SAKH","SAKH_41",50.01,143.43,730,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36658674064904,1220.51733257095,-3.74126235541826,-21.3368835896487,11.8370556676499,717.163571708321
7556,15986,22228,"SMPDSv1","SAKH","SAKH_43",49.75,142.45,393,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.35476217003514,1596.05258752009,-1.29343393068267,-18.4739111591396,13.9203787671232,747.426549503438
7556,15987,22229,"SMPDSv1","SAKH","SAKH_45",49.23,142.1,24,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.506968972424,1987.57155203165,0.96314673563667,-15.732111985613,15.9317029966535,864.713338227714
7556,15988,22230,"SMPDSv1","SAKH","SAKH_47",48.71,142.26,96,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.52197586678654,1900.59672105886,0.760596722667297,-15.4608262117287,15.4772169516192,875.805613055424
7556,15989,22231,"SMPDSv1","SAKH","SAKH_49",48.13,142.18,17,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.626824810722,2003.88308293379,1.57084469279306,-13.9612573956957,15.9873642359076,955.011527050012
7556,15990,22232,"SMPDSv1","SAKH","SAKH_51",47.54,141.97,85,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59743087056525,2069.78134252978,2.03347760628784,-13.1569771320798,16.2975439928294,966.04143571073
7556,15991,22233,"SMPDSv1","SAKH","SAKH_53",46.99,142.26,134,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53444021674854,2084.40108196553,2.31201119946162,-12.3386833286247,16.3367330686741,953.800616528801
7556,15992,22234,"SMPDSv1","SAKH","SAKH_54",46.89,142.62,60,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59550335460393,2179.46016807784,2.74582334120722,-12.0175704838609,16.7722841175884,990.145227376645
7556,15993,22235,"SMPDSv1","SAKH","SAKH_55",46.63,142.82,39,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.61406298938617,2315.32565587617,3.57499795757674,-10.6509716962268,17.3607806198788,1021.8439144875
7556,15994,22236,"SMPDSv1","SAKH","SAKH_57",46.74,142.24,101,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.5710957892059,2214.44460799657,3.05434397665492,-11.2780372167821,16.9294854970544,991.613766797481
7556,15995,22237,"SMPDSv1","SAKH","SAKH_58",46.86,141.97,16,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65643636114838,2285.49913265794,3.11554199267053,-12.0213077565308,17.2945785526266,1027.84107130751
7556,15996,22238,"SMPDSv1","SAKH","SAKH_59",46.58,141.83,14,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6757735365866,2461.46161993523,4.20441994901186,-10.1096329101626,18.0459067432962,1068.31057058035
7556,15997,22239,"SMPDSv1","SAKH","SAKH_61",46.45,142.34,2,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66959724538289,2468.43904921266,4.29241719946484,-9.86557103185716,18.0474059728752,1067.48826469824
7556,15998,22240,"SMPDSv1","SAKH","SAKH_62",46.57,143.25,11,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.60077631479631,2299.06344237765,3.58875179537095,-10.4193685241434,17.234477356485,1012.54704979607
7556,15999,22241,"SMPDSv1","SAKH","SAKH_63",46.34,143.37,38,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.57820058751518,2286.1680778220302,3.54203759622685,-10.4160835805227,17.1788180459977,1005.54548201228
7557,16000,23118,"SMPDSv1","Sakhalin","Pav_1",53.97,142.67,11,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25883475233593,1813.76903370636,-1.14317268625302,-19.6894229222975,15.1780408397399,644.823875082061
7557,16001,23132,"SMPDSv1","Sakhalin","Pav_10",51.26,143.13,175,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.27898392245574,1732.09878025399,-0.961275835347973,-18.7731074263582,14.6612293197111,690.404578618277
7557,16002,23133,"SMPDSv1","Sakhalin","Pav_11",51.19,143.42,119,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.29090100094155,1801.36466046688,-0.477966067601419,-18.103023886254,15.0080315247858,701.792728833528
7557,16003,23134,"SMPDSv1","Sakhalin","Pav_12",51.03,142.76,130,"not applicable","coastal, other","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25408505156478,1810.8978242455,-0.55140173350132,-18.4209142924197,15.0597603983575,687.581741944809
7557,16004,23135,"SMPDSv1","Sakhalin","Pav_13a",51.94,142.66,204,"not applicable","coastal, other","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28176466322446,1695.72457515808,-1.30602072505685,-19.344052667095,14.4770172946941,682.115169890677
7557,16005,23136,"SMPDSv1","Sakhalin","Pav_13b",50.96,142.66,204,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.27831312539692,1740.4580877822,-0.877581097734155,-18.6783197674186,14.6904386975053,697.519513398237
7557,16006,23137,"SMPDSv1","Sakhalin","Pav_14",50.79,143.45,208,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.3286101040068,1725.21505453527,-0.738773465892547,-18.1417576648812,14.5988294401445,722.489177458413
7557,16007,23138,"SMPDSv1","Sakhalin","Pav_15",50.39,142.66,174,"not known","terrestrial, bog/fen/swamp","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28799110396885,1808.07500982467,-0.35001872172494,-17.902626630124,15.0204267708296,715.994992295284
7557,16008,23139,"SMPDSv1","Sakhalin","Pav_16",50.3,142.67,187,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2952662410723501,1796.21497633482,-0.382072221774647,-17.8816829907716,14.9576146390697,720.250703813998
7557,16009,23140,"SMPDSv1","Sakhalin","Pav_17",49.72,142.67,305,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36606304081615,1696.87894073028,-0.680900670318772,-17.7432629769369,14.4433663108928,761.245570345596
7557,16010,23141,"SMPDSv1","Sakhalin","Pav_18",49.72,142.67,304,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36614571757581,1698.0723573396,-0.67390177969903,-17.7351928272657,14.449472164765,761.382266720794
7557,16011,23142,"SMPDSv1","Sakhalin","Pav_19",49.25,142.92,27,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44596594775019,1985.1566268739,1.13145628668177,-15.2810824024651,15.8382797928032,828.001388130062
7557,16012,23119,"SMPDSv1","Sakhalin","Pav_2",53.67,142.6,0,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25584928253656,1831.79033770475,-1.02140328749443,-19.5642846507579,15.2581948198735,648.646735581754
7557,16013,23143,"SMPDSv1","Sakhalin","Pav_20",49.15,142.92,125,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.44853406658966,1876.4263229413,0.535902299865588,-15.9574201421606,15.3269823047804,824.725662923149
7557,16014,23144,"SMPDSv1","Sakhalin","Pav_21",47.33,142.75,6,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65640957266032,2156.30713742596,2.61214855195872,-12.2346827009276,16.6665316070208,1005.95149070845
7557,16015,23145,"SMPDSv1","Sakhalin","Pav_22",46.83,143.13,4,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.62302021372872,2241.97131211168,3.08263583473614,-11.6091679693439,17.0336374419329,1007.54656563431
7557,16016,23146,"SMPDSv1","Sakhalin","Pav_23",46.6,143.33,24,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.58991086651224,2271.05014583747,3.45010708722489,-10.5808698125509,17.1126555860222,1004.38496759396
7557,16017,23147,"SMPDSv1","Sakhalin","Pav_24",46.82,142.7,8,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.63663629752173,2256.00208148241,3.08954278994599,-11.7562965509491,17.1193426940512,1015.78661269125
7557,16018,23148,"SMPDSv1","Sakhalin","Pav_25",46.47,142.38,9,"not known","terrestrial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66042692560206,2444.48871497517,4.18021698380982,-9.99144122407425,17.9427282137135,1060.34759412471
7557,16019,23120,"SMPDSv1","Sakhalin","Pav_3a",52.06,143.09,15,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21907520690761,1858.27809297271,-0.650845437192389,-18.9170059408783,15.3683528150533,653.221269777917
7557,16020,23121,"SMPDSv1","Sakhalin","Pav_3b",52.04,143.09,15,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21855732440037,1859.02754247544,-0.644977463521033,-18.9102198614278,15.3717492990627,653.293732567001
7557,16021,23122,"SMPDSv1","Sakhalin","Pav_3c",52.04,143.09,15,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21855732440037,1859.02754247544,-0.644977463521033,-18.9102198614278,15.3717492990627,653.293732567001
7557,16022,23123,"SMPDSv1","Sakhalin","Pav_3d",52.04,143.1,15,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21886336193479,1858.83736567004,-0.644264627759784,-18.9063608133428,15.370735282629,653.417466571942
7557,16023,23124,"SMPDSv1","Sakhalin","Pav_4a",51.94,143.1,13,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21544090611867,1864.59320854932,-0.607191454461434,-18.8686175852617,15.3985677136799,653.43476864807
7557,16024,23125,"SMPDSv1","Sakhalin","Pav_4b",51.94,143.1,13,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21544090611867,1864.59320854932,-0.607191454461434,-18.8686175852617,15.3985677136799,653.43476864807
7557,16025,23126,"SMPDSv1","Sakhalin","Pav_4c",51.94,143.1,13,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21544090611867,1864.59320854932,-0.607191454461434,-18.8686175852617,15.3985677136799,653.43476864807
7557,16026,23127,"SMPDSv1","Sakhalin","Pav_5",51.71,143.07,66,"not known","coastal, lacustrine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.23397633964814,1834.03114201757,-0.630504701774652,-18.7451966721542,15.2119433677165,666.791551765936
7557,16027,23128,"SMPDSv1","Sakhalin","Pav_6",51.69,143.26,28,"not known","coastal, lacustrine","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2381559625026,1856.93890344936,-0.45337597810823,-18.4482708212538,15.3355524537812,668.601304759351
7557,16028,23129,"SMPDSv1","Sakhalin","Pav_7",51.42,142.75,64,"not applicable","fluvial","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.21600538141482,1850.19456550535,-0.571620004207041,-18.7607975725748,15.2910767908583,663.027122471187
7557,16029,23130,"SMPDSv1","Sakhalin","Pav_8",51.34,142.14,16,"not known","lake","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16255688078636,1934.45459870514,-0.489146475017075,-19.2934148451678,15.7388512825932,643.055778637668
7557,16030,23131,"SMPDSv1","Sakhalin","Pav_9",51.28,142.23,55,"not applicable","terrestrial, soil","surface sample","-59","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18129536404022,1893.19913575206,-0.613629946135132,-19.2730226464929,15.5187295234431,651.520759762528
7558,16031,22242,"SMPDSv1","Sakhare lake","Connor_a17 (Sakhare-1)",41.574,45.321,800,"0.11","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7558,16032,22243,"SMPDSv1","Sakhare lake","Connor_a18 (Sakhare-2)",41.574,45.321,800,"0.11","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7558,16033,22244,"SMPDSv1","Sakhare lake","Connor_a19 (Sakhare-3)",41.574,45.321,800,"0.11","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7558,16034,22245,"SMPDSv1","Sakhare lake","Connor_a20 (Sakhare-4)",41.574,45.321,800,"0.11","ephemeral lake/pond","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7558,16035,5975,"EMBSeCBIO","Sakhare lake","Sakhare core 1_0",41.574,45.321,800,"small (0.01-1 km2)","lacustrine, drained lake","core","-50","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7558,16036,5976,"EMBSeCBIO","Sakhare lake","Sakhare core 1_4",41.574,45.321,800,"small (0.01-1 km2)","lacustrine, drained lake","core","19","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",22,"steppe",0.575989275595871,3936.47122360528,10.4728987843689,-2.36114109202149,22.708897068974,608.998438362221
7559,16037,22246,"SMPDSv1","Saki","Crimea-15",45.14,33.51,2,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.494496060209929,3941.35597637876,10.637913606943,-1.42173194276018,21.943795288852,475.732246105767
7560,16038,22247,"SMPDSv1","Salada Grande","Barboni_a1307",41.043861,-0.20464,350,"90.306","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.414549876358742,5338.32396748584,14.6255451163996,6.70707184252174,23.7338314447396,508.258617202199
7561,16039,22248,"SMPDSv1","Salada Pequena","Barboni_a1306",41.043063,-0.219401,356,"17.457","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415200101924117,5324.54168818333,14.5877854470776,6.66713541815262,23.7028970278081,508.766218136775
7561,16040,22249,"SMPDSv1","Salada Pequena","Barboni_a1308",41.043063,-0.219401,356,"17.457","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415200101924117,5324.54168818333,14.5877854470776,6.66713541815262,23.7028970278081,508.766218136775
7561,16041,22250,"SMPDSv1","Salada Pequena","EPDcoretop_E918",41.033333,-0.216667,357,"0.21","ephemeral lake/pond","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.415198677642537,5323.71238033775,14.5855133707883,6.66838223592699,23.6982289873575,508.754099576031
7562,16042,24195,"Neotoma","Salado","SALADO",-35.333333,-69.75,3200,"not known","terrestrial, bog/fen/swamp","profile or section","22","Markgraf, V. 1983. Late and postglacial vegetational and paleoclimatic changes in subantarctic, temperate, and arid environments in Argentina. Palynology 7(1):43-70.","10.1080/01916122.1983.9989252",22,"steppe",0.417727756609974,1352.95121790999,3.04036863644439,-2.75775527926941,9.02838601391051,536.053456244715
7563,16043,22251,"SMPDSv1","Salamanca SW","Lopez_a405",40.7273888888888,-6.43438888888888,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.566753312500767,4928.4352624919,13.5025623629915,6.03472400628563,22.3599945021466,659.676317034492
7563,16044,22252,"SMPDSv1","Salamanca SW","Lopez_a406",40.8333055555555,-6.19861111111111,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.517783454120326,4531.88299300857,12.4161177890646,4.73492852481167,21.5092976655914,611.193126351658
7564,16045,22253,"SMPDSv1","Salatberget","Bjune_a312",79.7646666666666,10.7166666666666,10,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.27723292604354,199.760948739723,-6.47470189008982,-13.6193097933423,3.20832785794085,490.308608092431
7565,16046,22254,"SMPDSv1","Salin chateau","Barboni_a360",50.3,5.9,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26120684230082,3313.75947119621,9.07879307177045,0.86559480142758,17.2198412395932,915.320106505713
7566,16047,24197,"Neotoma","Salina Anzoátegui","SALINAAN",-39.006389,-63.775,-5,"not known","lake","core","9","Schäbitz, F. 1994. Holocene climatic variations in northern Patagonia, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology 109:287-294.",,22,"steppe",0.283784034875225,5490.01428028451,15.0411350144781,7.31928096900275,23.0220574995082,349.734690822839
7567,16048,22255,"SMPDSv1","Salina de la Muerte","Barboni_a1309",41.401111,-0.261667,331,"17.046","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402649275100032,5301.80960769606,14.5255057745098,6.39648712846442,23.8425975839271,493.785640999664
7568,16049,22256,"SMPDSv1","Salina de Pinol","Barboni_a1310",41.408333,-0.256528,333,"11.043","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403197505411361,5297.35923593235,14.5133129751571,6.38375247901057,23.8315974341295,494.329131455028
7569,16050,22257,"SMPDSv1","Salina del Cameron","Barboni_a1311",41.404583,-0.284861,325,"41.995","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40119861063042,5312.22577521915,14.5540432197785,6.42097617035986,23.8722593357389,492.173381557373
7570,16051,22258,"SMPDSv1","Salina del Rebellon","Barboni_a1312",41.37816,-0.304614,313,"13.568","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.398115360201178,5338.55242349219,14.6261710232663,6.49391095879081,23.9388977016765,489.093379216539
7571,16052,24198,"Neotoma","Salina Piedra","SALINAPI",-40.583056,-62.673889,-5,"not known","lake","core","0","Schäbitz, F. 1994. Holocene climatic variations in northern Patagonia, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology 109:287-294.",,22,"steppe",0.385444153240951,5201.98486933584,14.2520133406461,7.46746392637144,21.1513433234216,438.631797924195
7572,16053,11200,"Bush et al., 2020","Salinas","Salinas",-14.989583,-70.126083,3837,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.624131862479433,3249.21607702129,8.90196185485284,6.50929242322463,10.3687135604082,918.376515393801
7573,16054,14440,"Neotoma","Salmo Lake","SALMO",60.445535,-133.561605,866,"not known","lake","core","-60","Edwards, M., L. Franklin-Smith, C. Clarke, J. Baker, S. Hill, and K. Gallagher. 2015. The role of fire in the mid-Holocene arrival and expansion of lodgepole pine (Pinus contorta var. latifolia Engelm. ex S. Watson) in Yukon, Canada. The Holocene 25(1):64-78.","10.1177/0959683614556389",15,"cold evergreen needleleaf forest",0.641802610575812,1346.57555550404,-2.20388039016194,-19.3493594574253,11.9358155709586,302.80531833108
7574,16055,8932,"EMPDv2","Salonen_a10","Salonen_a10",61.5988,50.7803,79,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28839896962714,1866.01123947544,0.135429746977101,-17.5096243046645,16.9784711966534,568.75176404240494
7575,16056,8933,"EMPDv2","Salonen_a11","Salonen_a11",61.6226,53.9228,102,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28913762981796,1991.62157508405,0.57372648219057,-17.14830144704,17.5470376355715,637.343458244231
7576,16057,8934,"EMPDv2","Salonen_a12","Salonen_a12",61.9206,52.214,95,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28745034469475,1879.89937720323,0.172762655020861,-17.4077917643504,17.0753662096082,574.9942142516
7577,16058,8936,"EMPDv2","Salonen_a14","Salonen_a14",67.9333,54.0333,13,"0.11","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36826360656622,1163.83503394095,-4.12974527312298,-19.7820150223283,13.3876434868636,452.12410943986
7578,16059,8937,"EMPDv2","Salonen_a15","Salonen_a15",67.9333,54.05,20,"0.26","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37035261191983,1169.77950215068,-4.10424006554381,-19.8029370300387,13.4396997193838,454.434270353949
7579,16060,8938,"EMPDv2","Salonen_a16","Salonen_a16",67.1167,56.6833,75,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37457539031345,1270.83696512453,-3.93725972478114,-20.7427696630029,14.4445624905512,496.063141648344
7580,16061,8939,"EMPDv2","Salonen_a17","Salonen_a17",67.1167,56.43,78,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37578690610646,1270.27641659866,-3.92063140487278,-20.7014739729862,14.4300168913522,495.780554130805
7581,16062,8924,"EMPDv2","Salonen_a2","Salonen_a2",63.3343,52.9332,122,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35066121848924,1731.26898698594,-0.704983149076108,-18.1390348247698,16.5595379690891,586.465796736419
7582,16063,8942,"EMPDv2","Salonen_a20","Salonen_a20",65.9667,57.2667,60,"0.43","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36477984131278,1380.57887582558,-3.25366431335798,-20.4602751745065,15.1991040538274,521.242620064395
7583,16064,8943,"EMPDv2","Salonen_a21","Salonen_a21",68,52.4,72,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.35716082501842,1279.69061530312,-3.35663580557848,-19.5177664671309,14.1603431022506,470.111301363843
7584,16065,8944,"EMPDv2","Salonen_a22","Salonen_a22",67.95,53.933333,13,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36871405697151,1163.81377417648,-4.12292877051702,-19.7663051532075,13.3833637388129,452.071821991037
7585,16066,8945,"EMPDv2","Salonen_a23","Salonen_a23",67.9333,54,18,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.36973686164175,1168.31253621352,-4.10696899216147,-19.7892210944243,13.4248090616773,453.772568097046
7586,16067,8948,"EMPDv2","Salonen_a26","Salonen_a26",64.976994,59.180546,250,"0.2","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.40465245044744,1281.82709298493,-4.18334948544564,-21.8744945258012,14.4713570659566,555.723852605427
7587,16068,8949,"EMPDv2","Salonen_a27","Salonen_a27",68,52.3833,4.8,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3701601911997,1160.42870468406,-4.04538898592144,-19.5662384175896,13.3015461524291,450.485646514321
7588,16069,8950,"EMPDv2","Salonen_a28","Salonen_a28",67.183333,59.516667,110,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30741691215053,1156.81726600082,-5.04845167036904,-21.7707260931105,13.7637725236998,468.457530950684
7589,16070,8951,"EMPDv2","Salonen_a29","Salonen_a29",67.183333,59.516667,110,"0.12","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30741691215053,1156.81726600082,-5.04845167036904,-21.7707260931105,13.7637725236998,468.457530950684
7590,16071,8925,"EMPDv2","Salonen_a3","Salonen_a3",63.3363,52.9381,123,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3508341830153,1730.52308431951,-0.709013592764578,-18.1425517274922,16.5550373005202,586.531268049463
7591,16072,8953,"EMPDv2","Salonen_a31","Salonen_a31",67.8667,59.7167,23,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.25627491612046,1048.19620815158,-5.87661904204166,-22.2010789516556,12.8682805683036,419.259737331415
7592,16073,8956,"EMPDv2","Salonen_a34","Salonen_a34",67.775,65.579,172,"1.39","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.13525056603715,947.432347211166,-7.60169677849181,-25.1353780991859,12.0961904837658,384.692034239012
7593,16074,8957,"EMPDv2","Salonen_a35","Salonen_a35",68,62.75,132,"8.3","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20680465154427,1033.22077576816,-6.59472716296246,-23.8295997778124,12.8535846368568,412.649623967651
7594,16075,8958,"EMPDv2","Salonen_a36","Salonen_a36",53.83,38.35,187,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.818194555354251,2780.36310193613,5.05914095090742,-10.1251722037656,18.6913173464622,586.186626488153
7595,16076,8959,"EMPDv2","Salonen_a37","Salonen_a37",53.88,38.47,153,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.794533467049943,2787.0074172853,5.03472094922845,-10.2856828492628,18.8349540724012,567.21391189576
7596,16077,8960,"EMPDv2","Salonen_a38","Salonen_a38",53.67,39.03,186,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.784644576165508,2826.31873090547,5.18145703534493,-10.1181022136414,18.8912151703631,569.65518276172
7597,16078,8961,"EMPDv2","Salonen_a39","Salonen_a39",53.57,39.67,164,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.751525963728971,2866.15617989496,5.27545254648286,-10.1947924111729,19.136269193768,550.540329432007
7598,16079,8926,"EMPDv2","Salonen_a4","Salonen_a4",62.9871,52.4347,125,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.315092200605,1864.93472119004,0.0457770076596484,-17.4876481674386,17.0456358961636,589.139813809978
7599,16080,8962,"EMPDv2","Salonen_a40","Salonen_a40",54.33,39.05,143,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.810418059852475,2766.59699864942,4.94952189980929,-10.4179439500711,18.7907567728704,572.209872439024
7600,16081,8963,"EMPDv2","Salonen_a41","Salonen_a41",54.3,38.83,164,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.821280248742612,2762.50774655176,4.96170072567796,-10.3099347306128,18.7077295923498,580.525277538506
7601,16082,8964,"EMPDv2","Salonen_a42","Salonen_a42",54.25,38.85,157,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.804582256758087,2777.18992006565,4.98398362481105,-10.3595146719053,18.7884019476903,570.614903542191
7602,16083,8965,"EMPDv2","Salonen_a43","Salonen_a43",54.83,40,117,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.819272687408023,2762.91470385003,4.85300281087152,-10.7756205206854,18.8927093761713,574.627955687056
7603,16084,8966,"EMPDv2","Salonen_a44","Salonen_a44",55.17,40.15,123,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828572253765675,2753.30694338171,4.8201281197002,-10.7862910688192,18.8508413158406,576.978018473273
7604,16085,8967,"EMPDv2","Salonen_a45","Salonen_a45",55.25,39.98,127,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.835821620845353,2743.20759940839,4.79802773172396,-10.7639287901918,18.799847547906,579.856193689984
7605,16086,8968,"EMPDv2","Salonen_a46","Salonen_a46",55.63,39.73,125,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.850315948819624,2724.27069175163,4.75541698364664,-10.7510794641194,18.731589404425,583.489439164757
7606,16087,8969,"EMPDv2","Salonen_a47","Salonen_a47",55.88,38.82,140,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.90563936792348,2665.60980856055,4.66758848839275,-10.5584891332659,18.4357333523817,610.421122871866
7607,16088,8927,"EMPDv2","Salonen_a5","Salonen_a5",62.9922,52.4388,125,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31534237327549,1864.30391263405,0.0423604704902433,-17.4906515163968,17.0433520047375,589.136959627058
7608,16089,8928,"EMPDv2","Salonen_a6","Salonen_a6",62.9786,52.3888,130,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31591346157958,1856.59455713909,0.00272554324144673,-17.5230031679716,17.0062042446927,589.10353484779
7609,16090,8929,"EMPDv2","Salonen_a7","Salonen_a7",62.9259,52.4974,145,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.32068597162738,1823.15739877875,-0.178453823168719,-17.6793407141134,16.8610275285547,589.944359570981
7610,16091,8930,"EMPDv2","Salonen_a8","Salonen_a8",62.1553,50.5029,65,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27209536670398,1996.03117290786,0.78058375379987,-16.8681622924001,17.5430016434161,571.546633647817
7611,16092,8931,"EMPDv2","Salonen_a9","Salonen_a9",62.0766,50.1535,74,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.25878805833462,2036.19860048762,0.969751088233515,-16.6784806205465,17.7015260035001,574.550403386749
7612,16093,11201,"Bush et al., 2020","Salpeten","Salpeten",16.98,-89.68,110,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.27802156740917,9394.71104616176,25.7389343730459,22.8152110727985,27.8295584527934,2061.80017149916
7613,16094,17397,"Neotoma","Salsuesha Lake","TW104",43.62,-84.73,240,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.936794411893684,3354.40563955947,7.84406858086146,-6.52750578411773,21.1851249017588,801.21635271516
7614,16095,22260,"SMPDSv1","Salt","Jordan-14",32.09,35.7,844,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.128673858538229,6116.72066403188,16.7581388055668,7.2437985485154,24.8865720916898,225.706242820571
7614,16096,22259,"SMPDSv1","Salt","Jordan-7",32.05,35.72,908,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.115327786163857,6026.69721844454,16.5114992286152,6.83002227448521,24.7508584148834,203.479767821684
7615,16097,1351,"Australian pollen","Salt Lake","Salt Lake",-37.583,142.317,220,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.560182707583298,4942.05495119225,13.5398765786089,8.06892692228488,19.3801258813255,607.119859618452
7616,16098,11638,"Neotoma","Salt Pond","GPPS-7",41.75437,-102.507765,1165,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.414748923611896,3566.24958963916,8.92405298407968,-4.67541704452051,23.1703976926867,434.259656085515
7617,16099,15706,"Neotoma","Salters Lake","DRW003",34.72,-78.63,22,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.07818390365426,6158.60696417207,16.8728957922523,6.16268921448852,26.6164966429668,1269.27581657998
7618,16100,22261,"SMPDSv1","Saluces-Siguret","Ortu_d33",44.603,6.578,1480,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.38645067964133,2408.01949493927,6.43567890048098,-1.17267839753323,15.0036858651716,1310.55481440588
7618,16101,22262,"SMPDSv1","Saluces-Siguret","Ortu_d34",44.608,6.568,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33777361312831,2537.81182878019,6.86379595236947,-0.770357859570616,15.4490576255542,1276.73269251843
7618,16102,22263,"SMPDSv1","Saluces-Siguret","Ortu_d35",44.61,6.564,1280,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26609004107997,2746.22751236964,7.50986392515214,-0.16245180214807,16.1203481790191,1225.89045420072
7618,16103,22264,"SMPDSv1","Saluces-Siguret","Ortu_d36",44.613,6.559,1030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12323323118304,3232.58634153012,8.85640093569895,1.10449039578043,17.5194564075618,1119.93737157007
7618,16104,22265,"SMPDSv1","Saluces-Siguret","Ortu_d37",44.613,6.557,1030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1232124388536,3232.37394791999,8.85581903539724,1.10406931106662,17.5189311349815,1119.90591447877
7618,16105,22266,"SMPDSv1","Saluces-Siguret","Ortu_d38",44.613,6.557,1030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1232124388536,3232.37394791999,8.85581903539724,1.10406931106662,17.5189311349815,1119.90591447877
7618,16106,22267,"SMPDSv1","Saluces-Siguret","Ortu_d39",44.613,6.557,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14385567007948,3159.51087836434,8.65619418729956,0.91614841755763,17.3116011969335,1135.59505143233
7618,16107,22268,"SMPDSv1","Saluces-Siguret","Ortu_d40",44.616,6.553,960,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08487428458513,3369.2810876636,9.23090708948932,1.45630377261719,17.9092732394643,1090.26911465115
7619,16108,22269,"SMPDSv1","Samohvalovskoe boloto","Samohvalovskoe boloto_SS (Novenko_c183)",56.8333,64.9294,100,"0.01","terrestrial, bog/fen/swamp","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.71516056972034,2446.34408993332,1.69066233653847,-17.2184601607457,19.4562118763122,445.811368045151
7620,16109,13228,"Neotoma","San Agustin Plains","SAPBHM",33.866667,-108.25,2069,"not known","lake","core","0","Clisby, K.H., and F. Foreman. 1956. Pleistocene climatic changes in New Mexico. U.S.A. Veröffentlichungen des Geobotanisches Institutes Rübel der Eidgenössischen Technischen Hochschule, Stiftung Rübel, Zürich 34:22-26.; Clisby, K.H., and F. Foreman. 1962. Palynology - diastrophism - erosion. Field excursion guide, 1st International Pollen Conference, Tucson, Arizona, USA.; Markgraf, V., J.P. Bradbury, R.M. Forester, G. Singh, and R.S. Sternberg. 1984. San Agustin Plains, New Mexico: age and paleoenvironmental potential reassessed. Quaternary Research 22:336-343.",,17,"temperate evergreen needleleaf open woodland",0.250575238129506,3740.44384470176,10.2357704387133,0.00424582308408825,21.0935900729311,347.613434889296
7620,16110,13229,"Neotoma","San Agustin Plains","SAPPIT",33.866667,-108.25,2069,"not known","lake","profile or section","0","Markgraf, V., J.P. Bradbury, R.M. Forester, G. Singh, and R.S. Sternberg. 1984. San Agustin Plains, New Mexico: age and paleoenvironmental potential reassessed. Quaternary Research 22:336-343.",,17,"temperate evergreen needleleaf open woodland",0.250575238129506,3740.44384470176,10.2357704387133,0.00424582308408825,21.0935900729311,347.613434889296
7621,16111,22270,"SMPDSv1","San Ciprian","Barboni_a1314",43.22,-7.02,802,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03053410028013,3784.11803567351,10.3674466730781,3.75995377871925,17.9115732675738,1015.32300743793
7622,16112,4398,"CMPD","San Jiang","San Jiang 01",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16113,4399,"CMPD","San Jiang","San Jiang 02",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16114,4400,"CMPD","San Jiang","San Jiang 03",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16115,4401,"CMPD","San Jiang","San Jiang 04",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16116,4402,"CMPD","San Jiang","San Jiang 05",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16117,4403,"CMPD","San Jiang","San Jiang 06",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16118,4404,"CMPD","San Jiang","San Jiang 07",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16119,4405,"CMPD","San Jiang","San Jiang 08",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16120,4406,"CMPD","San Jiang","San Jiang 09",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16121,4407,"CMPD","San Jiang","San Jiang 10",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16122,4408,"CMPD","San Jiang","San Jiang 11",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7622,16123,4409,"CMPD","San Jiang","San Jiang 12",47.58,133.52,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.949722932632101,2922.72789085252,2.25287517144197,-20.8121464156432,21.6088107696449,646.443718598086
7623,16124,13222,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","-39","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7623,16124,13223,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","-26","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7623,16124,13224,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","-13","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7623,16124,13225,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","0","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7623,16124,13226,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","23","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7623,16124,13227,"Neotoma","San Joaquin Marsh","SANJOAQ",33.658333,-117.858333,2,"not known","terrestrial, marsh","core","46","Davis, O.K. 1992. Rapid climatic change in coastal southern California inferred from pollen analysis of San Joaquin Marsh. Quaternary Research 37:89-100.",,22,"steppe",0.247456893581913,6382.02696236011,17.4850053763291,13.1778716517016,22.7490564635217,334.557916451242
7624,16125,24356,"Neotoma","San Jorge","SANJORGE_16",-4.06333333333333,-73.195,99,"not known","terrestrial, bog/fen/swamp","core","-13","Kelly, T.J., I.T. Lawson, K.H. Roucoux, T.R. Baker, T.D. Jones, and N.K. Sanderson. 2017. The vegetation history of an Amazonian domed peathland. Palaeogeography, Palaeoclimatology, Palaeoecology 468:129-141.","10.1016/j.palaeo.2016.11.039",1,"tropical evergreen broadleaf forest",1.9781346798946,9695.99806919231,26.5643782717597,25.6559155544691,27.0393946203737,2565.24375779532
7624,16126,24357,"Neotoma","San Jorge","SANJORGE_24",-4.06333333333333,-73.195,99,"not known","terrestrial, bog/fen/swamp","core","34","Kelly, T.J., I.T. Lawson, K.H. Roucoux, T.R. Baker, T.D. Jones, and N.K. Sanderson. 2017. The vegetation history of an Amazonian domed peathland. Palaeogeography, Palaeoclimatology, Palaeoecology 468:129-141.","10.1016/j.palaeo.2016.11.039",1,"tropical evergreen broadleaf forest",1.9781346798946,9695.99806919231,26.5643782717597,25.6559155544691,27.0393946203737,2565.24375779532
7624,16127,24355,"Neotoma","San Jorge","SANJORGE_8",-4.06333333333333,-73.195,99,"not known","terrestrial, bog/fen/swamp","core","-40","Kelly, T.J., I.T. Lawson, K.H. Roucoux, T.R. Baker, T.D. Jones, and N.K. Sanderson. 2017. The vegetation history of an Amazonian domed peathland. Palaeogeography, Palaeoclimatology, Palaeoecology 468:129-141.","10.1016/j.palaeo.2016.11.039",1,"tropical evergreen broadleaf forest",1.9781346798946,9695.99806919231,26.5643782717597,25.6559155544691,27.0393946203737,2565.24375779532
7625,16128,13270,"Neotoma","San Jose Chulchaca","SJ89",20.866667,-90.133333,1,"not known","lake","core","0","Leyden, B.W., M. Brenner, T.J. Whitmore, J.H. Curtis, D.R. Piperno, and B.H. Dahlin. 1996. A record of long- and short-term climatic variation from northwest Yucatan: Cenote San Jose Chulchaca. Pages 30-50 in S.L. Fedick, editor. The Managed Mosaic: Ancient Maya Agriculture and Resource Use. University of Utah Press, Salt Lake City, Utah, USA.",,3,"tropical deciduous broadleaf forest and woodland",0.567504749819737,9535.37610434321,26.124318094091,22.8452198508737,28.2772409269859,878.464226554834
7626,16129,13793,"Neotoma","San Luis Lake","SANLUIS",37.67773,-105.724665,2293,"not known","lake","core","-37","De Lanois, J.L. 1993. Climatic change during the late Holocene from a south central Colorado lake. Master's thesis. University of Arizona, Tuscon, Arizona, USA.",,22,"steppe",0.310062230681801,2847.59846600184,6.74219754017843,-5.30837530412502,18.8723611571625,362.888439089366
7626,16129,13794,"Neotoma","San Luis Lake","SANLUIS",37.67773,-105.724665,2293,"not known","lake","core","32","De Lanois, J.L. 1993. Climatic change during the late Holocene from a south central Colorado lake. Master's thesis. University of Arizona, Tuscon, Arizona, USA.",,22,"steppe",0.310062230681801,2847.59846600184,6.74219754017843,-5.30837530412502,18.8723611571625,362.888439089366
7627,16130,22271,"SMPDSv1","San Mames de Abar","Barboni_a1313",42.616667,-3.966667,920,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.64759064128394,3823.96320722597,10.4766115266465,3.29496474235048,18.8731868126715,691.557745045701
7628,16131,10537,"IBERIA","San Rafael","SANRAFA",36.773611,-2.601389,0,"not applicable","coastal, estuarine","core top","-30","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",20,"xerophytic woods/scrub",0.245964394676241,6678.24931927059,18.2965734774537,11.7523947004057,26.2174653655761,321.924984656079
7629,16132,8351,"EMPDv2","San Simon Bay (Ria de Vigo)","MunozSobrino_a37 (San Simón ST25)",42.289275,-8.6254114,-7.6,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60114564884156,5351.3742080712,14.6612992001951,10.5101675379816,19.2942669317369,1548.10977744349
7629,16133,8352,"EMPDv2","San Simon Bay (Ria de Vigo)","MunozSobrino_a38 (San Simón ST24)",42.313305,-8.623754,-3.4,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60000888602578,5341.05993421768,14.6330409156649,10.47725435858,19.2782025097191,1546.28800805325
7629,16134,8353,"EMPDv2","San Simon Bay (Ria de Vigo)","MunozSobrino_a39 (CORE 8)",42.323093,-8.643089,-2,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.6005100502103,5338.61857497544,14.6263522602067,10.4698401881409,19.2747076294949,1546.6726313758
7629,16135,8354,"EMPDv2","San Simon Bay (Ria de Vigo)","MunozSobrino_a40 (Core B5)",42.313305,-8.705556,-1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60174397250955,5340.98025479269,14.6328226158704,10.4693454947661,19.2851107118231,1548.86813994108
7630,16136,22272,"SMPDSv1","SAN1","Barboni_a510",43.418889,-3.968889,20,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.13219446442056,4897.65799365028,13.4182410784939,8.17875736637692,19.1178249801089,991.911507101574
7631,16137,22273,"SMPDSv1","SAN2","Barboni_a511",43.418889,-3.95,40,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.12610512232534,4868.77262393805,13.3391030792823,8.06320749498236,19.0834195531205,989.17864146083
7632,16138,22274,"SMPDSv1","SAN3","Barboni_a512",43.4,-3.617222,150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.18390209359992,4685.95149561153,12.838223275648,7.33047343360518,18.8338876079587,1033.82301543466
7633,16139,22275,"SMPDSv1","Sanabria Marsh","Barboni_a1399",42.109861,-6.691806,980,"not known","terrestrial, marsh","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.77869685582889,3701.77555314441,10.1418508305326,2.77813850677815,18.6982347707366,838.690666276361
7633,16140,10538,"IBERIA","Sanabria Marsh","SANABRIA",42.1,-6.733333333,1050,"not known","terrestrial, marsh","peat core top","0","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.77349347759158,3565.8213740669,9.76937362758056,2.32314573920481,18.4524982995482,836.119613827751
7634,16141,11202,"Bush et al., 2020","SanCristobalJSA","SanCristobalJSA",-0.9205,-89.50016667,336,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.631891029934712,8042.90079099981,22.0353446328762,19.7064522658739,24.4356837753437,965.666830339239
7635,16142,11203,"Bush et al., 2020","SanCristobalJSC","SanCristobalJSC",-0.915972222,-89.5035,521,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.604923335718273,7951.85301610286,21.7858986742544,19.4371615717664,24.241944823928,927.456460738344
7636,16143,11204,"Bush et al., 2020","SanCristobalJSD","SanCristobalJSD",-0.912333333,-89.50411111,521,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.604944932867928,7951.47184157097,21.7848543604684,19.4360028455017,24.2409993452904,927.462172447256
7637,16144,11205,"Bush et al., 2020","SanCristobalJSF","SanCristobalJSF",-0.930611111,-89.497,159,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.657971582286944,8129.24129428486,22.2718939569448,19.961669972412,24.6192057117013,1002.29298579281
7638,16145,11206,"Bush et al., 2020","SanCristobalJSG","SanCristobalJSG",-0.934277778,-89.49497222,65,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.671946398429079,8174.6396214056,22.3962729353578,20.0957906721417,24.715570575835,1021.77440670364
7639,16146,11207,"Bush et al., 2020","SanCristobalJSH","SanCristobalJSH",-0.938861111,-89.49272222,65,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.671983044649719,8174.35217704584,22.3954854165639,20.0948800955049,24.714887581496,1021.80261965316
7640,16147,11208,"Bush et al., 2020","SanCristobalJSI","SanCristobalJSI",-0.92675,-89.49766667,159,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.657963713493722,8129.32760978174,22.2721304377582,19.9619367147039,24.6194162617175,1002.28886289571
7641,16148,11209,"Bush et al., 2020","SanCristobalJSJ","SanCristobalJSJ",-0.911111111,-89.51155556,495,"not known","terrestrial","pollen trap","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.608816323230202,7963.96550183108,21.8190835666605,19.4727727372505,24.2676063338693,932.93923361583
7642,16149,16394,"Neotoma","Sand","JTA211",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16150,16390,"Neotoma","Sand","JTA212",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16151,16389,"Neotoma","Sand","JTA213",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16152,16393,"Neotoma","Sand","JTA214",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16153,16397,"Neotoma","Sand","JTA215",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16154,16388,"Neotoma","Sand","JTA216",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16155,16396,"Neotoma","Sand","JTA217",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16156,16395,"Neotoma","Sand","JTA218",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16157,16391,"Neotoma","Sand","JTA219",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7642,16158,16392,"Neotoma","Sand","JTA220",66.9,-91.37,250,"not known","not known","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",30,"tundra",0.789513089390637,450.972545714947,-14.9362828188948,-34.07725004871,7.20868466181481,223.981887442682
7643,16159,16747,"Neotoma","Sand Lake Slough","RJM009",53.345833,-105.808333,494,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.60740538678814,2258.77215277194,0.517846053845805,-19.4156593595058,17.1394031222373,422.198718223288
7644,16160,16549,"Neotoma","Sand Pond","KG043",44.2,-70.62,155,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47025422751404,2994.66919041098,6.53301616755594,-7.76598348277866,19.7716879598689,1160.8384485008
7645,16161,4410,"CMPD","Sandaolaoyefu","Sandaolaoyefu 01",42.1,126.24,1117,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.27368653467826,2475.85024213768,1.95288199829104,-18.4228731874263,18.5693398700094,1074.64931821582
7645,16162,4411,"CMPD","Sandaolaoyefu","Sandaolaoyefu 02",42.1,126.24,1080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.24852542182495,2515.88748940911,2.11981425971854,-18.298874764593,18.7680565181862,1058.35347337596
7645,16163,4412,"CMPD","Sandaolaoyefu","Sandaolaoyefu 03",42.1,126.24,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.1949227917613,2603.0940843682,2.48074887902125,-18.0307700665749,19.1977141358659,1023.11921426275
7645,16164,4413,"CMPD","Sandaolaoyefu","Sandaolaoyefu 04",42.1,126.24,920,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.14238674784464,2690.99404726468,2.84168349832396,-17.7626653685568,19.6273717535455,987.884955149536
7645,16165,4414,"CMPD","Sandaolaoyefu","Sandaolaoyefu 05",42.1,126.24,860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.10366575895758,2757.37235478254,3.11238446280099,-17.5615868450433,19.9496149668052,961.459260814627
7645,16166,4415,"CMPD","Sandaolaoyefu","Sandaolaoyefu 06",42.1,126.24,775,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.04978299925027,2852.0659477731,3.49587749581012,-17.2767256033991,20.4061261855898,924.022860506838
7645,16167,4416,"CMPD","Sandaolaoyefu","Sandaolaoyefu 07",42.1,126.24,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.09726801301978,2768.4798114711,3.15750129021383,-17.528073757791,20.0033221690151,957.054978425475
7645,16168,4417,"CMPD","Sandaolaoyefu","Sandaolaoyefu 08",42.1,126.24,1270,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.38029836571239,2311.67972234416,1.26259453887461,-18.9356234223859,17.7476196761972,1142.03483876984
7645,16169,4418,"CMPD","Sandaolaoyefu","Sandaolaoyefu 09",42.1,126.24,1620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.64084353411746,1946.62824915559,-0.316494420574747,-20.108581476215,15.8678675988488,1296.18472239014
7645,16170,4419,"CMPD","Sandaolaoyefu","Sandaolaoyefu 10",42.1,126.24,1950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.91014393671512,1617.61890942777,-1.80534972519842,-21.2145133555396,14.0955299259204,1441.52604123214
7646,16171,8637,"EMPDv2","Sandelvbreen","Pardoe_c85",61.32,8.1,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.55956086316214,1088.29102235422,-0.514648890249819,-10.4980613386675,9.52219668843843,784.532214844183
7646,16172,8638,"EMPDv2","Sandelvbreen","Pardoe_c86",61.32,8.1,1370,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.59707370413646,1105.40231901118,-0.39175418618629,-10.3324229414562,9.60895558793919,802.76723408341
7646,16173,8639,"EMPDv2","Sandelvbreen","Pardoe_c87",61.32,8.1,1330,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.64719274598761,1128.49000166029,-0.227894580768252,-10.1115717451744,9.72463412060687,827.080593069046
7646,16174,8640,"EMPDv2","Sandelvbreen","Pardoe_c88",61.32,8.1,1250,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.74778374077835,1175.3920246824,0.0998246300678246,-9.66986935261089,9.95599118594222,875.707311040317
7647,16175,22276,"SMPDSv1","Sandfjelltjern","Bjune_a111",60.6083083,6.21041512,609,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.68054815001357,1859.63870935469,4.44407247207616,-3.04385880401525,12.4012942819188,1911.91792470584
7648,16176,11210,"Bush et al., 2020","SanDiego","SanDiego",16.92,-90.42,138,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",1.36825889043095,9439.61018846414,25.8619457218196,22.7943522148668,28.1235313902904,2224.71285763104
7649,16177,14262,"Neotoma","Sands of Time Lake","SANDSZ",66.029335,-147.55331,242,"not known","lake","core","-31","Edwards, M.E., and E.D. Barker, Jr. 1994. Climate and vegetation in northeastern Alaska 18,000 - present. Paleogeography, Paleoclimatology, and Paleoecology 109:127- 135.",,15,"cold evergreen needleleaf forest",0.5738910488836,1632.78393169055,-4.72772766849964,-24.2490762266024,15.1660813337546,233.589545485836
7650,16178,9674,"Gaillard et al., 1992","Sandsjobacka","Sandsjobacka",57.548786,12.055648,53,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.10354133828624,2665.58884146543,6.81287520932252,-2.54219900622854,16.3326069140286,701.161096760327
7651,16179,22277,"SMPDSv1","Sandsvatn","Bjune_a50",62.13292304,5.61435454,357,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.9342001428135,2005.71267822394,5.20604741467815,-1.54938554237977,12.6408369667225,1910.15226408691
7652,16180,22278,"SMPDSv1","Sandtjern","Bjune_a122",58.9328305,8.74810679,173,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.89132541554997,2254.84149057518,5.22470764783436,-4.4346136977751,14.8975386639264,1102.5388271275
7653,16181,4420,"CMPD","Sandu","Sandu",19.9,109.4,34,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37083505104189,8870.98466345119,24.3040675710992,17.6264323937495,29.0361944568522,1797.29920350804
7654,16182,13221,"Neotoma","Sandy Cove Pond","SANDYCOV",54.4,-57.716667,100,"not known","lake","core","0","Jordan, R.H. 1975. Pollen diagrams from Hamilton Inlet, central Labrador, and their environmental implications for the northern maritime Archaic. Arctic Anthropology 12:92-116.",,15,"cold evergreen needleleaf forest",1.9873036546941,1271.84579977278,-1.13291934339539,-14.7956048920025,11.5707696890825,973.428536206225
7655,16183,16542,"Neotoma","Sandy River Ponds","KG036",44.9,-70.55,518,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.64496191472112,2346.67053568818,3.2847035649512,-12.0676069827097,17.1818815702149,1198.98994999801
7656,16184,11211,"Bush et al., 2020","SanFranciscoKana","SanFranciscoKana",20.86,-90.12,5,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.575573370707359,9534.08879002956,26.1207912055604,22.8367433084628,28.2747589053073,890.856605190222
7657,16185,11212,"Bush et al., 2020","SanfranciscoMateos","SanfranciscoMateos",17.9,-90.66,53,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.00903491975394,9563.90246413115,26.2024725044689,22.7999465181876,28.6558750086215,1592.15607636229
7658,16186,4421,"CMPD","Sanjiang","Sanjiang DS4",19.8667,110.617,5,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39075350651853,8861.32388513555,24.2775996853029,17.5462881676768,29.0866985617768,1816.00979487811
7659,16187,4422,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071501",35.8330111111111,99.9244111111111,3776,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.29328841557655,1111.46659326009,-1.50014158987563,-14.3527162828286,9.57512821564532,293.441488107752
7659,16188,4423,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071502",35.6270805555556,99.5490111111111,3937,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.297239238137673,1037.20691212385,-1.91488819805003,-14.6578359711736,9.15532915555136,298.403284189345
7659,16189,4424,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071601",35.1753611111111,99.0256361111111,4290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.310605090738476,817.362628357854,-3.10717688007467,-15.5001855924297,7.80311724156,309.079493262796
7659,16190,4425,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071602",34.7821805555556,98.5099305555556,4287,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.298192101581078,820.324155363392,-3.10940946542811,-15.4602308560692,7.84229355225663,299.489676725239
7659,16191,4426,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071701",34.541275,97.7697972222222,4431,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.305560345528207,676.429318266579,-3.90005842241577,-15.8873742770189,6.87532905345111,301.725565235195
7659,16192,4427,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071702",34.5703861111111,97.6234555555556,4330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.290013379666368,848.913924614664,-2.89823772079534,-15.1100985418117,8.01811467658549,295.913091123481
7659,16193,4428,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071802",34.2556888888889,97.8489694444444,4709,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.332678277349754,300.748874300407,-6.52590143664467,-17.9091150401305,3.95501221021026,302.970156670494
7659,16194,4429,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071901",34.6674,98.1467305555556,4220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.287722521292036,992.859286188498,-2.12483200837365,-14.5876224163274,8.89563512042089,299.041391004077
7659,16195,4430,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071902",34.3448194444444,98.5535305555556,4210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.312576862185304,972.674189402798,-2.11699765398067,-14.4398395097738,8.70085631337319,321.492453323735
7659,16196,4431,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071903",34.0835305555556,99.0242888888889,4138,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.362307377208251,1095.29265694347,-1.20794400219957,-13.3354962450981,9.23649477204114,372.458961945892
7659,16197,4432,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018071904",34.0154888888889,99.0378388888889,4125,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.36388286399851,1118.36492739091,-1.07312918585016,-13.1972532554177,9.35594785379409,375.169757110922
7659,16198,4433,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072102",34.1245777777778,100.399569444444,3963,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.418981474887878,1257.4179524556,-0.0435631571606501,-11.9077971588777,9.93385091668923,426.281758800836
7659,16199,4434,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072401",33.6770111111111,99.2370416666667,4137,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.406362019209645,1218.1953869241,-0.314121031864013,-12.0792565154824,9.74892946370523,422.453852218874
7659,16200,4435,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072402",33.5786722222222,98.8804805555556,4397,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.394417868471585,784.728759499552,-2.69250577838478,-14.0788529208554,7.33328186055744,391.389656385519
7659,16201,4436,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072403",33.4546361111111,98.7658833333333,4574,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.39316448542827,535.972101755974,-4.24643080323481,-15.3235749280296,5.69985420375303,376.469270785712
7659,16202,4437,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072501",32.6197916666667,98.076125,4132,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.406705037537542,997.10235398376,-1.02514412541238,-11.6140900423797,8.43859014415767,417.5561271654
7659,16203,4438,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072502",32.6448888888889,98.043625,4514,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.419526482345764,660.693424606023,-2.99334758369162,-13.3570726164567,6.40786342752625,413.582649547008
7659,16204,4439,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072601",32.8827,98.6582972222222,3916,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.39767636914812,1367.23755262323,0.474630969225221,-11.2403580315724,10.5007628013565,422.461625974531
7659,16205,4440,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072602",32.8514305555556,98.7158638888889,3955,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.401284277485119,1319.81124172316,0.263338058498053,-11.3804001594674,10.2511480622557,424.166050180674
7659,16206,4441,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072603",32.8661083333333,99.0159444444444,3976,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.441920050545195,1441.89182913453,0.915324935952603,-10.7447849935861,10.763527742875,467.576123051835
7659,16207,4442,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072701",33.0825472222222,98.5563055555556,4040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.396614573877924,1223.00370823289,-0.198334581472891,-11.7275760524798,9.75899378023326,415.877709016731
7659,16208,4443,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072702",33.4718166666667,98.4794277777778,4472,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.382952414160259,641.430193471055,-3.57973518735589,-14.7804374659711,6.43439583631316,373.445815394436
7659,16209,4444,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018072803",33.5062361111111,97.7537138888889,4242,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373918330512604,1001.51467400834,-1.35389738615716,-12.633154811106,8.59372735457327,386.216645534827
7659,16210,4445,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073001",33.1154944444444,97.4586,4105,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.401876535815709,1170.33851340376,-0.0365990037926166,-10.6631960288593,9.35031559077458,422.68818575083
7659,16211,4446,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073002",33.4492972222222,97.2754305555556,4303,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372332291593886,907.277590799644,-1.81706969102228,-12.8834537404395,8.04793448716592,380.848899623886
7659,16212,4447,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073003",33.7594944444444,97.0260222222222,4570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311454900135051,459.322125626983,-5.22653942673631,-16.5730753021383,5.30030871660116,297.063147432354
7659,16213,4448,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073101",34.2262138888889,97.1761333333333,4448,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.315430284753639,662.672236491877,-3.81145463826586,-15.4307106027283,6.74260079282083,311.635401572973
7659,16214,4449,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073102",34.4085305555556,96.8247444444444,4518,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.284755940292918,557.72057037004,-4.72281701111737,-16.463579762656,6.10257547385,276.924270121133
7659,16215,4450,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018073103",34.0116111111111,96.3205472222222,4175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.328387304918069,1210.05486820533,-0.447181915068808,-12.1776639989492,9.87865739008096,353.957303586011
7659,16216,4451,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080101",34.5318722222222,95.7129027777778,4345,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.194991841549076,967.425930219336,-2.54245976130045,-15.0778080637841,9.03064893322164,207.728099149691
7659,16217,4452,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080102",34.5676444444444,95.9706388888889,4489,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.241106745088823,659.789855386122,-4.22071099872745,-16.2116408360745,6.92351077779962,240.934180916493
7659,16218,4453,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080103",34.7230055555556,96.1399,4579,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.254342145012592,504.107283299065,-5.24468035473512,-16.9797195611066,5.76846377622453,244.917676615137
7659,16219,4454,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080201",34.8777527777778,94.9766694444444,4252,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182297620478209,863.53625383926,-3.15796644917063,-15.5053610763486,8.38174164716708,186.603103979191
7659,16220,4455,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080203",34.2083527777778,95.7867194444444,4440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.280220858032671,690.516477027682,-3.75832755699761,-15.4371093269423,7.02835046302816,280.381534879445
7659,16221,4456,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080301",33.8252305555556,95.4952,4375,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.275808878421714,790.604955544139,-3.1021437495912,-14.7858426924874,7.69199456491733,281.972511170075
7659,16222,4457,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080302",34.1604138888889,95.0333055555556,4632,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.252522628570387,494.012346854377,-5.25656369102828,-16.7743897362542,5.65284191568568,243.864276624901
7659,16223,4458,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080303",34.27195,94.8924888888889,4561,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.216363974971902,612.361388401586,-4.59291600739466,-16.4445408072056,6.60696914910681,215.234212860032
7659,16224,4459,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080401",33.6123305555556,95.983475,4161,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.35953630965963,1064.94884862721,-0.916029420956905,-11.9562198748304,8.96955378093038,376.755756180152
7659,16225,4460,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080402",33.2182777777778,96.4943277777778,4163,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.403623215612631,1061.27281793905,-0.569642451817685,-11.0106661372082,8.75318134628445,419.54805779384
7659,16226,4461,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080403",33.6312222222222,95.2871916666667,4535,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.303499857837991,597.429923549908,-4.16656276838118,-15.3898809579467,6.30206443128255,299.120340505422
7659,16227,4462,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080502",32.9617861111111,96.1262583333333,4252,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.382976154396879,895.066966114778,-1.64719689176312,-12.1905529379912,7.91182261266773,391.817381944857
7659,16228,4463,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080503",32.59125,96.5622833333333,3929,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.448222106397238,1125.58320159509,0.0790060947332401,-9.840286256926,8.92767653064725,461.119910385175
7659,16229,4464,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080601",32.7673388888889,97.3242416666667,4072,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.400910857987834,1163.93101376317,-0.00695487543546211,-10.489105904197,9.30719504629953,422.241668806484
7659,16230,4465,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080701",32.288225,96.5123833333333,3779,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.468890086278043,1139.96640193635,0.278244322124378,-9.41670510989272,8.93454086695338,477.414435366832
7659,16231,4466,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080702",32.2465388888889,96.8591305555556,3693,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.437638962202757,1403.33155231328,1.42560289599578,-8.66080960954998,10.3540497746289,463.737609171454
7659,16232,4467,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080703",32.0193777777778,97.0619444444444,3552,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.436457007669933,1509.41112761297,1.93465302985513,-8.15943519094538,10.8608696498109,465.857392902875
7659,16233,4468,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080801",31.8110472222222,97.7165777777778,3892,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.432840289897797,1261.15773114974,0.729724808625408,-9.2165917115593,9.68762734040661,458.614137951666
7659,16234,4469,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080802",31.4206777777778,98.1458416666667,3737,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.502821685664737,1908.034424422,4.02931302576763,-5.35617739169087,12.2694716589733,563.751209610675
7659,16235,4470,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080803",31.315725,98.01855,4054,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.486255454354484,1403.48154882985,1.68761919695891,-7.78829739189632,10.1556788334639,526.474900167374
7659,16236,4471,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080901",31.1888,97.0282194444444,3455,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513542662094943,1463.47707390311,2.02263459763378,-7.31901861087591,10.4652564467828,539.142888441366
7659,16237,4472,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018080902",31.1264388888889,96.7456111111111,3772,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.52330710783177,1188.04441013561,0.713257337764322,-8.49227204448083,9.10133175222447,542.889999904469
7659,16238,4473,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081001",31.1167805555556,96.4973111111111,4454,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.470723280523134,803.196703901395,-1.62925022189557,-11.0637836672465,7.10294884426934,483.549170674112
7659,16239,4474,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081002",31.3940861111111,95.6560083333333,3967,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.480441725945542,1214.16656153214,0.746608838182422,-8.7021798816358,9.31937046408533,511.463528922502
7659,16240,4475,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081101",31.5117305555556,95.3504888888889,4249,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.452627775603566,1106.44779823767,0.0329387053103202,-9.66531653810396,8.84510928469276,484.83405455414
7659,16241,4476,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081102",31.6702222222222,94.8579777777778,4399,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.430726725840681,1146.80913597345,0.118841196571372,-9.84331819080752,9.1226731358098,470.681412100527
7659,16242,4477,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081202",32.4142777777778,94.4868555555555,4684,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.339385138148125,746.136189909286,-2.8781385496529,-13.7502795112234,7.1242127424748,351.156446409898
7659,16243,4478,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081203",31.9142361111111,93.8429194444444,4111,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.349190460488933,1364.93924690972,0.739407402513126,-10.3674829264344,10.5714818621843,387.028690968642
7659,16244,4479,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081301",32.10495,93.5826027777778,4088,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.359316615524158,1232.60270877206,0.00567439977391168,-11.2446459098649,9.87969352780995,387.774583605537
7659,16245,4480,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081302",32.1402861111111,93.071038888888907,4401,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.361583380040418,1042.30218964228,-1.22499460874918,-12.6321470546225,8.85251506211452,385.673332204058
7659,16246,4481,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081303",32.1889972222222,92.4782166666667,4748,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.349593021378872,837.414649067896,-2.68046374433988,-14.1456341715291,7.66113538729332,367.73953836934
7659,16247,4482,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081401",31.7218111111111,92.0647972222222,4656,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372624533528616,1033.1117209948,-1.51944759186679,-13.1000338026729,8.78737224765429,405.171632714025
7659,16248,4483,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081402",31.5737222222222,91.9041055555556,4642,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373333157407297,1052.29767970679,-1.42008780995913,-13.0191079955255,8.90043305289821,407.563634521659
7659,16249,4484,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081501",32.4798194444444,91.8323083333333,4802,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.332275042854921,793.141903728072,-3.17090397104157,-14.783949292544,7.44582623165836,346.7698354637
7659,16250,4485,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081502",33.6427777777778,92.0542055555556,4696,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.23727326827088,619.857862973519,-4.72036098157937,-16.5372307981791,6.50484118057932,235.644311434234
7659,16251,4486,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081503",34.1777277777778,92.4063777777778,4614,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.201052547579903,594.117907830871,-4.88794575358678,-16.6605618336329,6.40031272737424,197.915559792386
7659,16252,4487,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081601",34.159225,93.5301833333333,4452,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.183344204528558,701.685117918071,-4.0638653351925,-15.9203329858391,7.24418131422289,184.949637020985
7659,16253,4488,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081602",34.1598194444444,93.1084027777778,4546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.1961011110056,627.823118215754,-4.56433525889065,-16.3201911851024,6.67595009564471,194.690650152688
7659,16254,4489,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081701",34.6376888888889,92.8864777777778,4699,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.195192536043492,534.622112014756,-5.2821691004142,-16.9750682967603,5.96623165209145,190.194376164161
7659,16255,4490,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081702",35.3270861111111,93.3232305555556,4527,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.159000862339918,615.666376674752,-4.73528417552736,-16.5940561760518,6.66317837751759,156.302595285503
7659,16256,4491,"CMPD","Sanjiangyuan","Sanjiangyuan TP2018081704",35.7733833333333,94.3361805555556,4070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146228955550418,1067.71729253081,-2.08263042476047,-14.7260812914119,9.70961564422829,152.488282711506
7660,16257,11213,"Bush et al., 2020","SanJoseAguilar","SanJoseAguilar",18.37,-89.01,146,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.877875671340453,9300.06231068728,25.4796227690063,22.2318354808201,27.7717531301925,1367.84155472055
7661,16258,11214,"Bush et al., 2020","SanMartin","SanMartin",20.42,-103.9,1305,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.583300988287673,7619.76853200906,20.8760781698879,17.2219789308349,23.7818123425165,954.978022827697
7662,16259,11215,"Bush et al., 2020","SanMiguel","SanMiguel",19.12,-97.54,2431,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.519663552010826,5623.68390298194,15.4073531588546,12.5438803363678,17.7035189119571,752.913535940277
7663,16260,4492,"CMPD","Sanming","Sanming 1",26.17,117.46,240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33790916933805,6940.06023850654,19.0138636671412,8.92584016112544,28.2162420697174,1577.46012615311
7663,16261,4493,"CMPD","Sanming","Sanming 2",26.17,117.46,240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33790916933805,6940.06023850654,19.0138636671412,8.92584016112544,28.2162420697174,1577.46012615311
7663,16262,4494,"CMPD","Sanming","Sanming 3",26.17,117.46,240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33790916933805,6940.06023850654,19.0138636671412,8.92584016112544,28.2162420697174,1577.46012615311
7664,16263,11216,"Bush et al., 2020","SanPedro","SanPedro",21.2,-104.73,1256,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.604954340697242,7624.35234859219,20.8886365714855,16.9649405206831,24.024784119927,995.536574426757
7665,16264,11217,"Bush et al., 2020","SantaGertrudis","SantaGertrudis",20.05,-103.36,1786,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.522790298009634,6848.51472551821,18.7630540425156,14.7616697084008,22.0228341638557,846.142544674238
7666,16265,11218,"Bush et al., 2020","SantaMaria","SantaMaria",-1.63,-53.59,13,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.52460258128126,9828.93099779092,26.9285780761395,26.1882244881726,27.9123636943727,2090.37482767234
7667,16266,11219,"Bush et al., 2020","SantaMariadelOro","SantaMariadelOro",21.37,-104.57,705,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.720539763795801,8330.53296143492,22.823377976534,19.0885119557831,25.680066397567,1188.37124993768
7668,16267,11220,"Bush et al., 2020","SantaRosa","SantaRosa",-14.47,-67.87,358,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.23312720405871,9335.71806842433,25.577309776505,23.1416833906499,26.9106294936286,1931.69981977488
7669,16268,11221,"Bush et al., 2020","SantaRosa10","SantaRosa10",10.86849902,-85.60649503,285,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.37646911664034,9282.85859316,25.4324892963288,24.4526817184563,26.8576960137457,2431.26200617561
7670,16269,11222,"Bush et al., 2020","SantaRosa18","SantaRosa18",10.83600397,-85.61256596,296,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.38577401255188,9271.66251555897,25.4018151111205,24.4260883170304,26.8247094980603,2447.6749954089
7671,16270,11223,"Bush et al., 2020","SantaRosa19","SantaRosa19",10.8363333,-85.61423337,296,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.38548773404612,9271.69315173044,25.4018990458368,24.4261471243023,26.8248175599186,2447.249503331
7672,16271,11224,"Bush et al., 2020","SantaRosa9","SantaRosa9",10.868926,-85.606335,285,"not known","terrestrial","soil sample","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.37649241911889,9282.79778069613,25.4323226868387,24.4524852396722,26.8574976671168,2431.3048898657
7673,16272,4495,"CMPD","Sanya","Sanya 1",18.3,109.6,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
7673,16273,4496,"CMPD","Sanya","Sanya 2",18.3,109.6,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
7673,16274,4497,"CMPD","Sanya","Sanya 4",18.2,109.5,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
7674,16275,17648,"Phelps et al., 2020","Sanzu Swamp","SA1_0",-3.358333,30.383333,1646,"not known","terrestrial, bog/fen/swamp","core","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.897400449968356,7207.84949047868,19.7475328506265,18.9444821992482,20.5326958738796,1239.39383825707
7674,16276,17649,"Phelps et al., 2020","Sanzu Swamp","SA1_3",-3.358333,30.383333,1646,"not known","terrestrial, bog/fen/swamp","core","19","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.897400449968356,7207.84949047868,19.7475328506265,18.9444821992482,20.5326958738796,1239.39383825707
7674,16277,17650,"Phelps et al., 2020","Sanzu Swamp","SA1_6",-3.358333,30.383333,1646,"not known","terrestrial, bog/fen/swamp","core","39","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.897400449968356,7207.84949047868,19.7475328506265,18.9444821992482,20.5326958738796,1239.39383825707
7675,16278,22279,"SMPDSv1","Sao Bartolemeu da Serra","Connor_b4",37.97855,-8.60266,140,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.592059682701111,6060.18873650242,16.6032568123354,10.7689573901015,23.4606432939452,695.324951984061
7676,16279,6654,"EMPDv2","SAO1A","Binney2017_E3426",74.33,100,16,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.00924445580068,786.752220426883,-14.4879146255148,-35.5899645604451,11.6670712448196,254.480137312268
7677,16280,6655,"EMPDv2","SAO3FIN","Binney2017_E3427",74.33,100,16,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.00924445580068,786.752220426883,-14.4879146255148,-35.5899645604451,11.6670712448196,254.480137312268
7678,16281,6656,"EMPDv2","SAO4FIN","Binney2017_E3428",74.34,100,16,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",1.00930187288818,786.296604607964,-14.4930097078468,-35.5946217871299,11.6625053934542,254.410066254025
7679,16282,1352,"Australian pollen","Sapphire Swamp","Sapphire Swamp_a",-32.0667,151.5667,1280,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.478235700909963,4384.60980229097,12.0126295953177,3.84343476515178,19.5132388955235,711.258552974261
7679,16283,1353,"Australian pollen","Sapphire Swamp","Sapphire Swamp_b",-32.0667,151.5667,1280,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.478235700909963,4384.60980229097,12.0126295953177,3.84343476515178,19.5132388955235,711.258552974261
7679,16284,1354,"Australian pollen","Sapphire Swamp","Sapphire Swamp_c",-32.0667,151.5667,1280,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.478235700909963,4384.60980229097,12.0126295953177,3.84343476515178,19.5132388955235,711.258552974261
7680,16285,11225,"Bush et al., 2020","SaraCocha","SaraCocha",-15.77695,-70.614783,4225,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.388042429260098,2346.81330505742,6.42962549330799,3.77823950389873,8.00018191667661,559.828710244987
7681,16286,10653,"Neotoma","Sarah's Loch","Sarah's Loch ss",57.959715,-6.983825,35,"not known","lake","lake surface sample","-38","Fossitt, J.A., 1994. Modern pollen rain in the northwest of the British Isles. The Holocene, 4(4), pp.365-376.","10.1177/095968369400400404",13,"temperate deciduous broadleaf forest",3.18895096504982,2976.93761775469,8.15599347330053,4.01164037813687,12.9705446774302,1596.33374529994
7682,16287,16430,"Neotoma","Sarcpa Lake","JTA248",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16288,16426,"Neotoma","Sarcpa Lake","JTA249",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16289,16429,"Neotoma","Sarcpa Lake","JTA250",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16290,16425,"Neotoma","Sarcpa Lake","JTA251",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16291,16428,"Neotoma","Sarcpa Lake","JTA252",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16292,16431,"Neotoma","Sarcpa Lake","JTA253",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16293,16427,"Neotoma","Sarcpa Lake","JTA254",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7682,16294,16432,"Neotoma","Sarcpa Lake","JTA255",68.53,-83.25,250,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.808676619195747,336.684003000682,-14.4942645565054,-31.993724097293,5.80271660887019,216.236994337598
7683,16295,22280,"SMPDSv1","Sarinena","Barboni_a1378",41.797139,-0.178735,280,"145.713","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.441993629900705,5284.26589159834,14.4774407988996,6.33841436479594,23.7064757905519,533.896108802786
7684,16296,22281,"SMPDSv1","Sarkijarvi","Seppa_b80",60.77,22.35,74,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03610907559408,2230.44848627774,4.24626333225231,-7.18273093582033,16.053139428156,565.563056919307
7685,16297,22282,"SMPDSv1","Sarkikangas","EPDcoretop_E575",65.916667,29.2,265,"0.78","terrestrial, blanket bog","peat core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.31448946025964,1514.93806163962,-0.625148020679065,-14.5435141348982,14.0216342552165,557.925835129764
7686,16298,7225,"EMPDv2","Sarnate","EPDcoretop_E2597",57.11,21.44,7,"0.5026","archaeological site","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.01185093679198,2601.64536952143,6.3835074844515,-3.67610495404107,16.435310053986,646.541989647909
7687,16299,13230,"Neotoma","Sarnia Elk Site Section","SARNIA1",42.98,-82.32,185,"not known","not known","profile or section","5","Unpublished data",,9,"cool mixed forest",0.966147586125701,3461.15530860403,8.35121093981334,-5.79992264637522,21.3352760740729,855.17596303117
7688,16300,22283,"SMPDSv1","Sarran","Barboni_a170",45.36,2.58,510,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.959588407976055,3673.27261559824,10.0637605906801,2.38319676597495,18.4313744060483,855.517992126119
7689,16301,10627,"BIOME6000 Japan","Sarukura","SrkrC0",40.61,140.88,1300,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.1221253836933,2584.9026618646,5.42892079946892,-6.9981638246645,18.5540487067085,1545.26107403464
7690,16302,7461,"EMPDv2","Saskylakh region (Sakha)","Klemm_a16",71.503,110.819,80,"0.016","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.829747692561802,980.558436410967,-14.4548162049343,-39.9413204923846,13.3555041117421,242.81173785715
7690,16303,7462,"EMPDv2","Saskylakh region (Sakha)","Klemm_a17",71.74747,111.132,50,"0.21","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.820456031174515,988.71908712085,-14.4365030778005,-39.9729156023421,13.4262232128474,239.594330095556
7690,16304,7463,"EMPDv2","Saskylakh region (Sakha)","Klemm_a18",71.7477,111.1295,50,"1","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.82048829509336,988.675789532089,-14.4366894951028,-39.9725195214648,13.4259182580724,239.597185798895
7690,16305,7464,"EMPDv2","Saskylakh region (Sakha)","Klemm_a19",72.06598,113.91369,15,"0.15","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.733213621299129,978.191790035811,-15.1473749417408,-41.5263527605761,13.2743137210673,217.782932934631
7690,16306,7465,"EMPDv2","Saskylakh region (Sakha)","Klemm_a20",72.06824,111.10704,37,"0.25","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.81858544699517,974.165204774393,-14.5986687078483,-40.0414744946442,13.317288046906,236.392071790619
7690,16307,7466,"EMPDv2","Saskylakh region (Sakha)","Klemm_a21",72.06862,111.11111,36,"0.64","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.818268364061957,974.391655238185,-14.598068673972,-40.0418645748114,13.3193591477244,236.300065065446
7690,16308,7467,"EMPDv2","Saskylakh region (Sakha)","Klemm_a22",72.07088,111.11761,38,"0.64","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.818751746946935,974.029927535986,-14.5998102168695,-40.0443325845387,13.3157846013577,236.452079981628
7690,16309,7468,"EMPDv2","Saskylakh region (Sakha)","Klemm_a23",72.07116,111.10815,41,"0.09","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.81967993287931,973.350841215862,-14.6018868461164,-40.0438540149033,13.3095450926026,236.719704327358
7690,16310,7469,"EMPDv2","Saskylakh region (Sakha)","Klemm_a24",72.32,111.189,86,"0.25","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.832195578113828,954.631963055743,-14.7412908123404,-40.1357839426955,13.1465369385913,238.962880712831
7690,16311,7470,"EMPDv2","Saskylakh region (Sakha)","Klemm_a25",72.32068,111.18717,71,"4","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.827611201254248,955.219741551842,-14.7577261929681,-40.1493292877048,13.1551912716126,237.363578638886
7690,16312,7471,"EMPDv2","Saskylakh region (Sakha)","Klemm_a26",72.48003,114.08484,6,"1.2","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.729345007923099,939.704967642176,-15.2306375177565,-41.242376089433,12.8178909625178,213.652592363418
7690,16313,7472,"EMPDv2","Saskylakh region (Sakha)","Klemm_a27",72.48402,114.10342,10,"4","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.730998099504946,940.785797512986,-15.218383221483,-41.2397174886503,12.8278504845336,214.311512606602
7690,16314,7473,"EMPDv2","Saskylakh region (Sakha)","Klemm_a28",72.6,113.857,6,"0.06","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.732894825442893,938.830786934534,-15.2375890387596,-41.2250258633428,12.8208661022158,213.978223829584
7690,16315,7474,"EMPDv2","Saskylakh region (Sakha)","Klemm_a29",72.77491,112.97763,4,"0.25","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.75785473578169,925.295787777894,-15.2457648404133,-40.9083807773025,12.7545562920127,217.033316468841
7690,16316,7475,"EMPDv2","Saskylakh region (Sakha)","Klemm_a30",72.77654,112.97053,1,"4","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.756747409009727,924.200156611061,-15.2539084519592,-40.9043779849285,12.7433337246413,216.573138659521
7690,16317,7476,"EMPDv2","Saskylakh region (Sakha)","Klemm_a31",72.77763,112.97029,1,"0.01","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.756756645078061,924.147342648277,-15.254135123571,-40.9041784334139,12.74277540566,216.569835332936
7690,16318,7477,"EMPDv2","Saskylakh region (Sakha)","Klemm_a32",72.82562,113.2935,8,"0.015","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.748530248832736,927.41865832333,-15.2574565318312,-41.0320683196944,12.7422856279654,215.605081297166
7690,16319,7478,"EMPDv2","Saskylakh region (Sakha)","Klemm_a33",72.885,115.755,22,"2","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.721211199166002,896.40714193784,-15.3329325621758,-41.1287500109388,12.1994754295909,212.578608779575
7690,16320,7479,"EMPDv2","Saskylakh region (Sakha)","Klemm_a34",72.88599,115.72619,4,"9e-04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.717787050273642,865.878935779345,-15.3845896025139,-40.8362534416077,11.8675379863264,208.49553711049
7690,16321,7480,"EMPDv2","Saskylakh region (Sakha)","Klemm_a35",72.95566,114.95796,0,"0.06","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.720459584075654,872.567531426055,-15.4098128522399,-40.9039058563429,11.9896959769422,207.849220889649
7690,16322,7481,"EMPDv2","Saskylakh region (Sakha)","Klemm_a36",72.95566,114.95796,0,"0.0225","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.720459584075654,872.567531426055,-15.4098128522399,-40.9039058563429,11.9896959769422,207.849220889649
7690,16323,7482,"EMPDv2","Saskylakh region (Sakha)","Klemm_a37",72.95641,115.33802,11,"0.04","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.721492592398612,870.60282213318,-15.3727135894757,-40.8652128742571,11.9305587959055,209.430684036991
7690,16324,7483,"EMPDv2","Saskylakh region (Sakha)","Klemm_a38",72.96066,115.33066,4,"0.24","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.719223764511512,857.226789751173,-15.3995926728901,-40.7542566105243,11.7756259174785,207.735482317746
7690,16325,7484,"EMPDv2","Saskylakh region (Sakha)","Klemm_a39",73.07902,114.90494,0,"0.2","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.721230086527508,867.08216515084,-15.4018447970273,-40.8275631384123,11.9182284193652,207.52316559437
7690,16326,7485,"EMPDv2","Saskylakh region (Sakha)","Klemm_a40",73.0823,114.92314,3,"0.16","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.722270799313491,871.079319686566,-15.3891670233887,-40.8547023154436,11.96303252785,208.175234192753
7690,16327,7486,"EMPDv2","Saskylakh region (Sakha)","Klemm_a41",73.1256,114.86807,1,"0.15","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.721934195951324,866.921229395826,-15.3935793660181,-40.8115318543578,11.9136587521574,207.646927519949
7690,16328,7487,"EMPDv2","Saskylakh region (Sakha)","Klemm_a42",73.1294,114.86076,4,"0.0225","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.723060117591352,871.430016941607,-15.379951561861,-40.8417352280529,11.9652557349215,208.322837754637
7690,16329,7488,"EMPDv2","Saskylakh region (Sakha)","Klemm_a43",73.1298,114.86525,4,"0.036","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.723047523040473,871.319093062127,-15.3801355213697,-40.8410013329325,11.9638040274129,208.317306073964
7690,16330,7489,"EMPDv2","Saskylakh region (Sakha)","Klemm_a44",73.19335,114.96336,10,"0.0216","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.725166010932226,875.802342317707,-15.3559006753855,-40.8609649833734,12.0074585787454,209.420165272577
7690,16331,7490,"EMPDv2","Saskylakh region (Sakha)","Klemm_a45",73.21561,113.62064,8,"0.03","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.746263309070244,909.174176161208,-15.2958285039177,-40.9321832582889,12.5107205222298,213.644474271276
7690,16332,7491,"EMPDv2","Saskylakh region (Sakha)","Klemm_a46",73.25464,114.27216,3,"0.01","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.735804984958478,848.899916867071,-15.426121758178,-40.6008115080516,11.7493246600057,208.350585043344
7690,16333,7492,"EMPDv2","Saskylakh region (Sakha)","Klemm_a47",73.38163,113.93052,4,"0.24","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.738672143706648,844.617143010256,-15.390264756146,-40.4829724241099,11.6915860307595,208.934355395748
7690,16334,7493,"EMPDv2","Saskylakh region (Sakha)","Klemm_a48",73.38709,113.94898,4,"0.06","lake","sediment sample","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",0.738564368903031,844.0526899495,-15.3896140368067,-40.4766787266886,11.683498953127,208.885429963363
7691,16335,9675,"Gaillard et al., 1992","Sattra","Sattra A",56.783744,16.697407,20,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.860563225858062,2665.06707537348,6.99846423052217,-1.76297556538233,16.3300746674695,561.211719365174
7691,16336,9676,"Gaillard et al., 1992","Sattra","Sattra B",56.783744,16.697407,20,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.860563225858062,2665.06707537348,6.99846423052217,-1.76297556538233,16.3300746674695,561.211719365174
7692,16337,6990,"EMPDv2","Sauborst im Rehauer Forst","EPDcoretop_E1432",50.28,12.1,572,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.948728326845185,2801.41644575439,7.27110173940604,-2.5698013142147,16.4118180609846,669.551997586219
7693,16338,11226,"Bush et al., 2020","Sauce","Sauce",-6.7,-76.217,558,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",1.14441926834329,9061.64646850343,24.8264286808313,23.9145213255265,25.411959685592,1512.6022163244
7694,16339,22284,"SMPDSv1","Saukkolampi","Seppa_b16",66.17,27.57,278,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.2830802998833,1500.65764943159,-0.911724284446612,-15.1675133162065,13.9879936113073,531.746239550534
7695,16340,16533,"Neotoma","Saunderson Lake","KG028",46.02,-67.72,183,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.51798365193839,2551.56345925725,4.31331469002853,-10.8856962976096,18.245577048795,1124.81115012568
7696,16341,16721,"Neotoma","Savage Lake","RBD001",45.883333,-88.466667,429,"not known","lake","surface sample","Modern","Davis, R.B., L.A. Brewster, and J. Sutherland. 1969. Variation in pollen spectra within lakes. Pollen et Spores 11:557-571.",,9,"cool mixed forest",1.02799389972896,2647.48119945086,4.11472588929669,-12.3457252108373,18.8353087500592,788.61693291637
7697,16342,22285,"SMPDSv1","Savijarv","Meltsov_a8",57.76902,26.44839,70,"0.067","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00140109675493,2470.22467267716,5.06382908322428,-7.09489704211428,16.6687811354591,617.186400056696
7698,16343,6835,"EMPDv2","Sayany","Blyakharchuk_a29",52.8626361111111,93.3551055555556,1299,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.14064091096982,1626.30907571514,-4.54744553698594,-26.5000691871616,14.3609620688543,752.029462589392
7698,16344,6836,"EMPDv2","Sayany","Blyakharchuk_a30",52.8030388888889,93.4260333333333,1641,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21889450841528,1373.79297714132,-6.37413380237976,-28.8966669086055,12.7345337939566,805.285781848726
7698,16345,6837,"EMPDv2","Sayany","Blyakharchuk_a31",53.6666666666667,93.9166666666667,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17298043338539,1477.54137727218,-5.19739609116072,-26.5282951170061,13.5824581255426,726.064412154117
7698,16346,6838,"EMPDv2","Sayany","Blyakharchuk_a32",52.4794694444444,93.4657638888889,890,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.986149643153271,2002.72318627582,-2.26012889374947,-24.0041071420237,16.578228232498,665.934771988866
7698,16347,6839,"EMPDv2","Sayany","Blyakharchuk_a33",52.4794694444444,93.4657638888889,890,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.986149643153271,2002.72318627582,-2.26012889374947,-24.0041071420237,16.578228232498,665.934771988866
7698,16348,6840,"EMPDv2","Sayany","Blyakharchuk_a34",52.4794694444444,93.4657638888889,890,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.986149643153271,2002.72318627582,-2.26012889374947,-24.0041071420237,16.578228232498,665.934771988866
7699,16349,11227,"Bush et al., 2020","Sayula","Sayula",19.95,-103.36,2196,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.486926285137866,6098.05198120837,16.706991729338,12.254780865091501,20.4546159045614,786.553422077019
7700,16350,9512,"EMPDv2","Sazalnickaya kosa","Novenko_c130",46.8643,38.4779,23,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.583739279228454,4153.21594436901,11.0401021521747,-2.49655196008426,23.4624349910654,577.842602148252
7700,16351,9509,"EMPDv2","Sazalnickaya kosa","Novenko_c136",46.8647,38.4771,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.58357776714762,4149.25176398372,11.0255524798755,-2.51745386335082,23.4516080051171,577.493738839789
7700,16352,9510,"EMPDv2","Sazalnickaya kosa","Novenko_c137",46.8634,38.4739,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.583577671497723,4149.15970228592,11.0253794404043,-2.51700033514577,23.4509159060684,577.498891493707
7700,16353,9511,"EMPDv2","Sazalnickaya kosa","Novenko_c138",46.8635,38.4808,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.583587735126454,4149.48713968647,11.0263025205856,-2.5168510413293,23.4525687999926,577.524768299531
7701,16354,12104,"Neotoma","SB-1, Hwy 38, Mill Creek","SB-1",34.09596,-116.97133,1280,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.337787052040252,4957.20082953778,13.5813721357199,5.44042798146672,24.0911583496063,480.196109221811
7702,16355,12113,"Neotoma","SB-10, South Fork Trail","SB-10",34.15657,-116.86694,2220,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.482852350153479,3368.23950809821,9.19121140864641,-0.0846313268840478,22.2143725849845,672.909681028344
7703,16356,12114,"Neotoma","SB-11, South Fork Trail","SB-11",34.14764,-116.85797,2377,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.50897781152624,3142.18826808419,8.44031608258892,-1.00782133243945,21.8698141243933,706.321254191634
7704,16357,12115,"Neotoma","SB-12, Dollar Lake Trail","SB-12",34.1275,-116.84666,2633,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.552305530620146,2835.81420674758,7.21454606354679,-2.51536133152312,21.310628190038,760.951159526763
7705,16358,12116,"Neotoma","SB-13, Dollar Lake Trail","SB-13",34.12825,-116.83846,2675,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.560322874586099,2789.20390692732,7.00196744325215,-2.75845668920092,21.1895616167974,770.609576324448
7706,16359,12117,"Neotoma","SB-14, Dry Lake","SB-14",34.11807,-116.82729,2785,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.580364163327091,2678.32985956724,6.46014689924455,-3.40316153928591,20.9163786170511,795.049494618288
7707,16360,12118,"Neotoma","SB-15, Dollar Lake","SB-15",34.12248,-116.85344,2810,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.580998703751885,2673.41556597289,6.39210630686191,-3.56162099628075,20.9764327709356,797.1289793505
7708,16361,12119,"Neotoma","SB-16, San Gorgonio saddle","SB-16",34.10117,-116.83069,3460,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.697327241051561,2152.53439445489,3.26966701698321,-7.40176545355868,19.5204366520285,936.455788481212
7709,16362,12120,"Neotoma","SB-17, San Gorgonio summit","SB-17",34.09906,-116.82481,3505,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.706693079551451,2116.70029258314,3.04011392152413,-7.66606512937934,19.389545312221,946.952445476281
7710,16363,12105,"Neotoma","SB-2, Santa Ana River, Weesha Club","SB-2",34.17411,-116.94719,1480,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.365797745145062,4631.35763762218,12.6886510619786,4.26698648637678,23.7628446407918,518.441799328331
7711,16364,12106,"Neotoma","SB-3, Hwy 38","SB-3",34.10691,-116.9706,1575,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.380367708942211,4467.90021978971,12.2408225199718,3.69448396147201,23.5939854656096,538.467815625871
7712,16365,12107,"Neotoma","SB-4, Santa Ana River, Seven Oaks","SB-4",34.17735,-116.92446,1670,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.394456557024853,4309.16727557118,11.8059377412909,3.14813843297513,23.3959895727668,557.076435427559
7713,16366,12108,"Neotoma","SB-5, Seven Oaks Road","SB-5",34.18232,-116.87871,1755,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.408692950633477,4156.8361315842,11.3885921413266,2.65425625963373,23.1788405162978,575.679045443173
7714,16367,12109,"Neotoma","SB-6, Seven Oaks Road","SB-6",34.18321,-116.86742,1775,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.412174960978857,4120.29827927957,11.2884884363824,2.53854573040964,23.1233553553773,580.178058294475
7715,16368,12110,"Neotoma","SB-7, Seven Oaks Road","SB-7",34.18214,-116.85558,1815,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.418897495573306,4048.81044031677,11.0926313433336,2.30522673029811,23.0237580758375,588.939539503428
7716,16369,12111,"Neotoma","SB-8, Hwy 38","SB-8",34.15877,-116.94657,1865,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.42326637250771,3983.82795285602,10.9145971311124,1.99085874713661,23.0632294244051,596.0176658033
7717,16370,12112,"Neotoma","SB-9, Poopout Hill Trail","SB-9",34.15993,-116.87173,2120,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.466543968872446,3528.29173768378,9.66655270598297,0.503295739678692,22.4289089546807,651.829047468325
7718,16371,17330,"Neotoma","Scattered Rice","TW033",45.573056,-88.683333,476,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02970302023446,2593.96369726259,3.80111593945158,-12.8121848609662,18.6337202547462,789.651594415656
7719,16372,8039,"EMPDv2","Schastye_Petrovskaya","Mikishin-Gvozdeva_a101",53.4961111111111,140.9325,2,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17697754515029,1894.1978476284,-1.34874829140053,-21.0238025442545,15.6021628556395,621.449667154509
7720,16373,22286,"SMPDSv1","Schiebelsee","Schiebelsee_ss",52.74569,14.0463,68,"0.005","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.787050025963112,3279.30190176844,8.88233329813828,-0.943805134710162,18.0319718416549,559.911598543368
7721,16374,8735,"EMPDv2","Schluchsee","Roesch_a9",47.817398,8.161836,930,"5.38","lake","moss polster or moss","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.80050689301464,2554.92970686168,6.73912323436129,-1.79851740054583,15.2745689282311,1351.72203875863
7722,16375,8113,"EMPDv2","Schmidt","Mikishin-Gvozdeva_a176",54.0016666666667,142.923611111111,6,"not applicable","terrestrial","litter","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27069586094505,1802.04063521088,-1.09690169835763,-19.4545587229672,15.114221859845,647.900622652352
7723,16376,17347,"Neotoma","School Section","TW049",44.549722,-88.929444,267,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.936092648073831,3215.03806471597,6.61334520123259,-9.91949629017669,21.1835627959761,777.861519003213
7724,16377,22287,"SMPDSv1","Schopfenwaldmoor","EPDcoretop_E1157",46.743461,7.847558,1450,"0.015","terrestrial, bog/fen/swamp","peat core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.17914573206544,1921.85985076431,4.52259105214471,-3.50349256945373,12.8769007052877,1677.71273541954
7725,16378,8736,"EMPDv2","Schurmsee","Roesch_a10",48.614134,8.320268,795,"0.016","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.56786626765478,2838.84278941474,7.61159405696924,-1.33030449253128,16.4060882459216,1176.66394154612
7726,16379,7107,"EMPDv2","Schwanengrabenrinne","EPDcoretop_E2040",52.52,13.06,32,"0.02","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.800651532676924,3274.0392466287,8.92214572367213,-0.478193910303413,17.8231446782977,566.144859359114
7727,16380,11538,"Neotoma","Schwant Pond","FH-20",39.473045,-96.346745,410,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.732978879479471,4562.12558828501,12.0027064647241,-3.55228136575584,26.1578439844015,804.997754091807
7728,16381,22288,"SMPDSv1","Schwarzer See","Schwarzer See_ss",52.55541,14.0835,72,"0.071","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.783918451039566,3288.3695751951,8.90586858274141,-0.957748305209463,18.071294559708,559.37633699979
7729,16382,22289,"SMPDSv1","Schwarzersee","Schwarzersee_ss",52.994,13.903,77,"0.033","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.786531240584109,3317.84344322461,8.99403772478849,-0.918032388774656,18.1523503841193,555.528570402102
7730,16383,22290,"SMPDSv1","Schwarzsee","EPDcoretop_E1197",46.66638889,11.43194444,2033,"not known","lake","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.60323126423741,894.766062370909,-0.203447201976791,-7.57236463895118,7.45106383910404,1736.2909661988
7731,16384,22291,"SMPDSv1","Schwarzsee FR","EPDcoretop_E1159",46.670278,7.284722,1046,"0.46","lake","lacustrine core top","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75059687576047,2520.14859859319,6.64048612965394,-1.81929553584266,15.2969089290741,1396.97653548585
7732,16385,22292,"SMPDSv1","Schwarzsee VS","EPDcoretop_E1158",45.990806,7.706806,2552,"0.01","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87209746690115,748.317906940134,-0.738965284661501,-7.33662712163916,6.85781769802414,2089.58855263362
7733,16386,22293,"SMPDSv1","Schwarzsee, Reschenscheideck","EPDcoretop_E1160",46.869728,10.479758,1721,"0.024","terrestrial, bog/fen/swamp","peat core top","-13","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.44910637491477,1292.85903342766,1.78236975685384,-5.94092967046162,9.6920660089782,1736.98942711193
7734,16387,22294,"SMPDSv1","Schwemm","EPDcoretop_E742",47.65,12.3,664,"0.6","terrestrial, blanket bog","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33833692010232,2817.89055763542,7.34116007083361,-2.40714037501119,16.4198361522431,1055.79780291035
7734,16388,22295,"SMPDSv1","Schwemm","EPDcoretop_E743",47.65,12.3,664,"0.6","terrestrial, blanket bog","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33833692010232,2817.89055763542,7.34116007083361,-2.40714037501119,16.4198361522431,1055.79780291035
7734,16389,22296,"SMPDSv1","Schwemm","EPDcoretop_E978",47.65,12.3,664,"0.6","terrestrial, blanket bog","peat core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33833692010232,2817.89055763542,7.34116007083361,-2.40714037501119,16.4198361522431,1055.79780291035
7735,16390,11868,"Neotoma","Scioto Trail State Forest","KKMFA16",39.23111111,-82.96611111,284,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.06681948401387,4291.57466590056,11.5073417686912,-2.07379865937013,23.3014792724311,1029.1641678251
7736,16391,11383,"Neotoma","Scott Lake","BU1468",27.965415,-81.94163,51,"not known","lake","surface sample","-16","Watts, W.A. 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.882588678311305,7994.87466215507,21.9037661976851,14.8637842213505,27.5642641392601,1222.62991857123
7736,16392,13232,"Neotoma","Scott Lake","SCOTTLK",27.965415,-81.94163,51,"not known","lake","core","-18","Watts, W.A. 1971. Postglacial and interglacial vegetation history of southern Georgia and central Florida. Ecology 52(4):676-690.","10.2307/1934159",4,"warm-temperate evergreen and mixed forest",0.882588678311305,7994.87466215507,21.9037661976851,14.8637842213505,27.5642641392601,1222.62991857123
7736,16392,13233,"Neotoma","Scott Lake","SCOTTLK",27.965415,-81.94163,51,"not known","lake","core","49","Watts, W.A. 1971. Postglacial and interglacial vegetation history of southern Georgia and central Florida. Ecology 52(4):676-690.","10.2307/1934159",4,"warm-temperate evergreen and mixed forest",0.882588678311305,7994.87466215507,21.9037661976851,14.8637842213505,27.5642641392601,1222.62991857123
7737,16393,1355,"Australian pollen","Scott River Swamp","Scott River Swamp",-34.3,115.283,20,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.740602851990627,5858.64611415364,16.0510852442565,12.1656261512406,20.8539556664489,925.228394007212
7737,16393,1356,"Australian pollen","Scott River Swamp","Scott River Swamp",-34.3,115.283,20,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.740602851990627,5858.64611415364,16.0510852442565,12.1656261512406,20.8539556664489,925.228394007212
7737,16393,1357,"Australian pollen","Scott River Swamp","Scott River Swamp",-34.3,115.283,20,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.740602851990627,5858.64611415364,16.0510852442565,12.1656261512406,20.8539556664489,925.228394007212
7738,16394,11805,"Neotoma","Scout Lake","LMSJ16",37.64775,-107.7717,2850,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.50288921643063,1816.79506747047,2.13396153147407,-10.1822952890748,14.2897981074522,540.341083428613
7739,16395,14595,"Neotoma","Screaming Lynx Lake","SL07",66.068205,-145.405555,225,"not known","lake","core","-44","Kelly, R., M.L. Chipman, P.E. Higuera, I. Stefanova, L.B. Brubaker, and F.S. Hu. 2013. Recent burning of boreal forests exceeds fire regime limits of the past 10,000 years. Proceedings of the National Academy of Sciences 110:13055-13060.",,15,"cold evergreen needleleaf forest",0.455851610807052,1468.05011274545,-5.47748564973941,-24.2023653993811,14.1807452516563,182.735519781471
7740,16396,6910,"EMPDv2","Sd","Colombaroli_a25",37.8906944444444,14.1483333333333,824,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.445007174632057,5232.28088341746,14.3350161189519,7.73202204551807,22.6246483259199,602.337083792473
7741,16397,5977,"EMBSeCBIO","SE Black Sea basin","B7",42.5,36.8,0,"not applicable","marine","core","-51","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
7742,16398,15180,"Neotoma","Seal Beach wetland","SB-51B",33.73917,-118.08354,1,"not known","terrestrial, marsh","core","-59","Balmaki, B., P.E. Wigand, F. Frontalini, T.A. Shaw, S. Avnaim-Katav, and M.A. Rostami. 2019. Late Holocene paleoenvironmental changes in the Seal Beach wetland (California, USA): A micropaleontological perspective. Quaternary International 530-531:14-24.",,22,"steppe",0.250078052583843,6364.94736035683,17.4382119461831,13.1656737285008,22.6606407950452,337.48277531024
7742,16398,15181,"Neotoma","Seal Beach wetland","SB-51B",33.73917,-118.08354,1,"not known","terrestrial, marsh","core","13","Balmaki, B., P.E. Wigand, F. Frontalini, T.A. Shaw, S. Avnaim-Katav, and M.A. Rostami. 2019. Late Holocene paleoenvironmental changes in the Seal Beach wetland (California, USA): A micropaleontological perspective. Quaternary International 530-531:14-24.",,22,"steppe",0.250078052583843,6364.94736035683,17.4382119461831,13.1656737285008,22.6606407950452,337.48277531024
7743,16399,14942,"Neotoma","Sears Pond","SEARS",40.8859999999999,-72.5783,2,"not known","lake","core","7.866","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.22967047418692,4095.39769113438,11.0516764568576,-1.36866456143107,22.8802550621505,1153.59359904781
7744,16400,7187,"EMPDv2","Seche de Gimel","EPDcoretop_E2360",46.55,6.23,1300,"0.12","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.70792259765148,2240.30699525559,5.7284104472508,-2.36277975555564,14.303025271766,1398.302729563
7745,16401,14182,"Neotoma","Secret Valley Marsh","SECRET",40.572,-120.26505,1359,"not known","terrestrial, marsh","core","-43","West, G.J., and K.R. McGuire. 2000. 9,500 years of burning recorded in a high desert marsh. Proceedings of the Springfed Wetlands: Immportant Scientific and Cultural Resources of the Intermountain Region.",,17,"temperate evergreen needleleaf open woodland",0.534792927030649,3521.36053243602,9.63749939840814,0.254249084057179,20.6866799055493,631.584130762063
7745,16401,14183,"Neotoma","Secret Valley Marsh","SECRET",40.572,-120.26505,1359,"not known","terrestrial, marsh","core","-8","West, G.J., and K.R. McGuire. 2000. 9,500 years of burning recorded in a high desert marsh. Proceedings of the Springfed Wetlands: Immportant Scientific and Cultural Resources of the Intermountain Region.",,17,"temperate evergreen needleleaf open woodland",0.534792927030649,3521.36053243602,9.63749939840814,0.254249084057179,20.6866799055493,631.584130762063
7746,16402,11884,"Neotoma","Section 28 Lake","BU425",46.619815,-88.057895,509,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06179589129258,2581.18843675519,3.85676466476875,-12.4372008310645,18.5661041124028,800.679743053459
7747,16403,11874,"Neotoma","Section 36 Pond","BU412",46.769175,-87.92407,445,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06427785745175,2602.95626924665,4.01374025357762,-12.1815744668398,18.6075441201724,801.676349806048
7748,16404,11879,"Neotoma","Section 7 Pond","BU418",46.74514,-87.977375,448,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06015304197895,2605.65386638134,3.99933524976602,-12.2618016381147,18.6312487689417,799.115249276536
7749,16405,13238,"Neotoma","Sedivy Lake","SEDIVY",47.208889,-95.833333,405,"not known","lake","core","-13","Unpublished data",,9,"cool mixed forest",0.753725689548193,2985.18313616068,4.48519134120789,-14.9723956421539,20.6212053660487,610.074969973961
7749,16405,13239,"Neotoma","Sedivy Lake","SEDIVY",47.208889,-95.833333,405,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",0.753725689548193,2985.18313616068,4.48519134120789,-14.9723956421539,20.6212053660487,610.074969973961
7749,16405,13240,"Neotoma","Sedivy Lake","SEDIVY",47.208889,-95.833333,405,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.753725689548193,2985.18313616068,4.48519134120789,-14.9723956421539,20.6212053660487,610.074969973961
7749,16405,13241,"Neotoma","Sedivy Lake","SEDIVY",47.208889,-95.833333,405,"not known","lake","core","34","Unpublished data",,9,"cool mixed forest",0.753725689548193,2985.18313616068,4.48519134120789,-14.9723956421539,20.6212053660487,610.074969973961
7750,16406,9472,"EMPDv2","Sedyju river area-1","Novenko_c201",63.0744,54.0417,134,"0.01","terrestrial, soil","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37245837595317,1734.07393507214,-0.764543876677549,-18.3373658198509,16.5981553940385,602.811646166736
7751,16407,9473,"EMPDv2","Sedyju river area-2","Novenko_c202",63.0953,54.0467,127,"0.01","terrestrial, soil","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37296481541051,1728.5514672154,-0.794114353924133,-18.3550803301425,16.5855620247876,601.25591082907
7752,16408,9474,"EMPDv2","Sedyju river area-3","Novenko_c203",62.9136,54.2325,242,"0.01","terrestrial, soil","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37878140031314,1792.17454880172,-0.48970681949406,-18.2474012436225,16.685316694814,626.011936793848
7753,16409,9475,"EMPDv2","Sedyju river area-4","Novenko_c204",62.8961,54.1536,198,"0.01","terrestrial, soil","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37253618760911,1774.32769593418,-0.566075656199098,-18.2511300930532,16.6735856209313,616.951812812244
7754,16410,9476,"EMPDv2","Sedyju river area-5","Novenko_c205",63.1786,53.9952,100,"0.01","terrestrial, soil","soil sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.37452296271255,1706.0605083137,-0.9142322107397,-18.4246818654104,16.5307319328815,594.776271883631
7755,16411,22298,"SMPDSv1","Sedyrkeshch","Sedyrkeshch_SS (Novenko_c191)",61.7167,50.85,80,"0.01","terrestrial, soil","surface sample","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.2904100445898,1868.10646676583,0.144672840636576,-17.4961494854148,16.9901336624713,569.062200952718
7756,16412,22299,"SMPDSv1","Seebergsee","EPDcoretop_E1151",46.576875,7.443853,1831,"0.05","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.35896373797969,1498.93792891894,2.83130475852956,-4.75439348629655,10.9926278777608,1808.42866062597
7757,16413,22300,"SMPDSv1","Seefelder See","EPDcoretop_E1184",47.322639,11.190278,1177,"0.061","lake","lacustrine core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68403058854959,2090.73107509119,4.90757632514769,-3.85141657215514,13.4599458985947,1273.29509468568
7758,16414,7778,"EMPDv2","Sefidrud Delta","Leroy_e1",37.4182222222222,49.9118888888889,-27,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.169797632848791,6638.00176823769,18.1863062143498,5.5122757121053,30.3046368556689,222.558910683676
7758,16415,7779,"EMPDv2","Sefidrud Delta","Leroy_e2",37.4503888888889,49.8895833333333,-24,"not applicable","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.171068980307537,6627.11409381336,18.1564769693517,5.48482322494731,30.2732800893081,224.00448450722
7758,16416,7780,"EMPDv2","Sefidrud Delta","Leroy_e3",37.4358611111111,49.863,-20,"not applicable","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.171650283314996,6616.33983765908,18.1269584593399,5.45131531574955,30.2463263758349,224.73103826602
7758,16417,7781,"EMPDv2","Sefidrud Delta","Leroy_e4",37.4576944444444,49.8882222222222,-30,"not known","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.17083535122654,6637.2054089937,18.1841244082019,5.51964749949816,30.2966763489264,223.68316958418
7758,16418,7782,"EMPDv2","Sefidrud Delta","Leroy_e5",37.4576944444444,49.8882222222222,-30,"not known","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.17083535122654,6637.2054089937,18.1841244082019,5.51964749949816,30.2966763489264,223.68316958418
7758,16419,7783,"EMPDv2","Sefidrud Delta","Leroy_e6",37.4533055555556,49.8897222222222,-26,"not known","lake","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.170986813830271,6630.54929722569,18.1658884855498,5.4966418071416,30.2812597153277,223.891541785369
7758,16420,7784,"EMPDv2","Sefidrud Delta","Leroy_e7",37.4299722222222,49.9686666666667,-27,"not known","terrestrial","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.168743601025095,6647.12491299676,18.211301131498,5.53464615392753,30.3309056037356,221.309259319651
7758,16421,7785,"EMPDv2","Sefidrud Delta","Leroy_e8",37.4399722222222,49.9629166666667,-29,"not known","terrestrial","sediment sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.168921163005979,6649.12753585975,18.2167877694788,5.54379116239301,30.3341810724651,221.487179134372
7759,16422,11228,"Bush et al., 2020","sege_pool","sege_pool",-11.9331,-71.305,333,"not known","lake","lake surface sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.07596046591469,9009.69403237226,24.6840932393761,22.8933289034397,25.605586760417,3001.54163926323
7760,16423,13242,"Neotoma","Seidel","SEIDEL02",44.45,-87.515556,211,"not known","lake","core","22","West, R.G. 1961. Late and postglacial vegetational history in Wisconsin, particularly changes associated with the Valders readvance. American Journal of Science 259:766-783.",,9,"cool mixed forest",0.941875284009792,3212.46782264881,6.89677581711585,-8.74711333829048,20.9674003371618,782.854952421621
7761,16424,7417,"EMPDv2","Seimsvann","Hjelle_a6",60.6097611,5.2851278,39,"0.083","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.18575951546439,2620.36126565634,7.1790719607023,1.01826566044792,13.9839779931477,2169.73848287824
7762,16425,22301,"SMPDSv1","Selikhovo","Selikhovo_core top",53.228056,35.774722,202,"not known","terrestrial","core top","27","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.854143345968256,2822.69534541024,5.55728785230157,-9.12491490658274,18.4637854044599,621.082516499173
7763,16426,6886,"EMPDv2","Selin","Colombaroli_a1",37.5835555555556,12.8367222222222,38,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.357843903652264,6565.42340046193,17.9874613711286,11.2086077993655,26.034957610474,476.655492018563
7764,16427,4498,"CMPD","Seling Co","Seling Co",31.67,88.42,4530,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.473714440846763,1092.17585144144,-1.12662687771629,-12.3213809605627,9.40426478110466,519.423872888837
7765,16428,22302,"SMPDSv1","Selkajarvi","Seppa_b89",61.18,25.18,170,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.993043277621828,2088.30022909627,3.07774101773065,-9.74817152746486,15.9946222520323,539.611728649349
7766,16429,22303,"SMPDSv1","Selkeydenjarvi","Seppa_b53",63.43,26.58,108,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00967787841545,2055.395039146,2.67517796778705,-10.6509093527577,16.2375149516494,524.659325992605
7767,16430,11994,"Neotoma","Sellar Lake","SM-SLR",39.323225,-106.58496,3119,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.530226228673184,1279.1218287738,-0.525241595411069,-12.0591569390665,11.259918677706,503.31368844903
7768,16431,16770,"Neotoma","Selwyn Lake Area","RJM032",60.2,-105.383333,213,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.81428072066341906,1680.1616038254,-4.18418550112073,-26.6418562467556,15.4441550929912,418.091704258546
7769,16432,22304,"SMPDSv1","Selyahi lake","Selyahi lake_SS",51.5994527777777,23.6164722222222,154,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.733322419428789,3052.56500042696,7.59500066378306,-4.55263105437358,18.0578516941811,539.716870445925
7770,16433,6049,"EMBSeCBIO","Semenic","Semenic 1_3",45.18,22.0594,1400,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-16","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.45931795270305,1730.65551437631,2.83359459151371,-7.57784860727705,11.8182828889454,1094.58756205226
7770,16434,6050,"EMBSeCBIO","Semenic","Semenic 1_5",45.18,22.0594,1400,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","6","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.45931795270305,1730.65551437631,2.83359459151371,-7.57784860727705,11.8182828889454,1094.58756205226
7770,16435,6051,"EMBSeCBIO","Semenic","Semenic 1_7",45.18,22.0594,1400,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","29","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.45931795270305,1730.65551437631,2.83359459151371,-7.57784860727705,11.8182828889454,1094.58756205226
7771,16436,8013,"EMPDv2","Sennaya","Mikishin-Gvozdeva_a73",47.4336111111111,142.668333333333,9,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.66482270426559,2136.52748399788,2.48319007002034,-12.4480205092942,16.5828468192699,1005.61648065885
7772,16437,9677,"Gaillard et al., 1992","Senora Svano","Senora Svano",56.106684,15.771878,2,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.856843449188674,2811.71179313379,7.49036072841548,-1.26827202794337,16.6904185892429,573.047730565255
7773,16438,15524,"Neotoma","Sequim","CJH103",47.3,-124.03,91,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.80990620531475,3552.92427138692,9.73403909969019,4.19740025981339,15.9329859582275,2134.851829988
7774,16439,8200,"EMPDv2","Sergeevka","Mikishin-Gvozdeva_b31",44.3655555555556,131.641944444444,130,"not applicable","terrestrial, soil","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838643038864681,3019.80849367932,4.45071020674785,-15.1827035231246,20.7192098669784,645.516270021859
7775,16440,8201,"EMPDv2","Sergeevka_2","Mikishin-Gvozdeva_b32",44.3666666666667,131.639444444444,130,"not applicable","terrestrial, soil","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838554247529168,3019.8802329149,4.45051748381898,-15.1838663272809,20.7194104667528,645.447418045964
7776,16441,8202,"EMPDv2","Sergeevka_3","Mikishin-Gvozdeva_b33",44.3661111111111,131.639444444444,130,"not applicable","terrestrial, soil","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838571976235323,3019.8562972785,4.45062474968865,-15.1833297286979,20.7193400243613,645.464718103437
7777,16442,8203,"EMPDv2","Sergeevka_4","Mikishin-Gvozdeva_b34",44.3663888888889,131.638611111111,130,"not applicable","terrestrial, soil","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838545313726068,3019.87623629242,4.45057830068766,-15.183628291762,20.7193951891831,645.444635902179
7778,16443,8204,"EMPDv2","Sergeevka_5","Mikishin-Gvozdeva_b35",44.3644444444444,131.631388888889,130,"not applicable","terrestrial, soil","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.838452854222196,3019.86140917843,4.45101297960822,-15.1820204570385,20.7193206618949,645.405883639067
7779,16444,22305,"SMPDSv1","Serni","EPDcoretop_E578",43.666667,40.480556,2485,"0.0065","fluvial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39296195607913,1086.44737587748,-2.01872929848421,-15.399515320572,9.69740082382378,1160.68095401883
7780,16445,24170,"Neotoma","Serra Campos Gerais","GERAIS",-24.666667,-50.216667,1200,"0.002","terrestrial, bog/fen/swamp","core","-44","Behling, H. 1997. Late Quaternary vegetation, climate and fire history in the Araucaria forest and campos region from Serra Campos Gerais (Paraná), S Brazil. Review of Palaeobotany and Palynology 97:109-121.","10.1016/S0034-6667(96)00065-6",4,"warm-temperate evergreen and mixed forest",1.46620829164133,6017.86113824539,16.4872907897134,12.1973212266651,20.8017127797769,1550.77785891114
7781,16446,24164,"Neotoma","Serra da Boa Vista","BOAVISTA",-27.7,-49.15,1160,"not known","terrestrial, bog/fen/swamp","core","-38","Behling, H. 1993. Untersuchungen zur spätpleistozänen und holozänen Vegetations- und Klimageschichte der tropischen Küstenwälder und der Araukarienwälder in Santa Catarina (Südbrasilien). Dissertationes Botanicae 206. J Cramer, Berlin Stuttgart, Germany.;
Behling, H. 1995. Investigations into the Late Pleistocene and Holocene history of vegetation and climate in Santa Catarina (S Brazil). Vegetation History and Archaeobotany 4:127-152.;
Ledru, M.-P., H. Behling, M. Fournier, L. Martin, and M. Servant. 1994. Localisation de la forêt d'Araucaria du Brésil au cours de l'Holocène. Implications paléoclimatiques. C.R. Acad. Sci. Paris 317:517-521.",";
10.1007/BF00203932",4,"warm-temperate evergreen and mixed forest",1.48267633499481,5803.97775532644,15.9013089187026,11.6842270657519,20.1996077067006,1636.50328730805
7782,16447,22306,"SMPDSv1","Serra do Agra -1","Barboni_a1354",41.833333,-8.733333,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.08191355127642,3900.59831390795,10.6865707230355,3.77419429581169,18.6249321928374,1084.82627550657
7783,16448,22307,"SMPDSv1","Serra do Agra -2","Barboni_a1355",41.833333,-8.733333,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",1.08191355127642,3900.59831390795,10.6865707230355,3.77419429581169,18.6249321928374,1084.82627550657
7784,16449,7146,"EMPDv2","Serra Mitjana fen","EPDcoretop_E2163",42.47,1.58,2406,"0.034","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.23671740335765,1592.87428213108,3.1144892383089,-4.50160230596168,12.4227891078099,1167.13087029287
7785,16450,22308,"SMPDSv1","Serre-Poncon","Ortu_d17",44.449,6.386,860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.01555176655113,3576.00330325501,9.79726932398632,2.06654360708717,18.4679326681378,1039.96326767164
7785,16451,22309,"SMPDSv1","Serre-Poncon","Ortu_d18",44.457,6.389,820,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.995175123162054,3654.03497701455,10.0110547315467,2.26764579740085,18.6896815239737,1023.41790973866
7785,16452,22310,"SMPDSv1","Serre-Poncon","Ortu_d19",44.488,6.345,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09389829137968,3288.69532959909,9.01012419068243,1.3023196713497,17.6666305171512,1099.79494502309
7785,16453,22311,"SMPDSv1","Serre-Poncon","Ortu_d20",44.488,6.345,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09389829137968,3288.69532959909,9.01012419068243,1.3023196713497,17.6666305171512,1099.79494502309
7785,16454,22312,"SMPDSv1","Serre-Poncon","Ortu_d21",44.488,6.345,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.09389829137968,3288.69532959909,9.01012419068243,1.3023196713497,17.6666305171512,1099.79494502309
7786,16455,22313,"SMPDSv1","Serrent","EPDcoretop_E579",47.809444,-2.468056,75,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08117711535923,4139.23050147668,11.3403575382923,5.6679912404442,17.6166803900596,882.77319864041306
7786,16456,22314,"SMPDSv1","Serrent","EPDcoretop_E580",47.809444,-2.468056,75,"not known","not known","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08117711535923,4139.23050147668,11.3403575382923,5.6679912404442,17.6166803900596,882.77319864041306
7787,16457,16708,"Neotoma","Sesachacha Heathland","PWD3",41.275,-69.983333,9,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.40181460702118,3952.95296809208,10.5991673896383,-1.74763888298532,22.4004151347825,1274.82811207031
7788,16458,10188,"Herzschuh et al., 2019","SET","SET_01",30.14885,101.85718,3780,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.670491500333457,2260.12257446585,5.56285488953059,-3.53595057744814,13.2782503693425,742.009800374884
7788,16459,10189,"Herzschuh et al., 2019","SET","SET_02",30.1837,101.87301,3389,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.716999188545899,2628.45006744881,6.86162549915185,-2.30697493890148,14.7027201136155,789.258167012359
7788,16460,10190,"Herzschuh et al., 2019","SET","SET_03",30.0775,101.7966,4211,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.620737438652591,1879.35090949624,4.12607229060297,-4.88876667530879,11.6916549814435,690.913001285692
7788,16461,10191,"Herzschuh et al., 2019","SET","SET_04",29.47171,100.2095,4610,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.56756254386402,1115.07302635995,0.393535259285824,-8.85863593868854,8.34138041384402,605.808139621233
7788,16462,10192,"Herzschuh et al., 2019","SET","SET_05",29.46102,100.19608,4598,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.569106368374536,1127.31329969984,0.464870158774323,-8.77531222273539,8.40006407884962,608.102954881159
7788,16463,10193,"Herzschuh et al., 2019","SET","SET_06",29.45527,100.18899,4613,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.567232446144037,1110.33387650418,0.367607492701707,-8.8857471543567,8.31766203670337,605.257534120767
7788,16464,10194,"Herzschuh et al., 2019","SET","SET_07",27.90091,99.63504,3263,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.753960465836685,2361.06958015794,6.29968414673665,-1.34792960240388,12.7832594484439,863.088175589918
7788,16465,10195,"Herzschuh et al., 2019","SET","SET_08",27.82635,99.9769,3547,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.717164423277664,2031.90844314486,5.070136313954,-2.84707707471382,11.7803838729409,808.840108192001
7788,16466,10196,"Herzschuh et al., 2019","SET","SET_09",27.49598,99.73655,3939,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.682399269269268,1361.77586455056,2.18026906582266,-5.89859399053623,9.2778296049693,733.133250455942
7788,16467,10197,"Herzschuh et al., 2019","SET","SET_10",27.49737,99.73237,3947,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.681396766965678,1353.35605439474,2.13723463919207,-5.94707708989919,9.2427455037911,731.574795289476
7788,16468,10198,"Herzschuh et al., 2019","SET","SET_11",27.49631,99.73287,3958,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.680132783027015,1340.67115080829,2.07240140419693,-6.02004006263724,9.18880765702315,729.428093888264
7788,16469,10199,"Herzschuh et al., 2019","SET","SET_12",27.18318,99.91546,3957,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.701374872367624,1217.53424443449,1.50938763148305,-6.50832594774833,8.57218283627876,739.476723609222
7788,16470,10200,"Herzschuh et al., 2019","SET","SET_13",26.87641,100.14119,2441,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.798689865481152,4320.19119034133,11.8361402475105,4.86490559723191,17.3715967100895,1000.41492943517
7788,16471,10201,"Herzschuh et al., 2019","SET","SET_14",26.97889,100.16391,3085,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.760631848982923,2675.75505479312,7.32210763801151,-0.0777768517387191,13.49319683702,888.273631278205
7788,16472,10202,"Herzschuh et al., 2019","SET","SET_15",26.4879,99.91795,2189,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.818942937050177,5094.22496853101,13.9567807357014,7.0246226525678,19.245669289226502,1063.84481450622
7788,16473,10203,"Herzschuh et al., 2019","SET","SET_16",25.91751,100.11764,1967,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.822137500320797,5811.50950215116,15.92194384151,8.93018746985323,20.9889804720802,1104.40240580014
7788,16474,10204,"Herzschuh et al., 2019","SET","SET_17",25.64223,100.27161,1960,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.808312632323734,5773.7087421819,15.8183801155668,8.83896592689756,20.8674041311172,1084.31045348941
7788,16475,10205,"Herzschuh et al., 2019","SET","SET_19",25.68153,100.64532,1620,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.811498359539048,6751.16665912966,18.4963470113141,11.4211043092529,23.3557571431226,1122.56417717121
7788,16476,10206,"Herzschuh et al., 2019","SET","SET_20",26.49167,100.67876,1504,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.806865662894878,7206.96026450496,19.7450966150821,12.7695550337145,24.6715587270936,1129.79267673095
7788,16477,10207,"Herzschuh et al., 2019","SET","SET_21",27.72597,100.73882,2746,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.754294573922646,3738.62374940326,10.2428047928857,2.85871890035688,16.1737231482579,916.062166588756
7788,16478,10208,"Herzschuh et al., 2019","SET","SET_22",27.73455,100.72696,2770,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.753409651303686,3680.56812582359,10.0837482899276,2.68610721082864,16.0350817411734,912.859352485897
7788,16479,10209,"Herzschuh et al., 2019","SET","SET_23",27.73968,100.71982,2777,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.753200754523198,3663.20153667062,10.0361685936181,2.63493554462487,15.9933889578423,911.938776171582
7788,16480,10210,"Herzschuh et al., 2019","SET","SET_24",27.71231,100.74948,2700,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.756155728552879,3847.8254451543,10.5419875209707,3.18515719920139,16.4335557657149,922.276220222297
7788,16481,10211,"Herzschuh et al., 2019","SET","SET_25",27.81719,102.2931,1500,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.878660108253111,5359.24045948141,14.6828505739217,6.1086387989251,21.8451817141097,1035.2899544014099
7788,16482,10212,"Herzschuh et al., 2019","SET","SET_26",29.15319,101.406,3705,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.696326405709695,2202.00048399911,5.51872615546689,-3.01389046724372,12.688375490363,779.517202723681
7788,16483,10213,"Herzschuh et al., 2019","SET","SET_27",29.13947,101.44865,4398,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.638887494786459,1439.03702751626,2.39092405116561,-6.2258217224247,9.58693158853719,699.268412935665
7788,16484,10214,"Herzschuh et al., 2019","SET","SET_28",29.13721,101.44476,4408,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.638084481160066,1428.27121112011,2.34092056200422,-6.27734867824443,9.53769347979398,698.06713967993
7788,16485,10215,"Herzschuh et al., 2019","SET","SET_29",29.13614,101.43951,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.622950251691778,1254.59199865471,1.50799666069128,-7.1346044482402,8.7138686030375,676.790277144719
7788,16486,10216,"Herzschuh et al., 2019","SET","SET_30",29.13374,101.43804,4631,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.619563902136662,1216.64497678718,1.31857151554835,-7.32933787252989,8.52643732267195,672.007429155707
7788,16487,10217,"Herzschuh et al., 2019","SET","SET_31",29.32833,101.33033,3600,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.700791517217401,2341.63192440652,5.97163302130858,-2.74069424247184,13.3352209725766,783.058616529277
7788,16488,10218,"Herzschuh et al., 2019","SET","SET_32",29.32559,101.33027,3603,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.700527629782178,2337.90910147384,5.95845342633629,-2.75319889743147,13.3210029114819,782.742506667816
7789,16489,14971,"Neotoma","Seven Lakes","SEVEN",40.89614,-106.682215,3276,"not known","lake","core","48","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.598803764497381,1027.59039097945,-1.77627541410957,-12.7528094714773,9.79882988306834,533.334474767471
7790,16490,11967,"Neotoma","Seven Sisters Lakes Central","SM-SSC",39.44155,-106.481394999999,3755,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.616462041376093,625.556702596453,-4.36937533365407,-15.3657386760951,6.93287478327158,535.973037275576
7791,16491,11962,"Neotoma","Seven Sisters Lakes North","SM-SSN",39.44305,-106.487505,3893,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.638616178526299,503.164439841043,-5.20790021883343,-16.0931782466272,5.98908811565221,544.207469432809
7792,16492,11969,"Neotoma","Seven Sisters Lakes South","SM-SSS",39.43657,-106.482885,3708,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.609415248651334,668.933800669571,-4.0853167837653,-15.1194361827902,7.25231830026408,533.419424530229
7793,16493,11974,"Neotoma","Seven Sisters Lakes West","SM-SSW",39.43206,-106.487095,3612,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.595250376687092,760.36120253755,-3.50329418547066,-14.6128764129701,7.90604688300816,528.111932832802
7794,16494,16970,"Neotoma","Sewell Lake","LFR65083",49.84135,-99.5763,370,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1965. Contemporary pollen spectra in central Canada. II. The forest-grassland transition in Manitoba. Pollen et Spores, 7, pp.63-87.",,9,"cool mixed forest",0.634584801267198,2628.91865522944,2.35353807681531,-17.7448612098737,19.2511689020669,488.695324403293
7794,16495,13244,"Neotoma","Sewell Lake","SEWELL",49.84135,-99.5763,370,"not known","lake","core","0","Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818. Ritchie, J.C. 1985. Quaternary pollen records from the western interior and the Arctic of Canada. Pages 327-352 in V.M Bryant and R.G. Holloway, editors. Pollen records of late-Quaternary North American sediments. American Association of Stratigraphic Palynologists Foundation, Dallas, Texas, USA.","10.1139/b76-194",9,"cool mixed forest",0.634584801267198,2628.91865522944,2.35353807681531,-17.7448612098737,19.2511689020669,488.695324403293
7795,16496,15065,"Neotoma","SGang Gwaay Pond","SGANG",52.091542,-131.21229400000001,5,"not known","lake","core","-34","Lacourse, T., R.W. Mathewes, and R.J. Hebda. 2007. Paleoecological analyses of lake sediments reveal prehistoric human impact on forests at Anthony Island UNESCO World Heritage Site, Queen Charlotte Islands (Haida Gwaii), Canada. Quaternary Research 68:177-183.","10.1016/j.yqres.2007.04.005",8,"cool evergreen needleleaf forest",3.39928027658708,3183.11366193691,8.72085934777235,4.63012766671137,14.1623345127137,2124.34467019413
7796,16497,10219,"Herzschuh et al., 2019","SGLQ","SGLQ",38.8,93.7,2772,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",27,"desert",0.0408979894773259,2282.11484875995,2.95963416257651,-12.1756491111622,16.694402449895,45.2628946172414
7797,16498,10220,"Herzschuh et al., 2019","Shaazgaai Nuur. 42A","Shaazgaai Nuur. 42A",49.23144,91.27614,1698,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.259512409278113,1815.71019139057,-3.42381721037084,-26.1671033919592,15.0382507713542,222.937736555827
7798,16499,13245,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","-18","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13246,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","-4","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13247,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","6","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13248,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","22","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13249,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","32","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13250,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","42","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7798,16499,13251,"Neotoma","Shagawa Lake","SHAGAWA",47.916667,-91.866667,492,"not known","lake","core","48","Bradbury, J.P., and J.C.B. Waddington. 1973. The impact of European settlement on Shagawa Lake, northeastern Minnesota, U.S.A. Pages 289-307 in H.J.B. Birks and R.G. West, editors. Quaternary Plant Ecology. Blackwell Scientific, Oxford, England.; Bradbury, J.P., and R.O. Megard. 1972. Stratigraphic record of pollution in Shagawa Lake, Northeastern Minnesota. Geological Society of America Bulletin 83:2639-2648.",,9,"cool mixed forest",0.999011030911097,2377.96673177756,2.14937241810864,-16.5340524381692,17.8251936835502,732.960522288054
7799,16500,22315,"SMPDSv1","Shaitanskoe boloto","Shaitanskoe boloto_SS",57.5167,59.7167,725,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.24203046091629,2014.0143690367,0.462751923247711,-16.4561133836049,16.5354443869881,733.18100198341
7800,16501,11811,"Neotoma","Shalona Lake [Keeler Reservoir]","LMSJ23",37.48428,-107.80373,2195,"not known","artificial water body","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.315548311811444,3103.94122382205,7.5565524040803,-5.45355807261129,20.3443221895059,385.81533485729
7801,16502,4499,"CMPD","Shanghang","Shanghang 1",25.3,116.88,1365,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.49457444385085,5106.36945342535,13.9900532970557,4.26164508401657,22.7386734084533,1648.53419269535
7801,16503,4500,"CMPD","Shanghang","Shanghang 2",25.27,116.88,1087,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43982325821841,5641.74631492267,15.4568392189662,5.8150274885857,24.0670871844678,1625.2766465474
7801,16504,4501,"CMPD","Shanghang","Shanghang 3",25.22,116.82,779,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36462260161245,6265.04422316606,17.1645047210029,7.54625864550011,25.664438275419,1580.99752511167
7801,16505,4502,"CMPD","Shanghang","Shanghang 4",25.27,116.88,1085,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.43943742761329,5645.6414773701,15.4675108969044,5.82658131788327,24.0765577428168,1625.10753277292
7801,16506,4503,"CMPD","Shanghang","Shanghang 5",25.3,116.88,1365,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.49457444385085,5106.36945342535,13.9900532970557,4.26164508401657,22.7386734084533,1648.53419269535
7802,16507,10221,"Herzschuh et al., 2019","Shar Bogd Nuur. 44A","Shar Bogd Nuur. 44A",49.62691,92.13455,1384,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.310484010168953,2061.78816280101,-2.57969227233839,-26.280828322768,16.5135316528641,262.777263015759
7803,16508,10222,"Herzschuh et al., 2019","Shar Nuur. 35A","Shar Nuur. 35A",48.77718,89.88413,1975,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.270266894145635,1473.16072023202,-4.72583605442919,-25.7550558436805,12.9302651401729,228.480323022811
7804,16509,1358,"Australian pollen","Shark Bay","SB_Sample 12",-26.0728,113.6524,39,"very small (<0.01 km2)","coastal, other","surface sample","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.159231696938195,8031.26683330856,22.0034707761878,15.7134124346901,28.8037250035183,291.707780614755
7804,16510,1359,"Australian pollen","Shark Bay","SB_Sample 13",-26.1813,113.7019,12,"very small (<0.01 km2)","coastal, other","surface sample","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.163320738778463,8023.33646986581,21.981743753057,15.8274165710778,28.6665730826139,298.476036275595
7804,16511,1360,"Australian pollen","Shark Bay","SB_Sample 14",-26.366,114.2814,48,"very small (<0.01 km2)","coastal, other","surface sample","-45","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.158655588100189,7994.08481366189,21.9016022292107,15.5214879290257,28.8318399485218,288.846894571881
7805,16512,11822,"Neotoma","Sharpe Pond, RI","SJNE8",41.414821,-71.5423485,31,"not known","lake","surface sample","-37","Jackson, S.T. 1990. Pollen source area and representation in small lakes of the northeastern United States. Review of Palaeobotany and Palynology 63:53-76.",,13,"temperate deciduous broadleaf forest",1.30962766528335,3879.22202914774,10.3015672657891,-2.27879205844845,22.3571491016504,1186.40859151017
7806,16513,13252,"Neotoma","Shaws Bog","SHAWSBOG",45.016667,-64.183333,30,"not known","terrestrial, bog/fen/swamp","core","0","Hadden, K.A. 1975. A pollen diagram from a postglacial peat bog in Hants County, Nova Scotia. Canadian Journal of Botany 53(1):39-47. http://www.nrcresearchpress.com/doi/abs/10.1139/b75-005#.Uko15YbbMYk.",,9,"cool mixed forest",1.71884438621315,2771.99179454987,6.23567127509887,-6.01448819970091,18.3449923383615,1305.06505679138
7807,16514,17406,"Neotoma","Shay Lake","TW113",43.38,-83.25,216,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.924088599687883,3340.06449025775,7.82282378339394,-6.45590235432908,21.0142464666561,802.850215576918
7808,16515,10223,"Herzschuh et al., 2019","Shayema Lake","Shayema Lake",28.585,102.215,2453,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",4,"warm-temperate evergreen and mixed forest",0.809019242010155,4032.73576119932,11.0485911265735,2.62986829883665,18.2007854007571,936.458490688466
7809,16516,16707,"Neotoma","Sheep Pond","PWD2",41.258333,-70.183333,3,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41853126558136,3994.97435176595,10.7599570456616,-1.47191770549446,22.4338883291697,1293.79365301362
7810,16517,1361,"Australian pollen","Sheet of Water","Sheet of Water",-37.167,142.35,240,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.52120231394797,4954.30936711827,13.573450320872,7.86502109974407,19.6624244996034,575.795645011287
7811,16518,7171,"EMPDv2","Sheheree Bog","EPDcoretop_E2257",52.04,-9.48,61,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.80088928294891,3609.84827171939,9.88999526498462,5.56343677815062,15.0538515408882,1150.27520780611
7812,16519,15255,"Neotoma","Sheldon","AMD022",43.67,-91.05,351,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.924580039872306,3351.5677443584,6.84219265717543,-10.724157259091,21.7381389586736,802.516817912475
7813,16520,13253,"Neotoma","Sheley Pond","SHELEY",31.080833,-81.636944,13,"not known","lacustrine, drained lake","core","25","Unpublished data",,4,"warm-temperate evergreen and mixed forest",0.996377816246025,7232.04525969421,19.8138226292992,10.8812984522373,27.5162154018368,1291.80459609055
7814,16521,11641,"Neotoma","Shell Shock Pond","GPPS-11",43.903915,-102.270935,893,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.422448506080805,3488.17546049358,8.26385121814983,-6.44592089910482,23.0247142876189,416.45647739321
7815,16522,4504,"CMPD","Shennongjia","Shennongjia",31.3,110.2,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",1.04680779766095,4573.23449417259,12.5294095730756,1.63450848195319,22.9346832040528,1124.05128456183
7815,16522,10224,"Herzschuh et al., 2019","Shennongjia","Shennongjia",31.305,110.205,1700,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.04686181319473,4573.72213450472,12.5307455739855,1.63571991190127,22.9362419184088,1124.08759979428
7815,16523,10225,"Herzschuh et al., 2019","Shennongjia","Shennongjia 01",31.225,110.735,25,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00035141693175,5819.63225682488,15.9441979639038,3.6070991785603,27.5042251984655,1074.62206513671
7815,16524,10226,"Herzschuh et al., 2019","Shennongjia","Shennongjia 02",31.225,110.735,80,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0011298276782301,5773.77207972188,15.8185536430736,3.52736280731653,27.3427260531873,1075.37542723651
7815,16525,10227,"Herzschuh et al., 2019","Shennongjia","Shennongjia 03",31.225,110.735,150,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00212592403231,5715.40458159078,15.6586426892898,3.42588015300628,27.1371816864696,1076.33425172717
7815,16526,10228,"Herzschuh et al., 2019","Shennongjia","Shennongjia 04",31.225,110.735,200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00284111529455,5673.71351149714,15.5444205794442,3.35339254278468,26.9903642816712,1077.01912636335
7815,16527,10229,"Herzschuh et al., 2019","Shennongjia","Shennongjia 05",31.225,110.735,260,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00370340415351,5623.68422738478,15.4073540476295,3.26640741051875,26.8141833959132,1077.84097592677
7815,16528,10230,"Herzschuh et al., 2019","Shennongjia","Shennongjia 06",31.225,110.735,320,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0045701172274,5573.65494327241,15.2702875158148,3.17942227825282,26.6380025101551,1078.66282549019
7815,16529,10231,"Herzschuh et al., 2019","Shennongjia","Shennongjia 07",31.225,110.735,400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00573260889584,5506.94923112259,15.0875321400619,3.06344210189825,26.4030946624777,1079.75862490808
7815,16530,10232,"Herzschuh et al., 2019","Shennongjia","Shennongjia 08",31.225,110.735,475,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00682957080717,5444.41262598213,14.9161989752935,2.95471068656584,26.1828685552802,1080.78593686235
7815,16531,10233,"Herzschuh et al., 2019","Shennongjia","Shennongjia 09",31.225,110.735,560,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.00808111853775,5373.53780682295,14.722021388556,2.83148174918911,25.933278967123,1081.95022374386
7815,16532,10234,"Herzschuh et al., 2019","Shennongjia","Shennongjia 10",31.225,110.735,600,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0086731386165,5340.18495074804,14.6306437006796,2.77349166101183,25.8158250432843,1082.49812345281
7815,16533,10235,"Herzschuh et al., 2019","Shennongjia","Shennongjia 11",31.225,110.735,690,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01001232557701,5265.14102457949,14.4250439029575,2.64301396261294,25.5515537146472,1083.73089779794
7815,16534,10236,"Herzschuh et al., 2019","Shennongjia","Shennongjia 12",31.225,110.735,740,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01076058586196,5223.44995448585,14.3108217931119,2.57052635239133,25.4047363098489,1084.41577243412
7815,16535,10237,"Herzschuh et al., 2019","Shennongjia","Shennongjia 13",31.225,110.735,800,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01166251611308,5173.42067037349,14.1737552612972,2.4835412201254,25.2285554240908,1085.23762199754
7815,16536,10238,"Herzschuh et al., 2019","Shennongjia","Shennongjia 14",31.225,110.735,885,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01294774290033,5102.5458512142995,13.9795776745597,2.36031228274867,24.9789658359336,1086.40190887905
7815,16537,10239,"Herzschuh et al., 2019","Shennongjia","Shennongjia 15",31.225,110.735,950,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01393648075439,5048.34746009257,13.8310889317605,2.26607838946058,24.7881032096957,1087.29224590609
7815,16538,10240,"Herzschuh et al., 2019","Shennongjia","Shennongjia 16",31.225,110.735,1000,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0147005325107,5006.65638999893,13.7168668219149,2.19359077923898,24.6412858048974,1087.97712054227
7815,16539,10241,"Herzschuh et al., 2019","Shennongjia","Shennongjia 17",31.225,110.735,1070,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01577528713603,4948.28889186784,13.5569558681311,2.09210812492873,24.4357414381797,1088.93594503293
7815,16540,10242,"Herzschuh et al., 2019","Shennongjia","Shennongjia 18",31.225,110.735,1120,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01654659388759,4906.5978217742,13.4427337582855,2.01962051470712,24.2889240333813,1089.62081966911
7815,16541,10243,"Herzschuh et al., 2019","Shennongjia","Shennongjia 19",31.225,110.735,1200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01778695678828,4839.89210962438,13.2599783825325,1.90364033835255,24.0540161857039,1090.716619087
7815,16542,10244,"Herzschuh et al., 2019","Shennongjia","Shennongjia 20",31.225,110.735,1250,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01856609727388,4798.20103953074,13.145756272687,1.83115272813095,23.9071987809056,1091.40149372318
7815,16543,10245,"Herzschuh et al., 2019","Shennongjia","Shennongjia 21",31.225,110.735,1300,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.01934824322569,4756.5099694371,13.0315341628414,1.75866511790934,23.7603813761072,1092.08636835937
7815,16544,10246,"Herzschuh et al., 2019","Shennongjia","Shennongjia 22",31.225,110.735,1360,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02029077948557,4706.48068532474,12.8944676310267,1.67167998564341,23.5842004903492,1092.90821792279
7815,16545,10247,"Herzschuh et al., 2019","Shennongjia","Shennongjia 23",31.225,110.735,1420,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02123762971183,4656.45140121237,12.757401099212,1.58469485337749,23.4080196045911,1093.73006748621
7815,16546,10248,"Herzschuh et al., 2019","Shennongjia","Shennongjia 24",31.225,110.735,1500,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02250679362836,4589.74568906255,12.574645723459,1.46871467702292,23.1731117569137,1094.8258669041
7815,16547,10249,"Herzschuh et al., 2019","Shennongjia","Shennongjia 25",31.225,110.735,1570,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02362357656526,4531.37819093146,12.4147347696752,1.36723202271267,22.967567390196,1095.78469139475
7815,16548,10250,"Herzschuh et al., 2019","Shennongjia","Shennongjia 26",31.225,110.735,1630,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02458546208501,4481.34890681909,12.2776682378605,1.28024689044674,22.791386504438,1096.60654095817
7815,16549,10251,"Herzschuh et al., 2019","Shennongjia","Shennongjia 27",31.225,110.735,1710,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02587462720793,4414.64319466927,12.0949128621076,1.16426671409217,22.5564786567606,1097.70234037606
7815,16550,10252,"Herzschuh et al., 2019","Shennongjia","Shennongjia 28",31.225,110.735,1790,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02717137406784,4347.93748251945,11.9121574863547,1.0482865377376,22.3215708090832,1098.79813979396
7815,16551,10253,"Herzschuh et al., 2019","Shennongjia","Shennongjia 29",31.225,110.735,1850,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02814889651565,4297.90819840708,11.77509095454,0.961301405471673,22.1453899233252,1099.61998935738
7815,16552,10254,"Herzschuh et al., 2019","Shennongjia","Shennongjia 30",31.225,110.735,1910,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.02913066174913,4247.87891429472,11.6380244227253,0.874316273205745,21.9692090375672,1100.4418389208
7815,16553,10255,"Herzschuh et al., 2019","Shennongjia","Shennongjia 31",31.225,110.735,2040,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0312723276737,4139.48213205126,11.3410469371267,0.685848486629569,21.5874837850914,1102.22251297487
7815,16554,10256,"Herzschuh et al., 2019","Shennongjia","Shennongjia 32",31.225,110.735,2100,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03226746231139,4089.45284793889,11.203980405312,0.598863354363642,21.4113028993334,1103.04436253829
7815,16555,10257,"Herzschuh et al., 2019","Shennongjia","Shennongjia 33",31.225,110.735,2130,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03276660534649,4064.43820588271,11.1354471394047,0.555370788230678,21.3232124564544,1103.45528732
7815,16556,10258,"Herzschuh et al., 2019","Shennongjia","Shennongjia 34",31.225,110.735,2200,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03393534821795,4006.07070775161,10.9755361856209,0.453888133920429,21.1176680897367,1104.41411181065
7815,16557,10259,"Herzschuh et al., 2019","Shennongjia","Shennongjia 35",31.225,110.735,2265,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03502570630692,3951.87231662989,10.8270474428216,0.359654240632341,20.941300396027,1105.30444883769
7815,16558,10260,"Herzschuh et al., 2019","Shennongjia","Shennongjia 36",31.225,110.735,2330,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03612095760094,3897.67392550816,10.6785587000223,0.265420347344253,20.7654986004164,1106.19478586473
7815,16559,10261,"Herzschuh et al., 2019","Shennongjia","Shennongjia 37",31.225,110.735,2400,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03730591846061,3839.30934303918,10.5186477462385,0.163937693034004,20.5761735897588,1107.15361035539
7815,16560,10262,"Herzschuh et al., 2019","Shennongjia","Shennongjia 38",31.225,110.735,2445,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.03807169553971,3802.49037459171,10.4158478473775,0.0986988438345586,20.454464654336,1107.76999752795
7815,16561,10263,"Herzschuh et al., 2019","Shennongjia","Shennongjia 39",31.225,110.735,2510,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0391832801134,3750.2012553697,10.2673591045782,0.00446495054647053,20.2786628587254,1108.66033455499
7815,16562,10264,"Herzschuh et al., 2019","Shennongjia","Shennongjia 40",31.225,110.735,2580,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.04038683357307,3694.55425519187,10.1074481507944,-0.0970177037637781,20.0893378480678,1109.61915904564
7815,16563,10265,"Herzschuh et al., 2019","Shennongjia","Shennongjia 41",31.225,110.735,2650,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.0415968545643,3639.43720138516,9.9475371970106,-0.198500358074027,19.9000128374102,1110.5779835363
7815,16564,10266,"Herzschuh et al., 2019","Shennongjia","Shennongjia 42",31.225,110.735,2730,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.04298747429351,3576.97391578766,9.76478182125767,-0.314480534428597,19.6836413966586,1111.67378295419
7815,16565,10267,"Herzschuh et al., 2019","Shennongjia","Shennongjia 43",31.225,110.735,2810,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",1.04438626428001,3515.02284599823,9.58202644550473,-0.430460710783167,19.4672699559071,1112.76958237208
7816,16566,13254,"Neotoma","Sherd Lake","SHERD",44.2697,-107.01237,2665,"not known","lake","core","0","Burkart, M.R. 1976. Pollen biostratigraphy and late Quaternary vegetation history of the Bighorn Mountains, Wyoming. Doctoral dissertation. University of Iowa, Iowa City, Iowa, USA.",,15,"cold evergreen needleleaf forest",0.332955402874164,1982.04672024109,3.07265938364267,-7.88593271579565,16.0717488664506,305.298198361819
7817,16567,11476,"Neotoma","Sheridan Lake","SDPNSH",43.97367,-103.46811,1414,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.413491043690767,3077.06259332779,7.15768628922283,-5.98577218856144,21.2001675074491,403.24372415697
7818,16568,11494,"Neotoma","Sheridan State Fishing Lake","KSSHSH",39.36248,-100.22989,748,"not known","artificial water body","surface sample","-54","Unpublished data",,22,"steppe",0.484274071104913,4326.28304137373,11.4137463647019,-3.1042615871484,25.7183816793178,551.889201251054
7819,16569,8084,"EMPDv2","Sheshkevicha","Mikishin-Gvozdeva_a147",46.5433333333333,143.374166666667,0,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60300102596133,2317.5290853382,3.67967835551843,-10.3152158344398,17.3108385478437,1015.1889453738
7820,16570,10621,"BIOME6000 Japan","Shibayachi","D5002",40.3166667,140.583333,90,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.75483590542348,3634.07106388537,9.51398851555478,-2.52641355926582,22.8338355078752,1417.97260624679
7821,16571,9486,"EMPDv2","Shigirskij-1","Novenko_c180",57.3575,60.1131,250,"0.25","not known","moss polster or moss","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.982402009527293,2246.65360352526,1.58578546578587,-16.0216525545933,18.2912264764738,569.37793843898
7822,16572,9487,"EMPDv2","Shigirskij-2","Novenko_c181",57.3575,60.1131,250,"0.25","not known","moss polster or moss","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.982402009527293,2246.65360352526,1.58578546578587,-16.0216525545933,18.2912264764738,569.37793843898
7823,16573,9488,"EMPDv2","Shigirskij-3","Novenko_c182",57.3575,60.1131,250,"0.25","not known","moss polster or moss","-48","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.982402009527293,2246.65360352526,1.58578546578587,-16.0216525545933,18.2912264764738,569.37793843898
7824,16574,4505,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-01",43.8255555555556,86.0344444444444,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.195182699139504,2097.24966614127,0.986131903853889,-16.5032161749118,15.4318291487974,190.418323685794
7824,16575,4506,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-02",43.8257777777778,86.03475,2350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.193449616884993,2148.95976738577,1.19380639294525,-16.3952111803624,15.7119260921437,189.209994137427
7824,16576,4507,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-03",43.8259444444444,86.0338055555556,2250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.190018261534235,2253.38955114306,1.6093214652494,-16.1799309150107,16.2725223885754,186.79361806512
7824,16577,4508,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-04",43.8282222222222,86.0339444444444,2150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186649039608728,2358.81597908521,2.02430258455872,-15.9648162003722,16.8325688501517,184.384404907089
7824,16578,4509,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-05",43.8303055555556,86.0372222222222,2050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183318183995466,2465.22558403635,2.43937173002747,-15.7478806631887,17.3922658341086,181.968520662189
7824,16579,4510,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-06",43.8306111111111,86.0383888888889,2060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183651097169096,2454.47302392505,2.39773658810607,-15.7689396600779,17.3359935856739,182.210017309295
7824,16580,4511,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-07",43.8306666666667,86.0383055555556,1950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.180020750328998,2572.83679588637,2.85493593125227,-15.5315122765471,17.9526765416701,179.548083866466
7824,16581,4512,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-08",43.8371666666667,86.04075,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178423514484536,2626.88541408188,3.06157595384075,-15.4243904332149,18.2320470832829,178.354723475534
7824,16582,4513,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-09",43.8405,86.0444444444444,1850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.176812500780873,2681.20138816756,3.26898047993189,-15.3154697093924,18.5117952206088,177.147309266098
7824,16583,4514,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-10",43.8453611111111,86.0468333333333,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.172019599206727,2846.21588230053,3.89217608332804,-14.9916835455193,19.3527754817755,173.518867170894
7824,16584,4515,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-11",43.8575555555556,86.0544444444444,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.168898491948599,2957.33496114247,4.3069655859323,-14.7751530652008,19.9130750554541,171.10456009360001
7824,16585,4516,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-12",43.8739722222222,86.0629722222222,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.164263687202525,3126.18039625598,4.93021299164393,-14.4509696368932,20.7550733083082,167.467632045889
7824,16586,4517,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-13",43.8778611111111,86.0990277777778,1350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.161093185196102,3240.49981570744,5.35144975571328,-14.2154533983438,21.3192211211046,164.952671139051
7824,16587,4518,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-14",43.9727777777778,86.2145,1250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.157976266974087,3356.40008839511,5.77591642103023,-13.9616928835537,21.8917778693844,162.322417260776
7824,16588,4519,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-15",43.9982222222222,86.1852222222222,1150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.155058451885283,3472.91986647934,6.18966373894796,-13.7666691294699,22.4570727453443,159.924815850649
7824,16589,4520,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-16",44.0258611111111,86.1446111111111,1050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152224488951139,3589.55421050831,6.59948298731313,-13.5789637573131,23.0188434244073,157.559083701693
7824,16590,4521,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-17",44.0635555555556,86.1230555555556,950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.149376414436281,3707.13083678729,7.01085281863377,-13.3834005921107,23.581937565192,155.1396622403
7824,16591,4522,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-18",44.1093888888889,86.1079166666667,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146539658308608,3825.54156365962,7.42230512177334,-13.1861286068826,24.1455762254681,152.690307939736
7824,16592,4523,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-19",44.1795,86.1400277777778,750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.143527213544354,3947.35097677887,7.84562097296296,-12.9661375839587,24.7228172083516,150.045295825335
7824,16593,4524,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-20",44.2311111111111,86.16175,650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.140511358620107,4070.1644016017,8.26973384118403,-12.746817780423,25.2998362616379,147.396689027794
7824,16594,4525,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-21",44.4196944444444,86.0316111111111,377,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132364149913085,4394.47402601831,9.33900075545345,-12.3102784783468,26.8663527597663,140.069770792111
7824,16595,4526,"CMPD","Shihezi Nanshan","Shihezi Nanshan NS-BF-23",44.4061388888889,86.0596666666667,380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132237547173548,4393.68888185282,9.3397171647878,-12.2955980476431,26.860418543176,139.991708041027
7825,16596,4527,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-01",43.8630277777778,85.5745833333333,1629,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.173755533996982,2893.93728778397,3.93987167494866,-15.5035320049327,19.5741741100487,174.691077141767
7825,16597,4528,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-02",43.86725,85.5658888888889,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.172927500099074,2924.8673974645,4.0542180068538904,-15.4492317617315,19.7305932658069,174.044752460479
7825,16598,4529,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-03",43.8695833333333,85.5702777777778,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.169808512593528,3034.98425677316,4.46666414290333,-15.2254272571569,20.2831918183929,171.626221065942
7825,16599,4530,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-04",43.8765833333333,85.5660555555556,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.166805689331711,3145.23556361587,4.87418213187252,-15.0111729509019,20.8322037309697,169.259262994649
7825,16600,4531,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-05",43.89725,85.5815,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.163801382212385,3257.28989079409,5.28744648208529,-14.7832223732263,21.3863184821733,166.852352504555
7825,16601,4532,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-06",43.9113333333333,85.5925,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.160805003809571,3370.35332858749,5.7006181544109,-14.557022009716,21.9403194254408,164.431623316493
7825,16602,4533,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-07",43.9526666666667,85.6108333333333,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.157939065043957,3483.80637762143,6.11118300757402,-14.3327709915693,22.4937280148238,162.051350399831
7825,16603,4534,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-08",43.9415,85.6898611111111,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.154426533973598,3605.81295118578,6.56277938622323,-14.0378819600151,23.0788800009007,159.22373094935801
7825,16604,4535,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-09",43.9931666666667,85.7436111111111,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.151403015640443,3724.32740196595,6.98931656606551,-13.786060571186,23.6476452321505,156.657287191378
7825,16605,4536,"CMPD","Shihezi Ningjia River","Shihezi Ningjia River NH-BF-10",44.102,85.7964722222222,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146598829823383,3865.94016811533,7.53209238908562,-13.275278855701,24.3367737954696,152.627097963599
7826,16606,10631,"BIOME6000 Japan","Shimokenashi","SmknsC0",40.66,140.85,1050,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.03736637787261,2782.42038489754,6.26475400136147,-6.06374632916965,19.407754764204,1515.06499839652
7827,16607,11543,"Neotoma","Shin Bone Lake","NDBESH",47.860095,-98.701195,445,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.581255259862629,2867.78531045838,3.74696955675346,-15.8164028780838,20.365780404698,472.322155953696
7828,16608,15526,"Neotoma","Shine","CJH105",47.25,-123.97,107,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.79937527419785,3558.59638097172,9.74957912594992,4.29038833031851,15.8631240168308,2130.76279174327
7829,16609,10634,"BIOME6000 Japan","Shiriyazaki","D2005",41.4166667,141.466667,10,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.70721866794733,3470.44099725783,8.92003397128024,-3.1738237815096,22.0928520851273,1335.80553665109
7830,16610,10622,"BIOME6000 Japan","Shirochiyama","SrcymC0",40.45,140.78,1000,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.02005391527336,2798.21805906099,6.32583049581713,-6.00728489902372,19.4597624701795,1507.62547212055
7831,16611,10591,"BIOME6000 Japan","Shirokuma Moor","SirkmC0",36.05,138.38,2130,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.93479057164658,1852.12872461996,1.60355508002156,-11.9860334935807,15.2172280081781,1448.70469481098
7832,16612,9426,"EMPDv2","Shistyi les","Novenko_c256",56.7425,31.5317,202,"0.15","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06436932298919,2477.32484245809,4.48189554663206,-9.5128620052723,16.8328975600367,679.985094713787
7832,16613,9427,"EMPDv2","Shistyi les","Novenko_c257",56.7425,31.5311,200,"0.15","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06276077679718,2478.1662608907,4.48747881576828,-9.50296665924072,16.836594075217,678.908051955135
7832,16614,9428,"EMPDv2","Shistyi les","Novenko_c258",56.7425,31.5311,200,"0.15","terrestrial","moss polster or moss","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06276077679718,2478.1662608907,4.48747881576828,-9.50296665924072,16.836594075217,678.908051955135
7833,16615,4537,"CMPD","Shiwandashan","Shiwandashan 1",21.88,107.91,453,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06620362030817,7807.95710933708,21.3916633132523,12.8571501537804,27.7645534206166,1314.3261492992
7833,16616,4538,"CMPD","Shiwandashan","Shiwandashan 2",21.88,107.91,548,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02034773363076,7673.03333164753,21.0220091278015,12.3871889467752,27.4941776968788,1254.08745131895
7833,16617,4539,"CMPD","Shiwandashan","Shiwandashan 3",21.89,107.9,398,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.09246806357028,7886.69535569669,21.6073845361553,13.1316387080471,27.9220209277773,1348.95231130081
7833,16618,4540,"CMPD","Shiwandashan","Shiwandashan 4",21.89,107.88,410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0869002334464,7871.12426828179,21.5647240226898,13.079516216643,27.888403218166,1341.7738113292
7833,16619,4541,"CMPD","Shiwandashan","Shiwandashan 5",21.88,107.91,676,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.958134844299899,7491.24129433951,20.5239487516151,11.7539780573366,27.1298819848951,1172.92373193504
7833,16620,4542,"CMPD","Shiwandashan","Shiwandashan 6",21.88,107.91,726,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.933697937951453,7420.22877976607,20.3293939171673,11.5066300536497,26.9875789724015,1141.2191540507
7834,16621,4543,"CMPD","Shixing","Shixing 1",24.7,113.91,424,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.39207788036265,6916.88938149266,18.9503818671032,8.98319140201112,27.5292595860026,1655.92182009222
7834,16622,4544,"CMPD","Shixing","Shixing 2",25.01,113.92,160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3950891353145,7500.00846851101,20.5479684068795,10.8739398823008,28.6169706043526,1685.01517359494
7834,16623,4545,"CMPD","Shixing","Shixing 3",25.01,113.92,184,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.3931532002313,7439.78312784716,20.3829674735539,10.6590391731367,28.5290834159512,1679.54916688459
7835,16624,4546,"CMPD","Shiyang River","Shiyang River 01",37.6055555555555,102.352222222222,3790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.317404196786657,916.901363180862,-1.83927318909929,-13.2488941079217,8.31397715510586,300.511086922624
7835,16625,4547,"CMPD","Shiyang River","Shiyang River 02",37.6055555555555,102.352222222222,3790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.317404196786657,916.901363180862,-1.83927318909929,-13.2488941079217,8.31397715510586,300.511086922624
7835,16626,4548,"CMPD","Shiyang River","Shiyang River 03",37.6055555555555,102.352222222222,3740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.314304693770224,959.520366381059,-1.64813458571271,-13.1470834106618,8.57983048499961,298.571266565272
7835,16627,4549,"CMPD","Shiyang River","Shiyang River 04",37.6055555555555,102.352222222222,3740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.314304693770224,959.520366381059,-1.64813458571271,-13.1470834106618,8.57983048499961,298.571266565272
7835,16628,4550,"CMPD","Shiyang River","Shiyang River 05",37.6113888888889,102.356111111111,3690,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.311280221837176,1002.20972931964,-1.45899266310574,-13.0455020826428,8.84327269286048,296.635817850635
7835,16629,4551,"CMPD","Shiyang River","Shiyang River 06",37.6113888888889,102.356111111111,3660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.309441709911551,1028.3146811475401,-1.34431277316484,-12.984475240458,9.00282325124346,295.468960670988
7835,16630,4552,"CMPD","Shiyang River","Shiyang River 07",37.6113888888889,102.356111111111,3640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.308220624556278,1045.79576912053,-1.26785951320424,-12.9437906790015,9.10919029016545,294.691055884557
7835,16631,4553,"CMPD","Shiyang River","Shiyang River 08",37.6113888888889,102.356111111111,3610,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.306395875487311,1072.19170335137,-1.15317962326334,-12.8827638368166,9.26874084854843,293.524198704911
7835,16632,4554,"CMPD","Shiyang River","Shiyang River 09",37.6336111111111,102.364166666667,3590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.30514547826163,1088.02363953251,-1.08625908857514,-12.8484376972185,9.36630675043905,292.554138260013
7835,16633,4555,"CMPD","Shiyang River","Shiyang River 10",37.6336111111111,102.364166666667,3540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.302110905739588,1132.5268683753,-0.895125633092647,-12.7470042835627,9.63243593011409,290.593690042951
7835,16634,4556,"CMPD","Shiyang River","Shiyang River 11",37.6336111111111,102.364166666667,3490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.299098796924825,1177.43673452661,-0.703992177610153,-12.6455708699068,9.89856510978913,288.633241825889
7835,16635,4557,"CMPD","Shiyang River","Shiyang River 12",37.6336111111111,102.364166666667,3440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.296108871892171,1222.73489595539,-0.512858722127658,-12.544137456251,10.1646942894642,286.672793608826
7835,16636,4558,"CMPD","Shiyang River","Shiyang River 13",37.6336111111111,102.364166666667,3390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.293140858509275,1268.40722641711,-0.321725266645164,-12.4427040425952,10.4308234691392,284.712345391764
7835,16637,4559,"CMPD","Shiyang River","Shiyang River 14",37.6336111111111,102.364166666667,3340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.290194491925226,1314.44422347942,-0.130591811162669,-12.3412706289394,10.6969526488143,282.751897174702
7835,16638,4560,"CMPD","Shiyang River","Shiyang River 15",37.6336111111111,102.364166666667,3310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288437001122035,1342.30370305782,-0.0159117378731728,-12.2804105807459,10.8566301566193,281.575628244465
7835,16639,4561,"CMPD","Shiyang River","Shiyang River 16",37.6336111111111,102.364166666667,3250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.284944806202735,1398.29123675764,0.213448408705821,-12.158690484359,11.1759851722293,279.22309038399
7835,16640,4562,"CMPD","Shiyang River","Shiyang River 17",37.6336111111111,102.364166666667,3140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278620420966718,1502.25214510089,0.633942010767308,-11.9355369743162,11.7614693675144,274.910104306453
7835,16641,4563,"CMPD","Shiyang River","Shiyang River 18",37.6336111111111,102.364166666667,3060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.274082919313693,1578.82223611124,0.9397555395393,-11.7732435124669,12.1872760549945,271.773387159153
7835,16642,4564,"CMPD","Shiyang River","Shiyang River 19",37.6344444444444,102.362777777778,2990,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.270109431533106,1646.39430435914,1.20656526318878,-11.632497532042,12.5594925762476,268.980434498324
7835,16643,4565,"CMPD","Shiyang River","Shiyang River 20",37.6344444444444,102.362222222222,2960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268426486025681,1675.5725975391,1.3211102064882,-11.5719202832613,12.7191248843453,267.793180353109
7835,16644,4566,"CMPD","Shiyang River","Shiyang River 21",37.6344444444444,102.362222222222,2955,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268148591369688,1680.44225733966,1.34022408280677,-11.5617748856573,12.7457373976769,267.597171645671
7835,16645,4567,"CMPD","Shiyang River","Shiyang River 22",37.6355555555555,102.361944444444,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.267842820679844,1685.20766467224,1.3586947356789,-11.5524779364514,12.7719904048194,267.368089690929
7835,16646,4568,"CMPD","Shiyang River","Shiyang River 23",37.6458333333333,102.363611111111,2900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.264895298737914,1733.26826801407,1.54494441534061,-11.4567643603482,13.0352303594206,265.179619538851
7835,16647,4569,"CMPD","Shiyang River","Shiyang River 24",37.6458333333333,102.363611111111,2660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251844385035717,1972.00153762701,2.46245210576374,-10.9702699211342,14.3130825736407,255.739163135339
7835,16648,4570,"CMPD","Shiyang River","Shiyang River 25",37.6361111111111,102.361388888889,2870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263402537470335,1763.58442754691,1.66409777607066,-11.3907938492637,13.1975900162105,264.206268065789
7835,16649,4571,"CMPD","Shiyang River","Shiyang River 26",37.6366666666667,102.360555555556,2840,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.26173054752661,1793.06663743175,1.77829507478245,-11.3306914386296,13.3570329457019,262.999686878717
7835,16650,4572,"CMPD","Shiyang River","Shiyang River 27",37.6372222222222,102.359444444444,2790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.258972702406848,1842.55256167633,1.96888732126866,-11.2301255321453,13.6229010106017,261.00381449257
7835,16651,4573,"CMPD","Shiyang River","Shiyang River 28",37.6386111111111,102.359722222222,2740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.256240241175475,1892.23918811737,2.15938881361965,-11.129447641226,13.8886842872547,259.010811838664
7835,16652,4574,"CMPD","Shiyang River","Shiyang River 29",37.6391666666667,102.356111111111,2730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.25562330427583,1902.07222525297,2.19647432289912,-11.1111890720749,13.9413802889109,258.538532641565
7835,16653,4575,"CMPD","Shiyang River","Shiyang River 30",37.6391666666667,102.358888888889,2730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.255673366103103,1902.16092084706,2.19713545719443,-11.1099096771317,13.941674821008,258.588470643029
7835,16654,4576,"CMPD","Shiyang River","Shiyang River 31",37.6458333333333,102.363611111111,2660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251844385035717,1972.00153762701,2.46245210576374,-10.9702699211342,14.3130825736407,255.739163135339
7835,16655,4577,"CMPD","Shiyang River","Shiyang River 32",37.6586111111111,102.371388888889,2540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.245285869857107,2092.89311887193,2.91653514555405,-10.732631251342,14.949925414454,250.776330497402
7835,16656,4578,"CMPD","Shiyang River","Shiyang River 33",37.6591666666667,102.371944444444,2440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240030480764005,2195.41073276189,3.29867325225596,-10.5304902642578,15.4825959898161,246.815019516442
7835,16657,4579,"CMPD","Shiyang River","Shiyang River 34",37.6591666666667,102.371944444444,2440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240030480764005,2195.41073276189,3.29867325225596,-10.5304902642578,15.4825959898161,246.815019516442
7835,16658,4580,"CMPD","Shiyang River","Shiyang River 35",37.6744444444445,102.4225,2340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.235169811173004,2299.64583311619,3.6846891563401,-10.3208269805622,16.0196620248848,243.14579818279
7835,16659,4581,"CMPD","Shiyang River","Shiyang River 36",37.7002777777778,102.424444444444,2240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.229309110209226,2402.22222004058,4.05478808866548,-10.1377886669498,16.5487278185435,238.350591040172
7835,16660,4582,"CMPD","Shiyang River","Shiyang River 37",37.7238888888889,102.432222222222,2140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223609286621625,2506.32177389819,4.42754825319392,-9.95183458942828,17.0800745897212,233.66403294403
7835,16661,4583,"CMPD","Shiyang River","Shiyang River 38",37.7633333333333,102.453888888889,2040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201329177508465,2609.74005875866,4.69650702898459,-10.063209923293,17.7277820344743,212.688882318844
7835,16662,4584,"CMPD","Shiyang River","Shiyang River 39",37.8197222222222,102.563611111111,1940,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195817547280895,2724.68856344978,5.10118435319663,-9.86624368494879,18.3099685455468,208.106013553564
7835,16663,4585,"CMPD","Shiyang River","Shiyang River 40",37.8197222222222,102.563611111111,1790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.18713926294294,2893.66260538696,5.68956853875441,-9.58546722988905,19.1524233113407,200.749187237824
7835,16664,4586,"CMPD","Shiyang River","Shiyang River 41",37.8288888888889,102.683333333333,1658,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180517313060921,3050.30163133593,6.23260634727108,-9.31360781731876,19.9224238796746,195.25808675831
7835,16665,4641,"CMPD","Shiyang River","Shiyang River-02-01",37.8286111111111,101.954722222222,2420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.208023074812203,2152.16179872497,2.93339039355144,-11.2509218201653,15.4366264820391,214.246812467531
7835,16666,4642,"CMPD","Shiyang River","Shiyang River-02-02",37.8286111111111,101.954722222222,2360,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.204883948945456,2215.71573632102,3.17224764956724,-11.1204603525945,15.7672098173993,211.820942503786
7835,16667,4643,"CMPD","Shiyang River","Shiyang River-02-03",37.8286111111111,101.954722222222,2290,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201255770181823,2290.32090466015,3.45091444825233,-10.9682553070953,16.1528903753195,208.990760879416
7835,16668,4644,"CMPD","Shiyang River","Shiyang River-02-04",37.8286111111111,101.954722222222,2220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.19766373298907,2365.46206756327,3.72958124693743,-10.8160502615961,16.5385709332397,206.160579255046
7835,16669,4645,"CMPD","Shiyang River","Shiyang River-02-05",37.8286111111111,101.954722222222,2200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.196643988172038,2387.04558857664,3.80920033227602,-10.7725631057392,16.6487653783598,205.351955933797
7835,16670,4646,"CMPD","Shiyang River","Shiyang River-02-06",37.8286111111111,101.954722222222,2180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.195627105383917,2408.62910959,3.88881941761462,-10.7290759498823,16.7589598234798,204.543332612549
7835,16671,4647,"CMPD","Shiyang River","Shiyang River-02-07",37.8286111111111,101.954722222222,2160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.194613090326286,2430.25559244945,3.96843850295322,-10.6855887940254,16.8691542685999,203.7347092913
7835,16672,4648,"CMPD","Shiyang River","Shiyang River-02-08",37.8330555555556,101.964722222222,2140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.193642828557159,2452.41113883583,4.04983584402582,-10.6403624261377,16.9818228449616,202.965981079273
7835,16673,4649,"CMPD","Shiyang River","Shiyang River-02-09",37.8330555555556,101.964722222222,2130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.193137303186807,2463.27878518516,4.08964901052665,-10.6186444339809,17.0369434378239,202.560768661613
7835,16674,4650,"CMPD","Shiyang River","Shiyang River-02-10",37.8330555555556,101.964722222222,2120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192632482194003,2474.14643153449,4.12946217702748,-10.596926441824,17.0920640306861,202.155556243953
7835,16675,4651,"CMPD","Shiyang River","Shiyang River-02-11",37.8375,101.981666666667,2110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192249455521323,2485.9700876911,4.17351125782381,-10.5703832132444,17.151925797621,201.880485448439
7835,16676,4652,"CMPD","Shiyang River","Shiyang River-02-12",37.8833333333333,102.079166666667,2100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192078383296527,2501.29989412642,4.23054517593501,-10.5333814217043,17.2320840273121,201.796908898454
7835,16677,4653,"CMPD","Shiyang River","Shiyang River-02-13",37.8883333333333,102.120833333333,2090,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.191968072173504,2514.97843208443,4.28320252546166,-10.4962522928742,17.2999950877587,201.828061396245
7835,16678,4654,"CMPD","Shiyang River","Shiyang River-02-14",37.8938888888889,102.188888888889,2040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.190062648495875,2574.62604678687,4.50417483959339,-10.36331712362,17.5983381510677,200.48737086417
7835,16679,4655,"CMPD","Shiyang River","Shiyang River-02-15",37.9119444444445,102.215,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.187950414573254,2619.85992093503,4.66663021790011,-10.2784250338168,17.8275401031723,198.7348270613
7835,16680,4656,"CMPD","Shiyang River","Shiyang River-02-16",37.9302777777778,102.258611111111,1930,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.189614975707634,2716.21140410447,5.03433885411473,-10.0088375082736,18.2992430038517,201.36449643807
7835,16681,4657,"CMPD","Shiyang River","Shiyang River-02-17",37.9411111111111,102.303333333333,1875,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186849667073282,2780.20895555071,5.26104786819812,-9.89222831110765,18.6190759922595,199.116783501621
7835,16682,4658,"CMPD","Shiyang River","Shiyang River-02-18",37.9658333333333,102.345833333333,1870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186601842649838,2787.75411028441,5.28680551020307,-9.88049595785517,18.6585474808536,198.900062453963
7835,16683,4659,"CMPD","Shiyang River","Shiyang River-02-19",37.9425555555556,102.447222222222,1858,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.187473260582953,2807.85420549743,5.36698069516799,-9.81144970579988,18.750369086144,200.059917841153
7835,16684,4660,"CMPD","Shiyang River","Shiyang River-02-20",38.1745,102.755277777778,1454,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.166726493055299,3292.72609718314,7.01538951958671,-9.06222596531939,21.1604480645424,182.308437114805
7835,16685,4661,"CMPD","Shiyang River","Shiyang River-02-21",37.9963611111111,102.845,1486,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.173010810620583,3253.15448062304,6.90752594468323,-9.03527047719162,20.9372424455827,188.812628973125
7835,16686,4662,"CMPD","Shiyang River","Shiyang River-02-22",38.0711111111111,102.695277777778,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164041081754435,3292.59099674614,7.02133303812134,-9.04205328421156,21.1440551954848,179.576816146431
7835,16687,4663,"CMPD","Shiyang River","Shiyang River-02-23",38.2016666666667,102.772222222222,1440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.165484948374221,3310.55536280983,7.07181806362073,-9.04664805490279,21.251513928274,181.114561189106
7835,16688,4664,"CMPD","Shiyang River","Shiyang River-02-24",38.2894444444444,102.849444444444,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.156021059477338,3326.97698601016,7.05824272232874,-9.24989019398963,21.4255065210536,171.876877927487
7835,16689,4665,"CMPD","Shiyang River","Shiyang River-02-25",38.2905555555556,102.849444444444,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.156001566886431,3327.04410747828,7.05833075222261,-9.25025493342139,21.4260108107449,171.85611169976
7835,16690,4666,"CMPD","Shiyang River","Shiyang River-02-26",38.3583333333333,102.815,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152098371384963,3380.17805169789,7.22571092990895,-9.20832168494647,21.6961184423625,168.078257238102
7835,16691,4667,"CMPD","Shiyang River","Shiyang River-02-27",38.3736111111111,102.905833333333,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152515015814337,3383.4843811465,7.23698953257018,-9.20079041389877,21.7136381897012,168.559018535489
7835,16692,4668,"CMPD","Shiyang River","Shiyang River-02-28",38.4588888888889,102.941666666667,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150653041542454,3402.36396690285,7.28986277285775,-9.20709497656217,21.8194043819501,166.687199809866
7835,16693,4669,"CMPD","Shiyang River","Shiyang River-02-29",38.5704444444444,102.91,1383,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.147435874145087,3430.3046295347,7.36794185512361,-9.21857911307846,21.9743669534527,163.407507366124
7835,16694,4670,"CMPD","Shiyang River","Shiyang River-02-30",38.6623611111111,103.092777777778,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146866747646721,3444.35198493118,7.40643360742653,-9.22222799571451,22.0575876191915,162.906210765946
7835,16695,4671,"CMPD","Shiyang River","Shiyang River-02-31",38.7041666666667,103.189166666667,1372,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146210281017397,3459.21236391386,7.4515390459721,-9.21333643226077,22.1374287501229,162.321655594532
7835,16696,4672,"CMPD","Shiyang River","Shiyang River-02-32",38.8294444444444,103.235277777778,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136035494745768,3568.88387837116,7.75936354621613,-9.24583514040775,22.7509455301759,153.069001187387
7835,16697,4673,"CMPD","Shiyang River","Shiyang River-02-33",38.8798611111111,103.271111111111,1342,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136416309097331,3566.88356510635,7.73529179880034,-9.29846574867975,22.7709056945342,153.579208159555
7835,16698,4674,"CMPD","Shiyang River","Shiyang River-02-34",38.9980555555556,103.334444444444,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132804154294875,3606.11960872087,7.84234961496483,-9.31896013432749,22.9954701787414,149.981535773686
7835,16699,4675,"CMPD","Shiyang River","Shiyang River-02-35",38.9838888888889,103.423611111111,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133406408128595,3606.67041329713,7.84648767739512,-9.3078596442938,22.9956756949132,150.681410234573
7836,16700,4587,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH01",37.6055555555556,102.352222222222,3740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.314304693770224,959.52036638105,-1.64813458571276,-13.1470834106618,8.57983048499957,298.57126656527
7836,16701,4588,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH01_2",37.9963611111111,102.84525,1486,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.173013161932678,3253.16125224055,6.90755511975107,-9.03523438308813,20.9372705920696,188.815197692323
7836,16702,4589,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH02",37.6027777777778,102.35,3790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.317362392614649,917.113289543136,-1.83843547571795,-13.2491586091971,8.31518664170588,300.4943871805
7836,16703,4590,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH02_2",38.1745,102.7555,1454,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.166728469370771,3292.73385122715,7.0154215086725,-9.06219014353539,21.160481334888,182.31063859302
7836,16704,4591,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH03",37.6113888888889,102.356111111111,3690,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.311280221837176,1002.20972931964,-1.45899266310574,-13.0455020826428,8.84327269286048,296.635817850635
7836,16705,4592,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH04",37.6030555555556,102.333611111111,3660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.308906017387449,1028.71151160565,-1.34622108721432,-12.9961142786136,9.00603059449989,295.036706136
7836,16706,4593,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH04_2",38.9838888888889,103.423611111111,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.133406408128595,3606.67041329713,7.84648767739512,-9.3078596442938,22.9956756949132,150.681410234573
7836,16707,4594,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH05",37.6058333333333,102.336388888889,3640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.307738498560706,1045.98420720748,-1.27043805191747,-12.9547874208347,9.1112312129772,294.286898065706
7836,16708,4595,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH05_2",38.8798611111111,103.271111111111,1342,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136416309097331,3566.88356510635,7.73529179880034,-9.29846574867975,22.7709056945342,153.579208159555
7836,16709,4596,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH06_2",38.8294444444444,103.2355,1340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.136036375328412,3568.88778375582,7.75937780666337,-9.24581931066811,22.7509678883428,153.07004437529
7836,16710,4597,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH07",37.6086111111111,102.339166666667,3590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.304759432340748,1089.8020593685,-1.07995620663703,-12.8523288471903,9.37594395196291,292.373239156055
7836,16711,4598,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH07_2",38.7041666666667,103.189166666667,1372,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146210281017397,3459.21236391386,7.4515390459721,-9.21333643226077,22.1374287501229,162.321655594532
7836,16712,4599,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH08",37.6113888888889,102.341944444444,3540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.30179579049565203,1134.09276922037,-0.889485524734802,-12.749990454943,9.64072478809798,290.454194577848
7836,16713,4600,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH08_2",38.6623611111111,103.093,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.146868139656969,3444.3565258709,7.40645205518403,-9.2222051228531,22.0576096799334,162.907784900921
7836,16714,4601,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH09",37.6141666666667,102.344722222222,3490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.298847353540552,1178.79029768825,-0.699025468770627,-12.6477716309334,9.9055741098121,288.529782462927
7836,16715,4602,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH09_2",38.5704444444444,102.910111111111,1383,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.147436622966545,3430.30747233222,7.36795348344276,-9.21856515076933,21.9743801692296,163.408355537846
7836,16716,4603,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH10",37.6169444444444,102.3475,3440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.295913953784071,1223.88063462466,-0.508575503839332,-12.5456717653735,10.1704923044911,286.600020821943
7836,16717,4604,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH11",37.6197222222222,102.350277777778,3390,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.292995425516173,1269.34978527058,-0.318135097564638,-12.4436902518381,10.4354797584791,284.664927544606
7836,16718,4605,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH11_2",37.8289166666667,102.683416666667,1658,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.180517482068044,3050.3057068251,6.23261990292265,-9.31360149625317,19.9224460546529,195.258281968248
7836,16719,4606,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH12",37.6225,102.353055555556,3340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.290091612094163,1315.19181802875,-0.127703720093898,-12.3418264872593,10.7005368570814,282.724520399837
7836,16720,4607,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH12_2",38.9980555555556,103.334472222222,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.132804263890958,3606.12018207821,7.84235162556568,-9.31895817323592,22.9954731210635,149.981671644216
7836,16721,4608,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH13",37.6252777777778,102.355833333333,3310,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288365784826357,1342.85770425006,-0.013738913087784,-12.2807236374044,10.8592553199007,281.55978385736603
7836,16722,4609,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH14",37.6280555555556,102.358611111111,3250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.28490529088866,1398.65477450262,0.214905836842192,-12.1587599194662,11.1776500499109,279.218854946824
7836,16723,4610,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH15",37.6308333333333,102.361388888889,3140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278607892390079,1502.42797098096,0.634678686898235,-11.9354438231452,11.7622230688128,274.91381476657
7836,16724,4611,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH16",37.6336111111111,102.364166666667,3060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.274082919313693,1578.82223611124,0.9397555395393,-11.7732435124669,12.1872760549945,271.773387159153
7836,16725,4612,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH31",37.6344444444444,102.362777777778,2990,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.270109431533106,1646.39430435914,1.20656526318878,-11.632497532042,12.5594925762476,268.980434498324
7836,16726,4613,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH32",37.6344444444444,102.362222222222,2960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268426486025681,1675.5725975391,1.3211102064882,-11.5719202832613,12.7191248843453,267.793180353109
7836,16727,4614,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH32_1",37.6333333333333,102.359444444444,2955,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268114501423671,1680.46214476941,1.3401116898135,-11.5625201570715,12.7458503625002,267.569528679145
7836,16728,4615,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH32_2",37.6355555555556,102.361944444444,2950,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.267842820679842,1685.20766467223,1.35869473567884,-11.5524779364514,12.7719904048193,267.368089690927
7836,16729,4616,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH33",37.6402777777778,102.3625,2900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.26498873495361,1733.71927107559,1.54753523156315,-11.4537717571985,13.0367750160568,265.298655497233
7836,16730,4617,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH34",37.6361111111111,102.361388888889,2870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263402537470335,1763.58442754691,1.66409777607066,-11.3907938492637,13.1975900162105,264.206268065789
7836,16731,4618,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH35",37.6366666666667,102.360555555556,2840,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.26173054752661,1793.06663743175,1.77829507478245,-11.3306914386296,13.3570329457019,262.999686878717
7836,16732,4619,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH36",37.6372222222222,102.359444444444,2790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.258972702406848,1842.55256167633,1.96888732126866,-11.2301255321453,13.6229010106017,261.00381449257
7836,16733,4620,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH37",37.6386111111111,102.359722222222,2740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.256240241175475,1892.23918811737,2.15938881361965,-11.129447641226,13.8886842872547,259.010811838664
7836,16734,4621,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH38",37.6391666666667,102.356111111111,2730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.25562330427583,1902.07222525297,2.19647432289912,-11.1111890720749,13.9413802889109,258.538532641565
7836,16735,4622,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH39",37.6391666666667,102.358888888889,2730,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.255673366103103,1902.16092084706,2.19713545719443,-11.1099096771317,13.941674821008,258.588470643029
7836,16736,4623,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH40",37.6458333333333,102.363611111111,2660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251844385035717,1972.00153762701,2.46245210576374,-10.9702699211342,14.3130825736407,255.739163135339
7836,16737,4624,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH40_N",37.6458333333333,102.363611111111,2660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251844385035717,1972.00153762701,2.46245210576374,-10.9702699211342,14.3130825736407,255.739163135339
7836,16738,4625,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH41",37.6586111111111,102.371388888889,2540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.245285869857107,2092.89311887193,2.91653514555405,-10.732631251342,14.949925414454,250.776330497402
7836,16739,4626,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH42_N",37.6641666666667,102.391666666667,2440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240203991082867,2195.71970713717,3.30065423480043,-10.5263718070348,15.4841926093988,246.975849777208
7836,16740,4627,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH42_S",37.6591666666667,102.371944444444,2440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240030480764005,2195.41073276189,3.29867325225596,-10.5304902642578,15.4825959898161,246.815019516442
7836,16741,4628,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH43",37.6744444444444,102.4225,2340,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.235169811173007,2299.64583311619,3.68468915634015,-10.3208269805621,16.0196620248848,243.145798182793
7836,16742,4629,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH44",37.7002777777778,102.424444444444,2240,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.229309110209226,2402.22222004058,4.05478808866548,-10.1377886669498,16.5487278185435,238.350591040172
7836,16743,4630,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH45",37.7238888888889,102.432222222222,2140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223609286621625,2506.32177389819,4.42754825319392,-9.95183458942828,17.0800745897212,233.66403294403
7836,16744,4631,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH45_1",37.7633333333333,102.453888888889,2040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201329177508465,2609.74005875866,4.69650702898459,-10.063209923293,17.7277820344743,212.688882318844
7836,16745,4632,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH46",37.8197222222222,102.563611111111,1940,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195817547280895,2724.68856344978,5.10118435319663,-9.86624368494879,18.3099685455468,208.106013553564
7836,16746,4633,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH47",37.825,102.616666666667,1790,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.18758190797909,2896.27591737256,5.70076132410077,-9.57305800311753,19.1642290582393,201.236352628071
7836,16747,4634,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH48",38.0711111111111,102.695277777778,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.164041081754435,3292.59099674614,7.02133303812134,-9.04205328421156,21.1440551954848,179.576816146431
7836,16748,4635,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH49_1",38.2016666666667,102.772222222222,1440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.165484948374221,3310.55536280983,7.07181806362073,-9.04664805490279,21.251513928274,181.114561189106
7836,16749,4636,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH50",38.2894444444444,102.849444444444,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.156021059477338,3326.97698601016,7.05824272232874,-9.24989019398963,21.4255065210536,171.876877927487
7836,16750,4637,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH51",38.2905555555556,102.849444444444,1450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.156001566886431,3327.04410747828,7.05833075222261,-9.25025493342139,21.4260108107449,171.85611169976
7836,16751,4638,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH52_3",38.3583333333333,102.815,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152098371384963,3380.17805169789,7.22571092990895,-9.20832168494647,21.6961184423625,168.078257238102
7836,16752,4639,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH53",38.3736111111111,102.905833333333,1410,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.152515015814337,3383.4843811465,7.23698953257018,-9.20079041389877,21.7136381897012,168.559018535489
7836,16753,4640,"CMPD","Shiyang River Drainage","Shiyang River Drainage SYH55",38.4588888888889,102.941666666667,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150653041542454,3402.36396690285,7.28986277285775,-9.20709497656217,21.8194043819501,166.687199809866
7837,16754,22316,"SMPDSv1","Shkodra Lake","Sadori_f1",42.120516,19.395163,2,"not known","lake","lacustrine core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.916707604850568,5676.92231482007,15.5532118214248,6.40848584385202,24.7331565269906,1076.29707905658
7838,16755,8254,"EMPDv2","Shkotovka_2 (Shkotovka river)","Mikishin-Gvozdeva_b85",43.3113888888889,132.358611111111,3,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.916426198924795,3167.63120396534,5.76245662977474,-12.4806934203458,21.4181061399597,722.256140861433
7839,16756,8255,"EMPDv2","Shkotovka_3  (Shkotovka river)","Mikishin-Gvozdeva_b86",43.3111111111111,132.353611111111,3,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.916388222581524,3167.78736522555,5.76342755383568,-12.4791958089886,21.418736191971,722.246924587239
7840,16757,8256,"EMPDv2","Shkotovka_4  (Shkotovka river)","Mikishin-Gvozdeva_b87",43.30666667,132.3516667,1,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.916075051755988,3170.81377628491,5.77800143958293,-12.4612429925912,21.4314274218628,722.229265192602
7841,16758,8253,"EMPDv2","Shkotovka_Stantsiya (Shkotovka river)","Mikishin-Gvozdeva_b84",43.315,132.365,4,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.916572861608678,3165.94066713165,5.75374940558026,-12.4924185660854,21.4110366186286,722.224280312439
7842,16759,8257,"EMPDv2","Shkotovka_Ustje  (Shkotovka river)","Mikishin-Gvozdeva_b88",43.3030555555556,132.343333333333,0,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.915916195973515,3172.56759001524,5.78708030834628,-12.448985866987,21.4387514477827,722.257953193445
7843,16760,8260,"EMPDv2","Shkotovo_1","Mikishin-Gvozdeva_b91",43.3213888888889,132.3325,1,"not applicable","coastal, other","soil sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.915165328017732,3171.27452754458,5.77624786405066,-12.4720488117506,21.433166095063,721.441733318407
7844,16761,10553,"BIOME6000 Japan","Shoe","ShoeD0",33.8,130.95,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.80459502307983,5770.34930027779,15.8091761651446,4.93581040026212,27.1259367275276,1951.2822011085
7845,16762,22317,"SMPDSv1","Shombashuo","EPDcoretop_E584",65.116667,32.633333,100,"2.5","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15999680177577,1643.19535112109,0.333976125866094,-13.3368067574178,14.6376970738811,525.001647696227
7845,16763,22318,"SMPDSv1","Shombashuo","Shombashuo_SS",65.0702,32.5917,100,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16025164514797,1642.95454586867,0.331752471991754,-13.3414436299234,14.6363266839168,525.555277291594
7846,16764,13255,"Neotoma","Shouldice Lake","SHOULD1",45.15,-81.416667,206,"not known","lake","core","9","Unpublished data",,9,"cool mixed forest",1.06470282310331,2915.51262594757,5.80528776971007,-9.25593693676089,19.4395756378479,873.592694629657
7847,16765,4676,"CMPD","Shuidong","Shuidong 1",21.47,111.02,-10,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
7847,16766,4677,"CMPD","Shuidong","Shuidong 2",21.48,111.05,-20,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
7848,16767,17651,"Phelps et al., 2020","Shum Lake","SHUM_0",5.85,10.05,1410,"not known","lake","core top","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",2,"tropical semi-evergreen broadleaf forest",1.50387463989867,7940.60790513827,21.7550901510637,20.4618001534339,23.6619023111074,2098.56477881006
7849,16768,17379,"Neotoma","Shupac Lake","TW086",44.82,-84.48,351,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.94128375324139,2950.19764746952,6.20993936754003,-7.94779702566945,19.6380658449172,759.92283459218
7850,16769,6253,"EMPDv2","Siberdik","Binney2017_E2242",61.63,149.45,426,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.03320924304059,1095.9860115116,-8.97243145276665,-28.7611958697656,11.4329088560322,380.370952106037
7851,16770,22320,"SMPDSv1","Siberia","SIB_Werner_0.05",65.03933,125.03683,123,"not known","terrestrial","core top","70","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.653564016968041,1537.04122410153,-11.1402494188937,-40.0609023086111,16.6355992255339,284.288811705526
7852,16771,22321,"SMPDSv1","Sibista","EPDcoretop_E586",43.233333,41.430556,2160,"0.005","fluvial","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.12394007674658,1522.92231252965,0.112002747346231,-13.7087750840647,12.1906874315958,986.374884064588
7853,16772,22322,"SMPDSv1","Sidi Ali","ALI 1",33.07393,-5.004336,2095,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325674539984438,4554.12573079319,12.4770567966937,3.14581480481138,24.3187011494476,470.68860960088
7853,16773,22331,"SMPDSv1","Sidi Ali","ALI 10",33.069597,-4.9909677174382,2179,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325014404704976,4459.10318012718,12.2167210414443,2.76740940910702,24.2427888583626,470.399990778581
7853,16774,22332,"SMPDSv1","Sidi Ali","ALI 11",33.069088,-4.99119189155693,2184,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.32499683898488,4453.37248583717,12.2010205091429,2.74477467872492,24.2378516071383,470.409409808406
7853,16775,22333,"SMPDSv1","Sidi Ali","ALI 12",33.068185,-4.99184629839168,2211,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.32488484706788,4422.51447497986,12.1164780136435,2.62275699765836,24.2117727821008,470.43339611607
7853,16776,22334,"SMPDSv1","Sidi Ali","ALI 13",33.067504,-4.99326613688422,2191,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325009623098523,4445.21871737482,12.1786814174653,2.71285612884966,24.2301961672799,470.470188520105
7853,16777,22335,"SMPDSv1","Sidi Ali","ALI 14",33.067235,-4.99372061830126,2179,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325076315222884,4458.86910800223,12.2160797479513,2.76696412312413,24.2414024745252,470.481831944206
7853,16778,22323,"SMPDSv1","Sidi Ali","ALI 2",33.073584,-5.00492840124534,2089,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325717067502349,4560.91530840988,12.4956583792051,3.17282119242794,24.3240863746566,470.705511222853
7853,16779,22324,"SMPDSv1","Sidi Ali","ALI 3",33.066,-5.00716612642028,2093,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325750610557073,4556.08662418251,12.4824291073494,3.15399977631158,24.3183524154291,470.794513062242
7853,16780,22325,"SMPDSv1","Sidi Ali","ALI 4",33.065563,-5.00742395406766,2094,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325751363727044,4554.92288264784,12.4792407743777,3.14943047486899,24.3172485314705,470.802728048332
7853,16781,22326,"SMPDSv1","Sidi Ali","ALI 5",33.065793,-5.00715071176358,2092,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325755459777212,4557.22377748444,12.4855445958478,3.15849980478985,24.319270616536,470.795158494063
7853,16782,22327,"SMPDSv1","Sidi Ali","ALI 6",33.066205,-4.99890253459164,2089,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325609172252993,4561.16618507741,12.4963457125408,3.17274405160291,24.3250112588572,470.600853352791
7853,16783,22328,"SMPDSv1","Sidi Ali","ALI 7",33.065751,-5.00133417694039,2087,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325666724298615,4563.28657201848,12.5021549918314,3.18154071635575,24.3260000177063,470.659643256372
7853,16784,22329,"SMPDSv1","Sidi Ali","ALI 8",33.070236,-4.98935408915123,2180,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.324976364655568,4458.0764616006,12.2139081139742,2.76308975434054,24.2424793824881,470.358053038654
7853,16785,22330,"SMPDSv1","Sidi Ali","ALI 9",33.070064,-4.98991789778463,2178,"not applicable","terrestrial, soil","soil sample","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.324997385799217,4460.31886853262,12.2200516946099,2.77205405573666,24.2441674467535,470.372279742351
7853,16786,22336,"SMPDSv1","Sidi Ali","Barboni_a1356",33.05,-5,2080,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.325692249854115,4571.09230277613,12.523540555551,3.2120524145529,24.3307182375904,470.702011692287
7854,16787,6187,"EMPDv2","Sidi El Makhfi, Ifrane","AlbaSanchez_a116",33.287499,-5.180223,1879,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.333134571338805,4776.33972392666,13.0858622573333,4.13210092928509,24.445425936433,477.640401306093
7854,16788,6188,"EMPDv2","Sidi El Makhfi, Ifrane","AlbaSanchez_a117",33.267471,-5.19053,1898,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.332833011652,4756.26038021141,13.0308503567436,4.04581012911686,24.4337729776773,477.518530212935
7854,16789,6194,"EMPDv2","Sidi El Makhfi, Ifrane","AlbaSanchez_a123",33.352279,-5.231046,1843,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.335264182876338,4809.38441406644,13.1763956549765,4.28984140353985,24.4419542590061,479.61826940957
7854,16790,6195,"EMPDv2","Sidi El Makhfi, Ifrane","AlbaSanchez_a124",33.300496,-5.236495,1794,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.336362756433204,4860.40470798015,13.3161772821374,4.5061943485093,24.4524078012387,480.804596271289
7855,16791,6180,"EMPDv2","Sidi Yanya Ou Youssef, Khenifra","AlbaSanchez_a109",32.417622,-5.432414,1828,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.322733974674694,4900.19059715848,13.4251797182424,4.39818495085256,24.6254639359264,468.141610886253
7856,16792,22337,"SMPDSv1","Siedgaljavri","Bjune_a26",68.49770042,17.76815778,290,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.60942254869792,1187.54510132928,0.168236523395925,-8.88542064407924,11.171762407889,949.329384104522
7857,16793,11382,"Neotoma","Sierra Bacha 1","SBACHA2F",29.7708333333333,-112.576388888889,220,"not known","cave","surface sample","-38","Anderson, R.S., and T.R. Van Devender. 1995. Vegetation history of the coastal lowlands of Sonora, Mexico - pollen records from packrat middens. Journal of Arid Environments 30:295-306.",,27,"desert",0.10135896440024,8120.19898517771,22.2471205073362,14.7565726763835,30.1416304046322,170.412974083007
7858,16794,22338,"SMPDSv1","Sierra de Alcaraz (S)","Barboni_a1388",38.5,-2.5166,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.363886592628582,4842.30198576237,13.2665807829106,5.01071943416917,23.8752982626774,457.663045325565
7859,16795,22339,"SMPDSv1","Sierra de Ayllon","Lopez_a223",41.2293611111111,-3.33725,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.626586823156394,2929.88910644193,8.02709344230666,0.763544234992305,17.2009901628058,675.512057448049
7859,16796,22340,"SMPDSv1","Sierra de Ayllon","Lopez_a224",41.2386388888888,-3.2925,1420,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.635303268851872,2874.92935197708,7.87651877253994,0.634215529573039,17.029736673312,682.062760154332
7859,16797,22341,"SMPDSv1","Sierra de Ayllon","Lopez_a321",41.1070833333333,-3.52688888888888,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.619843758241308,2927.89869970666,8.02164027316893,0.775333993948712,17.1858525649411,671.090685357997
7859,16798,22342,"SMPDSv1","Sierra de Ayllon","Lopez_a322",41.1289444444444,-3.51191666666666,1475,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.652086701285003,2719.29763992727,7.45013052034869,0.293196157562973,16.5354770406392,695.317067567809
7859,16799,22343,"SMPDSv1","Sierra de Ayllon","Lopez_a414",41.2210277777777,-3.41997222222222,1410,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.630091213238933,2902.1421346187,7.95107434142109,0.703177586981302,17.1157253442659,678.27412840511
7860,16800,22344,"SMPDSv1","Sierra de Gredos","Lopez_a27",40.5200833333333,-4.659,1415,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.503723077108356,2893.35850422859,7.92700960062628,0.549273381552702,17.2118160940968,579.09069875851
7860,16801,22345,"SMPDSv1","Sierra de Gredos","Lopez_a28",40.4951666666666,-4.73547222222222,1515,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.51806584015212,2616.68614388821,7.15682824564117,-0.137436483424955,16.3591966340554,590.167229952761
7860,16802,22346,"SMPDSv1","Sierra de Gredos","Lopez_a29",40.4961111111111,-4.77952777777777,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.516556561446691,2000.80484158488,5.07846432411361,-2.15742699332913,14.1834066575173,579.823130216378
7860,16803,22347,"SMPDSv1","Sierra de Gredos","Lopez_a30",40.5068888888888,-4.83761111111111,1750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.506414716128154,2107.74164434546,5.45939195832507,-1.83464965876957,14.6043816565417,572.120153924575
7860,16804,22360,"SMPDSv1","Sierra de Gredos","Lopez_a31",40.5050833333333,-4.86325,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.523366032734754,1808.72147001084,4.3401784342329,-2.86164262825394,13.4013551455635,582.761376048796
7860,16805,22348,"SMPDSv1","Sierra de Gredos","Lopez_a32",40.5047222222222,-4.88524999999999,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.534355868562033,1629.88564235257,3.59540207316353,-3.54946930690636,12.6033209065254,589.175182129361
7860,16806,22349,"SMPDSv1","Sierra de Gredos","Lopez_a33",40.5058333333333,-4.90272222222222,1950,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.52653710707179,1718.09723340574,3.97045447614976,-3.21670659637815,13.0111562052736,583.943280196855
7860,16807,22350,"SMPDSv1","Sierra de Gredos","Lopez_a34",40.5145277777777,-4.92775,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.530995560100098,1632.89716527879,3.60324140248915,-3.56198946789195,12.6210994421787,586.177502462456
7860,16808,22351,"SMPDSv1","Sierra de Gredos","Lopez_a35",40.4889722222222,-4.98938888888888,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.513406536646065,1813.80483634542,4.34302539901192,-2.92136587480259,13.4296500582577,573.906736454686
7860,16809,22352,"SMPDSv1","Sierra de Gredos","Lopez_a36",40.4795,-5.01022222222222,1560,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.475038793716554,2534.45824265804,6.87610072148524,-0.607621589813156,16.1501817071826,548.651795056787
7860,16810,22353,"SMPDSv1","Sierra de Gredos","Lopez_a37",40.5349722222222,-4.86427777777777,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.453687661127327,3219.74033399644,8.82120639451079,1.21084499080761,18.2307864426368,534.230098536244
7860,16811,22354,"SMPDSv1","Sierra de Gredos","Lopez_a38",40.5255833333333,-4.86777777777777,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.464341545137844,2947.52185429065,8.07540234052233,0.53201276005775,17.4278611724305,542.19473521732
7860,16812,22355,"SMPDSv1","Sierra de Gredos","Lopez_a39",40.51725,-4.87366666666666,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.475107435951766,2680.29891582359,7.32881490517551,-0.148710685504135,16.62418718335,549.985154450774
7860,16813,22356,"SMPDSv1","Sierra de Gredos","Lopez_a40",40.5059444444444,-4.88508333333333,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.534410460924911,1629.9781221765,3.59588861596872,-3.54865619751272,12.6037500660093,589.21965789391
7860,16814,22361,"SMPDSv1","Sierra de Gredos","Lopez_a41",40.4937222222222,-4.88661111111111,2100,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.546980331617087,1465.6841932911,2.84411740885416,-4.23631642260774,11.7945996207542,596.716951476898
7860,16815,22362,"SMPDSv1","Sierra de Gredos","Lopez_a42",40.4883888888888,-4.88363888888888,1950,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.527557187934146,1715.72453945973,3.96232647508021,-3.21861304294371,12.9992641038256,584.905506104012
7860,16816,22357,"SMPDSv1","Sierra de Gredos","Lopez_a43",40.4480277777777,-4.93358333333333,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.450582235368317,3218.51773080856,8.81785679673578,1.18531068489938,18.2375106398501,531.758687186413
7860,16817,22358,"SMPDSv1","Sierra de Gredos","Lopez_a44",40.4813888888888,-4.86402777777777,1650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.492039001611192,2323.90153675722,6.20222494087307,-1.17504438832086,15.411834849888,561.938214345709
7860,16818,22363,"SMPDSv1","Sierra de Gredos","Lopez_a45",40.4736388888888,-4.82425,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.476302730532275,2678.12099480764,7.32313662319409,-0.146426445954074,16.619261639261,551.27950207538
7860,16819,22359,"SMPDSv1","Sierra de Gredos","Lopez_a46",40.4668055555555,-4.76722222222222,1375,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.463841126849378,3014.93543348219,8.26009707803339,0.714585917153472,17.6311995924301,542.505205108599
7861,16820,22364,"SMPDSv1","Sierra de Guadarrama","Lopez_a309",40.6693055555555,-4.13855555555555,1510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.57479852914794,2652.406643094,7.26686751532602,0.165155092084634,16.3827804851052,638.330773523885
7861,16821,22365,"SMPDSv1","Sierra de Guadarrama","Lopez_a310",40.6907499999999,-4.134,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.544192142922,2965.4384759786,8.12448897528384,0.875610347450914,17.3709047525868,613.808748209251
7861,16822,22366,"SMPDSv1","Sierra de Guadarrama","Lopez_a311",40.6859166666666,-4.11913888888888,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.53061413065358,3106.67991757098,8.5114518289616,1.19642201808073,17.8162632414197,602.722892292377
7861,16823,22367,"SMPDSv1","Sierra de Guadarrama","Lopez_a312",40.7081388888888,-4.13793611111111,1487,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.569661932889668,2720.99326342565,7.45477606417986,0.322006723087793,16.6013639762941,634.153933148906
7861,16824,22368,"SMPDSv1","Sierra de Guadarrama","Lopez_a313",40.7007833333333,-4.13726666666666,1425,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.55150212981217,2895.45974826447,7.93276643360129,0.717141796711625,17.1506931042399,619.682831275281
7861,16825,22369,"SMPDSv1","Sierra de Guadarrama","Lopez_a314",40.7769277777777,-3.958275,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.572132798112277,3068.57421144555,8.4070526340974,1.12050875344941,17.6222759524345,636.094387767421
7861,16826,22370,"SMPDSv1","Sierra de Guadarrama","Lopez_a315",40.7893611111111,-4.00261111111111,1860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.76898095567913,1808.75784658704,4.50969905820109,-2.13311589687857,13.1860084122496,779.025097121964
7861,16827,22371,"SMPDSv1","Sierra de Guadarrama","Lopez_a316",40.77625,-4.00325,1750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.721750411109038,2039.53349529106,5.34750907760724,-1.43337401512135,14.1368645432565,747.165880328358
7861,16828,22372,"SMPDSv1","Sierra de Guadarrama","Lopez_a317",40.7643333333333,-4.00961111111111,1650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.680243625955304,2268.35129537566,6.11262311699751,-0.794888627050402,15.0073466575233,718.003731628026
7861,16829,22373,"SMPDSv1","Sierra de Guadarrama","Lopez_a318",40.8178333333333,-3.95866666666666,1830,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.763409362976796,1868.00654347036,4.7324539964953,-1.94625524203332,13.4398603805411,775.276701789611
7861,16830,22374,"SMPDSv1","Sierra de Guadarrama","Lopez_a319",40.7690833333333,-3.96783333333333,2200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.927852372950036,1214.63200324604,1.87364952923453,-4.32796090389361,10.1639426159886,876.845251387905
7861,16831,22375,"SMPDSv1","Sierra de Guadarrama","Lopez_a320",40.7858611111111,-4.04527777777777,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.824682362649731,1554.44130788522,3.45772517127403,-3.01413002284484,11.997012342247,814.880980114615
7861,16832,22376,"SMPDSv1","Sierra de Guadarrama","Lopez_a407",40.8001388888888,-3.98469444444444,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.746360035921929,1931.80303270867,4.9658885560182,-1.75191658655574,13.7052853320443,763.894176715474
7861,16833,22377,"SMPDSv1","Sierra de Guadarrama","Lopez_a415",40.7074166666666,-4.15316666666666,1425,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.550951670388153,2896.0322463253,7.93433492143918,0.717479341463788,17.1529425789644,619.19374444231
7861,16834,22378,"SMPDSv1","Sierra de Guadarrama","Lopez_a416",40.7010833333333,-4.16452777777777,1433,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.552433824579286,2873.06833640327,7.87142009973499,0.66434271119791,17.080486493372,620.398939724085
7861,16835,22379,"SMPDSv1","Sierra de Guadarrama","Lopez_a417",40.7062861111111,-4.19295,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.528073920437172,3107.40671500481,8.51344305480771,1.19403007569825,17.81822460892,600.46717865968
7861,16836,22380,"SMPDSv1","Sierra de Guadarrama","Lopez_a418",40.7927944444444,-3.98770833333333,1880,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.779561788532568,1767.57012000398,4.35170095351003,-2.26419475501456,13.004202709357,785.980740688281
7861,16837,22381,"SMPDSv1","Sierra de Guadarrama","Lopez_a419",40.8084722222222,-3.97944444444444,1882,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.782867534996411,1764.571535248,4.33939118145003,-2.27491830366591,12.9935933831762,788.117693019503
7862,16838,6077,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a1",36.66366,-5.04162,1192,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.387034456027045,5051.73333532969,13.8403653022731,6.12741995265569,23.8759844719767,506.764792353024
7862,16839,6086,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a10",36.70322,-4.96582,1140,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.385400353124212,5119.17846987506,14.0251464928084,6.32053310328809,24.0008705909148,505.140068086131
7862,16840,6087,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a11",36.64856,-5.04177,1456,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.376047239022299,4725.7022895697,12.9471295604649,4.94933030065389,23.6003934118624,490.047399719318
7862,16841,6088,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a12",36.64856,-5.03144,1006,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.39482832735227,5281.94355007391,14.4710782193806,6.96812317071632,24.0575055751693,518.778788970792
7862,16842,6089,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a13",36.69548,-5.019,1634,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.365867562472256,4506.72382280862,12.3471885556401,4.115199634486,23.476180047139,474.91601940845
7862,16843,6090,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a14",36.69592,-5.0167,1634,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.365712609090437,4506.86411501619,12.3475729178526,4.11394785011216,23.4785756033728,474.723593839946
7862,16844,6091,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a15",36.69353,-5.01459,1733,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.361209942142127,4384.77242204012,12.013075128877,3.66833717625834,23.3814638858662,467.980371820459
7862,16845,6092,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a16",36.70011,-5.01851,1386,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.376767739433471,4813.03085845347,13.1863859135711,5.22926791021994,23.7243429005579,491.412562605745
7862,16846,6093,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a17",36.70214,-5.02261,1386,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.376945866139821,4812.78741704035,13.1857189507955,5.22975720915742,23.7225971021639,491.614764121961
7862,16847,6094,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a18",36.71336,-5.01423,1332,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.378710902325085,4879.83427840958,13.3694089819441,5.46457780690875,23.7894295788909,494.39112195358
7862,16848,6095,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a19",36.71097,-5.01487,1332,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.3787857495771,4879.82418755157,13.3693813357577,5.46593379503781,23.7874043416899,494.501373121138
7862,16849,6078,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a2",36.66343,-5.05957,1123,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.390764194875706,5136.13154032076,14.0715932611528,6.4423444692246,23.9340348280408,512.240205330723
7862,16850,6096,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a20",36.70631,-5.01623,1569,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.368357606630147,4587.02779288739,12.5671994325682,4.40133895983248,23.549992006416,478.695899956093
7862,16851,6097,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a21",36.70521,-5.0177,1386,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.376628571921453,4813.02265325217,13.1863634335676,5.22650664056915,23.7283487462932,491.201124014708
7862,16852,6098,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a23",36.67838,-4.99694,1765,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.358951397440484,4346.73059896332,11.9088509560639,3.5229315641162,23.3572398602823,464.990985325651
7862,16853,6099,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a25",36.68781,-4.98794,1596,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.36582838524394,4555.68177086552,12.4813199201795,4.2762699691169,23.5361883951755,475.44483187986
7862,16854,6100,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a26",36.6831,-5.00165,1646,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.364518490112928,4493.2033870466,12.3101462658811,4.05937797544146,23.4719347896284,473.244990332878
7862,16855,6101,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a27",36.69101,-5.01865,1663,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.364658309689659,4470.99633605397,12.2493050302849,3.98671437493199,23.444842303098,473.110476058461
7862,16856,6103,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a29",36.7439,-4.98172,851,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.398848700959776,5475.11310490861,15.0003098764619,7.61144304396826,24.2955065012177,525.248468587766
7862,16857,6079,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a3",36.66917,-5.05044,1113,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.39070196640065,5148.91156489794,14.1066070271177,6.48193863981548,23.953658871807,512.252936379117
7862,16858,6104,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a30",36.7425,-4.98415,859,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.398568230831057,5465.15788026197,14.973035288389,7.57638123180736,24.2858942136944,524.806353212896
7862,16859,6105,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a31",36.72546,-5.00475,1046,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.390954245522945,5233.49379455226,14.3383391631569,6.74486000658395,24.0835871471631,513.079794752306
7862,16860,6106,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a32",36.72651,-4.9841,1097,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.387803209972975,5171.33899488208,14.1680520407728,6.50909709201942,24.0461789870412,508.516906393994
7862,16861,6107,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a33",36.72632,-4.99253,1157,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.385404384313603,5096.90199398081,13.9641150520022,6.24067882466905,23.9830476169466,504.7911867529
7862,16862,6108,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a34",36.73175,-4.97169,1197,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.38257463848578,5048.38009522003,13.8311783430686,6.05150335491597,23.9607599850843,500.747657908983
7862,16863,6109,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a35",36.72254,-4.96644,1114,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.386357510659268,5151.0998093306,14.1126022173441,6.42936175908524,24.0375307663079,506.532331776909
7862,16864,6110,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a36",36.71362,-4.98044,1397,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.374018398867712,4801.31229609149,13.1542802632644,5.15924118263779,23.7512594587515,487.793320684378
7862,16865,6111,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a37",36.71267,-4.98061,1397,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.374044609797655,4801.31519402528,13.154288202809,5.15974809886865,23.7505245441371,487.833235113043
7862,16866,6112,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a38",36.71493,-5.00146,1575,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.367017995523082,4580.37669089613,12.5489772353319,4.36386609530657,23.5625524594034,476.904673893313
7862,16867,6113,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a39",36.71856,-4.99042,1348,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.376694908283753,4861.23194472178,13.3184436841693,5.38176222885525,23.7943450548899,491.66829301577
7862,16868,6080,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a4",36.61151,-5.01804,769,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.405042025330875,5574.80026370678,15.2734253800186,8.04940001358144,24.2738581825165,534.42302785235
7862,16869,6114,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a40",36.71158,-4.97122,1201,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.382675287133414,5043.63430762908,13.8181761852852,6.04252195909628,23.9445512786285,500.95634158367
7862,16870,6115,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a41",36.70599,-4.97412,1252,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.380534947190327,4980.62784666246,13.6455557442807,5.81557832508635,23.8902259032514,497.711565038702
7862,16871,6116,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a42",36.70187,-4.97777,1425,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.372803813047618,4767.04580892635,13.0603994765105,5.03727843262644,23.7188337473845,486.042930582836
7862,16872,6117,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a43",36.70257,-4.98389,1568,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.366550230377757,4590.24508252921,12.5760139247376,4.39372106364279,23.5765260825221,476.547861073295
7862,16873,6118,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a44",36.70203,-4.988,1568,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.366805659862589,4590.01307705502,12.5753782933014,4.39577656668129,23.5726092876534,476.863245754281
7862,16874,6119,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a45",36.619483,-4.909311,662,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.406974995534666,5709.83375465509,15.64338014974,8.51421062517653,24.4309520845248,537.913467383077
7862,16875,6081,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a5",36.66655,-5.03367,1192,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.386621520115923,5052.11342820804,13.8414066526248,6.12361964516287,23.8831779657558,506.235858718937
7862,16876,6082,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a6",36.68877,-5.02554,1655,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.36550785675711,4480.46078407223,12.2752350248554,4.02700569681831,23.4447990264473,474.26900792602
7862,16877,6083,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a7",36.6904,-5.03423,1483,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.373553266875333,4692.39838581229,12.8558859885268,4.80352376313472,23.609211659553,486.302144039581
7862,16878,6084,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a8",36.69814,-5.03876,1366,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.37875064354312,4836.6556458667,13.2511113585389,5.32737913203856,23.727651675536,494.119241656073
7862,16879,6085,"EMPDv2","Sierra de las Nieves Natural Park, Malaga","AlbaSanchez_a9",36.70322,-4.96761,1252,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.380278371269117,4980.95313710943,13.6464469509847,5.81474010768184,23.892831673868,497.415068770063
7863,16880,6102,"EMPDv2","Sierra de las Nieves Natural Park/Sierra Blanca, Malaga","AlbaSanchez_a28",36.69262,-5.0395,1366,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.378894979339789,4836.66267889822,13.2511306271184,5.33036309360979,23.7233394578778,494.339185732787
7864,16881,22382,"SMPDSv1","Sierra de Malagon","Lopez_a132",40.6538194444444,-4.20621388888888,1458,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.555582293977732,2799.16273621109,7.66893900331805,0.491489557128356,16.8462623572157,623.043555810487
7864,16882,22383,"SMPDSv1","Sierra de Malagon","Lopez_a133",40.6480694444444,-4.21072777777777,1473,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.559324220301844,2756.29329385416,7.55148847631276,0.393527092136953,16.7110116331308,626.044735719094
7865,16883,22384,"SMPDSv1","Sierra de Neila","Lopez_a150",42.0394444444444,-3.01463888888888,1480,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.295545658822549,3343.74040515513,9.16093261686336,0.795518568214393,19.9326261865546,363.791858447574
7865,16884,22385,"SMPDSv1","Sierra de Neila","Lopez_a151",42.0227777777777,-3.02808333333333,1470,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.300931512018899,3356.26715011065,9.19525246605657,0.849149028720645,19.9342329444212,369.722655721383
7865,16885,22386,"SMPDSv1","Sierra de Neila","Lopez_a152",42.0319444444444,-3.03197222222222,1523,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.274403870525148,3304.79275186811,9.05422671744689,0.615720114878479,19.9750565282102,341.17965175095
7865,16886,22387,"SMPDSv1","Sierra de Neila","Lopez_a153",42.0388055555555,-3.03305555555555,1510,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.28047923115109,3316.40510429136,9.08604138162016,0.667684916574364,19.9629345753043,347.695472055495
7866,16887,22388,"SMPDSv1","Sierra de Ojos Albos","Lopez_a47",40.6850555555555,-4.42566666666666,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.518269221105442,2942.13455986595,8.06064262976972,0.719207278703064,17.3519017838614,591.386309606695
7866,16888,22389,"SMPDSv1","Sierra de Ojos Albos","Lopez_a48",40.6845,-4.4275,1350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.506963676557445,3081.32975643247,8.44199933269171,1.04438732017043,17.7782285527983,582.12609213195606
7867,16889,22390,"SMPDSv1","Sierra de Urbion","Lopez_a420",41.9996388888888,-2.8465,1745,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.176453422164703,3098.39108403591,8.43960305479987,-0.322589020950166,20.0631247069923,229.582962968365
7867,16890,22391,"SMPDSv1","Sierra de Urbion","Lopez_a421",41.97225,-2.82997222222222,1605,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.241293529690585,3218.4462770087,8.81766103290056,0.291816200885858,19.9700088225408,304.591497202341
7867,16891,22392,"SMPDSv1","Sierra de Urbion","Lopez_a422",42.0009444444444,-2.84547222222222,1725,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.185167827317991,3113.29401671599,8.49204595972649,-0.238397597297731,20.0493519189553,239.89127759982
7867,16892,22393,"SMPDSv1","Sierra de Urbion","Lopez_a423",41.9985555555555,-2.84547222222222,1748,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.175235937366565,3096.15664843761,8.43175819667711,-0.334571043779507,20.0646948941736,228.139453989803
7867,16893,22394,"SMPDSv1","Sierra de Urbion","Lopez_a424",41.9976944444444,-2.84466666666666,1840,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.135894362600961,3031.19918350937,8.18727239196318,-0.725912015935544,20.1242938455853,180.390830917699
7867,16894,22395,"SMPDSv1","Sierra de Urbion","Lopez_a425",41.9986388888888,-2.85430555555555,1860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.127273327896166,3018.73600381079,8.13646503863989,-0.811647942755035,20.1430285768705,169.696619146289
7867,16895,22396,"SMPDSv1","Sierra de Urbion","Lopez_a426",41.9966111111111,-2.86144444444444,1985,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.076531996899903,2941.20725201258,7.80742565742218,-1.34244468029352,20.2303107114326,104.747685021467
7867,16896,22397,"SMPDSv1","Sierra de Urbion","Lopez_a427",42.0073055555555,-2.86922222222222,2012,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.0647031204499896,2925.3959558524,7.73423236292032,-1.46777463095468,20.2536703326697,89.080247122315
7868,16897,22398,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a192",36.8044027777777,-5.38972222222222,745,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.423135086456354,5511.38817511248,15.0996936304451,7.34845224657096,24.7346582399188,559.235395402571
7868,16898,22399,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a193",36.7982138888888,-5.39138888888889,704,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.42366250392882,5569.45565330513,15.2587826117949,7.5813683044495,24.7592852619913,560.562473856555
7868,16899,22400,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a194",36.8001444444444,-5.44895277777777,765,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.423893622382148,5481.44646630976,15.0176615515336,7.23071268313037,24.716180128995,559.99475836598
7868,16900,22401,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a195",36.7797611111111,-5.40773333333333,797,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422689108627045,5439.98994819848,14.9040820498588,7.07119242593166,24.6914393119428,558.293511337474
7868,16901,22402,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a196",36.7713944444444,-5.417275,1146,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418524106882907,4951.26449842843,13.5651082148724,5.12647444084051,24.4617894280082,548.346537225595
7868,16902,22403,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a197",36.7720305555555,-5.41652222222222,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419073157858154,5015.68878704749,13.7416131151986,5.38299429278746,24.4918390681272,549.665910306113
7868,16903,22404,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a198",36.7715666666666,-5.41766111111111,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419098995757886,5015.69009999961,13.7416167123277,5.38310923241065,24.4916245049589,549.707579173241
7868,16904,22405,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a199",36.7715416666666,-5.41756944444444,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419096371782543,5015.6991886932,13.7416416128581,5.38315108306683,24.4916259772045,549.704835007031
7868,16905,22406,"SMPDSv1","Sierra del Pinar de Grazalema","Lopez_a200",36.7769833333333,-5.42736666666666,1029,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.420248155370428,5113.94252128874,14.0108014281883,5.77325094804537,24.5383352262917,552.034826670813
7869,16906,9225,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a1",37.153,-3.534,752,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.364290260195343,5483.42517441687,15.0230826696353,7.36736490752199,24.7388614465785,474.192392405835
7869,16907,9234,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a10",37.064,-3.373,2632,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.441220248025661,2503.89286396213,6.08881957536821,-3.34961591491768,19.7771366141468,534.624623055013
7869,16908,9235,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a11",37.091,-3.382,2702,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.442542365149186,2432.13460478875,5.76282802617853,-3.72278336730609,19.5713605297645,534.382128195455
7869,16909,9236,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a12",37.011,-3.6,725,"not known","not known","sediment sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.363958595081623,5535.24424653838,15.1650527302421,7.5628562171185,24.7722355338023,475.067963485635
7869,16910,9237,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a13",37.05,-3.323,2992,"not known","not known","peat","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.466604846770939,2171.06842286816,4.34282059537267,-5.48890307778308,18.859209295693,556.342003016028
7869,16911,9238,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a14",37.06,-3.417,2497,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.430503540204234,2654.66550017562,6.75386604543216,-2.53440865583675,20.1302979980458,524.872690856202
7869,16912,9239,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a15",37.041,-3.343,3020,"not known","not known","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.465736982252896,2149.83131686514,4.22152511469558,-5.63052443680154,18.7917866283424,554.752661120284
7869,16913,9240,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a16",37.053,-3.373,2945,"not known","not known","peat","-56","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.457126402406534,2212.77256540847,4.5992159759766,-5.15057833712822,18.9702866620007,546.348135638786
7869,16914,9241,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a17",37.048,-3.294,2899,"not known","not known","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.465442756000612,2248.075872827,4.76879310461537,-4.99107471633518,19.10829295326,557.234602677635
7869,16915,9226,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a2",37.154,-3.504,996,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.370666631314505,5063.95815628158,13.8738579624153,6.0044943274509,24.0825061815486,478.456379443716
7869,16916,9227,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a3",37.141,-3.471,1298,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.380150043974388,4543.02771753523,12.4466512809184,4.30742500249406,23.2708984645401,485.47640868257
7869,16917,9228,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a4",37.14,-3.468,1425,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.384436298037485,4324.00571940563,11.8465910120702,3.59217664911076,22.9320926143951,488.671449987016
7869,16918,9229,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a5",37.133,-3.439,1635,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.392695996004613,3959.22185214176,10.8471831565528,2.39681389399298,22.3714045288395,495.222560601309
7869,16919,9230,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a6",37.114,-3.45,1860,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.400809015660641,3572.13615208427,9.78667438927196,1.12814022080424,21.7799136492099,501.251878060237
7869,16920,9231,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a7",37.113,-3.421,2196,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.415811112024878,3027.55927966377,8.18470906262848,-0.794665112487699,20.8897528052469,512.98579619114
7869,16921,9232,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a8",37.113,-3.419,2270,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.419024116745251,2928.90125725061,7.83317271049809,-1.21601939058944,20.6939603595658,515.366402155077
7869,16922,9233,"EMPDv2","Sierra Nevada","Jiménez-Moreno_a9",37.102,-3.395,2439,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.42872553477314,2718.25845963931,7.0195299986115,-2.20349720790168,20.2547704758328,523.571864354146
7869,16923,22407,"SMPDSv1","Sierra Nevada","Lopez_a209",37.1333611111111,-3.37827777777777,1284,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.380738379162892,4561.50829205702,12.497282991937,4.3658493477931,23.2986560605177,486.309244902806
7869,16924,22408,"SMPDSv1","Sierra Nevada","Lopez_a210",37.1306944444444,-3.36825,1304,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.381660604318959,4526.25828749486,12.4007076369722,4.24988875799661,23.244680211149,487.1254215753
7869,16925,22409,"SMPDSv1","Sierra Nevada","Lopez_a211",37.1341666666666,-3.37547222222222,1247,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.379304750574761,4625.46170675833,12.6724978267352,4.57564489124056,23.3965617167847,485.119238072742
7869,16926,22410,"SMPDSv1","Sierra Nevada","Lopez_a212",37.0588888888888,-3.37077777777777,3100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.465072860735507,2085.97191887404,3.86086065884501,-6.03726599961003,18.5606400405676,551.84820716594
7869,16927,22411,"SMPDSv1","Sierra Nevada","Lopez_a213",37.0534166666666,-3.32172222222222,3300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.483857626781234,1933.68678795693,2.87258615664917,-7.26372266242527,18.0559728971071,568.676958682596
7869,16928,22412,"SMPDSv1","Sierra Nevada","Lopez_a214",37.1052916666666,-3.39819444444444,2367,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425152052781533,2804.85069211003,7.36297699215857,-1.78906072909302,20.4424619486236,520.774906815746
7869,16929,22413,"SMPDSv1","Sierra Nevada","Lopez_a215",37.1239944444444,-3.42961111111111,2106,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411293047844893,3156.06298159922,8.61492754730173,-0.274010058799023,21.1229278549703,509.225273387076
7869,16930,22414,"SMPDSv1","Sierra Nevada","Lopez_a216",37.1290888888888,-3.42931388888888,1902,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403232374144762,3496.92686501709,9.58062154799202,0.881601348444454,21.6623316119184,503.281923963897
7869,16931,22415,"SMPDSv1","Sierra Nevada","Lopez_a217",37.1087777777777,-3.39060555555555,2228,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.419617223867444,2981.29473223164,8.0192774945786809,-1.00311842120642,20.8074502141797,516.927603897222
7869,16932,22416,"SMPDSv1","Sierra Nevada","Lopez_a218",37.1055583333333,-3.38035833333333,2179,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418338233331713,3046.6970714476,8.2474009619173,-0.733638147036921,20.9385975918894,516.383087343739
7869,16933,22417,"SMPDSv1","Sierra Nevada","Lopez_a219",37.1054305555555,-3.3802,2189,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418795039992186,3032.93671184081,8.19982361954715,-0.790823768374732,20.9122983466804,516.735350131503
7869,16934,22418,"SMPDSv1","Sierra Nevada","Lopez_a220",37.1048222222222,-3.37947777777777,2192,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.418998076824872,3028.77461343571,8.18524411035049,-0.808749540839013,20.9047202136561,516.924523618589
7869,16935,22419,"SMPDSv1","Sierra Nevada","Lopez_a221",37.0884611111111,-3.37328611111111,2500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434056469676981,2646.37110918531,6.71792777684569,-2.58009824046977,20.1046443351998,528.740810558443
7870,16936,11229,"Bush et al., 2020","SierraLuquillo1","SierraLuquillo1",18.16995,-66.49641667,930,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.46082673048279,7093.34044060847,19.4338094263246,17.080267593159,21.1500103997963,1906.39559800819
7871,16937,11230,"Bush et al., 2020","SierraLuquillo2","SierraLuquillo2",18.3008,-65.83585,391,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.32349126610403,8462.58215702543,23.1851565945902,21.1750956066853,24.6551261630881,1943.87712684777
7872,16938,11231,"Bush et al., 2020","SierraLuquillo3","SierraLuquillo3",18.28071667,-65.85748333,705,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.28480351771926,7672.7802656274,21.0213157962394,18.7863024068795,22.6274622852361,1761.5829550965
7873,16939,11232,"Bush et al., 2020","SierraLuquillo4","SierraLuquillo4",18.27953333,-65.85175,705,"not known","terrestrial","soil sample","-64","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.28403574610041,7672.76923406765,21.0212855727881,18.7859462997496,22.6280092432932,1760.50956003324
7874,16940,22420,"SMPDSv1","Sierras interiores","Lopez_a1",38.7761666666666,-0.440861111111111,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40107248411989,3984.4621154664,10.9163345629216,2.73448599774082,21.299502360021,485.08546543685
7874,16941,22421,"SMPDSv1","Sierras interiores","Lopez_a2",38.66,-0.332277777777777,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.351720269719863,4576.66792482333,12.5388162323927,4.4416154567921,22.7607863069694,432.999498250884
7874,16942,22422,"SMPDSv1","Sierras interiores","Lopez_a3",38.6186388888888,-0.299305555555555,500,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.330280619827767,5532.73979840684,15.1581912285119,7.88806404100164,23.9469739822526,406.879547875466
7875,16943,13806,"Neotoma","Siesta Lake","SIESTA",37.8505,-119.659945,2430,"not known","lake","core","0","Brunelle, A., and R.S. Anderson. 2003. Sedimentary charcoal as an indicator of late-Holocene drought in the Sierra Nevada, California, and its relevance to the future. The Holocene 13:21-28.",,8,"cool evergreen needleleaf forest",0.643740398795256,2373.58640444132,6.12361542062849,-2.00414168278204,16.7962912585244,773.03210639664
7876,16944,22423,"SMPDSv1","Siggeforasjon","Seppa_b173",59.98,17.13,92,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03781464006344,2155.18613502866,4.54193843626152,-5.38372525463558,15.1197723898173,593.118732417161
7877,16945,12152,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 1","GCT01",36.03512,-111.82931,2255,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.363660430935526,3014.35999931187,7.97958169786972,-1.93192982237431,19.3649071259294,476.77279378517
7878,16946,12161,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 10","GCT10",36.08966,-112.11443,1005,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",27,"desert",0.113721332022602,5889.90372712129,16.1367225400583,3.79321461971466,29.0568764040733,171.161124757256
7879,16947,12162,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 11","GCT11",36.097,-112.1125,777,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",27,"desert",0.0755259740072307,6432.3960523753,17.62300288322,4.83310269974627,30.8238800644062,116.177843956155
7880,16948,12163,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 12","GCT12",36.1007,-112.0922,762,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",27,"desert",0.072106558833601,6457.92573166283,17.6929472100352,4.8375173391754,30.9317427894505,110.957372340945
7881,16949,12164,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 13","GCT13",36.1255,-112.0779,915,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.0968843505817526,6072.14933540551,16.6360255764535,4.04148552278284,29.7065680497686,146.615207452572
7882,16950,12165,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 14","GCT14",36.14878,-112.0615,1067,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.122380076775458,5694.17843280313,15.6004888569949,3.27217373267726,28.500588009282,182.138849579013
7883,16951,12166,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 15","GCT15",36.1657,-112.045,1220,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.149074384552915,5321.91141554468,14.5805792206703,2.53335527662079,27.3025118632659,218.240646910368
7884,16952,12167,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 16","GCT16",36.1782,-112.0344,1340,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.170812612118195,5033.70287578703,13.7909667829782,1.97300548113417,26.3686017388433,246.854422882734
7885,16953,12168,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 17","GCT17",36.1938,-112.0342,1432,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.188076243486614,4813.64497812327,13.1880684332144,1.55346511108663,25.6510930824998,269.076760867218
7886,16954,12169,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 18","GCT18",36.196,-112.0381,1525,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.205987563459114,4597.24851068587,12.5952013991394,1.15536559336979,24.9372973168768,291.870018482566
7887,16955,12170,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 19","GCT19",36.1984,-112.0419,1676,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.235765007177657,4245.84985870589,11.6324653663175,0.506287931539718,23.7796483425651,328.737251204079
7888,16956,12153,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 2","GCT02",36.058,-112.1478,2103,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.327025392578825,3311.63245781936,8.90061348370048,-1.33137659247053,20.4867980217354,435.332410937265
7889,16957,12171,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 20","GCT20",36.2072,-112.0463,1830,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.267108358808385,3897.97035208511,10.6481546312381,-0.160320915028539,22.5979613693356,366.129202028401
7890,16958,12172,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 21","GCT21",36.2095,-112.049,1980,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.298718830789863,3573.899971532,9.69301410642286,-0.80582785846819,21.4504023112131,402.571269390546
7891,16959,12173,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 22","GCT22",36.2112,-112.0507,2135,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.332583047825806,3248.81124683772,8.70642935341601,-1.47311396777674,20.2653546223105,440.189781409114
7892,16960,12174,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 23","GCT23",36.2146,-112.0527,2286,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.366801742369588,2942.87421685671,7.74587060056406,-2.12302701612144,19.1118063095583,476.747400715347
7893,16961,12175,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 24","GCT24",36.2161,-112.0571,2515,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.421313107665431,2516.07545496327,6.28811236571017,-3.11129965613284,17.3621365267141,532.149880706533
7894,16962,12176,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 25","GCT25",36.2444,-112.0593,2560,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.431688853960372,2441.66685069826,6.0181644679459,-3.28573602552049,17.0350319660815,542.149004793351
7895,16963,12154,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 3","GCT03",36.059,-112.143,1950,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.293905923230378,3647.63641066839,9.91933349863878,-0.598985602897743,21.6872787236725,398.836454997702
7896,16964,12155,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 4","GCT04",36.06,-112.141,1798,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.262260641783133,3993.34798014375,10.9301132135134,0.126538480759948,22.879042499124,362.522694269293
7897,16965,12156,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 5","GCT05",36.06171,-112.14071,1645,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.231610477979164,4360.51306479421,11.9466111364225,0.855807365519947,24.0777572554261,325.957099318425
7898,16966,12157,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 6","GCT06",36.0643,-112.1375,1493,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.202215237557467,4728.09383663474,12.9536817442048,1.57457051739847,25.2674214568704,289.523387960726
7899,16967,12158,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 7","GCT07",36.066,-112.1378,1340,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.173722526974249,5098.44483012914,13.9683420003538,2.30121668194298,26.4646479973686,252.952696239306
7900,16968,12159,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 8","GCT08",36.0704,-112.1315,1250,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",17,"temperate evergreen needleleaf open woodland",0.157235880904261,5313.20702180095,14.5567315665779,2.71151759589,27.1650608983721,231.092679047969
7901,16969,12160,"Neotoma","Sigleo 1971 Grand Canyon Transect Site 9","GCT09",36.08637,-112.12597,1160,"not known","terrestrial","surface sample","-20","King, J.E., and W.R. Sigleo. 1973. Modern pollen in the Grand Canyon, Arizona. Geoscience and Man 7(1):73-81. Sigleo, W.R. 1971. Modern pollen distribution as related to vegetation communities and elevation in the Grand Canyon, Arizona. Master's thesis. University of Arizona, Tucson, Arizona, USA.","10.1080/00721395.1973.9989736",27,"desert",0.141023573403321,5521.82592164032,15.1282901962749,3.09780110418543,27.8522897331253,209.034104484053
7902,16970,22424,"SMPDSv1","Signedalen","Bjune_a314",79.2658333333333,11.5416666666666,30,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.18669919980834,219.371490237127,-6.96819440051931,-14.7455012217888,3.52780368883777,481.346038589154
7903,16971,22425,"SMPDSv1","Siikasuo","EPDcoretop_E589",61.3,22.066667,35,"0.1","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02110388409443,2225.94021588786,4.36420502357032,-6.73639208892113,15.9466621818655,556.128072562497
7904,16972,6982,"EMPDv2","Silberhohl","EPDcoretop_E1412",51.91,10.18,180,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.992979079045249,3053.69580956083,8.33371007777185,-0.319767289971903,16.6788061276053,666.86725455235
7905,16973,7199,"EMPDv2","Silbersee","EPDcoretop_E2524",53.66,8.73,7,"0.02","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21988865164862,3184.8011924890902,8.7254827191482,0.738985731339774,16.5985259365213,787.399970788987
7906,16974,14197,"Neotoma","Silcox Core 52","SILCOX52",57.2054166666666,-94.185,135,"not known","terrestrial, bog/fen/swamp","core","-34","Dredge, L.A., and R.J. Mott. 2003. Holocene pollen records and peatland development, northeastern Manitoba. Géographie physique et Quaternaire 57:7-19.",,15,"cold evergreen needleleaf forest",0.959613453242532,1436.01414151274,-5.1051508055299,-26.0760865058812,14.2569523510513,477.687686780943
7907,16975,9678,"Gaillard et al., 1992","Sillhovda","Sillhovda",56.400805,15.549657,102,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.899736265391069,2609.70693700775,6.73113119660786,-2.20287172575018,16.0967958779159,592.226856522437
7908,16976,13262,"Neotoma","Silver","SILVERPA",41.25132,-74.986015,402,"not known","lake","core","-17","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.24843077106415,3395.2281810126,8.24806966029008,-5.54360942256928,20.888853401688,1080.59831875554
7908,16976,13263,"Neotoma","Silver","SILVERPA",41.25132,-74.986015,402,"not known","lake","core","-8","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.24843077106415,3395.2281810126,8.24806966029008,-5.54360942256928,20.888853401688,1080.59831875554
7908,16976,13264,"Neotoma","Silver","SILVERPA",41.25132,-74.986015,402,"not known","lake","core","0","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.24843077106415,3395.2281810126,8.24806966029008,-5.54360942256928,20.888853401688,1080.59831875554
7908,16976,13265,"Neotoma","Silver","SILVERPA",41.25132,-74.986015,402,"not known","lake","core","9","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.24843077106415,3395.2281810126,8.24806966029008,-5.54360942256928,20.888853401688,1080.59831875554
7908,16976,13266,"Neotoma","Silver","SILVERPA",41.25132,-74.986015,402,"not known","lake","core","26","Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2261663",9,"cool mixed forest",1.24843077106415,3395.2281810126,8.24806966029008,-5.54360942256928,20.888853401688,1080.59831875554
7908,16977,17350,"Neotoma","Silver","TW052",44.349167,-89.370833,356,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.962492824422684,3037.17680052582,5.70756714543469,-11.1999448683248,20.5301348653293,791.105508938784
7909,16978,17301,"Neotoma","Silver Birch","TW006B",44.598056,-92.027222,230,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.858388239072802,3534.98080156393,7.38734984546459,-10.8391914506856,22.7075255017931,742.993641399541
7910,16979,15749,"Neotoma","Silver Lake","DRW049",44.505015,-73.8781,425,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34671407554233,2728.0083794099,5.06182179746228,-10.0967577883855,18.6569179451495,1036.80875206565
7910,16980,14164,"Neotoma","Silver Lake","SILVERMA",42.600775,-72.22854,161,"not known","lake","core","-36","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.31479080475198,3503.14345317029,8.72058666801372,-4.8483036597791,21.4048844835441,1127.68814245415
7910,16980,14165,"Neotoma","Silver Lake","SILVERMA",42.600775,-72.22854,161,"not known","lake","core","-19","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.31479080475198,3503.14345317029,8.72058666801372,-4.8483036597791,21.4048844835441,1127.68814245415
7910,16980,14166,"Neotoma","Silver Lake","SILVERMA",42.600775,-72.22854,161,"not known","lake","core","-2","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.31479080475198,3503.14345317029,8.72058666801372,-4.8483036597791,21.4048844835441,1127.68814245415
7910,16980,14167,"Neotoma","Silver Lake","SILVERMA",42.600775,-72.22854,161,"not known","lake","core","17","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.31479080475198,3503.14345317029,8.72058666801372,-4.8483036597791,21.4048844835441,1127.68814245415
7910,16980,14168,"Neotoma","Silver Lake","SILVERMA",42.600775,-72.22854,161,"not known","lake","core","35","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.31479080475198,3503.14345317029,8.72058666801372,-4.8483036597791,21.4048844835441,1127.68814245415
7910,16981,13256,"Neotoma","Silver Lake","SILVERMN",44.895835,-94.20414,328,"not known","lake","core","-13","Unpublished data",,13,"temperate deciduous broadleaf forest",0.835553813156345,3395.19191467549,6.64655256710359,-11.8689796717302,22.299686044933,719.059355085122
7910,16981,13257,"Neotoma","Silver Lake","SILVERMN",44.895835,-94.20414,328,"not known","lake","core","7","Unpublished data",,13,"temperate deciduous broadleaf forest",0.835553813156345,3395.19191467549,6.64655256710359,-11.8689796717302,22.299686044933,719.059355085122
7910,16981,13258,"Neotoma","Silver Lake","SILVERMN",44.895835,-94.20414,328,"not known","lake","core","29","Unpublished data",,13,"temperate deciduous broadleaf forest",0.835553813156345,3395.19191467549,6.64655256710359,-11.8689796717302,22.299686044933,719.059355085122
7910,16982,13259,"Neotoma","Silver Lake","SILVERNS",44.563333,-63.642778,69,"not known","lake","core","0","Livingstone, D.A. 1968. Some interstadial and postglacial pollen diagrams from eastern Canada. Ecological Monographs 38:87-125.",,9,"cool mixed forest",1.82511506278535,2721.49085246808,6.12142788986771,-5.89506998803468,18.0219939638327,1383.25309738108
7910,16983,13260,"Neotoma","Silver Lake","SILVEROH",40.354335,-83.8125149999999,332,"not known","lake","core","-10","Ogden, J.G., III. 1966. Forest history of Ohio. I. Radiocarbon dates and pollen stratigraphy of Silver Lake, Logan County, Ohio. The Ohio Journal of Science 66(4):387-400.; Ogden, J.G., III. 1969. Correlation of contemporary and Late Pleistocene pollen records in the reconstruction of postglacial environments in northeastern North America. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie 17:64-77.",,13,"temperate deciduous broadleaf forest",1.04979653118387,3948.63723896774,10.1547809852106,-4.19563666492885,22.6821948324811,973.073184216779
7910,16983,13261,"Neotoma","Silver Lake","SILVEROH",40.354335,-83.8125149999999,332,"not known","lake","core","25","Ogden, J.G., III. 1966. Forest history of Ohio. I. Radiocarbon dates and pollen stratigraphy of Silver Lake, Logan County, Ohio. The Ohio Journal of Science 66(4):387-400.; Ogden, J.G., III. 1969. Correlation of contemporary and Late Pleistocene pollen records in the reconstruction of postglacial environments in northeastern North America. Mitteilungen Internationale Vereinigung für Theoretische und Angewandte Limnologie 17:64-77.",,13,"temperate deciduous broadleaf forest",1.04979653118387,3948.63723896774,10.1547809852106,-4.19563666492885,22.6821948324811,973.073184216779
7911,16984,17530,"Neotoma","Silver Springs stand G","WAW006",29.201255,-82.01189,17,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",0.964041675926907,7850.41499687473,21.5079862928075,13.9866547402504,27.6844920039849,1318.66273915069
7912,16985,11233,"Bush et al., 2020","Silvituc","Silvituc",18.64,-90.29,48,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.883612267359884,9579.4763650117,26.2451407260595,22.8146448059601,28.6769342457363,1382.01869638823
7913,16986,4678,"CMPD","Simian Mt","Simian Mt 1",28.657,106.411,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06005641329315,5354.53980906353,14.6699720796261,4.03563999773105,24.4044857754931,1106.43894211327
7913,16987,4679,"CMPD","Simian Mt","Simian Mt 2",28.658,106.411,1115,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05999496403826,5362.723867384,14.6923941572165,4.05774339396989,24.4278941694045,1106.5563478041
7913,16988,4680,"CMPD","Simian Mt","Simian Mt 3",28.66,106.41,1107,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05987392828459,5375.81200687356,14.7282520736262,4.09321228174574,24.4651634910425,1106.71853744239
7913,16989,4681,"CMPD","Simian Mt","Simian Mt 4",28.653,106.393,1054,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05829541906256,5461.886976938,14.9640739094192,4.32943505558767,24.7043384791631,1107.10708896447
7913,16990,4682,"CMPD","Simian Mt","Simian Mt 5",28.654,106.396,988,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05734958851573,5569.70324392903,15.2594609422713,4.6210267059167,25.0112751218647,1108.54410928093
7913,16991,4683,"CMPD","Simian Mt","Simian Mt 6",28.654,106.398,978,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05724878116417,5586.04175668053,15.3042239909055,4.66502087325029,25.0580989355513,1108.80326324915
7913,16992,4684,"CMPD","Simian Mt","Simian Mt 7",28.654,106.401,975,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05728692418102,5590.95659564615,15.3176893031401,4.67793426495044,25.0727081204562,1108.95027105078
7913,16993,4685,"CMPD","Simian Mt","Simian Mt 8",28.657,106.404,882,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.05596214681811,5742.81245419829,15.7337327512282,5.08890210992792,25.5047004881724,1110.9159856984
7914,16994,22426,"SMPDSv1","Simplon","Knaap_a29",46.234246,8.01466,1855,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.46344770645594,1435.84987273035,2.57286006444437,-4.93263791820112,10.6344645273015,1870.89128352913
7914,16995,22427,"SMPDSv1","Simplon","Knaap_a30",46.233571,8.014848,1885,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.49208906198863,1397.48624255501,2.40695468788942,-5.05460480227831,10.4394706403669,1885.51681253865
7914,16996,22428,"SMPDSv1","Simplon","Knaap_a31",46.233571,8.014848,1885,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.49208906198863,1397.48624255501,2.40695468788942,-5.05460480227831,10.4394706403669,1885.51681253865
7914,16997,22429,"SMPDSv1","Simplon","Knaap_a32",46.233571,8.014848,1885,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.49208906198863,1397.48624255501,2.40695468788942,-5.05460480227831,10.4394706403669,1885.51681253865
7914,16998,22430,"SMPDSv1","Simplon","Knaap_a33",46.232192,8.020537,2055,"5e-04","terrestrial, blanket bog","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66084097440437,1187.25014089774,1.46320596632875,-5.7485600945769,9.32945798758541,1969.19885380276
7914,16999,22431,"SMPDSv1","Simplon","Knaap_a34",46.232192,8.020537,2055,"5e-04","terrestrial, blanket bog","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66084097440437,1187.25014089774,1.46320596632875,-5.7485600945769,9.32945798758541,1969.19885380276
7914,17000,22432,"SMPDSv1","Simplon","Knaap_a35",46.232192,8.020537,2055,"5e-04","terrestrial, blanket bog","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.66084097440437,1187.25014089774,1.46320596632875,-5.7485600945769,9.32945798758541,1969.19885380276
7914,17001,22433,"SMPDSv1","Simplon","Knaap_a36",46.230739,8.023243,2130,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73779460681993,1098.49891414358,1.04682240785045,-6.05463645464597,8.83964320086592,2006.08326457459
7914,17002,22434,"SMPDSv1","Simplon","Knaap_a37",46.230739,8.023243,2130,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73779460681993,1098.49891414358,1.04682240785045,-6.05463645464597,8.83964320086592,2006.08326457459
7914,17003,22435,"SMPDSv1","Simplon","Knaap_a38",46.230739,8.023243,2130,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.73779460681993,1098.49891414358,1.04682240785045,-6.05463645464597,8.83964320086592,2006.08326457459
7914,17004,22436,"SMPDSv1","Simplon","Knaap_a39",46.230814,8.026161,2185,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.79592146151656,1034.58587366412,0.740336259442129,-6.27999491792235,8.47887568447648,2033.38720662978
7914,17005,22437,"SMPDSv1","Simplon","Knaap_a40",46.230814,8.026161,2185,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.79592146151656,1034.58587366412,0.740336259442129,-6.27999491792235,8.47887568447648,2033.38720662978
7914,17006,22438,"SMPDSv1","Simplon","Knaap_a41",46.230814,8.026161,2185,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.79592146151656,1034.58587366412,0.740336259442129,-6.27999491792235,8.47887568447648,2033.38720662978
7914,17007,22439,"SMPDSv1","Simplon","Knaap_a42",46.252426,8.02179,2030,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6650159147472,1211.17145886488,1.57304908160553,-5.68401767073032,9.45255311020925,1974.9712782524
7914,17008,22440,"SMPDSv1","Simplon","Knaap_a43",46.252426,8.02179,2030,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6650159147472,1211.17145886488,1.57304908160553,-5.68401767073032,9.45255311020925,1974.9712782524
7915,17009,22441,"SMPDSv1","Simplon/Gampisch-Alter Spittel","EPDcoretop_E1161",46.230278,8.011389,1885,"4e-04","terrestrial, bog/fen/swamp","peat core top","-23","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.49042872488064,1398.18826300399,2.40996953897823,-5.05214378698154,10.4435836177783,1884.81586251218
7916,17010,9484,"EMPDv2","Sindorskoe lake","Novenko_c120",62.74667,51.8619,100,"0.02","lake","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27889899928745,1992.42085535374,0.750502132619663,-16.8470238913362,17.5017706025632,579.895088689547
7916,17011,9485,"EMPDv2","Sindorskoe lake","Novenko_c121",62.7228,51.9022,95,"0.02","lake","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27625742241271,2004.14502763859,0.812267799012871,-16.7931456715626,17.547463376261,579.172892216904
7916,17012,22442,"SMPDSv1","Sindorskoe lake","Sindorskoe lake_SS2 (Novenko_c186)",62.7167,51.7833,100,"0.01","lake","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.27782964483473,1994.94481877642,0.763453792265652,-16.8368439696983,17.5111330400262,579.695488392362
7917,17013,15707,"Neotoma","Singletary Lake Site 1","DRW004",34.6,-78.47,18,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.08187387792325,6185.13113525064,16.9455647541113,6.2857631248496,26.6419392282743,1276.71714834807
7918,17014,15708,"Neotoma","Singletary Lake Site 2","DRW005",34.59,-78.47,18,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.08171602193813,6186.29950279741,16.9487657610888,6.2906221749145,26.6433677114484,1276.75357239619
7918,17015,15709,"Neotoma","Singletary Lake Site 2","DRW006",34.59,-78.47,18,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.08171602193813,6186.29950279741,16.9487657610888,6.2906221749145,26.6433677114484,1276.75357239619
7919,17016,13267,"Neotoma","Sinkhole Pond","SINKHOLE",43.966667,-70.35,95,"not known","lake","core","-28","Jacobson, G.L., Jr., R.B. Davis, R.S. Anderson, M. Tolonen, and R. Stuckenrath, Jr. (n.d.) Post-glacial vegetation of the coastal lowlands of Maine. Unpublished manuscript.",,9,"cool mixed forest",1.43496019156898,3124.63366465667,7.09813501551114,-7.06725617979413,20.2535122012406,1152.48714905891
7920,17017,22443,"SMPDSv1","Sipola","EPDcoretop_E591",65.05,24.791667,7,"0.01","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02787212875343,1853.3594026425,1.55852581334544,-11.7684477725788,15.4202917637124,498.277241348386
7921,17018,22444,"SMPDSv1","Sirsjoarna","Seppa_b167",59.2,14.68,176,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09388757303522,2228.93262007289,4.75102715376022,-5.38110590626906,15.2090628916334,645.966084606022
7922,17019,13268,"Neotoma","Siseebakwet South","SISEEBA",47.133333,-93.683333,436,"not known","lake","core","-29","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87548717508523,2800.81742006368,3.96693606591222,-14.9605462600609,19.7347271659808,686.61370223844
7922,17019,13269,"Neotoma","Siseebakwet South","SISEEBA",47.133333,-93.683333,436,"not known","lake","core","23","Alwin, B.C. 1982. Vegetation history of the Sugar Hills area, Itasca Co., Minnesota. Master's thesis. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.87548717508523,2800.81742006368,3.96693606591222,-14.9605462600609,19.7347271659808,686.61370223844
7923,17020,6533,"EMPDv2","Site 01","Binney2017_E3165",70.2,87.52,105,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.77507866378851,890.963160388501,-10.3909933990207,-29.4307539915877,11.6148471200345,466.730399931573
7924,17021,6534,"EMPDv2","Site 02","Binney2017_E3166",70.22,87.5,134,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.78778546694606,885.490984626808,-10.4680572382949,-29.5535270637948,11.5911691415088,470.981441448411
7925,17022,6535,"EMPDv2","Site 03","Binney2017_E3167",70.2,87.54,89,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.76780205285509,893.704449377006,-10.3526733529473,-29.3684665799469,11.6260416238735,464.183540573717
7926,17023,16730,"Neotoma","Site 1 (Baker unpublished)","RGB001",40.67,-101.5,999,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.442062023855986,3889.82370276178,10.0200954290012,-3.87950640321671,24.2238163176692,481.874671903474
7927,17024,16613,"Neotoma","Site 1 (Beetham 1958)","NMB001",36.17,-82,1776,"not known","not known","surface sample","Modern","Beetham, N.M. 1958. Pollen studies of forest and bald soils from the mountains of North Carolina. Thesis. Duke University, Durham, North Carolina, USA. 133p.",,13,"temperate deciduous broadleaf forest",1.519479472832,2020.20822846525,3.92075842382382,-7.13396729775104,13.6749524388082,1327.9300804259
7928,17025,15232,"Neotoma","Site 1 (Cohen unpublished)","ADC001",30.83,-82.33,37,"not known","not known","surface sample","Modern","Unpublished data",,4,"warm-temperate evergreen and mixed forest",0.992287061159176,7154.95124206079,19.6026061426323,10.4478871476087,27.388825475277,1291.33420729295
7929,17026,16616,"Neotoma","Site 1 (Cridlebaugh unpublished)","PAC001",35.58,-84.2,244,"not known","not known","surface sample","Modern","Unpublished data",,4,"warm-temperate evergreen and mixed forest",1.1593400750958,5418.07590252515,14.8440435685621,2.75296798793819,25.4228954006577,1304.56332125447
7930,17027,16184,"Neotoma","Site 1 (Davidson unpublished)","JLD001",35.59,-83.83,524,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.26776255746231,4917.0958525878,13.4714954865419,1.87890779107939,23.7552930094945,1402.09316744776
7931,17028,15559,"Neotoma","Site 1 (Delcourt  et al. 1983)","DDD001",36.9,-89.53,99,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",22,"steppe",1.0665927763212,5434.20120056756,14.8882224673084,1.3080781245986,26.6629425871087,1225.86835154603
7932,17029,15933,"Neotoma","Site 1 (Delcourt 1978)","HRD001",35.48,-89.27,61,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,4,"warm-temperate evergreen and mixed forest",1.03230918795733,5879.32373815981,16.107736268931,3.07825457323307,27.4621213928997,1254.43089156459
7933,17030,15680,"Neotoma","Site 1 (Elliot-Fisk et al. 1982)","DLEF020",58.27,-63.95,650,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",2.0075204361198,557.922824915773,-7.8340149665412,-22.9377782442077,7.38122982708627,753.760540018121
7933,17031,15679,"Neotoma","Site 1 (Elliot-Fisk et al. 1982)","DLEF021",58.27,-63.95,650,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",2.0075204361198,557.922824915773,-7.8340149665412,-22.9377782442077,7.38122982708627,753.760540018121
7933,17032,15676,"Neotoma","Site 1 (Elliot-Fisk et al. 1982)","DLEF022",58.27,-63.95,650,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",2.0075204361198,557.922824915773,-7.8340149665412,-22.9377782442077,7.38122982708627,753.760540018121
7933,17033,15678,"Neotoma","Site 1 (Elliot-Fisk et al. 1982)","DLEF023",58.27,-63.95,650,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",2.0075204361198,557.922824915773,-7.8340149665412,-22.9377782442077,7.38122982708627,753.760540018121
7933,17034,15677,"Neotoma","Site 1 (Elliot-Fisk et al. 1982)","DLEF024",58.27,-63.95,650,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",2.0075204361198,557.922824915773,-7.8340149665412,-22.9377782442077,7.38122982708627,753.760540018121
7934,17035,16968,"Neotoma","Site 1 (Hall 1977)","SAH001",36.92,-95.97,210,"not known","not known","surface sample","Modern","Hall, S.A. 1977. Holocene geology and paleoenvironmental history of the Hominy Creek Valley. Pages 12-42 in D.O. Henry, editor. The Prehistory and paleoenvironment of Hominy Creek Valley. Laboratory of Archeology, University of Tulsa, Tulsa, Oklahoma, USA.",,13,"temperate deciduous broadleaf forest",0.866553546134093,5637.12306136319,15.444172770858,1.57953069555814,27.8214415698023,1042.46114906155
7935,17036,15400,"Neotoma","Site 1 (Hansen unpublished)","BCSH001",45,-99,892,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.400047120004673,3291.16808065263,6.6429460453136,-10.2144472461858,22.7790510187119,374.883194515687
7936,17037,16568,"Neotoma","Site 1 (Heide unpublished)","KMH001",47.13,-99.23,444,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.568791711133835,2960.7652228853,4.29550056029665,-15.0381420854829,20.8253755019554,470.648881177275
7936,17038,16569,"Neotoma","Site 1 (Heide unpublished)","KMH002",47.13,-99.23,444,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.568791711133835,2960.7652228853,4.29550056029665,-15.0381420854829,20.8253755019554,470.648881177275
7936,17039,16566,"Neotoma","Site 1 (Heide unpublished)","KMH003",47.13,-99.23,444,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.568791711133835,2960.7652228853,4.29550056029665,-15.0381420854829,20.8253755019554,470.648881177275
7936,17040,16567,"Neotoma","Site 1 (Heide unpublished)","KMH004",47.13,-99.23,444,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.568791711133835,2960.7652228853,4.29550056029665,-15.0381420854829,20.8253755019554,470.648881177275
7937,17041,15422,"Neotoma","Site 1 (Heusser 1978)","CJH001",44.3,-124.07,46,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.87440681221444,3926.0589802466,10.7563259732784,5.78320489269294,16.4114813315496,1573.78620030281
7938,17042,16150,"Neotoma","Site 1 (Jensen 1998)","JJ001M",26.358889,-80.353056,7,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.922615845725457,8663.22486435566,23.7348626420703,18.2227812181291,28.2050056462787,1331.17542254975
7939,17043,15861,"Neotoma","Site 1 (Lamb 1982)","HFL01",51.45,-57.2,43,"not known","not known","surface sample","Modern","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.",,9,"cool mixed forest",1.92539631234684,1613.55524545433,1.46555570847813,-10.5129154786766,13.0056589326474,1071.14891897176
7940,17044,16892,"Neotoma","Site 1 (Mack, Bryant, and Pell 1978)","RNM079",46.92,-116.95,792,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.598111156420751,3389.56781955324,9.0005356769159,-1.90269911652406,20.5973960725004,544.193178127343
7941,17045,16784,"Neotoma","Site 1 (Mott unpublished)","RJM047",51.32,-83.08,91,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.09683585149198,1932.36173227064,-0.937556428227964,-21.2169996322795,16.2588241270437,665.842866149567
7942,17046,15966,"Neotoma","Site 1 (Railton 1973)","JBR001",44.57,-64.32,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.80856892875736,2784.12924787233,6.40489459491479,-5.54439344034259,18.1680269855006,1384.74745131645
7943,17047,16597,"Neotoma","Site 1 (Sheehan unpublished)","MCS001",35.08,-83.53,1036,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.5420597223131,3830.85453045114,10.4551853324298,-0.449827386366335,20.3069567720227,1632.71549578318
7944,17048,17124,"Neotoma","Site 1 (Short unpublished)","SKS153",58.2,-63.07,175,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.92712935032146,825.891598841668,-4.95434906988512,-19.8451276580539,9.05140533641967,781.750028586919
7944,17049,17123,"Neotoma","Site 1 (Short unpublished)","SKS154",58.2,-63.07,175,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.92712935032146,825.891598841668,-4.95434906988512,-19.8451276580539,9.05140533641967,781.750028586919
7945,17050,16733,"Neotoma","Site 1 (Skinner 1973)","RGS002",51.12,-84.05,91,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.07031827138029,1946.1103020523,-0.995445368318053,-21.5028007927891,16.4498137818121,653.956963386858
7945,17051,16732,"Neotoma","Site 1 (Skinner 1973)","RJM046",51.12,-84.05,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.07031827138029,1946.1103020523,-0.995445368318053,-21.5028007927891,16.4498137818121,653.956963386858
7946,17052,15268,"Neotoma","Site 1 (Swain unpublished)","AMS001",45.2,-91.28,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.926186741591993,3206.73831127344,6.15958342042277,-11.6030644104072,21.310696781008,769.422344809407
7947,17053,15568,"Neotoma","Site 10 (Delcourt  et al. 1983)","DDD010",33.17,-87.35,123,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15293443076614,6309.05467232806,17.2850812940495,6.07843980007365,26.8827492390114,1409.8422668088
7948,17054,15942,"Neotoma","Site 10 (Delcourt 1978)","HRD010",35.6,-83.47,1677,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.8165042185585,2666.51106792978,6.72938398407894,-3.26792641651575,15.9440864226404,1781.84186135576
7949,17055,16578,"Neotoma","Site 10 (Heide unpublished)","KMH015",48.08,-90.32,535,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05069198642851,2150.95626133803,1.00547235414918,-17.8603114703643,16.7995510186647,748.513066549208
7950,17056,15431,"Neotoma","Site 10 (Heusser 1978)","CJH010",44.6,-123.6,274,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.6438610453838,3764.6888403994,10.3142160010942,4.13791684295238,17.3896867481061,1419.67809614018
7951,17057,16160,"Neotoma","Site 10 (Jensen 1998)","JJ010M",26.336111,-80.306389,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924570963725029,8691.69011045954,23.8128496176974,18.3606838132932,28.2350490240794,1335.80860739793
7951,17058,16161,"Neotoma","Site 10 (Jensen 1998)","JJ010S",26.336111,-80.306389,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924570963725029,8691.69011045954,23.8128496176974,18.3606838132932,28.2350490240794,1335.80860739793
7952,17059,16903,"Neotoma","Site 10 (Mack, Bryant, and Pell 1978)","RNM090",47.13,-116.1,1036,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",9,"cool mixed forest",0.77164593194753,2970.97465207289,7.57201774031618,-3.15732118663813,19.240064730661,681.584163219818
7953,17060,16058,"Neotoma","Site 10 (McAndrews unpublished)","JHM011",50.02,-91.97,374,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.970724790554946,2396.35542288891,1.29956514645841,-19.0533633159574,18.6308845699939,692.325348643034
7954,17061,16793,"Neotoma","Site 10 (Mott unpublished)","RJM057",45.92,-66.3,76,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.64146262731106,2660.70405061643,5.18022099645752,-8.94925379807972,18.3581575439165,1230.26831983496
7955,17062,15975,"Neotoma","Site 10 (Railton 1973)","JBR010",44.48,-63.57,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.83564739006336,2732.31086270111,6.19931401341582,-5.73606858374028,18.0131232301342,1392.31700819956
7956,17063,15277,"Neotoma","Site 10 (Swain unpublished)","AMS010",45.48,-88.17,320,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.997048842179991,2851.90814911821,5.15585497551056,-10.9982536404934,19.6438629242145,784.383411734134
7957,17064,15367,"Neotoma","Site 100 (Swain unpublished)","AMS100",43.92,-73.7,360,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.32599862369037,2859.86933169501,5.65953408110026,-9.43281141236806,19.2129850637318,1037.05916277679
7958,17065,15368,"Neotoma","Site 101 (Swain unpublished)","AMS101",44.8,-71.17,381,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.59751258392678,2546.14111962945,4.284226428908,-10.8884173961698,18.0192090922394,1190.87194679938
7959,17066,15369,"Neotoma","Site 102 (Swain unpublished)","AMS102",43.02,-72.15,389,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.41638548537224,2903.28107325566,6.05575096742094,-8.53230231192004,19.2857998689176,1121.59426174956
7960,17067,15370,"Neotoma","Site 103 (Swain unpublished)","AMS103",44.7,-72.28,491,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.62276164579953,2500.56691207559,4.20372749908761,-10.6691230364224,17.6285148440089,1196.5147036284
7961,17068,15371,"Neotoma","Site 104 (Swain unpublished)","AMS104",44.07,-72.58,398,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47188634661948,2723.40914769666,5.16765429348353,-9.73674864137788,18.6175820326751,1124.73961073108
7962,17069,15372,"Neotoma","Site 105 (Swain unpublished)","AMS105",43.28,-73,217,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.26130936211981,3260.20991811126,7.43169190191533,-7.30356445864602,20.7831380764735,1030.90351871029
7963,17070,15373,"Neotoma","Site 106 (Swain unpublished)","AMS106",41.45,-71.95,29,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.28562972773322,3908.63654686531,10.401839220735,-2.17535772001752,22.4427714505452,1170.6677012626
7964,17071,15374,"Neotoma","Site 107 (Swain unpublished)","AMS107",41.87,-71.9,77,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.29780913260123,3760.85587213709,9.81215886184172,-3.13148139508819,22.104167565166,1157.17083119552
7965,17072,15375,"Neotoma","Site 108 (Swain unpublished)","AMS108",41.77,-76.58,399,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.12678131323637,3359.55203987784,8.13732548354647,-5.52774895448368,20.7014797002641,957.471509435392
7966,17073,15376,"Neotoma","Site 109 (Swain unpublished)","AMS109",45.18,-70.45,349,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.57558782066346,2553.67633380176,4.31045965317795,-10.8711712189709,18.1403474919709,1173.06177501578
7967,17074,15569,"Neotoma","Site 11 (Delcourt  et al. 1983)","DDD011",32.58,-87.67,30,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.14708746504709,6802.14831631089,18.6360227844134,7.93875488259281,27.5622317864017,1447.25904941652
7968,17075,15943,"Neotoma","Site 11 (Delcourt 1978)","HRD011",35.55,-83.32,716,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.31725315266763,4500.6210308997,12.3304685778074,1.10414839987715,22.3739368408291,1431.81168193356
7969,17076,16579,"Neotoma","Site 11 (Heide unpublished)","KMH016",48.05,-90.47,558,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05328439003057,2125.59747580998,0.834001926897507,-18.1426606584898,16.685515563294,748.764032929155
7970,17077,15432,"Neotoma","Site 11 (Heusser 1978)","CJH011",44.55,-123.55,1000,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.26595108250754,3027.81307168674,8.26908878057174,-0.0265482015268717,17.9194344693027,1159.03802671019
7971,17078,16162,"Neotoma","Site 11 (Jensen 1998)","JJ011M",26.343056,-80.303611,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924697513500042,8691.1627929267,23.8114049121279,18.3581161676983,28.2345583595758,1335.86818730692
7972,17079,16904,"Neotoma","Site 11 (Mack, Bryant, and Pell 1978)","RNM091",46.97,-116.67,884,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",9,"cool mixed forest",0.680158736590847,3233.20710281158,8.49024743132795,-2.29838547029266,20.136794654568,612.89104196672
7973,17080,16059,"Neotoma","Site 11 (McAndrews unpublished)","JHM012",49.68,-92.4,372,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.94292641511609,2482.07497575136,1.91702135294828,-18.1168723997918,18.8236544485623,687.013598598957
7974,17081,16794,"Neotoma","Site 11 (Mott unpublished)","RJM058",45.78,-66.87,160,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.57481685096444,2564.82295880531,4.53333000625334,-10.2643648098438,18.1578585335771,1173.44771075502
7975,17082,15976,"Neotoma","Site 11 (Railton 1973)","JBR011",45.93,-60.32,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.98835215422576,2516.124352306,5.65144972431402,-5.86889024298305,17.3568624220457,1407.12014566764
7976,17083,16011,"Neotoma","Site 11 (Ritchie, J.C. 1974)","JCR007",69.35,-133.55,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.557418327247848,993.424225260852,-10.3881530935344,-28.3817927562295,11.9955788832961,190.200655381335
7977,17084,15278,"Neotoma","Site 11 (Swain unpublished)","AMS011",45.7,-87.62,271,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.00701572187193,2889.84176970402,5.43904384202323,-10.4120915592026,19.7134056978001,791.983464889859
7978,17085,11849,"Neotoma","Site 11, Georgian Bay, Canadian Hydrographic Service","AT1966-11",45.047,-80.781,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06740162750233,2914.74182427704,5.73209394057979,-9.54525472279788,19.5070818426515,877.406318556335
7979,17086,15838,"Neotoma","Site 110 (G.M. Peterson 1978)","GMP09",39.95,-90.22,183,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.943435209107058,4416.46734838836,11.4777218756499,-4.2062955038941,24.7881602530428,955.051518885881
7980,17087,15377,"Neotoma","Site 110 (Swain unpublished)","AMS110",45.953333,-75.87,503,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.37997074596009,2166.55792270382,1.35166222782388,-16.6933471438568,16.5266004199792,1015.55514086876
7981,17088,15378,"Neotoma","Site 111 (Swain unpublished)","AMS111",41.9,-75.32,413,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24107063934347,3303.64857594103,7.86832808280011,-6.00308258820202,20.5722782284295,1050.74815012671
7982,17089,15379,"Neotoma","Site 112 (Swain unpublished)","AMS112",46.62,-68.02,158,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.50796828334108,2571.31484938381,4.28212950477043,-11.1961179714248,18.4312191082277,1107.79607532811
7983,17090,15380,"Neotoma","Site 113 (Swain unpublished)","AMS113",47.03,-68.2,176,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.48366782881879,2487.49701159261,3.66566174264791,-12.3626220166169,18.2435565498626,1073.17068455194
7984,17091,15381,"Neotoma","Site 114 (Swain unpublished)","AMS114",47.2,-68.47,229,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47913886929152,2394.83621801396,3.16112686156203,-13.0229475121077,17.8843300377623,1056.58685851905
7985,17092,15843,"Neotoma","Site 115 (G.M. Peterson 1978)","GMP14",36.75,-91.67,183,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",0.985220348815442,5408.7505473183,14.8184946501871,1.46657453102952,26.6384900810109,1164.97604203744
7986,17093,15382,"Neotoma","Site 115 (Swain unpublished)","AMS115",46.77,-68.47,186,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.46582597137336,2466.16825941941,3.55399490479341,-12.5109496642502,18.1697763010413,1061.62525391956
7987,17094,15383,"Neotoma","Site 116 (Swain unpublished)","AMS116",46.03,-68.17,249,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.4766169221012,2486.68008687698,3.79513237884619,-11.9153610548456,18.146483871981,1086.08414567434
7988,17095,15384,"Neotoma","Site 117 (Swain unpublished)","AMS117",45.63,-68.62,102,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47917824770953,2729.83154283094,5.38020016015797,-9.07792661851568,18.7992397561095,1120.17138799514
7989,17096,15385,"Neotoma","Site 118 (Swain unpublished)","AMS118",45.37,-68.48,65,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.483125164206,2791.25911831876,5.78412808937067,-8.29641728789251,18.895353375722,1134.2064416653
7990,17097,15386,"Neotoma","Site 119 (Swain unpublished)","AMS119",44.23,-70.03,82,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.46113354585707,3064.55322133315,6.85557701188185,-7.31754329185542,20.0391122685331,1162.30168565493
7991,17098,11839,"Neotoma","Site 11a, Georgian Bay, Canadian Hydrographic Service","AT1966-11A",45.201,-80.897,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06455912205832,2907.77852791433,5.68987745230834,-9.62401432651598,19.4860053650442,872.106798164797
7992,17099,15570,"Neotoma","Site 12 (Delcourt  et al. 1983)","DDD012",35.42,-85.92,69,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",1.14104748388445,5570.41119614739,15.2614005373901,2.47875536071844,26.3046352742955,1314.67348435721
7993,17100,15944,"Neotoma","Site 12 (Delcourt 1978)","HRD012",35.55,-83.17,1372,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.62051860428195,3082.39810802484,8.04330597214429,-2.63543140350515,17.6771401201668,1615.12379699454
7994,17101,15433,"Neotoma","Site 12 (Heusser 1978)","CJH012",44.55,-123.5,1067,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.24024578460106,2968.06188472227,8.0633479754885,-0.403109932262566,17.9494256851892,1140.19009451015
7995,17102,16163,"Neotoma","Site 12 (Jensen 1998)","JJ012M",26.348056,-80.32,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924538741699603,8690.9962011817,23.8109484963882,18.3569188858761,28.2347299683465,1335.59520639081
7996,17103,16905,"Neotoma","Site 12 (Mack, Bryant, and Pell 1978)","RNM092",47,-116.67,884,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",9,"cool mixed forest",0.6822160773884,3227.43456285435,8.46970079185732,-2.32237694776998,20.1147353544715,614.075797265452
7997,17104,16060,"Neotoma","Site 12 (McAndrews unpublished)","JHM013",49.55,-92.35,372,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.942967438807616,2487.02939597167,1.9624728162552,-18.0278096161949,18.8268335521851,688.576975046402
7998,17105,16795,"Neotoma","Site 12 (Mott unpublished)","RJM059",46.02,-66.63,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.6265920406835,2641.80129017559,5.04486931340562,-9.24810248691807,18.3210764147381,1215.48933315497
7999,17106,15977,"Neotoma","Site 12 (Railton 1973)","JBR012",44.92,-62.53,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.85866350302926,2643.73443025637,5.86560065265339,-6.18510816427703,17.7317207198793,1379.87856082891
8000,17107,16022,"Neotoma","Site 12 (Ritchie, J.C. 1974)","JCR018",69.28,-133.75,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.568566170886449,1005.09434116194,-10.3413068862602,-28.3440726481255,12.1094015731142,194.897134704684
8001,17108,15279,"Neotoma","Site 12 (Swain unpublished)","AMS012",46.07,-87.83,347,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03142025287845,2716.28333086682,4.55068080381876,-11.6116803900498,19.0519683514823,792.492424023486
8002,17109,15387,"Neotoma","Site 120 (Swain unpublished)","AMS120",44.8,-70.15,192,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.51310291040803,2773.38663405641,5.46546291675515,-9.23564156660351,19.0334743276549,1159.47155621845
8003,17110,15388,"Neotoma","Site 121 (Swain unpublished)","AMS121",41.88,-74.08,61,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.22681441064048,4006.61737952135,10.5248331500862,-3.05386174732002,23.0745530642712,1130.06610473443
8004,17111,15389,"Neotoma","Site 122 (Swain unpublished)","AMS122",42.6,-74.05,412,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.33138671556044,3100.99649363624,6.92683647145394,-7.43116582641577,19.9455333048465,1090.57896888916
8005,17112,15850,"Neotoma","Site 123 (G.M. Peterson 1978)","GMP21",37.55,-85.73,221,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.14850615038316,4825.25217412865,13.1947482667802,-0.261280670954233,24.8400384537273,1217.00048879768
8006,17113,15390,"Neotoma","Site 123 (Swain unpublished)","AMS123",43.65,-74.4,503,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.34541469953601,2779.90227843202,5.45646460354781,-9.26158144305298,18.7236235743718,1052.3935415637
8007,17114,15391,"Neotoma","Site 124 (Swain unpublished)","AMS124",43.13,-74.05,442,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.33455394291133,2939.49995227212,6.18056220918479,-8.42154845739654,19.3677714597935,1065.26155843689
8008,17115,15851,"Neotoma","Site 126 (G.M. Peterson 1978)","GMP22",37.22,-85.72,198,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.14799902953771,4931.82773688279,13.5077962184491,0.117070601388633,25.10472547779,1233.47879749544
8009,17116,15852,"Neotoma","Site 127 (G.M. Peterson 1978)","GMP23",37.15,-85.95,213,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.15700928711006,4977.53993876696,13.6370957226492,0.351457859236787,25.1401160294367,1252.16131617464
8010,17117,15853,"Neotoma","Site 128 (G.M. Peterson 1978)","GMP24",37.15,-86.1,213,"not known","lake","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.15690759677004,4988.46187137698,13.6670188256904,0.388785370213745,25.1596546359237,1253.74641787053
8011,17118,15854,"Neotoma","Site 129 (G.M. Peterson 1978)","GMP25",36.78,-86.83,198,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.15476886809194,5124.71529517027,14.0403158771788,0.84660637885786,25.4404591138912,1276.531768528
8012,17119,15571,"Neotoma","Site 13 (Delcourt  et al. 1983)","DDD013",30.38,-86.25,7,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.11042745940728,7267.13731606313,19.909965249488,10.7059589092984,27.5722005999498,1487.76064768697
8013,17120,15945,"Neotoma","Site 13 (Delcourt 1978)","HRD013",35.63,-82.18,457,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.11288549600635,5112.81843417361,14.0077217374619,2.77812434451929,24.0903362658761,1249.64290260545
8014,17121,15434,"Neotoma","Site 13 (Heusser 1978)","CJH013",44.52,-123.55,1250,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.1406706972546,2845.30573100075,7.56202258348353,-1.44642794208877,18.1815254838222,1065.42826009248
8015,17122,16165,"Neotoma","Site 13 (Jensen 1998)","JJ013M",26.341667,-80.338333,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924206729891921,8691.66394387681,23.8127779284296,18.359836413889,28.2356346820952,1335.26790380713
8015,17123,16164,"Neotoma","Site 13 (Jensen 1998)","JJ013S",26.341667,-80.338333,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924206729891921,8691.66394387681,23.8127779284296,18.359836413889,28.2356346820952,1335.26790380713
8016,17124,16906,"Neotoma","Site 13 (Mack, Bryant, and Pell 1978)","RNM093",46.77,-116.67,853,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.658051261760203,3315.26207466545,8.77082230060073,-2.01673167980935,20.4254805940203,598.570939887305
8017,17125,16061,"Neotoma","Site 13 (McAndrews unpublished)","JHM014",49.25,-91.2,445,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.02678254503709,2273.92884743307,1.23649246874562,-18.1918864159244,17.6805879491227,727.817047023997
8018,17126,16796,"Neotoma","Site 13 (Mott unpublished)","RJM061",46.17,-64.28,30,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.58677627502206,2638.14938986015,5.20371923973573,-8.35210000205925,18.5194745090568,1175.67798272853
8019,17127,15978,"Neotoma","Site 13 (Railton 1973)","JBR013",45.12,-62.88,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.80854552654172,2660.38248186025,5.84783018532799,-6.34402369760011,17.8714492468613,1346.67856201411
8020,17128,16031,"Neotoma","Site 13 (Ritchie, J.C. 1974)","JCR027",68.95,-129.7,152,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.473729349935104,849.998373698993,-10.8276626969824,-29.1534561049113,10.3951018290274,158.216769237951
8021,17129,15280,"Neotoma","Site 13 (Swain unpublished)","AMS013",46.3,-87.53,427,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05765943034148,2635.2015885188,4.17791612035842,-11.9741073319733,18.7501007587313,802.952202493945
8022,17130,11840,"Neotoma","Site 13, Georgian Bay, Canadian Hydrographic Service","AT1966-13",45.122,-80.93,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06362727042219,2913.0276482743,5.72533233539232,-9.54977551809282,19.4960253443226,872.80920549183
8023,17131,15855,"Neotoma","Site 130 (G.M. Peterson 1978)","GMP26",37.32,-87.22,152,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.09582824366888,5007.14495738768,13.6998002734193,-0.170220917059957,25.5874586200458,1199.86934138266
8024,17132,15856,"Neotoma","Site 131 (G.M. Peterson 1978)","GMP27",37.35,-87.47,122,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.05808375114728,5038.90975852917,13.7671486001829,-0.444189379454812,25.9328654369158,1168.13369382496
8025,17133,15857,"Neotoma","Site 132 (G.M. Peterson 1978)","GMP28",37.8,-87.53,152,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.07480306974033,4912.14304267369,13.3900739224297,-0.772654178100717,25.5003962538607,1162.10004241786
8026,17134,15858,"Neotoma","Site 133 (G.M. Peterson 1978)","GMP29",37.6,-87.58,137,"not known","artificial water body","surface sample","Modern","Peterson, G.M., 1978. Pollen spectra from surface sediments of lakes and ponds in Kentucky, Illinois and Missouri. American Midland Naturalist, pp.333-340.","10.2307/2424832",13,"temperate deciduous broadleaf forest",1.07273756198904,5007.99170479264,13.6843672646686,-0.419123585890928,25.7681243529963,1175.29602183558
8027,17135,15572,"Neotoma","Site 14 (Delcourt  et al. 1983)","DDD014",30.71,-87.33,52,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.17650179433856,7036.40477557431,19.2778213029433,9.33260965905853,27.534178150533,1538.67384521446
8028,17136,15946,"Neotoma","Site 14 (Delcourt 1978)","HRD014",35.73,-81.78,351,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.07107146689785,5392.84291070863,14.7749120841332,3.51014807085425,24.9069818105161,1219.60000530205
8029,17137,15435,"Neotoma","Site 14 (Heusser 1978)","CJH014",44.353333,-123.5,305,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.59060908519786,3760.322980169,10.3022547401891,3.9996857127197,17.5345431237906,1389.92419368393
8030,17138,16166,"Neotoma","Site 14 (Jensen 1998)","JJ014M",26.289444,-80.379167,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924389784502958,8723.73761441378,23.9006509983939,18.5136873156965,28.2705667289352,1338.11374921529
8031,17139,16907,"Neotoma","Site 14 (Mack, Bryant, and Pell 1978)","RNM094",47.13,-116.73,1219,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",9,"cool mixed forest",0.808127701561456,2746.83552752359,6.78078227104043,-3.77900964220628,18.4236848534084,705.570144204814
8032,17140,16062,"Neotoma","Site 14 (McAndrews unpublished)","JHM015",48.93,-90.05,484,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05728119415561,2163.91685612558,0.872735718726885,-18.2785501799051,17.0202066981998,743.023533086298
8033,17141,16797,"Neotoma","Site 14 (Mott unpublished)","RJM062",46.35,-65.23,106,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.6219343332212,2554.49467817798,4.63851963789637,-9.60370292399526,18.2453500325344,1194.70733937575
8034,17142,15979,"Neotoma","Site 14 (Railton 1973)","JBR014",45.38,-63.55,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.73622451384919,2669.73646144378,5.73272407270885,-6.72559138833525,18.1060903436844,1296.8123086433
8035,17143,16032,"Neotoma","Site 14 (Ritchie, J.C. 1974)","JCR028",69.07,-129,285,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.535542244459704,957.048994000605,-10.299684712233,-29.5570730568983,11.2366470080617,187.593299309517
8036,17144,15281,"Neotoma","Site 14 (Swain unpublished)","AMS014",46.05,-87.97,442,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04071094204944,2618.54397922066,4.01830609421027,-12.337028097668,18.7007851777595,792.644446128343
8037,17145,15573,"Neotoma","Site 15 (Delcourt  et al. 1983)","DDD015",31.02,-87.63,61,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.17532402931328,6929.61428422526,18.9852446143158,8.81220589834768,27.470713089562,1521.33256808514
8038,17146,15947,"Neotoma","Site 15 (Delcourt 1978)","HRD015",35.72,-81.47,335,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.05640273433683,5391.98571537013,14.7725636037538,3.49969193695994,24.9299040114493,1200.87417449578
8039,17147,15436,"Neotoma","Site 15 (Heusser 1978)","CJH015",44.5,-123.5,305,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.60888513898655,3745.73226462553,10.2622801770562,3.95722762906631,17.4902123437517,1398.65149958017
8040,17148,16167,"Neotoma","Site 15 (Jensen 1998)","JJ015M",26.302222,-80.386389,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924486133099858,8722.79130956087,23.8980583823585,18.5087801198884,28.2698997787991,1338.04297156871
8041,17149,16908,"Neotoma","Site 15 (Mack, Bryant, and Pell 1978)","RNM095",47.72,-116.246667,1554,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",8,"cool evergreen needleleaf forest",0.918576192787715,2087.43094640008,3.96804997064194,-6.74179480200137,15.5233755627668,742.472015911164
8042,17150,16063,"Neotoma","Site 15 (McAndrews unpublished)","JHM016",49.22,-88.12,229,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.091924147866,2281.80251185549,2.01979722379185,-15.8233960823587,17.2010711459931,757.301662843825
8043,17151,16798,"Neotoma","Site 15 (Mott unpublished)","RJM063",46.67,-65.216667,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.60639106437405,2557.56463588324,4.61586982364899,-9.70920686146749,18.3436821076824,1177.66259230057
8044,17152,15980,"Neotoma","Site 15 (Railton 1973)","JBR015",45.37,-62.43,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.84749615286657,2624.96451136096,5.74051491842305,-6.4469025053375,17.7454137251304,1359.67788081285
8045,17153,16033,"Neotoma","Site 15 (Ritchie, J.C. 1974)","JCR029",69.15,-130.15,46,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.415247369960053,768.172498583616,-11.2551382186512,-28.974851928963002,9.69208961785415,132.798731802518
8046,17154,15282,"Neotoma","Site 15 (Swain unpublished)","AMS015",46.57,-88.22,488,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05579857203778,2587.93954539986,3.88346982616234,-12.4329156211658,18.5803770346557,797.102692032556
8047,17155,11841,"Neotoma","Site 15, Georgian Bay, Canadian Hydrographic Service","AT1966-15",45.037,-80.926,176,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,9,"cool mixed forest",1.06424773883177,2917.84734842005,5.75825359332829,-9.48014816547393,19.5055143185381,874.982842661458
8048,17156,15574,"Neotoma","Site 16 (Delcourt  et al. 1983)","DDD016",30.8,-88.35,43,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.1777330107972,7045.98413048251,19.304066110911,9.3353475089491,27.5939113495508,1534.01663678729
8049,17157,15948,"Neotoma","Site 16 (Delcourt 1978)","HRD016",35.23,-80.72,244,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,4,"warm-temperate evergreen and mixed forest",1.028515271099,5593.67058295549,15.3251248848096,4.09445115313909,25.4792595299248,1184.37360880094
8050,17158,15437,"Neotoma","Site 16 (Heusser 1978)","CJH016",44.5,-123.48,305,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.60776968504256,3746.34988200669,10.2639722794704,3.95105884046802,17.4999235921338,1397.84966661411
8051,17159,16168,"Neotoma","Site 16 (Jensen 1998)","JJ016M",26.3125,-80.385278,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924662964589093,8721.9696438272,23.8958072433622,18.5047106339181,28.2691651540644,1338.11381181732
8052,17160,16909,"Neotoma","Site 16 (Mack, Bryant, and Pell 1978)","RNM096",47,-116.02,1524,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",8,"cool evergreen needleleaf forest",0.745540951339158,2369.8467833419,5.25451547208022,-5.31147340937206,16.9683629130522,633.980246942319
8053,17161,16064,"Neotoma","Site 16 (McAndrews unpublished)","JHM017",49.65,-87.25,338,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.14207133557358,2023.53739589044,0.308650747179709,-18.2886217365419,16.0407737686364,757.57463818515
8054,17162,16799,"Neotoma","Site 16 (Mott unpublished)","RJM064",46.65,-65.55,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.60200208146341,2554.78882935363,4.56177113119678,-9.89673640504848,18.3321209080383,1175.0905244153
8055,17163,15981,"Neotoma","Site 16 (Railton 1973)","JBR016",45.8,-63.67,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.68585743937856,2639.17403965127,5.48351176589141,-7.28831277054021,18.1559643737871,1250.20853408344
8056,17164,15283,"Neotoma","Site 16 (Swain unpublished)","AMS016",46.57,-88.45,472,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05010243107849,2594.73262806172,3.88880860964885,-12.5173307813035,18.6060684439837,794.016555741262
8057,17165,15575,"Neotoma","Site 17 (Delcourt  et al. 1983)","DDD017",31.29,-89.6,99,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16694559794111,6674.15609809791,18.285359172871,7.68329447346907,27.2531114942949,1491.68195961729
8058,17166,15949,"Neotoma","Site 17 (Delcourt 1978)","HRD017",36.03,-88.27,137,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.13572237971221,5417.92472630738,14.8436293871435,1.64847638383051,26.2209077772185,1307.56994152053
8059,17167,15438,"Neotoma","Site 17 (Heusser 1978)","CJH017",44.5,-123.45,274,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.621979614683,3780.10471331437,10.3564512693544,4.11738565120632,17.501682620366,1407.23880814475
8060,17168,16169,"Neotoma","Site 17 (Jensen 1998)","JJ017M",26.325,-80.368889,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.923570720500324,8693.19050178192,23.8169602788546,18.3667572555775,28.2374957930936,1334.7040576885
8061,17169,16910,"Neotoma","Site 17 (Mack, Bryant, and Pell 1978)","RNM097",46.47,-115.2,1707,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",8,"cool evergreen needleleaf forest",0.551824503367344,2329.58098159926,5.09083623045379,-5.42917782398159,16.900874899859,477.107522355309
8062,17170,16065,"Neotoma","Site 17 (McAndrews unpublished)","JHM018",49.721944,-85.15,265,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.14459536236095,2088.13398295116,0.34869135061352,-18.8358802699835,16.6729215760858,754.385579556916
8063,17171,16800,"Neotoma","Site 17 (Mott unpublished)","RJM065",47.08,-65.85,45,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.58258190992854,2563.40059405685,4.50316616417217,-10.1908332501831,18.5534528274995,1152.52869067425
8064,17172,15982,"Neotoma","Site 17 (Railton 1973)","JBR017",45.55,-63.93,183,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.88167043261427,2605.01881408029,5.44658023177312,-7.06608234694485,17.7377992090842,1405.69696783105
8065,17173,15284,"Neotoma","Site 17 (Swain unpublished)","AMS017",46.6,-88.85,421,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03628498915877,2609.37738099143,3.92626928005724,-12.6303301603889,18.6674941175145,785.098982931734
8066,17174,15576,"Neotoma","Site 18 (Delcourt  et al. 1983)","DDD018",31.14,-90.2,130,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16638793195087,6540.54887724685,17.9193119924571,7.13444179637055,27.1089543162293,1489.32228323588
8067,17175,15439,"Neotoma","Site 18 (Heusser 1978)","CJH018",44.7,-123.48,183,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.69320826946741,3854.39878822134,10.5599966800585,4.59209220369106,17.3698420988719,1448.27280589428
8068,17176,16170,"Neotoma","Site 18 (Jensen 1998)","JJ018M",26.340556,-80.336944,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924211358759724,8691.72718552126,23.8129511932089,18.3601830011687,28.2356609580923,1335.28981971878
8069,17177,16911,"Neotoma","Site 18 (Mack, Bryant, and Pell 1978)","RNM098",48.63,-119.62,1067,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",8,"cool evergreen needleleaf forest",0.674635945750133,2385.05919411012,5.3077345223928,-5.61578996753878,16.3048972417781,533.15521007132
8070,17178,16066,"Neotoma","Site 18 (McAndrews unpublished)","JHM019",49.55,-83.02,218,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.23055486037244,2119.42132650406,0.382145221296057,-18.8580037707022,16.8905558564316,810.863947492807
8071,17179,16801,"Neotoma","Site 18 (Mott unpublished)","RJM066",47.05,-65.9,76,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.57933605022849,2531.63479924468,4.32892873656056,-10.4715222625088,18.4295645294045,1147.91899031618
8072,17180,15983,"Neotoma","Site 18 (Railton 1973)","JBR018",45.4,-64.47,46,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.66444739426517,2695.19672446434,5.67263170580299,-7.28304849537154,18.3989551017619,1253.02894487
8073,17181,15285,"Neotoma","Site 18 (Swain unpublished)","AMS018",46.35,-88.88,488,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04198937800605,2597.11104321046,3.84532027129399,-12.7023122097782,18.6429415206727,791.925368985417
8074,17182,15577,"Neotoma","Site 19 (Delcourt  et al. 1983)","DDD019",31.55,-91.2,110,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16512829317406,6671.14705693079,18.2771152244679,7.60714485787737,27.2712771393393,1496.63593256187
8075,17183,15440,"Neotoma","Site 19 (Heusser 1978)","CJH019",44.6,-123.4,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.72119363261537,3966.5382650597,10.8672281234512,5.10723115420669,17.4266382454476,1468.78845256594
8076,17184,16171,"Neotoma","Site 19 (Jensen 1998)","JJ019M",26.333056,-80.365833,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.92371809832637,8692.58745748271,23.8153081026924,18.3638196592973,28.2369324737731,1334.77429323943
8077,17185,16912,"Neotoma","Site 19 (Mack, Bryant, and Pell 1978)","RNM099",48.2,-118.7,549,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",17,"temperate evergreen needleleaf open woodland",0.284979958492936,3696.31943014812,9.8432852955802,-2.01716347454833,21.3555945697492,254.800448973452
8078,17186,16067,"Neotoma","Site 19 (McAndrews unpublished)","JHM020",49.25,-81.72,241,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.25340359901183,2152.56134630551,0.576404930457978,-18.4882171235692,17.0326233488179,836.565406580656
8079,17187,16802,"Neotoma","Site 19 (Mott unpublished)","RJM067",47.62,-65.42,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.58133731035727,2447.89116771149,3.98255902043082,-10.7630249929832,18.1221007599792,1128.63717741733
8080,17188,15984,"Neotoma","Site 19 (Railton 1973)","JBR019",45.67,-62.62,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.82371333342612,2621.33447251934,5.66694734584373,-6.64460256132444,17.8230244430291,1337.75034871327
8081,17189,15286,"Neotoma","Site 19 (Swain unpublished)","AMS019",46.15,-88.88,503,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04105202760322,2595.42594936103,3.80909466123137,-12.794026742067,18.6482998091431,793.683520496747
8082,17190,11850,"Neotoma","Site 19, Georgian Bay, Canadian Hydrographic Service","AT1966-19",45.182,-80.616,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07544930440966,2909.08018027953,5.68116483668027,-9.67634836055019,19.5287341187092,882.98609695837
8083,17191,11842,"Neotoma","Site 19a, Georgian Bay, Canadian Hydrographic Service","AT1966-19A",45.137,-80.84,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.0659920177271,2910.46880244664,5.70572028532432,-9.59538314364426,19.4947275908821,874.51159056699
8084,17192,16614,"Neotoma","Site 2 (Beetham 1958)","NMB002",36.17,-82,1916,"not known","not known","surface sample","Modern","Beetham, N.M. 1958. Pollen studies of forest and bald soils from the mountains of North Carolina. Thesis. Duke University, Durham, North Carolina, USA. 133p.",,13,"temperate deciduous broadleaf forest",1.58040849016974,1772.88864197309,2.8775074860126,-8.12938133732918,12.576405533902,1342.27233116005
8085,17193,15560,"Neotoma","Site 2 (Delcourt  et al. 1983)","DDD002",35.8,-88.63,122,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",1.11970508244144,5497.37545497338,15.0613026163654,1.87010164957412,26.4311125291685,1301.53740182023
8086,17194,15934,"Neotoma","Site 2 (Delcourt 1978)","HRD002",35.9,-87.78,168,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.16398221483625,5348.32999798786,14.6529588985969,1.63386733158578,25.896835139832,1330.1958107246
8087,17195,15681,"Neotoma","Site 2 (Elliot-Fisk et al. 1982)","DLEF025",58.67,-63.37,380,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.93951178763827,663.923487010675,-6.47450663422287,-21.3492648980181,7.9940658724554,746.101782449882
8087,17196,15682,"Neotoma","Site 2 (Elliot-Fisk et al. 1982)","DLEF026",58.67,-63.37,380,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.93951178763827,663.923487010675,-6.47450663422287,-21.3492648980181,7.9940658724554,746.101782449882
8088,17197,16969,"Neotoma","Site 2 (Hall 1977)","SAH002",36.39,-96.27,244,"not known","not known","surface sample","Modern","Hall, S.A. 1977. Geology and palynology of archeological sites and associated sediments. Pages 13-41 in D.O. Henry, editor. The prehistory of the Little Caney River, 1976 field season. Laboratory of Archeology, University of Tulsa, Tulsa, Oklahoma, USA.",,13,"temperate deciduous broadleaf forest",0.81569700304638,5683.17943492015,15.5703546162196,1.73715594511213,27.976705832072,995.839486952297
8089,17198,15401,"Neotoma","Site 2 (Hansen unpublished)","BCSH002",43.45,-95.55,468,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.728452553342916,3483.79897917558,7.22225007073234,-10.5568952593338,22.7772761525029,667.185688672069
8090,17199,16570,"Neotoma","Site 2 (Heide unpublished)","KMH005",46.9,-99.37,537,"not known","not known","surface sample","Modern","Unpublished data",,22,"steppe",0.538440879680751,2981.63065860873,4.62725292347736,-14.1422522139707,21.0359329433013,451.683644138269
8091,17200,15423,"Neotoma","Site 2 (Heusser 1978)","CJH002",44.5,-124.08,46,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.89900932188314,3901.57595928645,10.6892492035245,5.73730617350682,16.3060131261955,1582.45903938772
8092,17201,16151,"Neotoma","Site 2 (Jensen 1998)","JJ002M",26.359167,-80.366111,7,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.922448351329505,8663.3935450235,23.7353247808863,18.2233649047136,28.2053734684563,1330.96407345497
8093,17202,16893,"Neotoma","Site 2 (Mack, Bryant, and Pell 1978)","RNM080",46.93,-116.65,914,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.687704476547218,3197.91429344419,8.37307557238598,-2.38982988077669,20.0232141587178,619.179121760534
8094,17203,16785,"Neotoma","Site 2 (Mott unpublished)","RJM048",49.07,-80.6,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24364288602034,2154.70641345264,0.650924794659094,-18.2926000661912,16.9448254615748,837.215866684316
8095,17204,15967,"Neotoma","Site 2 (Railton 1973)","JBR002",43.88,-66.08,30,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.72138630480731,2945.32776534785,7.03219168883807,-5.12011416625415,18.5282735537611,1364.90654371745
8096,17205,17145,"Neotoma","Site 2 (Short unpublished)","SKS172",57.92,-62.57,155,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9533316167809,853.218132969373,-4.6754784714349,-19.5316816036667,9.22342817567951,802.670418374227
8096,17206,17143,"Neotoma","Site 2 (Short unpublished)","SKS173",57.92,-62.57,155,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9533316167809,853.218132969373,-4.6754784714349,-19.5316816036667,9.22342817567951,802.670418374227
8096,17207,17142,"Neotoma","Site 2 (Short unpublished)","SKS174",57.92,-62.57,155,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9533316167809,853.218132969373,-4.6754784714349,-19.5316816036667,9.22342817567951,802.670418374227
8096,17208,17144,"Neotoma","Site 2 (Short unpublished)","SKS175",57.92,-62.57,155,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.9533316167809,853.218132969373,-4.6754784714349,-19.5316816036667,9.22342817567951,802.670418374227
8097,17209,16735,"Neotoma","Site 2 (Skinner 1973)","RGS003",51.22,-83.58,91,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.08196870967096,1939.30269059992,-0.958197405725692,-21.3567306795361,16.35777017673,659.027514592144
8097,17210,16734,"Neotoma","Site 2 (Skinner 1973)","RGS004",51.22,-83.58,91,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.08196870967096,1939.30269059992,-0.958197405725692,-21.3567306795361,16.35777017673,659.027514592144
8098,17211,15269,"Neotoma","Site 2 (Swain unpublished)","AMS002",43.42,-88,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.936909186907631,3359.20295529088,7.26629901276707,-9.17752091048248,21.696283928901,803.727549490829
8099,17212,11837,"Neotoma","Site 2, Georgian Bay, Canadian Hydrographic Service","AT1966-2",45.376,-81.151,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06540170391871,2912.21785859754,5.73577891153448,-9.50547161635014,19.4622173447672,871.365936576781
8100,17213,15578,"Neotoma","Site 20 (Delcourt  et al. 1983)","DDD020",32.14,-91.23,23,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.1083307696958,6772.89563247211,18.5558784451291,7.54586668635641,27.8425317115983,1437.93079354612
8101,17214,15441,"Neotoma","Site 20 (Heusser 1978)","CJH020",44.52,-123.3,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.7030054095045,3981.95930503634,10.9094775480448,5.08303666040444,17.5459158242317,1459.48258333552
8102,17215,16172,"Neotoma","Site 20 (Jensen 1998)","JJ020M",26.307778,-80.357778,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924984823414509,8722.12086335357,23.8962215434344,18.5061709113841,28.268721566598,1338.60107045663
8103,17216,16913,"Neotoma","Site 20 (Mack, Bryant, and Pell 1978)","RNM100",46.83,-117.03,853,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.621380766000096,3318.04223993293,8.77529564829421,-2.04253478274908,20.3770966528383,564.773869955211
8104,17217,16068,"Neotoma","Site 20 (McAndrews unpublished)","JHM021",48.55,-80.85,308,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.21589150710363,2245.1877603679,1.2251057728732,-17.4610637761969,17.4179076703562,844.241131027794
8105,17218,16803,"Neotoma","Site 20 (Mott unpublished)","RJM069",47.5,-65.75,99,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.56705088929173,2462.25172736,3.98250945278443,-10.925876228766,18.2327691449047,1123.87575183958
8106,17219,15985,"Neotoma","Site 20 (Railton 1973)","JBR020",45.62,-61.83,46,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.88515548333192,2612.27159925782,5.80708910842828,-6.17809482266984,17.7249352397709,1370.11384829242
8107,17220,15287,"Neotoma","Site 20 (Swain unpublished)","AMS020",46.08,-88.62,503,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04167588761927,2574.47561539376,3.72923038236594,-12.8253485054315,18.547378789903,791.95316392467
8108,17221,15579,"Neotoma","Site 21 (Delcourt  et al. 1983)","DDD021",32.3,-90.87,43,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.09768973058893,6633.16056169101,18.1730426347699,6.89712496491738,27.7123560193469,1418.19922517352
8109,17222,15442,"Neotoma","Site 21 (Heusser 1978)","CJH021",44.55,-123.28,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.70380407418681,3980.10848902462,10.9044068192455,5.0665511411211,17.550531543543,1458.91220828285
8110,17223,16173,"Neotoma","Site 21 (Jensen 1998)","JJ021M",26.276389000000002,-80.356667,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924509525914297,8724.57625353998,23.9029486398356,18.5184525472016,28.270817066720898,1338.46700015805
8111,17224,16914,"Neotoma","Site 21 (Mack, Bryant, and Pell 1978)","RNM101",46.9,-117.27,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.530225088118299,3488.31725571198,9.31329604504521,-1.6771705311124,20.8623222596397,484.792378024251
8112,17225,16069,"Neotoma","Site 21 (McAndrews unpublished)","JHM022",48.05,-80.1,320,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.19165472805985,2340.0688987158,1.84638039230004,-16.5940712748491,17.7699684281638,852.39272668697
8113,17226,16804,"Neotoma","Site 21 (Mott unpublished)","RJM070",47.57,-66.22,405,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.59706358824549,2109.6363911061,2.08617119551591,-13.4695973112507,16.7309182737771,1104.82973018238
8114,17227,15986,"Neotoma","Site 21 (Railton 1973)","JBR021",45.57,-62.13,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.88520722417857,2603.77418339212,5.72682722642381,-6.35651700117782,17.6731706258046,1374.38696909585
8115,17228,15288,"Neotoma","Site 21 (Swain unpublished)","AMS021",46.18,-89.07,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04348410906374,2590.27786465954,3.77053529559043,-12.8636948138093,18.63658044028,795.313001118338
8116,17229,15730,"Neotoma","Site 21 (Whitehead and Jackson 1990)","DRW029",44.13,-74.2,1150,"not known","not known","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.62160916870041,2084.05922594709,2.91532860293476,-10.5110114687664,15.1589170443501,1154.67204281499
8117,17230,15580,"Neotoma","Site 22 (Delcourt  et al. 1983)","DDD022",33.52,-90.15,40,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.07682975672858,6329.64047560843,17.3414807550916,5.18242518573084,27.6982826093518,1370.57256401891
8118,17231,15443,"Neotoma","Site 22 (Heusser 1978)","CJH022",44.52,-123.25,122,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.68330639501225,3951.48060509877,10.8259742605446,4.88865202406668,17.5913682423416,1446.54625625684
8119,17232,16174,"Neotoma","Site 22 (Jensen 1998)","JJ022M",26.296389,-80.355833,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924835204934703,8723.00445063741,23.8986423305135,18.5106291885374,28.2694434466965,1338.58220330633
8120,17233,16915,"Neotoma","Site 22 (Mack, Bryant, and Pell 1978)","RNM102",46.92,-117.27,671,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.49288380548053,3576.15413226543,9.58513587663202,-1.50121787267415,21.1200734060892,452.146497491295
8121,17234,16070,"Neotoma","Site 22 (McAndrews unpublished)","JHM023",48.33,-88.8,196,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03668755497746,2482.92451970045,3.23720025121824,-13.9610961415478,18.0872517860545,750.802083042658
8122,17235,16805,"Neotoma","Site 22 (Mott unpublished)","RJM071",47.83,-66.18,281,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.57876381870831,2202.37458967876,2.62349809425716,-12.7058247534851,17.1592086187549,1096.04853246198
8123,17236,15987,"Neotoma","Site 22 (Railton 1973)","JBR022",45.87,-61.12,91,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.99454054320706,2510.54870533651,5.49781031982604,-6.34814734721703,17.3470373947657,1421.78435081596
8124,17237,15289,"Neotoma","Site 22 (Swain unpublished)","AMS022",46.25,-89.42,509,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.0379445031298,2606.13143658475,3.82784111579769,-12.8711343736328,18.7177835007217,792.306598888694
8125,17238,11843,"Neotoma","Site 22, Georgian Bay, Canadian Hydrographic Service","AT1966-22",45.248,-80.858,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06560699955498,2904.43960472084,5.66643994017704,-9.67477436231627,19.4807968973592,872.112456513412
8126,17239,6536,"EMPDv2","Site 23","Binney2017_E3187",68.12,87.2,53,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",1.72522759373723,1136.1994477373,-8.27539054397295,-27.6062187608549,13.7337845192571,513.640755952694
8127,17240,15581,"Neotoma","Site 23 (Delcourt  et al. 1983)","DDD023",33.542778,-89.23,134,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16746148649632,6066.46365101599,16.6204483589479,4.7887357024425,26.7317599184505,1421.44232516655
8128,17241,15444,"Neotoma","Site 23 (Heusser 1978)","CJH023",44.75,-123.25,137,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.71139396750651,3888.14818648735,10.6524607848968,4.72673557689044,17.3784143531088,1453.22115435594
8129,17242,16175,"Neotoma","Site 23 (Jensen 1998)","JJ023M",26.306111,-80.368611,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924803177936967,8722.34112891505,23.8968250107262,18.5069918066036,28.2691379044554,1338.39236303988
8130,17243,16916,"Neotoma","Site 23 (Mack, Bryant, and Pell 1978)","RNM103",47.63,-117.53,716,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.540567209010092,3366.56115551272,8.85848843142406,-2.38845174071509,20.4112961530638,481.522173711152
8131,17244,16806,"Neotoma","Site 23 (Mott unpublished)","RJM072",47.92,-66.62,243,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.55011630713498,2232.72840945871,2.67055634429281,-12.9092550891668,17.2964280276493,1077.15865291981
8132,17245,15988,"Neotoma","Site 23 (Railton 1973)","JBR023",46.17,-60.92,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.97656029471867,2512.34028390328,5.54254141911044,-6.18341184507432,17.3715240003529,1396.74863223941
8133,17246,16013,"Neotoma","Site 23 (Ritchie, J.C. 1974)","JCR009",68.18,-132.52,274,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.605607243222301,1183.50241813045,-9.13175893525424,-29.2063859981101,13.3733809787246,229.657335312489
8134,17247,15290,"Neotoma","Site 23 (Swain unpublished)","AMS023",46.48,-89.95,463,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02591110134061,2628.75621960823,3.899331148419,-13.0345352726955,18.8254885383033,783.830411201606
8135,17248,11851,"Neotoma","Site 23, Georgian Bay, Canadian Hydrographic Service","AT1966-23",45.027,-80.604,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07553149348039,2917.67287650364,5.73981555349893,-9.55525701787387,19.5491955585568,886.013561999398
8136,17249,15582,"Neotoma","Site 24 (Delcourt  et al. 1983)","DDD024",33.78,-88.68,76,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.1400622709291,6267.6296320392,17.1715880329841,5.4410056657844,27.1415781921373,1395.69960319069
8137,17250,15445,"Neotoma","Site 24 (Heusser 1978)","CJH024",44.72,-123.1,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.71791949479504,3993.8632134161,10.9420909956606,4.91755638756102,17.7680857808072,1471.44854490669
8138,17251,16176,"Neotoma","Site 24 (Jensen 1998)","JJ024M",26.250556,-80.388889,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.922307217953414,8698.5205840295,23.8315632439164,18.392897483093,28.2423417786426,1334.16991378202
8139,17252,16917,"Neotoma","Site 24 (Mack, Bryant, and Pell 1978)","RNM104",47.47,-117.55,701,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.522466300409524,3421.20005767092,9.04625433780298,-2.18538887594612,20.5937331229206,468.674344809895
8140,17253,16807,"Neotoma","Site 24 (Mott unpublished)","RJM073",47.97,-66.77,99,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47144895931997,2323.40822348755,2.9214951004801,-13.1216601373962,17.7196907527012,1025.25242492376
8141,17254,15989,"Neotoma","Site 24 (Railton 1973)","JBR024",46.27,-60.97,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.96954637414101,2483.5082084678,5.38623305373896,-6.42120476336727,17.2743517915387,1384.88718479585
8142,17255,16034,"Neotoma","Site 24 (Ritchie, J.C. 1974)","JCR030",68.2,-131.63,183,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.554994085699255,1102.13486604401,-9.47414962106071,-28.8980605944557,12.6974691682322,203.908499749905
8143,17256,15291,"Neotoma","Site 24 (Swain unpublished)","AMS024",46.42,-90.4,448,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.01416439936206,2663.33541251514,4.02646081026107,-13.0827963073246,18.9764404749359,778.987652311998
8144,17257,11844,"Neotoma","Site 24, Georgian Bay, Canadian Hydrographic Service","AT1966-24",45.297,-80.857,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07090042896083,2910.25818040801,5.70907499979291,-9.5822755506809,19.4761245803054,877.160569779582
8145,17258,15583,"Neotoma","Site 25 (Delcourt  et al. 1983)","DDD025",34.15,-88.72,84,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.14737481738163,6187.77413287519,16.9528058434937,5.08020814051447,27.0683105319853,1396.56760979956
8146,17259,15446,"Neotoma","Site 25 (Heusser 1978)","CJH025",44.5,-122.9,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.68786818995899,4027.75379873127,11.0349419143322,4.88488800553772,18.0089314929905,1460.49386544924
8147,17260,16177,"Neotoma","Site 25 (Jensen 1998)","JJ025M",26.312778,-80.372778,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924847176918183,8721.84659471151,23.8954701224973,18.5044181482952,28.2687975049222,1338.34708375304
8148,17261,16918,"Neotoma","Site 25 (Mack, Bryant, and Pell 1978)","RNM105",47.5,-117.4,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.559812999917548,3350.1615067668,8.8154016382542,-2.36603958613687,20.3691004286087,499.571058743862
8149,17262,16808,"Neotoma","Site 25 (Mott unpublished)","RJM074",46.9,-67.4,137,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.52696039366433,2560.26707780782,4.17362909434255,-11.420191533192,18.4266588549238,1115.5533013782
8150,17263,15990,"Neotoma","Site 25 (Railton 1973)","JBR025",46.38,-60.68,91,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.01101729620082,2451.21094914585,5.29389598061211,-6.45825174748254,17.1205531964641,1407.39483844396
8151,17264,15292,"Neotoma","Site 25 (Swain unpublished)","AMS025",46.28,-90.58,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.01176739212807,2679.82589609748,4.08561224889625,-13.0521917944012,19.0570976425678,780.327461771639
8152,17265,15584,"Neotoma","Site 26 (Delcourt  et al. 1983)","DDD026",34.31,-89.3,146,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.1830600397704,5734.60592746532,15.7112491163433,3.31622328316379,26.3523634567292,1405.59030868251
8153,17266,15447,"Neotoma","Site 26 (Heusser 1978)","CJH026",44.35,-122.8,152,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.6420864674028,3971.13432309803,10.8798200632823,4.55768579245081,18.0685231919269,1432.78251259829
8154,17267,16178,"Neotoma","Site 26 (Jensen 1998)","JJ026M",26.326111,-80.378611,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.923451191746441,8693.2206500311,23.8170428767975,18.3666865876824,28.2377087712358,1334.53677673909
8155,17268,16919,"Neotoma","Site 26 (Mack, Bryant, and Pell 1978)","RNM106",47.73,-117.6,610,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.423583798611397,3627.00943486706,9.69726096726826,-1.71064032641722,21.2637117332515,383.556686331725
8156,17269,16809,"Neotoma","Site 26 (Mott unpublished)","RJM076",47.4,-68.95,289,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.49035734933526,2315.76200683367,2.68717697570845,-13.6843155384906,17.5591074194212,1051.58609565553
8157,17270,15991,"Neotoma","Site 26 (Railton 1973)","JBR026",47.35,-53.03,241,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.08294366631048,2098.56171512254,4.4233638016644,-5.83535803504484,15.1087367371427,1311.03615307421
8158,17271,15293,"Neotoma","Site 26 (Swain unpublished)","AMS026",46.27,-90.17,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02035081829839,2652.80151086279,3.99687051723848,-12.9730557800617,18.9388342665328,783.981310093879
8159,17272,15585,"Neotoma","Site 27 (Delcourt  et al. 1983)","DDD027",34.26,-90.28,46,"not known","lake","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.05375862113642,6144.75537701381,16.834946238394,4.23791450534751,27.6960359778317,1331.36634452681
8160,17273,15448,"Neotoma","Site 27 (Heusser 1978)","CJH027",44.4,-122.74,183,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.56926422945485,3960.78965868051,10.8514785169329,4.05346676999473,18.5630168770074,1378.08925858559
8161,17274,16179,"Neotoma","Site 27 (Jensen 1998)","JJ027M",26.333611,-80.377778,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.923561020567563,8692.68176144927,23.815566469724,18.3640187042249,28.2372412919095,1334.56752011777
8162,17275,16920,"Neotoma","Site 27 (Mack, Bryant, and Pell 1978)","RNM107",47.88,-117.43,610,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.416937282795064,3602.3709214769,9.59731217929567,-1.92373154833516,21.2366760442461,375.468435323851
8163,17276,16810,"Neotoma","Site 27 (Mott unpublished)","RJM077",47.33,-68.75,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.48090626353932,2334.98341225601,2.78906619969061,-13.5620700052582,17.6546174718223,1048.60282560516
8164,17277,15992,"Neotoma","Site 27 (Railton 1973)","JBR027",47.43,-53.33,107,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.10449209391554,2185.79744700646,4.8605372190595,-5.13134227284813,15.3617719103582,1360.58909705846
8165,17278,15294,"Neotoma","Site 27 (Swain unpublished)","AMS027",46.15,-89.97,488,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.027456590789,2677.53705752966,4.09418630051068,-12.8130613107803,19.0634140143733,793.255782212132
8166,17279,11845,"Neotoma","Site 27, Georgian Bay, Canadian Hydrographic Service","AT1966-27",45.406,-80.836,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07295103336368,2906.59718245128,5.68423935712438,-9.63747758174753,19.468478712483,877.21139157562
8167,17280,15586,"Neotoma","Site 28 (Delcourt  et al. 1983)","DDD028",32.79,-83.9,168,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.01145548317854,6353.02438374857,17.4055462568454,6.67899830349576,26.6978060892232,1250.99604371223
8168,17281,15449,"Neotoma","Site 28 (Heusser 1978)","CJH028",44.35,-122.65,274,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.52156887674031,3847.34821797942,10.5406800492587,3.56945315324967,18.4562911020795,1341.71755486204
8169,17282,16180,"Neotoma","Site 28 (Jensen 1998)","JJ028M",26.358889,-80.377778,7,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.92229282033347,8663.57595660996,23.7358245386574,18.2240435630534,28.2057282920353,1330.77508287055
8170,17283,16921,"Neotoma","Site 28 (Mack, Bryant, and Pell 1978)","RNM108",47.7,-117.35,610,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.428718802662417,3637.29541114816,9.73586809691096,-1.64281860941794,21.3200222880195,388.86935100892
8171,17284,16811,"Neotoma","Site 28 (Mott unpublished)","RJM078",47.57,-68.5,198,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47849492876368,2325.71636267714,2.73513669739717,-13.6891656436905,17.6709578603497,1038.54017261738
8172,17285,15993,"Neotoma","Site 28 (Railton 1973)","JBR028",47.73,-53.93,76,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.08271392798906,2214.36267437403,4.96630060744593,-5.05131159488503,15.4895368211743,1348.65951543336
8173,17286,16014,"Neotoma","Site 28 (Ritchie, J.C. 1974)","JCR010",68.22,-133.72,91,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.641950817898047,1167.62940922034,-9.34044227860989,-28.8616373983148,13.4017149564161,237.827242378223
8174,17287,15295,"Neotoma","Site 28 (Swain unpublished)","AMS028",45.9,-90.08,488,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02377996302366,2694.51220952928,4.15742970098088,-12.7782251965385,19.1456165500102,794.723430985014
8175,17288,15738,"Neotoma","Site 28 (Whitehead and Jackson 1990)","DRW037",44.43,-74.3,494,"not known","not known","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.33343155355835,2697.49079511804,4.98796875923846,-10.0143326544835,18.4612071354573,1027.35607569834
8176,17289,15587,"Neotoma","Site 29 (Delcourt  et al. 1983)","DDD029",31.83,-84.22,94,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.00986785623185,6737.0236423901,18.4575990202469,8.26538783596212,27.1135277838389,1290.64695038716
8177,17290,15450,"Neotoma","Site 29 (Heusser 1978)","CJH029",44.35,-122.55,274,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.52313460395699,3846.76997760343,10.5390958290505,3.52804989296408,18.4880968847008,1342.9763993703
8178,17291,16181,"Neotoma","Site 29 (Jensen 1998)","JJ029M",26.331111,-80.304167,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924537227692912,8692.01903026127,23.8137507678391,18.3623740447101,28.2352799799265,1335.8381246359
8179,17292,16922,"Neotoma","Site 29 (Mack, Bryant, and Pell 1978)","RNM109",47,-117.18,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.556572461440265,3466.12173933441,9.23931820070137,-1.75925127823291,20.8158216859524,507.236712210945
8180,17293,16812,"Neotoma","Site 29 (Mott unpublished)","RJM079",47.42,-66.9,243,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.54216388700807,2314.6567263095,2.99119337037997,-12.7585165186146,17.5979110206426,1091.30422409613
8181,17294,15994,"Neotoma","Site 29 (Railton 1973)","JBR029",47.92,-54.33,152,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.1641762029767,2116.81570256094,4.19526615933344,-6.65509673281357,15.2399454459684,1378.21134974672
8182,17295,16043,"Neotoma","Site 29 (Ritchie, J.C. 1974)","JCR039",68.8,-128.93,213,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.502304751290459,877.467602669382,-10.6937820989061,-29.4093192353696,10.5720364921106,170.975804407064
8183,17296,15296,"Neotoma","Site 29 (Swain unpublished)","AMS029",46.15,-90.63,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.01013043820307,2751.48055911927,4.38639853239987,-12.7323510969708,19.3920019478598,786.952547160978
8184,17297,16615,"Neotoma","Site 3 (Beetham 1958)","NMB003",36,-82.5,1682,"not known","not known","surface sample","Modern","Beetham, N.M. 1958. Pollen studies of forest and bald soils from the mountains of North Carolina. Thesis. Duke University, Durham, North Carolina, USA. 133p.",,13,"temperate deciduous broadleaf forest",1.63464096034556,2350.18057109676,5.43337792158901,-5.01950503924304,14.8438376386713,1508.83302804451
8185,17298,15561,"Neotoma","Site 3 (Delcourt  et al. 1983)","DDD003",36.02,-87.98,110,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",1.10955033382611,5412.96981285065,14.8300542817826,1.33629232086365,26.3952407045797,1278.72045211998
8186,17299,15935,"Neotoma","Site 3 (Delcourt 1978)","HRD003",35.95,-87.55,244,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.22271316200253,5297.9352311111,14.51489104414,2.06660105643665,25.3615287078775,1381.2596601717
8187,17300,15685,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF027",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8187,17301,15687,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF028",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8187,17302,15684,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF029",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8187,17303,15683,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF030",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8187,17304,15688,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF031",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8187,17305,15686,"Neotoma","Site 3 (Elliot-Fisk et al. 1982)","DLEF032",58.37,-63.55,560,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.98621941007195,589.752684756267,-7.38096247799273,-22.392072535001,7.56169412616577,752.047660599156
8188,17306,16571,"Neotoma","Site 3 (Heide unpublished)","KMH006",45.28,-93.9,305,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.84867770643977,3407.763652975,6.73190731837405,-11.7562871943834,22.3306867259097,724.217721004674
8189,17307,15424,"Neotoma","Site 3 (Heusser 1978)","CJH003",44.55,-124.02,46,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.89538537097198,3899.31337664876,10.6830503469829,5.69953335557999,16.3322881055282,1577.63632535641
8190,17308,16152,"Neotoma","Site 3 (Jensen 1998)","JJ003M",26.354444,-80.345833,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924269313386192,8690.83547978747,23.8105081638013,18.3555375862645,28.2350857466277,1335.16204624531
8191,17309,16894,"Neotoma","Site 3 (Mack, Bryant, and Pell 1978)","RNM081",46.8,-116.88,1372,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.9003886277276,2624.71530016012,6.39336477632762,-3.84736061953021,18.0772249829184,790.035326009252
8192,17310,16051,"Neotoma","Site 3 (McAndrews unpublished)","JHM004",49.47,-91.32,438,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.01987027753936,2292.04714767656,1.21447412844853,-18.4032503920707,17.8485626316159,721.973315037496
8193,17311,16786,"Neotoma","Site 3 (Mott unpublished)","RJM049",49.22,-80.7,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24744540525799,2151.17215306344,0.628781606038799,-18.319372740957,16.932256490321,837.290831532216
8194,17312,15968,"Neotoma","Site 3 (Railton 1973)","JBR003",44.12,-66.07,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.74130899255757,2853.27144824345,6.62426585788966,-5.63449087329602,18.3156856485997,1364.22062795589
8195,17313,16005,"Neotoma","Site 3 (Ritchie, J.C. 1974)","JCR001",68.93,-132.27,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.493645426338246,944.423610171596,-10.4967910435946,-28.4581352897501,11.4928711939273,167.107685909901
8196,17314,17146,"Neotoma","Site 3 (Short unpublished)","SKS176",58.08,-68.42,30,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.26815821115784,943.453308932688,-6.04769053465736,-23.2667668412802,9.98962069036134,506.653025262366
8196,17315,17147,"Neotoma","Site 3 (Short unpublished)","SKS177",58.08,-68.42,30,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.26815821115784,943.453308932688,-6.04769053465736,-23.2667668412802,9.98962069036134,506.653025262366
8196,17316,17148,"Neotoma","Site 3 (Short unpublished)","SKS178",58.08,-68.42,30,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.26815821115784,943.453308932688,-6.04769053465736,-23.2667668412802,9.98962069036134,506.653025262366
8197,17317,16738,"Neotoma","Site 3 (Skinner 1973)","RGS007",51.38,-84.72,189,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.08055735700479,2055.20954520709,-0.475407567575921,-20.782288631999698,17.1310101666418,683.117143225751
8198,17318,15270,"Neotoma","Site 3 (Swain unpublished)","AMS003",43.33,-88.2,259,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.934868562263703,3388.90871581908,7.43703380089239,-8.85791346896982,21.7582638424637,806.104570216521
8199,17319,11846,"Neotoma","Site 3, Georgian Bay, Canadian Hydrographic Service","AT1966-3",45.337,-80.745,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07778919689048,2902.01243206311,5.64930271038256,-9.70712106320337,19.4726463756243,882.362025911917
8200,17320,15588,"Neotoma","Site 30 (Delcourt  et al. 1983)","DDD030",31.4,-83.33,94,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.978859456992709,6744.97618309951,18.4793868030123,8.32821753979875,27.1277233418915,1252.89451938868
8201,17321,15451,"Neotoma","Site 30 (Heusser 1978)","CJH030",44.4,-122.45,366,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.48416915232801,3720.73315028123,10.1937894528253,3.00684449617857,18.3393438265794,1308.99194072255
8202,17322,16182,"Neotoma","Site 30 (Jensen 1998)","JJ030M",26.320556,-80.326389,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924097444191354,8693.02140337683,23.816496995553,18.3668751013614,28.2365372372854,1335.43431772421
8203,17323,16923,"Neotoma","Site 30 (Mack, Bryant, and Pell 1978)","RNM110",46.28,-117.55,1402,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.656710192807724,2830.83569364586,7.27234234570729,-2.65149502896936,18.8886978485369,600.439046740772
8204,17324,16813,"Neotoma","Site 30 (Mott unpublished)","RJM080",47.92,-67.75,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.57348472858306,2207.43662704765,2.35547568704509,-13.6346834251858,17.110961474136,1092.84275164758
8205,17325,15995,"Neotoma","Site 30 (Railton 1973)","JBR030",48.95,-55.7,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.75175097172852,2119.13898365195,3.97756884709472,-7.47534504487814,15.790081239558,1097.83041413204
8206,17326,15297,"Neotoma","Site 30 (Swain unpublished)","AMS030",46.35,-91.35,381,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.970535547481562,2780.58843451227,4.47778965314309,-12.9951501273415,19.4629684929855,755.260464768133
8207,17327,15589,"Neotoma","Site 31 (Delcourt  et al. 1983)","DDD031",31.21,-82.85,61,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.987169234160129,6952.91556994107,19.0490837532632,9.37508215369873,27.2557530968215,1273.23408026667
8208,17328,15452,"Neotoma","Site 31 (Heusser 1978)","CJH031",44.4,-122.35,1219,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.05760455843133,2679.99871635724,7.14145093874951,-1.28501800358111,16.9588669716706,951.738825664724
8209,17329,16183,"Neotoma","Site 31 (Jensen 1998)","JJ031M",26.311111,-80.342778,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.923749399458109,8693.87030110489,23.8188227427531,18.3707398534223,28.2375593092252,1335.13004163088
8210,17330,16924,"Neotoma","Site 31 (Mack, Bryant, and Pell 1978)","RNM111",46.23,-117.57,1585,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.658769556276215,2628.69392883653,6.58690486064188,-3.11835164593648,18.2567943132857,600.287293714181
8211,17331,15996,"Neotoma","Site 31 (Railton 1973)","JBR031",49.03,-54.97,122,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.92566869709014,2100.61029629685,3.88894849827753,-7.53671026292265,15.6741236272335,1204.43569045462
8212,17332,15298,"Neotoma","Site 31 (Swain unpublished)","AMS031",46.05,-91.72,344,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.948662986183957,2937.12485534518,5.11080577779044,-12.4636669340157,20.1529702596983,753.663846804576
8213,17333,11852,"Neotoma","Site 31, Georgian Bay, Canadian Hydrographic Service","AT1966-31",45.22,-80.535,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07667063844118,2908.63378868457,5.67105639753564,-9.7122838796177,19.5372864100018,883.559453075148
8214,17334,15590,"Neotoma","Site 32 (Delcourt  et al. 1983)","DDD032",31.75,-81.38,5,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.00930498467153,7063.41707233014,19.351827595425,9.95895032673206,27.5412211205547,1283.77327616323
8215,17335,15453,"Neotoma","Site 32 (Heusser 1978)","CJH032",44.35,-122.25,1219,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.04170284480474,2682.63328461999,7.14787830520889,-1.29123198067144,16.9746583108482,938.717854725305
8216,17336,16925,"Neotoma","Site 32 (Mack, Bryant, and Pell 1978)","RNM112",46.18,-117.55,1372,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.608366306802474,2870.91687740003,7.40943411409392,-2.55165666319822,19.0361494169987,559.299337474289
8217,17337,15997,"Neotoma","Site 32 (Railton 1973)","JBR032",49.15,-56.08,183,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.9694371991559,2002.73875699316,3.24747317557414,-8.64155068459838,15.4467106188531,1219.96365411137
8218,17338,15299,"Neotoma","Site 32 (Swain unpublished)","AMS032",46.22,-91.8,326,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.939260161956395,2960.11846873222,5.18682443228006,-12.4870315766806,20.2498418130979,746.009435125526
8219,17339,15591,"Neotoma","Site 33 (Delcourt  et al. 1983)","DDD033",32.4,-82.3,64,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.95571460109854,6705.86348211987,18.3722287181366,8.27371607395739,27.1750874463631,1196.30648648692
8220,17340,15454,"Neotoma","Site 33 (Heusser 1978)","CJH033",44.4,-122.2,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.06646420100994,2922.2569842969,7.93824839233204,-0.420064043274932,17.515072642314,958.936653152022
8221,17341,16926,"Neotoma","Site 33 (Mack, Bryant, and Pell 1978)","RNM113",46.13,-117.52,1737,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.686073639351559,2463.95228121376,5.9937854490996,-3.58548004899709,17.6958948206223,622.470378294983
8221,17342,16927,"Neotoma","Site 33 (Mack, Bryant, and Pell 1978)","RNM114",46.13,-117.52,1737,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.686073639351559,2463.95228121376,5.9937854490996,-3.58548004899709,17.6958948206223,622.470378294983
8222,17343,15998,"Neotoma","Site 33 (Railton 1973)","JBR033",49.38,-57.58,305,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.14617228142751,1896.49292188999,2.6611769071603,-9.44772556741996,15.0189118618326,1316.90750085266
8223,17344,16036,"Neotoma","Site 33 (Ritchie, J.C. 1974)","JCR032",69.68,-129.38,38,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.399440840750959,662.525934579883,-11.8794421656719,-29.3269949905737,8.66968119455395,121.45867910138
8224,17345,15300,"Neotoma","Site 33 (Swain unpublished)","AMS033",45.63,-91.58,442,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.972317448226413,2891.04586627707,4.872512561523,-12.5947181717563,20.0483771732378,775.419433780232
8225,17346,15592,"Neotoma","Site 34 (Delcourt  et al. 1983)","DDD034",33.46,-82.68,168,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.01819676977572,6186.88303192465,16.9503644710264,6.20978143972536,26.5031898753163,1236.4685272618
8226,17347,15455,"Neotoma","Site 34 (Heusser 1978)","CJH034",44.42,-122.15,1219,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",0.947712828783168,2701.71691549635,7.17477717466016,-1.44573537935021,17.1700692827069,856.262471799265
8227,17348,16928,"Neotoma","Site 34 (Mack, Bryant, and Pell 1978)","RNM115",48.18,-118.55,1372,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",8,"cool evergreen needleleaf forest",1.19396600656448,1715.42428964643,2.14323032060106,-8.79694515258503,13.5237597408405,883.289901791637
8228,17349,15999,"Neotoma","Site 34 (Railton 1973)","JBR034",49.93,-57.77,3,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.78262355060035,1788.32574027258,2.00031384565555,-10.4345475599782,14.0327722695972,1045.70281286415
8229,17350,16044,"Neotoma","Site 34 (Ritchie, J.C. 1974)","JCR040",69.58,-129.97,12,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.394828265962997,721.94780652283,-11.5203851213504,-29.0556985568568,9.26012111419616,122.796628208581
8230,17351,15301,"Neotoma","Site 34 (Swain unpublished)","AMS034",45.82,-91.47,396,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.960911897241865,2910.82439934788,4.9847953462293,-12.5378950083868,20.0773039636451,765.043241668975
8231,17352,15593,"Neotoma","Site 35 (Delcourt  et al. 1983)","DDD035",33.55,-83.25,149,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.986139203115888,6277.54648100486,17.1987574822051,6.42739085023185,26.7091183201763,1201.97952882159
8232,17353,15456,"Neotoma","Site 35 (Heusser 1978)","CJH035",44.4,-122.1,1402,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",0.838666123954418,2530.49821134756,6.52946064160363,-2.31018147662842,16.8776186988263,761.850810406288
8233,17354,16929,"Neotoma","Site 35 (Mack, Bryant, and Pell 1978)","RNM116",48.68,-119.95,2134,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",15,"cold evergreen needleleaf forest",2.28706359166612,580.274648903484,-2.98306094896553,-11.0449881003121,6.48907089498427,1388.52136906791
8234,17355,16000,"Neotoma","Site 35 (Railton 1973)","JBR035",50.22,-57.6,6,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.78765677214537,1759.25659159003,1.93110527078803,-10.3803879534952,13.9094812452327,1037.27400738611
8235,17356,16037,"Neotoma","Site 35 (Ritchie, J.C. 1974)","JCR033",69.68,-130.92,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.424206602252467,828.585338548392,-10.9354194638124,-28.72672524377,10.2980492270861,137.229972490274
8236,17357,15302,"Neotoma","Site 35 (Swain unpublished)","AMS035",45.9,-90.97,320,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.964058796380005,2885.97149341298,4.96999983070359,-12.3806934035342,19.9092986563694,762.450261729388
8237,17358,15594,"Neotoma","Site 36 (Delcourt  et al. 1983)","DDD036",32.62,-84.25,119,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.999241516990795,6601.58544580722,18.086535467965,7.61530058041837,27.0542768633187,1257.60674386792
8238,17359,15457,"Neotoma","Site 36 (Heusser 1978)","CJH036",44.4,-122.05,1524,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",0.763487485322297,2423.9178855536,6.09947970953462,-2.88760427564623,16.6840709930534,695.936686352117
8239,17360,16001,"Neotoma","Site 36 (Railton 1973)","JBR036",50.73,-57.27,15,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.83895888515813,1724.90301120851,1.79852965229096,-10.4747922382107,13.734597295772,1052.4291566091
8240,17361,16023,"Neotoma","Site 36 (Ritchie, J.C. 1974)","JCR019",69.62,-131.4,27,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.441774625723595,881.751886503571,-10.6698845184081,-28.5512195218302,10.8187152073608,145.603203348284
8241,17362,15303,"Neotoma","Site 36 (Swain unpublished)","AMS036",45.83,-90.62,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.00696434564397,2767.79639931341,4.44469955550611,-12.6851385618952,19.4725124423235,789.362137807143
8242,17363,15595,"Neotoma","Site 37 (Delcourt  et al. 1983)","DDD037",36.11,-80.17,268,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",1.01539353953181,5270.58967541999,14.4399717134794,2.85331412845593,24.9249750322023,1132.17512365523
8243,17364,15458,"Neotoma","Site 37 (Heusser 1978)","CJH037",44.42,-121.95,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.0364147200892,2923.79368628305,7.93191623749097,-0.504707894210796,17.5792297622162,931.713566829806
8244,17365,16931,"Neotoma","Site 37 (Mack, Bryant, and Pell 1978)","RNM117",48.55,-119.93,1890,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",17,"temperate evergreen needleleaf open woodland",1.88220356790143,900.823441670036,-1.0770499488404,-9.61775733633252,8.60258844388377,1220.50294935952
8244,17366,16930,"Neotoma","Site 37 (Mack, Bryant, and Pell 1978)","RNM118",48.55,-119.93,1890,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",17,"temperate evergreen needleleaf open woodland",1.88220356790143,900.823441670036,-1.0770499488404,-9.61775733633252,8.60258844388377,1220.50294935952
8245,17367,16002,"Neotoma","Site 37 (Railton 1973)","JBR037",51.33,-55.63,107,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.99509795951772,1474.85391364053,0.930087301374811,-10.7503161103109,12.2635177761116,1091.65498804995
8246,17368,16024,"Neotoma","Site 37 (Ritchie, J.C. 1974)","JCR020",69.6,-131.57,27,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.44532969631667,886.898985202205,-10.6552824123878,-28.5418368210857,10.8753227282507,147.019911952478
8247,17369,15304,"Neotoma","Site 37 (Swain unpublished)","AMS037",45.6,-90.3,472,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.0141638617321,2726.65179397336,4.27171957565128,-12.7638016744367,19.3030521377586,793.570174850997
8248,17370,15596,"Neotoma","Site 38 (Delcourt  et al. 1983)","DDD038",36.07,-79.05,215,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.00808929843847,5236.61110167618,14.3468797306197,2.61563571624947,24.992696125047,1119.42796880388
8249,17371,15459,"Neotoma","Site 38 (Heusser 1978)","CJH038",44.42,-121.9,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.02945626589211,2924.50641685903,7.93175074330263,-0.521423957521177,17.5940489933369,925.560267956614
8250,17372,16932,"Neotoma","Site 38 (Mack, Bryant, and Pell 1978)","RNM119",46.67,-117.27,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.505161425814101,3586.82580734664,9.64901382595441,-1.253394958459,21.2007482963361,468.292206411536
8251,17373,16003,"Neotoma","Site 38 (Railton 1973)","JBR038",48.67,-58.18,213,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.14453866183293,1988.8187143333,3.33662693618829,-8.31781127634354,14.8988348872536,1351.09709593109
8252,17374,16038,"Neotoma","Site 38 (Ritchie, J.C. 1974)","JCR034",69.37,-131.58,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.439074337891346,882.63686764057,-10.6730926736686,-28.5305357357598,10.8382616223591,145.124921742449
8253,17375,15305,"Neotoma","Site 38 (Swain unpublished)","AMS038",45.3,-90.32,472,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.01285064804698,2723.93223395661,4.25798848775957,-12.7734531486684,19.2938992860089,795.265697894274
8254,17376,15597,"Neotoma","Site 39 (Delcourt  et al. 1983)","DDD039",36.01,-78.03,64,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.05329295262606,5559.44646186347,15.231360169489,3.76532080223181,25.7141516772806,1183.36230876766
8255,17377,15460,"Neotoma","Site 39 (Heusser 1978)","CJH039",44.4,-121.8,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.01320803903182,2927.27528658666,7.93568162107181,-0.54990030229759,17.6275068469514,911.719895513982
8256,17378,16933,"Neotoma","Site 39 (Mack, Bryant, and Pell 1978)","RNM120",46.85,-117.12,762,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.570235632104608,3445.76317291596,9.18338273900478,-1.74742876295932,20.7662910874621,521.108552973365
8257,17379,16004,"Neotoma","Site 39 (Railton 1973)","JBR039",48.33,-58.55,37,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",2.01435015303616,2120.87712650775,4.26158878502685,-6.83490302055907,15.516266690424,1297.81192195187
8258,17380,15306,"Neotoma","Site 39 (Swain unpublished)","AMS039",43.6,-88.2,305,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.941958190869542,3298.22329135232,6.89163647264747,-9.90425522227968,21.5676928116478,800.149354332816
8259,17381,15562,"Neotoma","Site 4 (Delcourt  et al. 1983)","DDD004",36.02,-83.42,305,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",1.09957539060729,5140.37544610018,14.0832204002745,1.732374282121,24.9124730067609,1209.56404183021
8260,17382,15936,"Neotoma","Site 4 (Delcourt 1978)","HRD004",36.08,-86.3,213,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.17931065167579,5227.96784857945,14.323199585149201,1.47400663238401,25.4774703976146,1321.8060992591
8261,17383,15689,"Neotoma","Site 4 (Elliot-Fisk et al. 1982)","DLEF033",57.5,-65.25,330,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.64435597322117,872.598851961088,-6.25646961350863,-22.9934701323973,9.82436921771947,672.911763084095
8261,17384,15691,"Neotoma","Site 4 (Elliot-Fisk et al. 1982)","DLEF034",57.5,-65.25,330,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.64435597322117,872.598851961088,-6.25646961350863,-22.9934701323973,9.82436921771947,672.911763084095
8261,17385,15692,"Neotoma","Site 4 (Elliot-Fisk et al. 1982)","DLEF035",57.5,-65.25,330,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.64435597322117,872.598851961088,-6.25646961350863,-22.9934701323973,9.82436921771947,672.911763084095
8261,17386,15690,"Neotoma","Site 4 (Elliot-Fisk et al. 1982)","DLEF036",57.5,-65.25,330,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",15,"cold evergreen needleleaf forest",1.64435597322117,872.598851961088,-6.25646961350863,-22.9934701323973,9.82436921771947,672.911763084095
8262,17387,16572,"Neotoma","Site 4 (Heide unpublished)","KMH007",45.27,-93.88,302,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.84949665906679,3416.91781631946,6.77458290969259,-11.7040700644469,22.3658214571625,725.473774497554
8263,17388,15425,"Neotoma","Site 4 (Heusser 1978)","CJH004",44.6,-123.95,61,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.87101956121607,3890.61848824041,10.6592287349052,5.56535797746397,16.437582788707,1560.19403556211
8264,17389,16153,"Neotoma","Site 4 (Jensen 1998)","JJ004M",26.351389,-80.34,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924309388794588,8690.98799201145,23.8109260055108,18.356429036335,28.2351023600818,1335.2569953823
8265,17390,16895,"Neotoma","Site 4 (Mack, Bryant, and Pell 1978)","RNM082",46.9,-116.9,792,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.599770461587636,3392.57505791445,9.01138257081857,-1.8871208786159,20.6111631682065,546.050716875172
8266,17391,16052,"Neotoma","Site 4 (McAndrews unpublished)","JHM005",50.12,-90.78,422,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.04968508667078,2215.4943350934,0.586914515544764,-19.415409176348,17.6737234113113,724.865749707831
8267,17392,16787,"Neotoma","Site 4 (Mott unpublished)","RJM050",52.73,-83.07,30,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04350847049695,1730.96349718554,-2.06700074621922,-22.5771728418511,15.1258900154197,587.257655274794
8268,17393,15969,"Neotoma","Site 4 (Railton 1973)","JBR004",44.1,-65.78,46,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.74323630774353,2895.41586353492,6.83494314717989,-5.3005592363942,18.3878560276101,1371.03437579337
8269,17394,16006,"Neotoma","Site 4 (Ritchie, J.C. 1974)","JCR002",69.03,-131.77,61,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.482760555295783,943.678224892342,-10.3943707804991,-28.4505098136768,11.4214059211677,164.232242691974
8270,17395,17149,"Neotoma","Site 4 (Short unpublished)","SKS179",58.68,-65.38,660,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.99691099154554,552.15886158867,-7.99328935560279,-23.2155365308804,7.34687914378268,742.48875152176
8270,17396,17150,"Neotoma","Site 4 (Short unpublished)","SKS180",58.68,-65.38,660,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.99691099154554,552.15886158867,-7.99328935560279,-23.2155365308804,7.34687914378268,742.48875152176
8271,17397,15271,"Neotoma","Site 4 (Swain unpublished)","AMS004",43.28,-88.38,305,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.942763016528392,3320.20226849697,6.9827965800999,-9.82247968154382,21.609523412754,809.346302651031
8272,17398,15598,"Neotoma","Site 40 (Delcourt  et al. 1983)","DDD040",36.43,-77.63,30,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.06778503215871,5531.49554685324,15.1547823201459,3.70963838059352,25.6716472220126,1185.65489162876
8273,17399,15461,"Neotoma","Site 40 (Heusser 1978)","CJH040",44.25,-121.75,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",0.985471467038844,2950.98565012394,8.00297146319234,-0.537006025644792,17.7639225595452,892.363676017129
8274,17400,16934,"Neotoma","Site 40 (Mack, Bryant, and Pell 1978)","RNM121",46.27,-117.27,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.498642911646386,3614.35426877376,9.75031915395995,-1.07076128611225,21.2867123827128,466.335514926301
8275,17401,15307,"Neotoma","Site 40 (Swain unpublished)","AMS040",43.87,-88.22,283,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.937332523039409,3219.47215518498,6.68566971859157,-9.69301237237317,21.1726568177186,786.782584625011
8276,17402,15599,"Neotoma","Site 41 (Delcourt  et al. 1983)","DDD041",35.77,-79.15,122,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.02381676706115,5517.28096985913,15.1158382735867,3.56935936122566,25.6322857632559,1157.1671586839
8277,17403,15462,"Neotoma","Site 41 (Heusser 1978)","CJH041",44.2,-121.6,1006,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.901656706019629,2986.62434718098,8.08977111294955,-0.616387143484007,18.0053552413472,823.579567686842
8278,17404,16935,"Neotoma","Site 41 (Mack, Bryant, and Pell 1978)","RNM122",47.45,-117.47,732,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.557013437075231,3353.38796734532,8.82672902491772,-2.35321099726043,20.3763735446791,497.59443725869
8279,17405,15308,"Neotoma","Site 41 (Swain unpublished)","AMS041",43.85,-87.87,229,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.926551235567308,3313.85228739561,7.22705847218448,-8.72451437654511,21.4169520648266,786.446006559319
8280,17406,15600,"Neotoma","Site 42 (Delcourt  et al. 1983)","DDD042",35.91,-78.55,64,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.05150969706298,5608.53428342238,15.3658473518421,3.91634772526461,25.8329909750211,1187.40843207179
8281,17407,15463,"Neotoma","Site 42 (Heusser 1978)","CJH042",44.2,-121.48,914,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.932849679125299,3085.71666954472,8.40161357067718,-0.292381129961803,18.2387125477339,848.93192978593
8282,17408,16936,"Neotoma","Site 42 (Mack, Bryant, and Pell 1978)","RNM123",47,-117.2,762,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",22,"steppe",0.572565183232983,3422.09195959988,9.09921313166416,-1.86275512836563,20.6788038807916,520.734678010197
8283,17409,16015,"Neotoma","Site 42 (Ritchie, J.C. 1974)","JCR011",69.27,-134.73,24,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.590485398435465,1016.10281964796,-10.2637099619474,-28.3061873111384,12.208661574545,202.885065093694
8284,17410,15309,"Neotoma","Site 42 (Swain unpublished)","AMS042",44.07,-87.73,223,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.933297330198269,3289.71341135111,7.18259909261287,-8.5859349203578,21.2892641258747,786.867251056215
8285,17411,15601,"Neotoma","Site 43 (Delcourt  et al. 1983)","DDD043",35.94,-76.53,3,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.1125529014179,5790.89343801667,15.8654614740183,5.08472830338717,25.8208638178087,1257.10578984652
8286,17412,15464,"Neotoma","Site 43 (Heusser 1978)","CJH043",44.2,-121.35,914,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.90169069563701,3088.61575972855,8.4017018842153,-0.361192217721559,18.3019196031224,820.884625348751
8287,17413,16016,"Neotoma","Site 43 (Ritchie, J.C. 1974)","JCR012",69.33,-134.57,18,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.587693759587265,1015.14882403119,-10.2728620296277,-28.2869217081667,12.2018437156094,201.585494129423
8288,17414,15310,"Neotoma","Site 43 (Swain unpublished)","AMS043",44.15,-88.07,250,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.934124035689121,3245.78922986957,6.8808620551953,-9.24533238177864,21.210117880969,783.341993640462
8289,17415,15602,"Neotoma","Site 44 (Delcourt  et al. 1983)","DDD044",34.73,-76.85,8,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.11366724234335,6060.07950584206,16.6029575502522,6.09949473004715,26.2152526394992,1299.44568006435
8290,17416,15465,"Neotoma","Site 44 (Heusser 1978)","CJH044",44.2,-121.25,914,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.821070319269947,3069.22675645601,8.29511417534228,-0.779535934785106,18.4801530382432,742.200438246237
8291,17417,16025,"Neotoma","Site 44 (Ritchie, J.C. 1974)","JCR021",69.33,-134.22,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.575806869675054,1008.01347215273,-10.3309028624943,-28.3194576964764,12.1381770836811,197.036884300027
8292,17418,15311,"Neotoma","Site 44 (Swain unpublished)","AMS044",44.28,-87.73,226,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.937499205248276,3209.62737408241,6.84070052343353,-8.93619347627172,20.9937172847531,780.642807875356
8293,17419,15603,"Neotoma","Site 45 (Delcourt  et al. 1983)","DDD045",34.5,-79.33,41,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.04531686348192,6165.48901852949,16.8917507356972,6.1390753835983,26.6418002462085,1236.51493206677
8294,17420,15466,"Neotoma","Site 45 (Heusser 1978)","CJH045",44.2,-121.15,914,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.766734388075306,3086.50438382103,8.33130870786366,-0.855974105328588,18.6215186325939,695.155711304285
8295,17421,16017,"Neotoma","Site 45 (Ritchie, J.C. 1974)","JCR013",69.38,-134.45,12,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.585065719019941,1013.49710801121,-10.2845144057412,-28.2662218154857,12.1889691330158,200.328837059633
8296,17422,15312,"Neotoma","Site 45 (Swain unpublished)","AMS045",44.42,-87.87,244,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.938340811615617,3176.38264308227,6.62214534911965,-9.3876665387009,20.9221358127739,777.28296215815806
8297,17423,15604,"Neotoma","Site 46 (Delcourt  et al. 1983)","DDD046",33.55,-81.82,61,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.96464675792965,6520.27703772254,17.8637727060892,7.44848618957316,27.0506646670178,1182.04556867452
8298,17424,15467,"Neotoma","Site 46 (Heusser 1978)","CJH046",44.25,-121,1097,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",22,"steppe",0.657227016368284,2917.49068587817,7.76437542521612,-1.49560949688661,18.2686758683953,602.791753687558
8299,17425,16026,"Neotoma","Site 46 (Ritchie, J.C. 1974)","JCR022",69.48,-134.43,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.58421925450189,1009.44355753849,-10.30774591016,-28.2659232477147,12.1550289457631,199.49902758604
8300,17426,15313,"Neotoma","Site 46 (Swain unpublished)","AMS046",45.57,-89.7,472,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02141726126102,2665.49524366737,4.06126769598006,-12.7684687475434,18.9908635350088,792.589786293056
8301,17427,15605,"Neotoma","Site 47 (Delcourt  et al. 1983)","DDD047",33.21,-80.37,15,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.02321901005649,6645.06494309519,18.205657378343,8.08280649207988,27.1785544632929,1254.7279905162
8302,17428,15468,"Neotoma","Site 47 (Heusser 1978)","CJH047",45.5,-121.92,1219,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.43802159898963,2542.9915254191,6.59418410349736,-2.13393982912941,16.6075436792651,1212.23591522023
8303,17429,16018,"Neotoma","Site 47 (Ritchie, J.C. 1974)","JCR014",69.57,-134.42,6,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.58168627997581,1006.0350342693,-10.3249665848411,-28.2269281340494,12.1280188863058,197.981384970798
8304,17430,15314,"Neotoma","Site 47 (Swain unpublished)","AMS047",45.42,-89.48,503,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.03003664731553,2601.43380533249,3.77535098930631,-13.0063365245198,18.7074955991852,795.023847980923
8305,17431,15606,"Neotoma","Site 48 (Delcourt  et al. 1983)","DDD048",33.06,-79.95,5,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.03543364617559,6678.96166710905,18.2985251153673,8.22168406434658,27.2479263628438,1272.07153884101
8306,17432,15469,"Neotoma","Site 48 (Heusser 1978)","CJH048",45.55,-121.9,3048,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.23055823443455,1346.25602591849,-0.355330110610333,-11.4125206004732,13.2809884461091,1019.31475439181
8306,17433,15470,"Neotoma","Site 48 (Heusser 1978)","CJH049",45.55,-121.9,3048,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.23055823443455,1346.25602591849,-0.355330110610333,-11.4125206004732,13.2809884461091,1019.31475439181
8306,17434,15471,"Neotoma","Site 48 (Heusser 1978)","CJH050",45.55,-121.9,3048,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.23055823443455,1346.25602591849,-0.355330110610333,-11.4125206004732,13.2809884461091,1019.31475439181
8307,17435,15315,"Neotoma","Site 48 (Swain unpublished)","AMS048",45.13,-90.65,396,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.976096690445854,2943.02061868514,5.17497133717743,-12.0973399929748,20.2060626414112,788.035282042135
8308,17436,16560,"Neotoma","Site 488 (Gajewski 1983)","KG054",45.12,-69.98,363,"not known","not known","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.55557037365472,2519.19256260694,4.13935411263893,-11.0797903369709,18.0398988613413,1156.55584527119
8309,17437,16561,"Neotoma","Site 489 (Gajewski 1983)","KG055",44.13,-70.1,74,"not known","not known","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.45139969312938,3097.30268451495,6.99773527586359,-7.14061181621083,20.1525357415782,1160.07058209633
8310,17438,15607,"Neotoma","Site 49 (Delcourt  et al. 1983)","DDD049",33.72,-78.88,6,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.06379737737925,6473.38501200898,17.7353014027643,7.41913973706055,27.0291066382286,1285.6832741411
8311,17439,15472,"Neotoma","Site 49 (Heusser 1978)","CJH051",45.55,-121.89,2438,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.30013176825947,1653.44356862855,1.96009910982422,-8.26509040295397,14.3793856129225,1083.56701879814
8312,17440,16019,"Neotoma","Site 49 (Ritchie, J.C. 1974)","JCR015",69.53,-134.05,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.569745742344835,996.547380759762,-10.3960262397862,-28.2973387907073,12.0401867428697,193.623575410192
8313,17441,15316,"Neotoma","Site 49 (Swain unpublished)","AMS049",45.57,-92,381,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.930880752451305,3027.71791003585,5.38908602504098,-12.3814731117347,20.6013011681916,753.485522288476
8314,17442,15563,"Neotoma","Site 5 (Delcourt  et al. 1983)","DDD005",34.63,-81.92,183,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.03231978263584,5978.72666691279,16.380073060035,5.40446484682745,26.2527682069247,1228.42255968951
8315,17443,15937,"Neotoma","Site 5 (Delcourt 1978)","HRD005",35.43,-85.12,472,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.29646292388261,5066.60918703154,13.8811210603604,2.11213863874849,24.2417387443825,1447.11621495694
8316,17444,15700,"Neotoma","Site 5 (Elliot-Fisk et al. 1982)","DLEF044",58.43,-65.1,155,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.55253271969694,851.209027046824,-6.1228317171793,-22.5195970987794,9.3909393524849,615.931882104421
8317,17445,16573,"Neotoma","Site 5 (Heide unpublished)","KMH008",45.35,-94.02,301,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.848950948094104,3422.5081456316602,6.79629538202539,-11.6814393774341,22.393214361205,724.854329981353
8318,17446,15426,"Neotoma","Site 5 (Heusser 1978)","CJH005",44.7,-123.9,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.83656278652703,3868.48256776979,10.5985823774515,5.33784135401799,16.5739843118742,1535.58185165634
8319,17447,16154,"Neotoma","Site 5 (Jensen 1998)","JJ005M",26.352778,-80.307778,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,4,"warm-temperate evergreen and mixed forest",0.924764985775935,8690.51506922838,23.8096303266531,18.3547934309659,28.2340987096198,1335.81275589329
8320,17448,16896,"Neotoma","Site 5 (Mack, Bryant, and Pell 1978)","RNM083",46.8,-116.85,1372,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.900889681073319,2623.78468071042,6.38764029640258,-3.85999567517387,18.0718308913279,790.328522634807
8321,17449,16053,"Neotoma","Site 5 (McAndrews unpublished)","JHM006",50.23,-90.67,453,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.05870167684539,2194.71217844508,0.718495317775319,-18.9309612842978,17.3988827806132,730.757500121637
8322,17450,16788,"Neotoma","Site 5 (Mott unpublished)","RJM051",50,-82.2,91,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.15907680717192,2009.62399890264,-0.454710530648528,-20.2696695938437,16.5364986757242,728.273759934288
8323,17451,15970,"Neotoma","Site 5 (Railton 1973)","JBR005",44.82,-65.45,91,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.75103505336115,2731.17511834835,5.9415611080599,-6.80772269071045,18.1909010591827,1340.74184118391
8324,17452,16007,"Neotoma","Site 5 (Ritchie, J.C. 1974)","JCR003",69.13,-133.23,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.549598570802401,993.827252179539,-10.3471216544326,-28.4248684915089,11.9832211529663,188.427978271284
8325,17453,17151,"Neotoma","Site 5 (Short unpublished)","SKS181",63.75,-68.5,30,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.2509531318122,571.5380888036,-9.22565474136828,-25.8414151578679,7.23688507675542,401.366004563951
8325,17454,17152,"Neotoma","Site 5 (Short unpublished)","SKS182",63.75,-68.5,30,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.2509531318122,571.5380888036,-9.22565474136828,-25.8414151578679,7.23688507675542,401.366004563951
8325,17455,17153,"Neotoma","Site 5 (Short unpublished)","SKS183",63.75,-68.5,30,"not known","not known","surface sample","Modern","Unpublished data",,31,"tundra",1.2509531318122,571.5380888036,-9.22565474136828,-25.8414151578679,7.23688507675542,401.366004563951
8326,17456,15272,"Neotoma","Site 5 (Swain unpublished)","AMS005",43.15,-88.43,274,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.941055670387388,3433.07055755774,7.55338683582574,-8.96519588951924,21.9275862736862,819.706291733548
8327,17457,11847,"Neotoma","Site 5, Georgian Bay, Canadian Hydrographic Service","AT1966-5",45.252,-80.737,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.07713535904144,2904.47543656326,5.66598954648523,-9.67081602009366,19.4781677898304,883.144545787584
8328,17458,15608,"Neotoma","Site 50 (Delcourt  et al. 1983)","DDD050",32.93,-79.72,3,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.04228722835547,6691.14253293944,18.331897350519,8.2637236031681,27.2840354900776,1283.66296162952
8329,17459,15473,"Neotoma","Site 50 (Heusser 1978)","CJH052",45.55,-121.88,2438,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.29673217968789,1653.03332243384,1.9608897783136,-8.25914177910131,14.3740956469778,1080.71241499385
8330,17460,16027,"Neotoma","Site 50 (Ritchie, J.C. 1974)","JCR023",69.45,-133.88,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.567012211631602,995.133770859023,-10.4014994279185,-28.2961205145087,12.0268244579076,192.874694844037
8331,17461,15317,"Neotoma","Site 50 (Swain unpublished)","AMS050",42.1,-78.75,427,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.20282704287798,3320.09821577555,8.04230414387233,-5.37452943759252,20.5048405957864,1020.63842149545
8332,17462,15609,"Neotoma","Site 51 (Delcourt  et al. 1983)","DDD051",34.51,-93.27,175,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.981604962900696,6079.32848275785,16.6556944733092,4.33145852852752,27.4703117654946,1254.33711249971
8333,17463,15474,"Neotoma","Site 51 (Heusser 1978)","CJH053",45.55,-121.87,2743,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.25628468964692,1491.60530305522,0.804271029860795,-9.8188542621851,13.8112881443099,1043.79887301398
8334,17464,15318,"Neotoma","Site 51 (Swain unpublished)","AMS051",41.75,-79.17,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.23603123719505,3356.85162884199,8.18871219843977,-5.24495633998385,20.5474635850739,1055.7306415715
8335,17465,15610,"Neotoma","Site 52 (Delcourt  et al. 1983)","DDD052",34.54,-92.68,131,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.987223786554819,6119.25565551711,16.7650839877181,4.35729043884617,27.6096743648605,1273.51933484408
8336,17466,15475,"Neotoma","Site 52 (Heusser 1978)","CJH054",45.12,-121.86,2438,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",0.606292926767715,1762.07169030194,2.50794862035957,-7.66617218504681,15.0556886331067,539.607848935938
8337,17467,15319,"Neotoma","Site 52 (Swain unpublished)","AMS052",41.62,-78.75,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24971985235848,3326.06915183177,8.08825478700616,-5.3173551712714,20.3786793123195,1062.03109444402
8338,17468,15611,"Neotoma","Site 53 (Delcourt  et al. 1983)","DDD053",33.48,-94.42,105,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.947933205565258,6441.94162622785,17.6491551403503,5.82338608818447,27.9866772154469,1211.98560537069
8339,17469,15476,"Neotoma","Site 53 (Heusser 1978)","CJH055",45.52,-121.85,2438,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.26575147006038,1653.86790753227,1.97122198349633,-8.23081405594177,14.3757729822133,1056.62019142735
8340,17470,16028,"Neotoma","Site 53 (Ritchie, J.C. 1974)","JCR024",68.32,-132.47,213,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.591730975892126,1134.81354513637,-9.405948718325,-28.981737205483,13.0336152945832,219.29511362034
8341,17471,15320,"Neotoma","Site 53 (Swain unpublished)","AMS053",41.73,-78.42,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.22139281344856,3283.19496158849,7.91860171633297,-5.50778417535704,20.2328503783315,1032.12155592704
8342,17472,15612,"Neotoma","Site 54 (Delcourt  et al. 1983)","DDD054",33.37,-93.48,94,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.991310723071436,6431.43072003089,17.6203581370709,5.84313598307322,27.8754328783316,1278.03634240481
8343,17473,16020,"Neotoma","Site 54 (Ritchie, J.C. 1974)","JCR016",68.42,-132.38,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.528732747348284,1003.06399067003,-10.1637954099611,-28.3725243395999,12.0090530611203,184.378448862847
8344,17474,15321,"Neotoma","Site 54 (Swain unpublished)","AMS054",41.83,-77.95,579,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.21666358980555,3154.88739227404,7.42358241242684,-6.0398404033461,19.7074561668736,1013.01193359485
8345,17475,15613,"Neotoma","Site 55 (Delcourt  et al. 1983)","DDD055",33.11,-92.32,34,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.05181760072864,6580.71901527266,18.0293671651306,6.51324166411344,27.9037751351153,1358.96500211517
8346,17476,16039,"Neotoma","Site 55 (Ritchie, J.C. 1974)","JCR035",68.43,-131.23,183,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.528450084345284,1043.32599417184,-9.79101279890857,-28.9200538944404,12.1849452859061,189.983634900098
8347,17477,15322,"Neotoma","Site 55 (Swain unpublished)","AMS055",41.72,-77.77,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1797817323086,3233.28029842716,7.72120586430018,-5.73002545674603,20.0582249678892,991.646052600865
8348,17478,15614,"Neotoma","Site 56 (Delcourt  et al. 1983)","DDD056",33.01,-91.63,34,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.06977279142046,6530.73690867626,17.8924298867843,6.27138690985538,27.8050784919727,1378.66124777271
8349,17479,16040,"Neotoma","Site 56 (Ritchie, J.C. 1974)","JCR036",68.53,-130.9,61,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.447552692111807,893.899956450394,-10.5420353215918,-28.5403440757453,10.8887453962326,151.376209145086
8350,17480,15323,"Neotoma","Site 56 (Swain unpublished)","AMS056",41.87,-77.05,549,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.13714849354528,3152.50234965484,7.39783749239287,-6.13661964351187,19.7624605940741,945.537366746339
8351,17481,15615,"Neotoma","Site 57 (Delcourt  et al. 1983)","DDD057",32.53,-92.33,46,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.06104854044796,6653.17253822961,18.2278699677524,6.9589394732971,27.8638565496668,1373.53324583774
8352,17482,16041,"Neotoma","Site 57 (Ritchie, J.C. 1974)","JCR037",68.58,-131.18,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.431359606181723,874.330583001198,-10.6477079718866,-28.5383021848595,10.7254023651929,144.353522524531
8353,17483,15324,"Neotoma","Site 57 (Swain unpublished)","AMS057",41.73,-77.3,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1352349248337399,3309.97365005073,7.99552323591354,-5.52041315211182,20.4121728675381,960.875626644974
8354,17484,15616,"Neotoma","Site 58 (Delcourt  et al. 1983)","DDD058",32.58,-93.2,91,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.961756722544774,6576.17715813728,18.0169237209241,6.51416350588087,28.0053013465182,1242.33917175791
8355,17485,16012,"Neotoma","Site 58 (Ritchie, J.C. 1974)","JCR008",63.53,-133.53,91,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.422698782614198,2529.27919542457,0.890044860760973,-23.0876096956092,18.6241039486344,227.738786213904
8356,17486,15325,"Neotoma","Site 58 (Swain unpublished)","AMS058",41.88,-76.72,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.12641239288111,3271.73488406704,7.81638781827297,-5.82076087905445,20.3245645716674,947.29382713725
8357,17487,15617,"Neotoma","Site 59 (Delcourt  et al. 1983)","DDD059",32.49,-94.37,91,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.944180277648298,6642.52546309725,18.1986998988966,6.80735992354796,28.0639254608411,1215.92894143266
8358,17488,16029,"Neotoma","Site 59 (Ritchie, J.C. 1974)","JCR025",67.33,-140.33,290,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.472315680542672,812.963888755474,-9.6280532607152,-25.9034035832417,9.72651363626819,161.615027525065
8359,17489,15326,"Neotoma","Site 59 (Swain unpublished)","AMS059",41.9,-76.23,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.16983670762706,3268.46002315422,7.77374438293742,-5.96942265530366,20.3667213305252,983.932669902605
8360,17490,15564,"Neotoma","Site 6 (Delcourt  et al. 1983)","DDD006",34.53,-82.82,192,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.05672869669393,6012.68051217741,16.4730972936367,5.48442214270484,26.3169755329316,1260.39570537713
8361,17491,15938,"Neotoma","Site 6 (Delcourt 1978)","HRD006",36.23,-84.1,305,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.15198181584405,5055.90713577164,13.8518003719771,1.331149418682,24.8007741161362,1255.59946700555
8362,17492,15702,"Neotoma","Site 6 (Elliot-Fisk et al. 1982)","DLEF046",58.47,-65.17,155,"not known","not known","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.55321167824909,850.333133704681,-6.12689413670678,-22.5190729102791,9.38334468786844,615.5823513228
8363,17493,16574,"Neotoma","Site 6 (Heide unpublished)","KMH009",45.33,-93.05,270,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.875425646990442,3435.15882871895,6.94530464385513,-11.330053033186,22.374291016748,743.543197796501
8364,17494,15427,"Neotoma","Site 6 (Heusser 1978)","CJH006",44.5,-123.8,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.80370668529095,3894.31576022419,10.6693582471896,5.34695267482728,16.7278282420337,1520.14122282722
8365,17495,16156,"Neotoma","Site 6 (Jensen 1998)","JJ006M",26.261389,-80.333056,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.92461428508573,8725.54757638589,23.9056097983175,18.5239097986023,28.2711562714255,1338.82996262772
8365,17496,16155,"Neotoma","Site 6 (Jensen 1998)","JJ006S",26.261389,-80.333056,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.92461428508573,8725.54757638589,23.9056097983175,18.5239097986023,28.2711562714255,1338.82996262772
8366,17497,16897,"Neotoma","Site 6 (Mack, Bryant, and Pell 1978)","RNM084",46.98,-116.67,884,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",9,"cool mixed forest",0.680842427803724,3231.28821679672,8.48341610820027,-2.30636763758563,20.1294616203318,613.284813291953
8367,17498,16054,"Neotoma","Site 6 (McAndrews unpublished)","JHM007",50.42,-90.48,402,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.07593394345852,2151.27144242552,0.128016195958031,-20.0501872849411,17.4575496632263,728.94540047535
8368,17499,16789,"Neotoma","Site 6 (Mott unpublished)","RJM052",49.8,-85.72,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.12471820940251,2064.47747567278,0.211193396984692,-18.9799292398959,16.5704966139034,738.813306155664
8369,17500,15971,"Neotoma","Site 6 (Railton 1973)","JBR006",44.72,-65.32,183,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.82490469718659,2528.8467596512,5.01056061074612,-7.84318957468929,17.6234428218362,1370.19383293228
8370,17501,16021,"Neotoma","Site 6 (Ritchie, J.C. 1974)","JCR017",69.17,-133.25,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.556521467862469,998.558217699461,-10.3448517560326,-28.4300970043368,12.0338217161566,190.898279249558
8371,17502,15273,"Neotoma","Site 6 (Swain unpublished)","AMS006",42.93,-88.05,259,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.943786530055268,3484.35903389643,7.84046394125,-8.4370958134912,22.0573505758902,827.390010009274
8372,17503,11838,"Neotoma","Site 6, Georgian Bay, Canadian Hydrographic Service","AT1966-6",45.294,-81.068,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06605406828548,2913.73149983165,5.74117169774397,-9.49986561995434,19.4713345884307,873.170492212743
8373,17504,15618,"Neotoma","Site 60 (Delcourt  et al. 1983)","DDD060",32.87,-80.27,3,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.02621635137013,6738.41304696213,18.4614056081154,8.47157154764823,27.2932469414167,1266.5472898076
8374,17505,16030,"Neotoma","Site 60 (Ritchie, J.C. 1974)","JCR026",68.32,-138.28,439,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.525278429199224,711.987429605519,-11.0578391968663,-27.7212961057504,9.13513219105682,172.379664977926
8375,17506,15327,"Neotoma","Site 60 (Swain unpublished)","AMS060",41.58,-76.17,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.16825785326288,3556.09311184557,8.89360074623696,-4.73963320800761,21.4410561780766,1020.93915993998
8376,17507,15619,"Neotoma","Site 61 (Delcourt  et al. 1983)","DDD061",31.82,-91.2,107,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16535591100021,6679.31008171933,18.2994796759434,7.61520205525913,27.2873149311505,1492.98317123522
8377,17508,16035,"Neotoma","Site 61 (Ritchie, J.C. 1974)","JCR031",69.42,-128.75,69,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.405173941679,585.824669731621,-12.357289854417,-29.6950062938188,7.90115657042415,120.222794251619
8378,17509,15328,"Neotoma","Site 61 (Swain unpublished)","AMS061",41.52,-76.6,427,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.12516822250714,3352.26896151499,8.12857950509331,-5.49812166683658,20.633526100168,959.354891434538
8379,17510,15620,"Neotoma","Site 62 (Delcourt  et al. 1983)","DDD062",31.51,-93.57,88,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.965991396229291,6746.4965009149,18.4835520573011,7.40770534637959,28.0129916753305,1251.80930262804
8380,17511,16042,"Neotoma","Site 62 (Ritchie, J.C. 1974)","JCR038",68.98,-130.28,58,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.426884398405263,813.110429622052,-10.9989879958804,-28.8342372499853,10.1217265064837,139.32921361071
8381,17512,15329,"Neotoma","Site 62 (Swain unpublished)","AMS062",41.48,-77.03,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.12233983512579,3587.62849893574,9.02174512606569,-4.56148270445818,21.5186719552801,981.525745423469
8382,17513,11386,"Neotoma","Site 62-1 (Riegel 1965)","WLR62-1",25.265,-81.13,1,"not known","lake","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.822510398936706,9022.7972826365,24.7199925551685,19.950667309782,28.6297211558914,1231.16128165756
8383,17514,11393,"Neotoma","Site 62-10 (Riegel 1965)","WLR62-10",25.3516666666667,-81.1166666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.826085922967871,9017.35465243693,24.7050812395532,19.9240476201051,28.6235616440613,1234.90183344489
8384,17515,11394,"Neotoma","Site 62-11 (Riegel 1965)","WLR62-11",25.32,-81.12,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.824801527510562,9019.37496922441,24.7106163540395,19.934017401524,28.6257838145584,1233.56897860445
8385,17516,11395,"Neotoma","Site 62-12 (Riegel 1965)","WLR62-12",25.5033333333333,-81.17,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831053159703651,9006.03442297057,24.6740669122481,19.864290433627,28.6141201334828,1239.56058967381
8386,17517,11396,"Neotoma","Site 62-13 (Riegel 1965)","WLR62-13",25.455,-81.1483333333333,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829565281749473,9009.83237132946,24.6844722502177,19.8845596120657,28.6171046615831,1238.21706715168
8387,17518,11397,"Neotoma","Site 62-14 (Riegel 1965)","WLR62-14",25.4166666666667,-81.1283333333333,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.828419204823648,9012.82500064516,24.6926712346443,19.9006689527882,28.6193604523328,1237.19658930358
8388,17519,11398,"Neotoma","Site 62-15 (Riegel 1965)","WLR62-15",25.3516666666667,-81.085,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.826598335241221,9017.88740634722,24.7065408393075,19.9283867080194,28.6228514300894,1235.63411824393
8389,17520,11399,"Neotoma","Site 62-17 (Riegel 1965)","WLR62-17",25.395,-81.1166666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.827771591454917,9014.49055421136,24.6972343950996,19.9096565828891,28.6206043499788,1236.61868026569
8390,17521,11400,"Neotoma","Site 62-18 (Riegel 1965)","WLR62-18",25.395,-81.1466666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.827272357176093,9013.9307448486,24.6957006708181,19.9052704580402,28.6212355132076,1235.90572523021
8391,17522,11401,"Neotoma","Site 62-19 (Riegel 1965)","WLR62-19",25.4916666666667,-81.19,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830252148836321,9006.39704953641,24.6750604096888,19.8650745779677,28.6153101210138,1238.60678032159
8392,17523,11387,"Neotoma","Site 62-2 (Riegel 1965)","WLR62-2",25.2383333333333,-81.1666666666667,1,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.793716528170725,9036.63525373188,24.7579048047449,20.022140717296,28.6630031214777,1193.37431263754
8393,17524,11402,"Neotoma","Site 62-20 (Riegel 1965)","WLR62-20",25.4433333333333,-81.1566666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.828971482972099,9010.4569308345,24.6861833721493,19.8872679204444,28.6180824631796,1237.55722199413
8394,17525,11403,"Neotoma","Site 62-21 (Riegel 1965)","WLR62-21",25.5616666666667,-81.2266666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.832263759884711,9000.54939157677,24.6590394289775,19.8336617732468,28.6109171801712,1240.34305521338
8395,17526,11404,"Neotoma","Site 62-22 (Riegel 1965)","WLR62-22",25.57,-81.185,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.833344354478527,9000.99725812355,24.6602664606125,19.8380949033129,28.6096343097978,1241.74636540511
8396,17527,11407,"Neotoma","Site 62-23 (Riegel 1965)","WLR62-23",25.4716666666667,-80.825,3,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.888779578928419,8867.15383920893,24.2935721622163,19.1881613212542,28.431792140064,1308.67299969327
8397,17528,11408,"Neotoma","Site 62-24 (Riegel 1965)","WLR62-24",25.4716666666667,-80.85,3,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.888155809403264,8866.98547312731,24.2931108852803,19.1863443444663,28.4325262204431,1307.83641698905
8398,17529,12033,"Neotoma","Site 62-25 (Riegel 1965)","WLR62-25",25.41752,-80.97969,1,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830893838554542,9015.4070825107,24.6997454315362,19.9215590353627,28.6160056960787,1240.71666847946
8399,17530,11388,"Neotoma","Site 62-3 (Riegel 1965)","WLR62-3",25.26,-81.17,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.821686873359048,9022.5133991074,24.7192147920751,19.9471773095977,28.6309793847579,1230.06180720936
8400,17531,12034,"Neotoma","Site 62-30 (Riegel 1965)","WLR62-30",25.235,-80.8166666666667,1,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.796502178847709,9037.6221840699,24.7606087234792,20.0444159855167,28.6519942368964,1197.51214553367
8401,17532,12032,"Neotoma","Site 62-33b (Riegel 1965)","WLR62-33B",25.32099,-80.80725,10,"not known","lake","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",1.09981705654709,8348.38351476557,22.8722836020974,16.5923093297952,27.8005932962423,1544.07263027278
8402,17533,11409,"Neotoma","Site 62-34 (Riegel 1965)","WLR62-34",25.32274,-80.80189,1,"not known","terrestrial, marsh","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829725143579582,9023.45439506113,24.7217928631812,19.9715236234613,28.6175260794776,1240.57147803185
8403,17534,11425,"Neotoma","Site 62-35 (Riegel 1965)","WLR62-35",25.3808333333333,-80.8028333333333,2,"not known","terrestrial","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.859793027905585,8945.57671895331,24.5084293669954,19.581648189062,28.5240108338836,1275.79766107504
8404,17535,11389,"Neotoma","Site 62-5 (Riegel 1965)","WLR62-5",25.305,-81.15,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.82373913537258,9019.86836228965,24.7119681158621,19.9349336694507,28.6274743218735,1232.28752282964
8405,17536,11390,"Neotoma","Site 62-6 (Riegel 1965)","WLR62-6",25.2766666666667,-81.1285,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.822985722146972,9022.06345601697,24.7179820712794,19.9470648117027,28.6289020322,1231.65743110172
8406,17537,11391,"Neotoma","Site 62-7 (Riegel 1965)","WLR62-7",25.2833333333333,-81.1616666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.822716923114153,9021.10779366629,24.7153638182638,19.9405523639971,28.6292077564951,1231.16785043751
8407,17538,12030,"Neotoma","Site 62-8 (Riegel 1965)","WLR62-8",25.2966666666667,-81.1333333333333,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.823683576219452,9020.68538248835,24.7142065273653,19.9398997058919,28.6276642666258,1232.33981914645
8408,17539,12029,"Neotoma","Site 62-9 (Riegel 1965)","WLR62-9",25.3233333333333,-81.1416666666667,1,"not known","mangrove swamp","surface sample","-12","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.824581891266442,9018.79709394599,24.7090331340986,19.9299871429127,28.6260419734038,1233.20214493187
8409,17540,15621,"Neotoma","Site 63 (Delcourt  et al. 1983)","DDD063",30.5,-92.83,6,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.12268416921696,7278.57723445882,19.941307491668,10.1368358305977,27.9544356657757,1477.73518938509
8410,17541,16045,"Neotoma","Site 63 (Ritchie, J.C. 1974)","JCR041",69.95,-130.42,15,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.405061975529813,770.092079577675,-11.2458367271669,-28.886337044985,9.73289871480548,127.601074645356
8411,17542,15330,"Neotoma","Site 63 (Swain unpublished)","AMS063",41.3,-76.58,305,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.14488352375998,3662.91098263638,9.29876973379673,-4.29342125031628,21.8092769094193,1014.02013184589
8412,17543,15622,"Neotoma","Site 64 (Delcourt  et al. 1983)","DDD064",30.13,-93.72,2,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.06008043889309,7382.82242632359,20.2269107570509,10.5507744298063,28.1102894124701,1404.35867187004
8413,17544,16046,"Neotoma","Site 64 (Ritchie, J.C. 1974)","JCR042",66.03,-135.7,600,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.611502944150544,1120.96324802642,-8.88727479700948,-29.8668288754586,12.6535162752651,243.828125634207
8414,17545,15331,"Neotoma","Site 64 (Swain unpublished)","AMS064",41.12,-76.5225,152,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.16077112837011,4172.12923082852,11.128825737725,-2.30068800621426,23.499719791755,1090.71240358021
8415,17546,11416,"Neotoma","Site 64-10 (Riegel 1965)","WLR64-10",25.6016666666667,-80.7583333333333,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.892631957473386,8862.28630004585,24.2802364384818,19.1663254663264,28.4255114541823,1312.20926018937
8416,17547,12035,"Neotoma","Site 64-11 (Riegel 1965)","WLR64-11",25.51686,-81.16207,1,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831714560528573,9005.27318582748,24.6719813310342,19.8608684113866,28.6130185306153,1240.28486262409
8417,17548,11419,"Neotoma","Site 64-14 (Riegel 1965)","WLR64-14",25.50923,-80.92988,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.886797561223912,8864.7611215977,24.2870167715005,19.1720673671495,28.4335043127325,1305.54386005851
8418,17549,11420,"Neotoma","Site 64-15 (Riegel 1965)","WLR64-15",25.5183333333333,-80.8166666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.889763966631912,8865.27619896903,24.2884279423809,19.1790588198294,28.4299887495829,1309.41063603211
8419,17550,11421,"Neotoma","Site 64-16 (Riegel 1965)","WLR64-16E",25.5666666666667,-80.7916666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.89120290241995,8863.46534621618,24.2834667019622,19.1709407790336,28.4276444814375,1310.73407390509
8419,17551,11422,"Neotoma","Site 64-16 (Riegel 1965)","WLR64-16SG",25.5666666666667,-80.7916666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.89120290241995,8863.46534621618,24.2834667019622,19.1709407790336,28.4276444814375,1310.73407390509
8420,17552,11423,"Neotoma","Site 64-16A (Riegel 1965)","WLR64-16AE",25.525,-80.7666666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.891124077566275,8865.34525514786,24.2886171373914,19.1813582140261,28.4282982411478,1311.15055440944
8420,17553,11424,"Neotoma","Site 64-16A (Riegel 1965)","WLR6416ASG",25.525,-80.7666666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.891124077566275,8865.34525514786,24.2886171373914,19.1813582140261,28.4282982411478,1311.15055440944
8421,17554,11463,"Neotoma","Site 64-18 (Riegel 1965)","WLR64-18",25.44372,-80.92339,1,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.832842941928355,9014.68064020598,24.6977551786465,19.9209704723954,28.6129331782422,1243.07781643903
8422,17555,11405,"Neotoma","Site 64-21 (Riegel 1965)","WLR64-21",25.3633333333333,-80.9916666666667,1,"not known","mangrove swamp","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.828542818265054,9018.61706839489,24.7085399134106,19.9370126365684,28.6198785490824,1238.22719991036
8423,17556,12036,"Neotoma","Site 64-22 (Riegel 1965)","WLR64-22",25.37,-80.9216666666667,1,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829893146940386,9019.22035907436,24.7101927645873,19.9438137259979,28.617706734403,1240.05131061178
8424,17557,11406,"Neotoma","Site 64-33 (Riegel 1965)","WLR64-33",25.1433333333333,-81.04,1,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.792273890240696,9041.13621082633,24.7702361940447,20.0504055567853,28.6631583907401,1192.59530121944
8425,17558,11414,"Neotoma","Site 64-4 (Riegel 1965)","WLR64-4",25.6633333333333,-81.0166666666667,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.887297895806607,8857.02830385872,24.2658309694759,19.1297565149379,28.430197699891,1304.26658312636
8426,17559,11418,"Neotoma","Site 64-7 (Riegel 1965)","WLR64-7",25.65019,-80.77026,3,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.893173516816228,8860.20801944226,24.2745425190199,19.1554131618966,28.4242183746908,1312.32208886898
8427,17560,11417,"Neotoma","Site 64-9 (Riegel 1965)","WLR64-9",25.59533,-80.97564,1,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.838085553351614,9004.05943157038,24.6686559769052,19.864752132426,28.6039215646223,1248.08185890188
8428,17561,12031,"Neotoma","Site 64-9H (Riegel 1965)","WLR64-9H",25.59502,-80.982,4,"not known","terrestrial","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.911923177206037,8788.76482476361,24.0788077390784,18.7909216753779,28.3457231190214,1333.08197130147
8429,17562,12041,"Neotoma","Site 64-E7 (Riegel 1965)","WLR64-E7E",25.6557,-80.71056,2,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.872035176844724,8948.93511954149,24.5176304644972,19.60980210269,28.5184841031336,1289.21059707146
8429,17563,12042,"Neotoma","Site 64-E7 (Riegel 1965)","WLR64-E7SG",25.6557,-80.71056,2,"not known","terrestrial, marsh","surface sample","-14","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.872035176844724,8948.93511954149,24.5176304644972,19.60980210269,28.5184841031336,1289.21059707146
8430,17564,15623,"Neotoma","Site 65 (Delcourt  et al. 1983)","DDD065",32.24,-81.68,21,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.991951244608555,6924.55528394031,18.9713843395625,9.30005878336462,27.4046820593706,1248.71459173721
8431,17565,16047,"Neotoma","Site 65 (Ritchie, J.C. 1974)","JCR043",66.05,-135.65,701,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",15,"cold evergreen needleleaf forest",0.588339656661248,1074.79506301598,-9.05516424400121,-29.9609876681687,12.2500559970021,233.281480723935
8432,17566,15332,"Neotoma","Site 65 (Swain unpublished)","AMS065",40.83,-76.37,366,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1316960116007,3572.83172424021,8.98091025726191,-4.58490566426088,21.4197681426489,1000.05426232449
8433,17567,15624,"Neotoma","Site 66 (Delcourt  et al. 1983)","DDD066",30.82,-85.37,40,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.10523088424979,7083.66285477232,19.4072954925269,9.89349165789483,27.3689517141603,1463.10842513373
8434,17568,15333,"Neotoma","Site 66 (Swain unpublished)","AMS066",40.62,-76.05,152,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.15022210480988,4156.56346095302,11.1052490064349,-2.17225874394915,23.3609635850118,1090.74012057266
8435,17569,15625,"Neotoma","Site 67 (Delcourt  et al. 1983)","DDD067",31.79,-85.88,152,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.11197981496048,6455.19845373593,17.6854752157149,7.05139295681719,26.7535564635263,1400.02719774882
8436,17570,15334,"Neotoma","Site 67 (Swain unpublished)","AMS067",40.07,-75.83,183,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.1408132655812,4111.65918295684,10.9530960068619,-2.32685471475361,23.1956296754907,1083.99923401985
8437,17571,15626,"Neotoma","Site 68 (Delcourt  et al. 1983)","DDD068",32.28,-86.77,56,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.14317334236697,6773.73099521176,18.5581671101692,7.91708976731366,27.4770647675159,1448.70374631009
8438,17572,15335,"Neotoma","Site 68 (Swain unpublished)","AMS068",40.23,-75.53,91,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.14439600777506,4319.11461714657,11.6780679083796,-1.36973617333257,23.7733492457962,1110.87789913113
8439,17573,15627,"Neotoma","Site 69 (Delcourt  et al. 1983)","DDD069",29.93,-94.28,3,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.968191057879018,7468.8510015915,20.4626054838123,10.8574262566893,28.270481550435,1292.27868085851
8440,17574,15336,"Neotoma","Site 69 (Swain unpublished)","AMS069",40.33,-75.48,91,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.15531454134244,4276.69504340678,11.5338449263069,-1.56154954258327,23.6831152554271,1116.62257605443
8441,17575,15565,"Neotoma","Site 7 (Delcourt  et al. 1983)","DDD007",34.39,-83.23,251,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.09386246194882,5875.22304769183,16.0965015005256,5.10330294926174,25.9275996293081,1296.74412905146
8442,17576,15939,"Neotoma","Site 7 (Delcourt 1978)","HRD007",35.6,-83.8,549,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.27781645210695,4868.55132507751,13.3384967810343,1.78584636044892,23.5981877395093,1410.41056889087
8443,17577,16575,"Neotoma","Site 7 (Heide unpublished)","KMH012",48.05,-90.42,534,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04936115250539,2157.50025284331,1.04793083228849,-17.7963912827126,16.8247210969357,748.388859611711
8444,17578,15428,"Neotoma","Site 7 (Heusser 1978)","CJH007",44.75,-123.78,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.83850286758354,3843.97999370522,10.5314520375485,5.29055138932504,16.4613821589533,1528.99812080356
8445,17579,16157,"Neotoma","Site 7 (Jensen 1998)","JJ007M",26.275,-80.324444,5,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924952069632926,8724.42186203851,23.9025256494206,18.5185089232615,28.270007177654,1339.05879274692
8446,17580,16898,"Neotoma","Site 7 (Mack, Bryant, and Pell 1978)","RNM085",46.8,-116.87,1433,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.934058717714852,2549.41754899945,6.10984661222909,-4.06608045386109,17.8024057147049,815.923884575206
8447,17581,16055,"Neotoma","Site 7 (McAndrews unpublished)","JHM008",50.95,-90.42,375,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.09038338860738,2121.73253067584,-0.232468568599132,-20.7042659693144,17.4543076615299,724.820519267824
8448,17582,16790,"Neotoma","Site 7 (Mott unpublished)","RJM054",45.65,-64.92,299,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",2.10042722139773,2470.85330062858,4.89055938223487,-7.79445162188262,16.914435164746,1547.46402888193
8449,17583,15972,"Neotoma","Site 7 (Railton 1973)","JBR007",44.73,-65.03,137,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.7980561330042,2649.24774740066,5.61841894096795,-6.99643321528983,17.9567246809856,1366.29391526065
8450,17584,16008,"Neotoma","Site 7 (Ritchie, J.C. 1974)","JCR004",69.28,-132.92,30,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.528970893716872,969.628906236443,-10.455649194665,-28.4551811200874,11.7576904449181,179.500677726934
8451,17585,15274,"Neotoma","Site 7 (Swain unpublished)","AMS007",42.8,-88.55,259,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",0.945335020345269,3495.58060593501,7.8590404562933,-8.50650025596843,22.0801613338018,833.351703428004
8452,17586,11848,"Neotoma","Site 7, Georgian Bay, Canadian Hydrographic Service","AT1966-7",45.192,-80.753,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.06832627588142,2905.8789974914,5.67210333217475,-9.67098252316992,19.4895309572841,875.450024793622
8453,17587,15628,"Neotoma","Site 70 (Delcourt  et al. 1983)","DDD070",30.34,-91.72,3,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.158564871663,7305.13015443316,20.0140552176251,10.3708385734343,27.8739952925583,1530.8292780273
8454,17588,15337,"Neotoma","Site 70 (Swain unpublished)","AMS070",40.45,-75.52,152,"not known","not known","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.16760139083091,4103.75035191344,10.9360348303057,-2.29852205166521,23.1840061231082,1107.11736732565
8455,17589,15629,"Neotoma","Site 71 (Delcourt  et al. 1983)","DDD071",29.78,-91.53,1,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15113738581221,7364.35775654879,20.1763226206816,10.7285073488501,27.847028557669,1531.67100232229
8456,17590,15338,"Neotoma","Site 71 (Swain unpublished)","AMS071",40.85,-75.8,305,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.17313507560346,3698.84947970872,9.4484147426234,-4.09277320016325,21.9018849934751,1055.24284657184
8457,17591,15630,"Neotoma","Site 72 (Delcourt  et al. 1983)","DDD072",29.67,-91.03,1,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15127829136921,7412.37021283026,20.3078635967952,11.0375266721876,27.8202898970821,1537.64707785093
8458,17592,15339,"Neotoma","Site 72 (Swain unpublished)","AMS072",40.82,-76.05,274,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.16439525820565,3786.30346517615,9.77315058144611,-3.72824402931034,22.1967063645423,1057.55304863333
8459,17593,15631,"Neotoma","Site 73 (Delcourt  et al. 1983)","DDD073",29.78,-90.52,0,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15618593277772,7422.50893840597,20.3356409271396,11.0824168760615,27.8386580573557,1544.55522656871
8460,17594,15340,"Neotoma","Site 73 (Swain unpublished)","AMS073",41.05,-75.93,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.16949423308335,3619.12436736291,9.14825219283495,-4.42935740802864,21.6230858680453,1039.00763236053
8461,17595,15632,"Neotoma","Site 74 (Delcourt  et al. 1983)","DDD074",33.61,-85.82,198,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16584397997168,6076.03341544981,16.6466668916433,5.52564634843643,26.2194370576824,1404.95740904118
8462,17596,15341,"Neotoma","Site 74 (Swain unpublished)","AMS074",41.18,-75.75,457,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1910945016709,3319.35751947013,7.97395276516168,-5.77032874627326,20.5640469874584,1019.07087469009
8463,17597,15633,"Neotoma","Site 75 (Delcourt  et al. 1983)","DDD075",30.47,-90.42,8,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.17590256789274,7333.95965568719,20.0930401525676,10.6302378198734,27.813656855346,1554.9755887441
8464,17598,15342,"Neotoma","Site 75 (Swain unpublished)","AMS075",41.27,-76.08,213,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.18417197162105,3872.45116619496,10.0696152456666,-3.44843867619994,22.5552867465167,1078.18768091242
8465,17599,15634,"Neotoma","Site 76 (Delcourt  et al. 1983)","DDD076",29.88,-89.98,0,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15463591197541,7433.25479766224,20.3650816374308,11.1443966014094,27.8454208985275,1543.04268786697
8466,17600,15343,"Neotoma","Site 76 (Swain unpublished)","AMS076",41.6,-75.75,335,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.198281142159,3552.76796077071,8.87633326501871,-4.77781466031526,21.4432879827632,1048.57524693832
8467,17601,15635,"Neotoma","Site 77 (Delcourt  et al. 1983)","DDD077",30.2,-90.42,1,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16674902250153,7397.91972014856,20.2682732058865,10.9386072783276,27.8461148854475,1550.64288080781
8468,17602,15344,"Neotoma","Site 77 (Swain unpublished)","AMS077",41.78,-75.53,610,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24842806422288,2973.2895816307,6.54945566013754,-7.39584494624855,19.2461530490002,1013.98579843644
8469,17603,15636,"Neotoma","Site 78 (Delcourt  et al. 1983)","DDD078",30.3,-89.83,6,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16892414453641,7371.32697564533,20.195416371631,10.8448502632962,27.8157661556349,1551.55410217974
8470,17604,15345,"Neotoma","Site 78 (Swain unpublished)","AMS078",42.02,-75.45,479,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24756487263766,3182.54633477272,7.38841923279229,-6.52122535490884,20.1010006809207,1038.48810940156
8471,17605,15637,"Neotoma","Site 79 (Delcourt  et al. 1983)","DDD079",34.63,-87.27,207,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.20844979363388,5655.56891445109,15.4947093546605,3.47383097012737,25.9324474927812,1411.69295011533
8472,17606,15346,"Neotoma","Site 79 (Swain unpublished)","AMS079",42.2,-75.93,415,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.18793855564332,3297.51752143683,7.85868733724157,-5.9442946443188,20.526747731785,998.059935782522
8473,17607,15566,"Neotoma","Site 8 (Delcourt  et al. 1983)","DDD008",33.9,-84.22,305,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.14582348109242,5805.43241185553,15.9052942790563,4.83185564898745,25.6204455031285,1359.90306967627
8474,17608,15940,"Neotoma","Site 8 (Delcourt 1978)","HRD008",35.63,-83.43,1220,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",1.56307322371725,3473.25962806416,9.37467865389635,-1.21420806993988,18.9859713740915,1611.36933774748
8475,17609,16576,"Neotoma","Site 8 (Heide unpublished)","KMH013",48.05,-90.48,558,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.05319191274741,2126.05912660032,0.836426415837494,-18.1397794495467,16.6874805463787,748.736025353139
8476,17610,15429,"Neotoma","Site 8 (Heusser 1978)","CJH008",44.6,-123.75,91,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",4,"warm-temperate evergreen and mixed forest",1.80592484582799,3886.6737198771,10.6484211503482,5.30028670697639,16.7281728659301,1517.49673546943
8477,17611,16158,"Neotoma","Site 8 (Jensen 1998)","JJ008M",26.306944,-80.314722,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.924081787665925,8693.83988875552,23.818739421248,18.3712212462082,28.2369934149501,1335.6102039336
8478,17612,16899,"Neotoma","Site 8 (Mack, Bryant, and Pell 1978)","RNM086",46.8,-116.92,1341,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.88262318753871,2664.76634993282,6.54369927135829,-3.72251833259907,18.2225715515547,776.353048308489
8479,17613,16056,"Neotoma","Site 8 (McAndrews unpublished)","JHM009",51.35,-90.17,369,"not known","not known","surface sample","Modern","Unpublished data",,15,"cold evergreen needleleaf forest",1.10734548709695,2093.01413097878,-0.414000090715764,-20.908960545916,17.3285358620502,726.773411385845
8480,17614,16791,"Neotoma","Site 8 (Mott unpublished)","RJM055",45.58,-65.3,243,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.85394788866057,2458.26684321137,4.48454895103136,-9.13237408490289,17.3700710349396,1366.46925319977
8481,17615,15973,"Neotoma","Site 8 (Railton 1973)","JBR008",44.48,-64.8,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.7862044067236,2825.31008449445,6.54736512450706,-5.51918457142125,18.2840760749463,1381.08982717984
8482,17616,16009,"Neotoma","Site 8 (Ritchie, J.C. 1974)","JCR005",69.38,-132.62,24,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.503140088667248,945.921806497433,-10.5285594219405,-28.4855157092643,11.5181542752521,169.218885527603
8483,17617,15275,"Neotoma","Site 8 (Swain unpublished)","AMS008",45.15,-88.18,265,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.965116861234477,3040.4607184231,6.02393436527542,-10.0222553435276,20.4038218747672,778.501217222293
8484,17618,15638,"Neotoma","Site 80 (Delcourt  et al. 1983)","DDD080",34.83,-91.48,67,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.01449332306197,6043.43194690036,16.557347799727,3.78531831061433,27.6918888297385,1287.91912340116
8485,17619,15347,"Neotoma","Site 80 (Swain unpublished)","AMS080",42.25,-76.05,309,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1460318431563,3371.67882732487,8.11127144020982,-5.70362490913061,20.8715348155012,965.642978627743
8486,17620,15639,"Neotoma","Site 81 (Delcourt  et al. 1983)","DDD081",35.17,-91.75,64,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.00444270131675,6048.16881169233,16.5703255114858,3.76248077145015,27.7573583081104,1279.02109698812
8487,17621,15348,"Neotoma","Site 81 (Swain unpublished)","AMS081",42.22,-77.27,381,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.1039905904079,3325.02729400504,8.01918762672071,-5.53510835299175,20.5766291445674,928.830822471053
8488,17622,15640,"Neotoma","Site 82 (Delcourt  et al. 1983)","DDD082",35.18,-92.72,113,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.982704319843407,6071.73097625105,16.6348793869892,4.03282818842205,27.6623677189338,1261.83290682158
8489,17623,15349,"Neotoma","Site 82 (Swain unpublished)","AMS082",42.48,-77.57,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.15630725536721,3143.83039717907,7.36957308560567,-6.07725313784579,19.7578971266362,951.376175852827
8490,17624,15641,"Neotoma","Site 83 (Delcourt  et al. 1983)","DDD083",35.78,-93.8,183,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",0.927307174136178,5822.95896005736,15.9533122193352,2.89372636981189,27.4701681151121,1145.82195568638
8491,17625,15350,"Neotoma","Site 83 (Swain unpublished)","AMS083",42.23,-77.98,533,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.19840135758984,3174.05932755783,7.48479547919161,-5.98819995325942,19.8441490356116,994.956733543841
8492,17626,15642,"Neotoma","Site 84 (Delcourt  et al. 1983)","DDD084",36.1,-93.73,427,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",0.941680402953934,5215.30423164023,14.2885047442198,1.17008562726202,26.0048439107272,1118.32483857438
8493,17627,15351,"Neotoma","Site 84 (Swain unpublished)","AMS084",42.23,-78.32,471,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.19255149545927,3253.03574228069,7.78298416959338,-5.66710457381889,20.2074751575834,1000.35075783254
8494,17628,15643,"Neotoma","Site 85 (Delcourt  et al. 1983)","DDD085",36.43,-94.07,396,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",13,"temperate deciduous broadleaf forest",0.939913054281372,5209.80798450644,14.2734465328944,0.966686767422357,26.1281706135405,1110.55730310175
8495,17629,15352,"Neotoma","Site 85 (Swain unpublished)","AMS085",41.55,-74.07,138,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24281245442069,3893.24858025827,10.1565731759573,-3.31369515855558,22.6166972520552,1139.24316846785
8496,17630,15644,"Neotoma","Site 86 (Delcourt  et al. 1983)","DDD086",35.23,-94.33,150,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.942904217455295,6057.52206721597,16.5959508690849,3.87045732361466,27.8289013664218,1178.15064209895
8497,17631,15353,"Neotoma","Site 86 (Swain unpublished)","AMS086",42.2,-74.05,649,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.41137860831013,2728.04103499819,5.34464691474376,-9.13608153896207,18.4144888277131,1104.66635584322
8498,17632,15645,"Neotoma","Site 87 (Delcourt  et al. 1983)","DDD087",34.73,-94.07,290,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.962573332132442,5759.56558295901,15.7796317341343,3.18150142643931,26.9425329681787,1199.86710560227
8499,17633,15354,"Neotoma","Site 87 (Swain unpublished)","AMS087",43.55,-73.82,243,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24017095908133,3153.73553428014,6.89912487472423,-8.11472901690386,20.415247450403,1000.48049052277
8500,17634,15646,"Neotoma","Site 88 (Delcourt  et al. 1983)","DDD088",31.1,-88.77,38,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.18539428625609,7075.01885426741,19.3836132993628,9.47672141097001,27.6142962250522,1540.62290457574
8501,17635,15355,"Neotoma","Site 88 (Swain unpublished)","AMS088",43.97,-74.13,473,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.34518865274667,2746.6828813386,5.24660240526204,-9.65319202628359,18.6475392607618,1042.38279574577
8502,17636,15647,"Neotoma","Site 89 (Delcourt  et al. 1983)","DDD089",32.32,-89.68,122,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.16610286844727,6469.58027383333,17.7248774625571,6.70007697644718,27.0490931204069,1462.84315087507
8503,17637,15356,"Neotoma","Site 89 (Swain unpublished)","AMS089",42.93,-73.78,47,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.17527577714095,3747.3106774871,9.31277022429678,-5.37229982244917,22.5891059261225,1006.77691239513
8504,17638,15567,"Neotoma","Site 9 (Delcourt  et al. 1983)","DDD009",34.1,-86.12,305,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.2331610383441,5566.08742946551,15.2495546012754,3.68554154201406,25.2562336833872,1436.54878798083
8505,17639,15941,"Neotoma","Site 9 (Delcourt 1978)","HRD009",35.57,-83.5,2024,"not known","not known","surface sample","Modern","Delcourt, H.R. 1978. Late Quaternary vegetation history of the eastern Highland Rim and adjacent Cumberland Plateau of Tennessee. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",2.0305250609949,2102.92439782625,4.72514983718849,-4.83551673796478,13.6509501306646,1913.31248727826
8506,17640,16577,"Neotoma","Site 9 (Heide unpublished)","KMH014",48.05,-90.43,536,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.04964062361692,2155.10266037757,1.03148089861149,-17.8236487755725,16.8142236866405,748.407659477993
8507,17641,15430,"Neotoma","Site 9 (Heusser 1978)","CJH009",44.6,-123.65,183,"not known","not known","surface sample","Modern","Heusser, C.J., 1978. Modern pollen spectra from western Oregon. Bulletin of the Torrey Botanical Club, pp.14-17.","10.2307/2484258",8,"cool evergreen needleleaf forest",1.6981626730438,3855.27063419673,10.5623852991691,4.68182965812566,17.2862478441324,1455.16078655914
8508,17642,16159,"Neotoma","Site 9 (Jensen 1998)","JJ009M",26.313611,-80.313611,6,"not known","terrestrial, marsh","surface sample","Modern","Jensen, J.E., 1998. Calibration of Everglades Modern Pollen with Vegetation and Nutrient Levels in Water Conservation Area 2A (Doctoral dissertation). Duke University, Durham, North Carolina, USA.",,17,"temperate evergreen needleleaf open woodland",0.92418311751331494,8693.36135913016,23.8174283811785,18.3688585573157,28.2365747923416,1335.64253295306
8509,17643,16900,"Neotoma","Site 9 (Mack, Bryant, and Pell 1978)","RNM087",46.8,-116.83,1402,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.917543235609128,2586.0302918383,6.24499318624272,-3.97473493933039,17.9335021534697,803.089614113181
8509,17644,16901,"Neotoma","Site 9 (Mack, Bryant, and Pell 1978)","RNM088",46.8,-116.83,1402,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.917543235609128,2586.0302918383,6.24499318624272,-3.97473493933039,17.9335021534697,803.089614113181
8509,17645,16902,"Neotoma","Site 9 (Mack, Bryant, and Pell 1978)","RNM089",46.8,-116.83,1402,"not known","not known","surface sample","Modern","Mack, R.N., Bryant Jr, V.M. and Pell, W., 1978. Modern forest pollen spectra from eastern Washington and northern Idaho. Botanical Gazette, 139(2), pp.249-255.","10.1086/336997",13,"temperate deciduous broadleaf forest",0.917543235609128,2586.0302918383,6.24499318624272,-3.97473493933039,17.9335021534697,803.089614113181
8510,17646,16057,"Neotoma","Site 9 (McAndrews unpublished)","JHM010",50.07,-91.87,374,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.974705535057717,2387.11589143522,1.2363048021834,-19.1428716465952,18.6061573485698,693.336330725666
8511,17647,16792,"Neotoma","Site 9 (Mott unpublished)","RJM056",45.58,-65.58,137,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.72770796253849,2593.36766074288,5.04598431808612,-8.59838929906882,18.0055743698741,1292.22401655568
8512,17648,15974,"Neotoma","Site 9 (Railton 1973)","JBR009",44.55,-63.67,61,"not known","not known","surface sample","Modern","Railton, J.B., 1973. Vegetational and climatic history of southwestern Nova Scotia in relation to a South Mountain ice cap. Dissertation. Dalhousie University, Halifax, Nova Scotia, Canada.",,9,"cool mixed forest",1.83127056461237,2735.40247375766,6.20390869401555,-5.74628299541549,18.0354206893918,1388.62305126679
8513,17649,16010,"Neotoma","Site 9 (Ritchie, J.C. 1974)","JCR006",69.43,-132.85,26,"not known","not known","surface sample","Modern","Ritchie, J.C., 1974. Modern pollen assemblages near the arctic tree line, Mackenzie Delta region, Northwest Territories. Canadian Journal of Botany, 52(2), pp.381-396.","10.1139/b74-050",31,"tundra",0.524663210857174,962.128770934675,-10.4975514649059,-28.4701851610875,11.6906974172526,177.109970620799
8514,17650,15276,"Neotoma","Site 9 (Swain unpublished)","AMS009",45.32,-88.8,472,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.02407615125335,2626.05906707284,3.92393952533436,-12.7607116936469,18.7880445796537,792.026063230816
8515,17651,11836,"Neotoma","Site 9, Georgian Bay, Canadian Hydrographic Service","AT1966-9",45.155,-81.075,175,"not known","lake","surface sample","-14","Anderson, T.W., and J. Terasmae. 1966. Palynological study of bottom sediments in Georgian Bay, Lake Huron. Pages 164-168 in Proceedings 9th Conference on Great Lakes Research. University of Michigan, Great Lakes Research Division Publication 15. Ann Arbor, Michigan, USA.",,,"not applicable",1.05990862385203,2914.01986188486,5.7357726896415,-9.52112659512093,19.492013807506,869.09047586699
8516,17652,15648,"Neotoma","Site 90 (Delcourt  et al. 1983)","DDD090",32.43,-88.03,15,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",1.15488203112821,6895.48206609621,18.8917316879348,8.40276781508584,27.6179532628319,1463.09955314716
8517,17653,15357,"Neotoma","Site 90 (Swain unpublished)","AMS090",44.52,-74.03,518,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.36752742308348,2653.44418704208,4.8382397500935,-10.076859644944,18.2471011187202,1043.31639207967
8518,17654,15649,"Neotoma","Site 91 (Delcourt  et al. 1983)","DDD091",30.11,-94.4,14,"not known","terrestrial","surface sample","Modern","Delcourt, P.A., Delcourt, H.R. and Davidson, J.L., 1983. Mapping and calibration of modern pollen-vegetation relationships in the southeastern United States. Review of Palaeobotany and Palynology, 39(1-2), pp.1-45.","10.1016/0034-6667(83)90009-X",4,"warm-temperate evergreen and mixed forest",0.967868149197484,7407.79599986194,20.2953315064711,10.5374398931508,28.2709758076955,1287.1818517677
8519,17655,15358,"Neotoma","Site 91 (Swain unpublished)","AMS091",44.15,-73.75,491,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.36764070114636,2703.796035216,5.0765101668259,-9.80182479560417,18.4613580397247,1050.68445082858
8520,17656,15359,"Neotoma","Site 92 (Swain unpublished)","AMS092",43.98,-74.45,525,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.34666903643251,2717.82053799585,5.16603541884825,-9.61187600872904,18.4737645088617,1042.03087308442
8521,17657,15360,"Neotoma","Site 93 (Swain unpublished)","AMS093",44.45,-74.25,504,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.33612224348026,2679.85207090496,4.92021220934777,-10.0610853219546,18.3777680149375,1026.76970596629
8522,17658,15361,"Neotoma","Site 94 (Swain unpublished)","AMS094",43.23,-73.72,104,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.20433212480599,3607.45331315423,8.80211724382823,-5.84571471257216,22.0576070283055,1014.93023426061
8523,17659,15362,"Neotoma","Site 95 (Swain unpublished)","AMS095",44.32,-74.42,480,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.32887550565527,2714.08356611681,5.04676687627535,-9.98546936721157,18.5427726466377,1027.29914770416
8524,17660,15363,"Neotoma","Site 96 (Swain unpublished)","AMS096",43.43,-74.05,519,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.37287772855145,2746.67972283236,5.33711719858337,-9.34499672998549,18.5742263236895,1071.35388719339
8525,17661,15364,"Neotoma","Site 97 (Swain unpublished)","AMS097",43.78,-74.25,506,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.33946994556322,2726.2173592738,5.18703550610338,-9.63484439703848,18.5257046520988,1039.39523724034
8526,17662,15365,"Neotoma","Site 98 (Swain unpublished)","AMS098",44.08,-74.52,535,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.35035305703921,2707.56098059434,5.1271022166634,-9.63711304942074,18.4242925304165,1042.58717974234
8527,17663,15366,"Neotoma","Site 99 (Swain unpublished)","AMS099",43.38,-74.3,299,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.24616181826338,3093.02919737966,6.67490254917744,-8.25475633180275,20.1249852373849,1006.07632664727
8528,17664,12040,"Neotoma","Site HR (Riegel 1965)","WLRHR-1",25.41938,-81.00894,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830497062665532,9014.80324483309,24.6980910817345,19.9169533286436,28.6165625631052,1240.11991060315
8528,17665,12039,"Neotoma","Site HR (Riegel 1965)","WLRHR-2",25.41938,-81.00894,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830497062665532,9014.80324483309,24.6980910817345,19.9169533286436,28.6165625631052,1240.11991060315
8529,17666,11410,"Neotoma","Site sl.tr 1 (Riegel 1965)","WLRSLTR1",25.64,-80.75,2,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.870770611503035,8949.73182661009,24.5198132235893,19.6120233490453,28.5207103932287,1287.70773435032
8530,17667,11411,"Neotoma","Site sl.tr 2 (Riegel 1965)","WLRSLTR2",25.62908,-80.7297,2,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.870793953218592,8950.05310453972,24.5206934370951,19.6144469351226,28.5203672938326,1287.88497490729
8531,17668,11412,"Neotoma","Site sl.tr 3 (Riegel 1965)","WLRSLTR3",25.62,-80.72,2,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.87067702491896,8950.35307003752,24.5215152603768,19.6163193083061,28.5203651213513,1287.84755428868
8532,17669,11413,"Neotoma","Site sl.tr 4 (Riegel 1965)","WLRSLTR4",25.60953,-80.69938,2,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.870717959507197,8950.64703005706,24.5223206302933,19.6186232466117,28.5199860693109,1288.04238416071
8533,17670,11392,"Neotoma","Site SR-1 (Riegel 1965)","WLRSR-1",25.32,-81.1566666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.82421049183623,9018.76391087175,24.7089422215664,19.9290420185511,28.6265990064925,1232.72402059946
8534,17671,11445,"Neotoma","Site SR-10 (Riegel 1965)","WLRSR-10",25.3616666666667,-81.095,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.82682750225529,9017.06903512844,24.7042987263793,19.9237510669023,28.6224012237727,1235.80225179089
8535,17672,11446,"Neotoma","Site SR-13 (Riegel 1965)","WLRSR-13",25.3783333333333,-81.0316666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.828503853438447,9017.0449892182,24.7042328471732,19.9269875660592,28.6198338020476,1237.93136820915
8536,17673,11447,"Neotoma","Site SR-14 (Riegel 1965)","WLRSR-14",25.3883333333333,-81.0133333333333,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.82919335566338,9016.70560067858,24.7033030155577,19.9262647978698,28.6187380543887,1238.75637776253
8537,17674,11448,"Neotoma","Site SR-15 (Riegel 1965)","WLRSR-15",25.3916666666667,-80.9966666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829591703187528,9016.76206608176,24.7034577152925,19.927442236597,28.6181234834927,1239.27210837999
8538,17675,11449,"Neotoma","Site SR-16 (Riegel 1965)","WLRSR-16",25.3883333333333,-80.9783333333333,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829749284863015,9017.25906086722,24.7048193448417,19.9309212274868,28.617906383491,1239.55087092104
8539,17676,11450,"Neotoma","Site SR-17 (Riegel 1965)","WLRSR-17",25.405,-80.9683333333333,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830573784325482,9016.37417138332,24.7023949900913,19.9270234241394,28.6165653120811,1240.46111527677
8540,17677,11451,"Neotoma","Site SR-18 (Riegel 1965)","WLRSR-18",25.4033333333333,-81.01,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.829842330330187,9015.80743300198,24.7008422821972,19.9219366310217,28.6176597624004,1239.44277891714
8541,17678,11452,"Neotoma","Site SR-19 (Riegel 1965)","WLRSR-19",25.4183333333333,-81.0016666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830573042354902,9014.99236029956,24.6986092063002,19.9182936117417,28.6164647150456,1240.24529112345
8542,17679,11438,"Neotoma","Site SR-2 (Riegel 1965)","WLRSR-2",25.3283333333333,-81.1366666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.824856230000158,9018.5513606389,24.7083598921614,19.9290132504478,28.6255910685564,1233.51502568727
8543,17680,11453,"Neotoma","Site SR-20 (Riegel 1965)","WLRSR-20",25.4133333333333,-80.9816666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.830694939371899,9015.63848419904,24.7003794087645,19.9226133313859,28.6163303191931,1240.49997686514
8544,17681,11454,"Neotoma","Site SR-21 (Riegel 1965)","WLRSR-21",25.4133333333333,-80.9616666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831013296172587,9015.95928008884,24.7012583016133,19.9253031993525,28.6158551049482,1240.95487485738
8545,17682,11455,"Neotoma","Site SR-22 (Riegel 1965)","WLRSR-22",25.4216666666667,-80.9416666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831664449257957,9015.75651835994,24.7007027900272,19.9253707871948,28.6148249441986,1241.75086118775
8546,17683,11456,"Neotoma","Site SR-23 (Riegel 1965)","WLRSR-23",25.4283333333333,-80.9216666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.832248078525121,9015.65681826175,24.7004296390733,19.9259591096543,28.6139022048087,1242.47712935042
8547,17684,11457,"Neotoma","Site SR-24 (Riegel 1965)","WLRSR-24",25.4383333333333,-80.9083333333333,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.832861904386388,9015.24932900899,24.6993132301616,19.9246438962886,28.6129220174767,1243.19234408558
8548,17685,11458,"Neotoma","Site SR-25 (Riegel 1965)","WLRSR-25",25.45,-80.8883333333333,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.83364855786429,9014.84582945385,24.6982077519284,19.9237159398971,28.6116701514796,1244.12716479904
8549,17686,11459,"Neotoma","Site SR-26 (Riegel 1965)","WLRSR-26",25.4566666666667,-80.8766666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.834102102620678,9014.62029740841,24.6975898559134,19.9232258033019,28.6109488633185,1244.66691742471
8550,17687,11460,"Neotoma","Site SR-28 (Riegel 1965)","WLRSR-28",25.4333333333333,-80.9616666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831815519111186,9014.70823135931,24.6978307708474,19.9190276249749,28.6145313892466,1241.77810215869
8551,17688,11461,"Neotoma","Site SR-29 (Riegel 1965)","WLRSR-29",25.44,-80.9516666666667,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.832243253757984,9014.45468816671,24.6971361319636,19.9182980834638,28.613853368128,1242.28129476527
8552,17689,11439,"Neotoma","Site SR-3 (Riegel 1965)","WLRSR-3",25.3316666666667,-81.1166666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.825308380370671,9018.66672484728,24.7086759584857,19.930636182182,28.6249188816219,1234.10845024587
8553,17690,11462,"Neotoma","Site SR-30 (Riegel 1965)","WLRSR-30",25.445944,-80.908319,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.833170685640087,9014.7823279717,24.6980337752649,19.9223033716688,28.6124229472973,1243.51007883319
8554,17691,11440,"Neotoma","Site SR-4 (Riegel 1965)","WLRSR-4",25.3416666666667,-81.1,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.825966178177015,9018.28961364906,24.7076427771207,19.9296164803685,28.6238666139596,1234.88978221563
8555,17692,11441,"Neotoma","Site SR-5 (Riegel 1965)","WLRSR-5",25.3516666666667,-81.0816666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.826651995776563,9017.94234317172,24.7066913511554,19.9288382509699,28.622775522642,1235.71080777949
8556,17693,11442,"Neotoma","Site SR-6 (Riegel 1965)","WLRSR-6",25.36,-81.0666666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.827219888771473,9017.6500700792,24.7058906029567,19.928163933876,28.6218716360698,1236.38954901294
8557,17694,11443,"Neotoma","Site SR-7 (Riegel 1965)","WLRSR-7",25.3716666666667,-81.045,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.82802686860099906,9017.25435232056,24.7048064447139,19.927327796865,28.6205894322817,1237.35642571921
8558,17695,11444,"Neotoma","Site SR-9 (Riegel 1965)","WLRSR-9",25.3533333333333,-81.1166666666667,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.826150732727568,9017.24503168855,24.7047809087358,19.9234970416184,28.6234483215576,1234.96792232885
8559,17696,12038,"Neotoma","Site TB (Riegel 1965)","WLRTB-1",25.43314,-80.99424,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831283070397586,9014.17626765072,24.6963733360294,19.9145970840762,28.6153037469634,1241.02069785744
8559,17697,12037,"Neotoma","Site TB (Riegel 1965)","WLRTB-2",25.43314,-80.99424,1,"not known","terrestrial, marsh","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.831283070397586,9014.17626765072,24.6963733360294,19.9145970840762,28.6153037469634,1241.02069785744
8560,17698,11415,"Neotoma","Site TI-1 (Riegel 1965)","WLRTI-1",25.4216666666667,-81.15,1,"not known","mangrove swamp","surface sample","-13","Riegel, W.L. 1965. Palynology of environments of peat formation in southwestern Florida. Doctoral dissertation. Pennsylvania State University, State College, Pennsylvania, USA.; Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.828247703284744,9012.06542657038,24.6905902097819,19.8957125296209,28.619457685697,1236.87166690682
8561,17699,8540,"EMPDv2","Sithonia peninsula","Panajiotidis_a18",40.143896,23.7458282,140,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.461707708223345,5513.06813789701,15.104296268211,5.41425593927914,24.8678177467332,582.771643712222
8561,17700,8541,"EMPDv2","Sithonia peninsula","Panajiotidis_a19",40.1390202,23.75796947,129,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.466760591361445,5527.99244729719,15.1451847871156,5.45327874351478,24.9084301309788,591.646330426503
8561,17701,8542,"EMPDv2","Sithonia peninsula","Panajiotidis_a20",40.0992178,23.7942858,110,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.465967029780816,5583.01640918386,15.295935367627,5.62479503392806,25.0472087328943,594.092369740571
8561,17702,8543,"EMPDv2","Sithonia peninsula","Panajiotidis_a21",40.0517186,23.82233334,180,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.470784725307484,5407.87758197907,14.8161029643262,5.11444560169053,24.5892318949966,591.916115577567
8561,17703,8544,"EMPDv2","Sithonia peninsula","Panajiotidis_a22",40.0480167,23.83415925,280,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.47746370972854,5148.57372991822,14.1056814518307,4.34778896956305,23.9159297153072,586.809688569571
8561,17704,8545,"EMPDv2","Sithonia peninsula","Panajiotidis_a23",40.00047,23.8740534,23,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.461994893728377,5821.72496036567,15.9499313982621,6.34709712583783,25.6600499467005,602.702889115374
8561,17705,8546,"EMPDv2","Sithonia peninsula","Panajiotidis_a24",40.0159956,23.8897957,72,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.464869357116892,5692.96162859777,15.5971551468432,5.96657092249124,25.3251542098145,599.672077846546
8561,17706,8547,"EMPDv2","Sithonia peninsula","Panajiotidis_a25",40.0237642,23.9153771999999,213,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.474217635837445,5324.26111516674,14.5870167538815,4.87471552258235,24.368410158515,592.314621707394
8561,17707,8548,"EMPDv2","Sithonia peninsula","Panajiotidis_a26",40.0551827,23.90610516,356,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.484632130200336,4944.96173722361,13.5478403759551,3.74053663517618,23.3900823249376,584.525823930049
8561,17708,8549,"EMPDv2","Sithonia peninsula","Panajiotidis_a27",40.059877,23.9086408,383,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.486844824712838,4873.07525507976,13.3508911098075,3.52519385782225,23.2049356644335,583.252100025729
8561,17709,8550,"EMPDv2","Sithonia peninsula","Panajiotidis_a28",40.0844921,23.9066113,520,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.498525868291404,4508.03008298634,12.3507673506475,2.42898579466902,22.2663387388475,576.805369869724
8562,17710,4686,"CMPD","Siziwangqi","Siziwangqi 01",42.7343,111.434,1037,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.165335993580698,3126.36734800938,4.33379260921615,-16.1854799274739,22.3577173237939,185.459860873196
8562,17711,4687,"CMPD","Siziwangqi","Siziwangqi 02",42.7264,111.445,1035,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.165041116306838,3127.53384744093,4.33545256147826,-16.1919248747443,22.3659357894627,185.173385697074
8562,17712,4688,"CMPD","Siziwangqi","Siziwangqi 03",42.7106,111.455,1053,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.168590712313504,3116.76944468732,4.3227556371114,-16.126579049124,22.2883360973858,188.841793102195
8562,17713,4689,"CMPD","Siziwangqi","Siziwangqi 04",42.6358,111.356,1073,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.172246164257126,3107.54728429087,4.33283609871763,-16.000792861308,22.2095302659659,192.742189720314
8562,17714,4690,"CMPD","Siziwangqi","Siziwangqi 05",42.6161,111.377,1157,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188445977337032,3056.09848890054,4.25946611723997,-15.7294842419416,21.8462329803237,209.159198420649
8562,17715,4691,"CMPD","Siziwangqi","Siziwangqi 06",42.6319,111.384,1099,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177333742699729,3091.25689107661,4.30721731812471,-15.9230214586518,22.0958798106724,197.920623289546
8562,17716,4692,"CMPD","Siziwangqi","Siziwangqi 07",42.6201,111.388,1172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.191387700295468,3046.70656121251,4.24455152031511,-15.6849217684811,21.7807935735734,212.093798331849
8562,17717,4693,"CMPD","Siziwangqi","Siziwangqi 08",42.6161,111.371,1147,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.186492831722139,3062.31404769916,4.26898379225018,-15.7601096802287,21.8897480773197,207.199549205014
8562,17718,4694,"CMPD","Siziwangqi","Siziwangqi 09",42.6122,111.428,1199,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196856507964492,3029.65114167742,4.21744611727109,-15.6043447512505,21.6618198046412,217.563160473761
8562,17719,4695,"CMPD","Siziwangqi","Siziwangqi 10",42.6122,111.412,1199,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196764375946253,3029.89321073995,4.21912086008176,-15.6011302542802,21.6628126454548,217.471573988091
8562,17720,4696,"CMPD","Siziwangqi","Siziwangqi 11",42.5925,111.378,1159,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188890882417192,3055.11562132032,4.2605212818334,-15.7164898443436,21.8377740325007,209.660896162732
8562,17721,4697,"CMPD","Siziwangqi","Siziwangqi 12",42.5571,111.466,1217,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.200644472259178,3018.48523182738,4.2027993342862,-15.5419271047624,21.5818739523898,221.458247316713
8562,17722,4698,"CMPD","Siziwangqi","Siziwangqi 13",42.4902,111.528,1249,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.207288286761481,2998.30945561399,4.17305062218777,-15.4392783216194,21.4394162119564,228.190343778657
8562,17723,4699,"CMPD","Siziwangqi","Siziwangqi 14",42.4154,111.582,1196,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.197460186324831,3030.91914137089,4.22461860468406,-15.5961528004724,21.6666394861823,218.642205957765
8562,17724,4700,"CMPD","Siziwangqi","Siziwangqi 15",42.2854,111.616,1214,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.20127963014767,3020.30080581886,4.21683905472024,-15.5167963309028,21.5868710093723,222.75779157365
8562,17725,4701,"CMPD","Siziwangqi","Siziwangqi 16",42.1634,111.596,1260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.219719727507014,3004.49267824488,4.33232299737493,-15.0131692740592,21.3638002549215,241.503988892962
8562,17726,4702,"CMPD","Siziwangqi","Siziwangqi 17",42.1161,111.564,1278,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.223236116107189,2993.42891604995,4.31737940449851,-14.953749125015,21.2826939731513,245.069842625083
8562,17727,4703,"CMPD","Siziwangqi","Siziwangqi 18",42.0925,111.489,1258,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.219309426954234,3008.10064937673,4.35524629447325,-14.9769028645149,21.3754846650523,241.308041933029
8562,17728,4704,"CMPD","Siziwangqi","Siziwangqi 19",42.0374,111.561,1283,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.224890398891809,2990.8818701546,4.32270066764925,-14.9142126384475,21.2555361087017,246.911314344841
8563,17729,12121,"Neotoma","SJ-1, Diamond Valley","SJ-1",33.71317,-117.05221,488,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.243709243303457,6106.81714835298,16.7310058858986,10.1185020672606,24.5379551216248,345.66606604906
8564,17730,12130,"Neotoma","SJ-10, Devil's Slide","SJ-10",33.77506,-116.68014,2220,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.545468531125457,2997.40642235679,8.20212255855811,0.136229729597864,20.0086149081475,727.293276099998
8565,17731,12131,"Neotoma","SJ-11, Devil's Slide","SJ-11",33.77479,-116.67526,2470,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.605548235370756,2568.90795410623,6.79317587653019,-1.28613756740793,18.9716114085785,792.469267736791
8566,17732,12132,"Neotoma","SJ-13, Willow Creek Trail","SJ-13",33.79554,-116.64863,2500,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.614803323010928,2518.22497872127,6.60396758616428,-1.43278224966854,18.7690638311813,801.37919719347
8567,17733,12133,"Neotoma","SJ-14, Willow Creek Trail","SJ-14",33.79715,-116.64321,2597,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.639606561307034,2387.79469305376,6.0502683448983,-1.97960428149817,18.3451909048546,827.066518618502
8568,17734,12134,"Neotoma","SJ-15, Hwy 74, Garner Valley","SJ-15",33.64254,-116.65579,1370,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.377646914746688,4583.13297468892,12.5565286977779,4.88936651392366,22.82144666971,524.987386436883
8569,17735,12135,"Neotoma","SJ-16, Hwy 74","SJ-16",33.56804,-116.48721,1395,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.380367867632202,4526.34284745101,12.400939308085,4.77551634855293,22.6530019753434,527.280418944564
8570,17736,12136,"Neotoma","SJ-17, Hwy 74","SJ-17",33.58518,-116.42843,1192,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.333172305991903,4973.15837749254,13.625091445185,5.94273664648858,23.6246951259356,469.774101014428
8571,17737,12137,"Neotoma","SJ-18, Hwy 74","SJ-18",33.62332,-116.4064,917,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.271301011197338,5588.19273603162,15.3101170850181,7.51265688440789,25.0113352913155,391.596544704309
8572,17738,12138,"Neotoma","SJ-19, Hwy 74","SJ-19",33.64594,-116.40833,686,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.221532419770268,6104.51149571752,16.7246890293631,8.8326497610699,26.174245062875,325.829054013783
8573,17739,12122,"Neotoma","SJ-2, Diamond Valley","SJ-2",33.70374,-116.98022,477,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.238006538692165,6149.59169513746,16.8481964250341,10.1739013318641,24.7029587217423,338.573700501216
8574,17740,12123,"Neotoma","SJ-3, Hwy 74","SJ-3",33.73409,-116.81605,633,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.252743266064094,5939.37551322826,16.2722616800774,9.21347225065392,24.7744462911222,360.739599879193
8575,17741,12124,"Neotoma","SJ-4, Hwy 74","SJ-4",33.71924,-116.79106,783,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.275301602640583,5682.01611524956,15.5671674390399,8.31597589051591,24.5044536911587,391.931048243057
8576,17742,12125,"Neotoma","SJ-5, Hwy 74","SJ-5",33.70302,-116.77073,1085,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.323197511312962,5152.97253572383,14.1177329745858,6.51646115671571,23.8920282490242,456.912464196498
8577,17743,12126,"Neotoma","SJ-6, Hwy 74","SJ-6",33.70156,-116.74299,1290,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.362424844772838,4749.28544893521,13.0117409559869,5.33931732186514,23.1624927881743,506.596754324613
8578,17744,12127,"Neotoma","SJ-7, Hwy 243","SJ-7",33.72078,-116.72307,1524,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.414000980185687,4260.52027756099,11.6726582946876,3.97408072652092,22.2065427494216,569.197653248323
8579,17745,12128,"Neotoma","SJ-8, Hwy 243, near Idyllwild","SJ-8",33.74814,-116.738,1781,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.47337800918781,3723.83806118797,10.2022960580492,2.46799403169131,21.164875819534,638.828722917097
8580,17746,7424,"EMPDv2","Sjusetevatn","Hjelle_a13",60.3902445,6.1323667,306,"0.021","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",4.14533577716742,2221.40144819019,5.96543183166089,-0.849146666333494,13.3237464332273,2165.92045374761
8581,17747,22445,"SMPDSv1","Sjutjornin","Bjune_a273",62.0266666666666,8.96333333333333,1194,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.75600057463381,1012.06690429572,-1.08660876836994,-11.3616755005432,9.15643038764126,814.907799407645
8582,17748,22446,"SMPDSv1","Skallingesjon","Seppa_b139",57.18,12.47,72,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08023194119877,2701.03257739034,7.02559328134881,-2.04497759394906,16.2382000065375,692.910110019223
8583,17749,22447,"SMPDSv1","Skallvatn","Bjune_a20",68.80644939,16.13028755,261,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.11119946177745,1265.78353113281,1.09006812240529,-7.14960354817324,11.1455822295918,1145.86770431458
8584,17750,9679,"Gaillard et al., 1992","Skanor","Skanor A",55.422938,12.840551,1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.877976642910912,3022.72799021746,8.18595036230901,-0.675073512322537,17.0501305665499,594.684772392142
8584,17751,9680,"Gaillard et al., 1992","Skanor","Skanor B",55.422938,12.840551,1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.877976642910912,3022.72799021746,8.18595036230901,-0.675073512322537,17.0501305665499,594.684772392142
8585,17752,22448,"SMPDSv1","Skanso","Odgaard_a9",56.511271,8.830116,50,"0.11","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.22405256930256,2770.58401891953,7.5177011739223,-0.485644254586587,15.5404584254025,763.558715413746
8586,17753,22449,"SMPDSv1","Skaratjern","Bjune_a138",59.742092,9.1601104,329,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68874845261784,2043.6176936129,4.13624581780968,-6.06384936085448,14.2628838906804,955.525860543241
8587,17754,22450,"SMPDSv1","Skarbutjern","Bjune_a87",58.92074049,9.41330886,50,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.58909233545928,2481.45545438364,6.01919216524302,-3.78572824935028,15.9498717855089,948.844983718975
8588,17755,22451,"SMPDSv1","Skarpengland","Bjune_a220",58.2966666666666,7.84833333333333,180,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.17391582902088,2356.0464068174,5.83631985776735,-3.21503482087371,14.9206809649356,1298.99667166429
8589,17756,22452,"SMPDSv1","Skarsvagsvatn","Bjune_a247",71.0983333333333,25.7783333333333,66,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.80388096569015,1202.40845971006,-0.647212685155119,-11.1950452302378,11.5573656952243,606.242305778315
8590,17757,22453,"SMPDSv1","Skarszyno Lake","Swieta_f1",54.2333333333333,17.766666666666602,179,"0.08","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900154462782288,2851.89636598977,7.48325942431211,-2.34686479252684,16.6208974174045,624.830520233841
8590,17758,22454,"SMPDSv1","Skarszyno Lake","Swieta_f2",54.2333333333333,17.766666666666602,179,"0.08","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900154462782288,2851.89636598977,7.48325942431211,-2.34686479252684,16.6208974174045,624.830520233841
8590,17759,22455,"SMPDSv1","Skarszyno Lake","Swieta_f3",54.2333333333333,17.766666666666602,179,"0.08","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900154462782288,2851.89636598977,7.48325942431211,-2.34686479252684,16.6208974174045,624.830520233841
8591,17760,9681,"Gaillard et al., 1992","Skartofta","Skartofta",55.710415,13.659728,111,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.04105491658836,2695.71240939607,7.05738284844353,-1.85003092596127,16.0951139271636,688.74673964364
8592,17761,7416,"EMPDv2","Skeievatnet","Hjelle_a5",60.2885445,5.3069389,21,"0.091","lake","sediment sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.13274676711284,2666.52634571234,7.3055516320886,1.12396389731784,14.1233983045993,2166.19891359057
8593,17762,22456,"SMPDSv1","Skibotn","N/CJ/SK1_SK2",69.313889,20.422222,100,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.48742055484518,1213.37217512694,-0.0646062434999106,-9.29289783994946,11.5920922941038,872.693287366048
8594,17763,22457,"SMPDSv1","Skiersjoen","Bjune_a293",60.2466666666666,11.4466666666666,264,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.31318598736107,2110.65365887438,4.06761535448057,-6.72974253294889,14.8663745080209,752.59175272197194
8595,17764,22458,"SMPDSv1","Skitigsjön","Seppa_b156",61.53,16.75,161,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.17170523105579,1892.55127415383,2.96481719172925,-8.07443560501004,14.2826847092626,620.942132710409
8596,17765,22459,"SMPDSv1","Skitnetjern","Bjune_a137",59.8214686,8.58985476,830,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.6023664962838,1588.19514315905,2.08844785993255,-7.99575221437047,12.111314079538,883.111143581588
8597,17766,22460,"SMPDSv1","Skogenvatn","Bjune_a228",58.245,7.825,152,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.04903734055948,2426.33392110168,6.14301006660084,-2.71974531209851,15.0538010772539,1231.20747336335
8598,17767,9682,"Gaillard et al., 1992","Skogshejdan","Skogshejdan",55.559148,13.870181,68,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.971065268219263,2814.82764680933,7.45496764870255,-1.5570485648202,16.5337120834571,650.242572215502
8599,17768,7412,"EMPDv2","Skogsvatn","Hjelle_a1",60.3272431,5.0802117,24,"0.082","lake","sediment sample","-52","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.84558122747061,2611.89130817423,7.15586659773762,0.932470082091646,14.0045091431464,2010.18303732404
8600,17769,22461,"SMPDSv1","Skortjern","Bjune_a93",69.5035,29.825,88,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.36662532059818,1252.93179868525,-0.671758842692938,-11.5220621772238,12.2153517844145,490.557765266022
8601,17770,22463,"SMPDSv1","Skrubben","N/CJ/J3_J4",68.873611,19.627778,640,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.12252451311057,891.510295472889,-3.21826740490399,-14.4490893746989,9.80838978906109,744.850860262178
8601,17771,22464,"SMPDSv1","Skrubben","N/CJ/PE1_PE2",68.858333,19.630556,401,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.18540268469194,1046.34023123922,-1.60337113613552,-11.8198268456341,10.7216846116532,788.018683992383
8601,17772,22465,"SMPDSv1","Skrubben","N/CJ/PW1_PW2_PW4",68.858333,19.625,402,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.18600708180715,1045.75315694921,-1.60800997656936,-11.8261164153573,10.7182492170524,788.15108986791
8601,17773,22466,"SMPDSv1","Skrubben","N/CJ/R1_R2",68.865278,19.633333,505,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.15834510217642,976.871888647935,-2.30652782775434,-12.9644411078506,10.323714583317,769.158624856521
8601,17774,22462,"SMPDSv1","Skrubben","N/CJJ1_J2",68.868056,19.618056,556,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.14724639089928,944.197202026503,-2.64581698719451,-13.5137455301458,10.1295974509287,760.742527098589
8602,17775,22467,"SMPDSv1","Skumtjern","Bjune_a126",59.5761783,9.66384674,322,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.55295533451218,2080.03179403544,4.22385593068527,-6.10081364878062,14.500983100531,889.243263182244
8603,17776,11580,"Neotoma","Skunk Cabbage Meadow","SJ-12",33.77433,-116.66602,2417,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.593393041952743,2644.05763293151,7.08113919133507,-0.978053650842431,19.1614046705581,779.176634409336
8604,17777,7947,"EMPDv2","Sladkoye_Mid","Mikishin-Gvozdeva_a7",53.4013888888889,142.986111111111,0,"16.4","lake","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26874440622152,1814.04551048395,-0.966266391022642,-19.2328155090038,15.1625338071856,654.685637859212
8605,17778,7946,"EMPDv2","Sladkoye_North","Mikishin-Gvozdeva_a6",53.425,141.948888888889,1,"16.4","lake","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22966111914442,1838.46710924804,-1.05079669034762,-19.6751457757029,15.3244637465723,639.279706781534
8606,17779,7995,"EMPDv2","Slava_Molodejznoye","Mikishin-Gvozdeva_a55",51.0397222222222,142.617222222222,70,"not known","fluvial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20847458018386,1879.31795075356,-0.382108970649158,-18.575626935647,15.4244984744824,667.977519124027
8607,17780,22167,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f1",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17781,22168,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f10",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17782,22169,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f11",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17783,22170,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f12",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17784,22171,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f13",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17785,22172,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f14",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17786,22173,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f15",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17787,22174,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f16",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17788,22175,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f17",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17789,22468,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f18",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17790,22469,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f19",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17791,22470,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f2",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17792,22471,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f20",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17793,22472,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f21",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17794,22473,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f22",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17795,22474,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f23",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17796,22475,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f24",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17797,22476,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f25",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17798,22477,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f26",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17799,22478,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f27",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17800,22479,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f28",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17801,22480,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f29",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17802,22481,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f3",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17803,22482,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f30",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17804,22483,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f31",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17805,22484,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f32",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17806,22485,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f4",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17807,22486,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f5",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17808,22487,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f6",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17809,22488,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f7",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17810,22489,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f8",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8607,17811,22490,"SMPDSv1","Slawkow, Silesian voivodeship","Kolaczek_f9",50.3006583333333,19.4005638888888,282,"0.015","lake","lacustrine core top","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.900207848259999,3055.44770131074,7.94855305415792,-3.02258318205969,17.3927921637356,687.401818268572
8608,17812,13273,"Neotoma","Sleet Lake","SLEET",69.283333,-133.583333,29,"not known","lake","core","0","Spear, R.W. 1983. Paleoecological approaches to a study of treeline fluctuations in teh MacKenzie Delta Region, Northwest Territories: preliminary results. In P. Morisset and S. Payette, editors. Tree-Line Ecology. Nordicana 47:61-72.; Spear, R.W. 1993. The palynological record of Late-Quaternary arctic tree-line in northwest Canada. Review of Palaeobotany and Palynology 79:99-111.",,31,"tundra",0.558539113443084,995.516580759386,-10.3776608513039,-28.3717437935871,12.0147355742139,190.895219828704
8609,17813,8031,"EMPDv2","Slepikovskogo_1","Mikishin-Gvozdeva_a93",47.2991666666667,141.970277777778,3,"1e-04","coastal, lacustrine","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67195911142675,2207.08171000436,2.70893691901989,-12.5031395257697,16.9449285507568,1017.31963656792
8610,17814,8032,"EMPDv2","Slepikovskogo_2","Mikishin-Gvozdeva_a94",47.2991666666667,141.970555555556,4,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.67088741998626,2205.80746496807,2.70338732330681,-12.5067371730651,16.9388856285315,1016.72737013431
8610,17815,8033,"EMPDv2","Slepikovskogo_2","Mikishin-Gvozdeva_a95",47.3097222222222,141.968611111111,7,"not applicable","coastal, other","litter","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.66851813670309,2200.0694082085,2.67522389531971,-12.534983527702,16.9124113051059,1014.91824564419
8611,17816,16714,"Neotoma","Slide Mountain Site 1","RAI001",42,-74.4,1128,"not known","terrestrial","surface sample","Modern","Ibe, R.A., 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York (Doctoral dissertation, New York University).",,9,"cool mixed forest",1.51171519170069,1966.6575573462,1.76838060435399,-12.9176459186289,14.9302650247543,1043.60661045435
8612,17817,16715,"Neotoma","Slide Mountain Site 2","RAI002",42,-74.4,1343,"not known","terrestrial","surface sample","Modern","Ibe, R.A., 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York (Doctoral dissertation, New York University).",,9,"cool mixed forest",1.58697423921428,1642.81418963393,0.0184423884449503,-14.8558705383232,13.2828931623242,1027.68153211961
8613,17818,16716,"Neotoma","Slide Mountain Site 3","RAI003",42,-74.4,732,"not known","terrestrial","surface sample","Modern","Ibe, R.A., 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York (Doctoral dissertation, New York University).",,9,"cool mixed forest",1.38934703204055,2635.01007646125,4.99152262063296,-9.34770661909902,17.9644941295091,1072.93838264298
8614,17819,16717,"Neotoma","Slide Mountain Site 4","RAI004",42,-74.4,487,"not known","terrestrial","surface sample","Modern","Ibe, R.A., 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York (Doctoral dissertation, New York University).",,9,"cool mixed forest",1.32284355480779,3097.19889961523,6.98563826201768,-7.13903205247067,19.8417318332085,1091.0855649314
8615,17820,11234,"Bush et al., 2020","Sloaneaswamp","Sloaneaswamp",-12.63,-70.11,237,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05622687844684,9132.71697484893,25.0211423968464,23.0301041892986,26.0547765665203,3057.11287274973
8616,17821,14850,"Neotoma","Slough Cove","SLOUHCV",41.358875,-70.539395,0,"not known","not known","core","-40","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36590448550913,3946.03835196084,10.5737661940285,-1.77273119056086,22.4438756696401,1242.4466527668
8616,17821,14851,"Neotoma","Slough Cove","SLOUHCV",41.358875,-70.539395,0,"not known","not known","core","-15","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36590448550913,3946.03835196084,10.5737661940285,-1.77273119056086,22.4438756696401,1242.4466527668
8616,17821,14852,"Neotoma","Slough Cove","SLOUHCV",41.358875,-70.539395,0,"not known","not known","core","28","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36590448550913,3946.03835196084,10.5737661940285,-1.77273119056086,22.4438756696401,1242.4466527668
8617,17822,13274,"Neotoma","Slough Creek Pond","SLOUGHCK",44.933333,-110.35,1884,"not known","lake","core","0","Whitlock, C., and P.J. Bartlein. 1993. Spatial variations of Holocene climatic change in the Yellowstone region. Quaternary Research 39:231-238.",,17,"temperate evergreen needleleaf open woodland",0.536275934441504,2456.18729110213,4.98391465730274,-7.34465769904978,18.0160226579131,486.382721285313
8618,17823,22492,"SMPDSv1","Sluggan Moss","EPDcoretop_E605",54.933333,-6.3,52,"6","terrestrial, blanket bog","peat core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.30419503428482,3264.88418769349,8.94488818546161,4.33403786145138,14.2766392088737,1296.99959864782
8619,17824,1362,"Australian pollen","Sluice Creek","Sluice Creek",-17.517,145.567,1040,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",3,"tropical deciduous broadleaf forest and woodland",0.423060966445219,7471.62114425418,20.4701949157649,15.2015497640529,24.248516288416,789.085497280663
8620,17825,16771,"Neotoma","Small Tree Lake Area","RJM033",61.1,-104.883333,394,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.810518909988998,1239.86508387093,-7.39389525684616,-29.4675116835297,13.2771149147511,368.625293129495
8621,17826,1363,"Australian pollen","Smelter Creek","Smelter Creek",-42.1833,145.6333,210,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.49430837272318,3968.03327426787,10.8713240390901,6.98956822523661,15.1544186282852,1355.53656272197
8622,17827,11642,"Neotoma","Smith Dam","GPPS-12",44.263745,-100.285215,539,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.490333058881347,3540.10360202615,7.61255826525636,-9.61199235936856,23.6476559638353,463.337900438475
8623,17828,11632,"Neotoma","Smokey Valley Ranch Pond 1","GPPS-1",38.8879,-100.965489999999,880,"not known","lake","surface sample","-61","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.428715416370329,4326.21067193898,11.5271749319655,-2.41053498075599,25.5565280656837,500.217074319122
8624,17829,7082,"EMPDv2","Smorodinovoye Lake","EPDcoretop_E1917",64.77,141.12,800,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.851989272458285,854.67556735937,-17.9305385539577,-47.3327815118937,10.6204942545892,296.530917577618
8625,17830,11634,"Neotoma","Snake Pond","GPPS-3",41.470265,-102.18229,1069,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.432900862952029,3674.76308133342,9.23318146929178,-4.68922164138376,23.5430320492264,457.56656474622
8625,17831,14493,"Neotoma","Snake Pond","SNAKE",42.55585,-72.0164049999999,282,"not known","lake","core","-38","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.33119001847059,3247.43016479529,7.57813723017975,-6.57804349309889,20.5759551982945,1107.75533492545
8625,17831,14494,"Neotoma","Snake Pond","SNAKE",42.55585,-72.0164049999999,282,"not known","lake","core","-27","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.33119001847059,3247.43016479529,7.57813723017975,-6.57804349309889,20.5759551982945,1107.75533492545
8625,17831,14495,"Neotoma","Snake Pond","SNAKE",42.55585,-72.0164049999999,282,"not known","lake","core","-16","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.33119001847059,3247.43016479529,7.57813723017975,-6.57804349309889,20.5759551982945,1107.75533492545
8625,17831,14496,"Neotoma","Snake Pond","SNAKE",42.55585,-72.0164049999999,282,"not known","lake","core","9","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.33119001847059,3247.43016479529,7.57813723017975,-6.57804349309889,20.5759551982945,1107.75533492545
8625,17831,14497,"Neotoma","Snake Pond","SNAKE",42.55585,-72.0164049999999,282,"not known","lake","core","35","Fuller, J.L., D.R. Foster, J.S. McLachlan, and N. Drake. 1998. Impact of human activity on regional forest composition and dynamics in central New England. Ecosystems 1(1):76-95.","10.1007/s100219900007",9,"cool mixed forest",1.33119001847059,3247.43016479529,7.57813723017975,-6.57804349309889,20.5759551982945,1107.75533492545
8626,17832,7426,"EMPDv2","Sneldevatn","Hjelle_a15",60.2990917,6.0210833,296,"0.018","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.11209392663135,2236.77349110226,6.01883086344447,-0.784603042756281,13.36338372602,2154.94426786226
8627,17833,16779,"Neotoma","Snib Lake","RJM039",50.99769,-93.868625,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.880860562456566,2407.67945965023,1.20633207526845,-19.4672579802839,18.7024168993884,626.828328829477
8627,17834,16777,"Neotoma","Snib Lake","RJM040",50.99769,-93.868625,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.880860562456566,2407.67945965023,1.20633207526845,-19.4672579802839,18.7024168993884,626.828328829477
8627,17835,16778,"Neotoma","Snib Lake","RJM041",50.99769,-93.868625,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.880860562456566,2407.67945965023,1.20633207526845,-19.4672579802839,18.7024168993884,626.828328829477
8628,17836,1364,"Australian pollen","Snobs Creek","Snobs Creek",-37.3911,145.9281,930,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.15824997665122,3380.2227084481,9.26088413273451,2.27825983957391,16.7093678724261,1325.78857633115
8629,17837,22493,"SMPDSv1","Snoskavltjern","Bjune_a42",64.18066977,12.73813735,540,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.43164300981211,1352.95548058668,1.0561203361868,-8.56063204040808,11.0727876444815,1054.44824943868
8630,17838,1365,"Australian pollen","Snow Hill Marshes","Snow Hill Marshes",-41.9,147.85,885,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.895413319312216,2724.13585827624,7.46338591308559,2.28791241206526,12.9099403820842,840.696073399042
8631,17839,15924,"Neotoma","Snow Lake","HFL67",56.633333,-63.883333,522,"not known","lake","surface sample","Modern","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.",,15,"cold evergreen needleleaf forest",1.82889875616383,805.64133277703,-6.36034887624515,-22.4412878167492,9.49675472735056,760.386979909875
8631,17840,12698,"Neotoma","Snow Lake","SNOW",56.633333,-63.883333,522,"not known","lake","core","0","Lamb, H.F. 1982. Late Quaternary vegetational history of the forest-tundra ecotone in North-Central Labrador. Dissertation. University of Cambridge, Cambridge, England.; Lamb, H.F. 1985. Palynological evidence for postglacial change in the position of tree limit in Labrador. Ecological Monographs 55:241-258.",,15,"cold evergreen needleleaf forest",1.82889875616383,805.64133277703,-6.36034887624515,-22.4412878167492,9.49675472735056,760.386979909875
8632,17841,11795,"Neotoma","Snowdon Peak Lake","LMSJ6",37.71006,-107.6936,3658,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.790766449479012,596.802117381684,-4.67918652166229,-16.1612823739013,6.70237678313722,700.905581482723
8633,17842,13275,"Neotoma","Snowshoe Lake","SNOWSHOE",57.45,-120.666667,900,"not known","lake","core","-33","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. 1987. Postglacial development of the subalpine-boreal transition forest of western Canada. Journal of Ecology 75:303-320.; MacDonald, G.M., and L.C. Cwynar. 1985. A fossil pollen based reconstruction of the late Quaternary history of lodgepole pine (Pinus contorta ssp. latifolia) in the western interior of Canada. Canadian Journal of Forest Research 15:1039-1044.; MacDonald, G.M., and L.C. Cwynar. 1991. Post-glacial population growth rates of Pinus contorta ssp. latifolia in western Canada. Journal of Ecology 79:417-429.",,15,"cold evergreen needleleaf forest",0.79250922356941,1765.25520535784,-0.356000691606445,-16.8157711968205,13.6044433148895,469.311397867604
8634,17843,1366,"Australian pollen","Snowy Flats","Snowy Flats core_1",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17844,1367,"Australian pollen","Snowy Flats","Snowy Flats core_10",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-42","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17845,1368,"Australian pollen","Snowy Flats","Snowy Flats core_20",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-29","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17846,1369,"Australian pollen","Snowy Flats","Snowy Flats core_30",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-15","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17847,1370,"Australian pollen","Snowy Flats","Snowy Flats core_40",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","-1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17848,1371,"Australian pollen","Snowy Flats","Snowy Flats core_50",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","12","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8634,17849,1372,"Australian pollen","Snowy Flats","Snowy Flats core_70",-35.5655,148.8642,1618,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core","40","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.00360125178657,2212.06544374577,5.81174608528526,-1.8781724730723801,13.489783451635,1184.75465096056
8635,17850,22494,"SMPDSv1","So Tappebosjon","Seppa_b171",59.98,16.35,113,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07252900594138,2124.01619995765,4.34579821638127,-5.73915423300128,14.9621427114244,611.523185705195
8636,17851,11235,"Bush et al., 2020","Soberania","Soberania",9.18,-79.734,200,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.40125504038117,9283.75247864688,25.4349382976627,24.5600395198646,26.6106878026011,2342.07625664547
8637,17852,11236,"Bush et al., 2020","Soberania2","Soberania2",9.13,-79.17,8,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.68749586233927,9628.44904216352,26.3793124442836,25.5329561837176,27.6283975631802,2741.36106334055
8638,17853,11481,"Neotoma","Soda Lake","MTCA01",45.728515,-104.509205,997,"not known","lake","surface sample","-37","Unpublished data",,22,"steppe",0.431939528781889,3208.6040623624,7.04432719428681,-8.13101153482903,22.0429403013968,401.301005306702
8639,17854,17420,"Neotoma","Sodon Lake","TW128",42.58,-83.3,297,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.923639508500492,3564.12174047368,8.64894975411241,-5.8216428760944,21.7357848525931,817.978287766527
8640,17855,22495,"SMPDSv1","Sogut Golu","EPDcoretop_E611",36.9975,29.898333,1400,"5","ephemeral lake/pond","core top","43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.384098905654405,4081.38959812117,11.181889309921,0.829905942591455,21.6593519014007,540.154270518653
8641,17856,22496,"SMPDSv1","Soitunlahti","Seppa_b46",62.8,28.4,111,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05566859127293,2123.97522487181,2.8372711917832,-11.0386702137839,16.6301780481139,556.29302377312
8642,17857,15063,"Neotoma","Soldier Creek Meadow","SOLDIER",32.7017699999999,-109.92042,2860,"not known","terrestrial","core","-35","Anderson, R.S., and S.J. Smith. 2009. Vegetation changes within the subalpine and mixed-conifer forest on Mt. Graham, Arizona: proxy evidence for Mt. Graham red squirrel habitat. Pages 153-169 in H.R. Sanderson and J.L. Koprowski, editors. The last refuge of the Mt. Graham red squirrel: ecology of endangerment. University of Arizona Press, Tucson, Arizona, USA.",,20,"xerophytic woods/scrub",0.341725802583285,2105.49272862178,4.98591782254938,-3.68777294861982,14.8290916985918,428.083393547986
8642,17857,15064,"Neotoma","Soldier Creek Meadow","SOLDIER",32.7017699999999,-109.92042,2860,"not known","terrestrial","core","41","Anderson, R.S., and S.J. Smith. 2009. Vegetation changes within the subalpine and mixed-conifer forest on Mt. Graham, Arizona: proxy evidence for Mt. Graham red squirrel habitat. Pages 153-169 in H.R. Sanderson and J.L. Koprowski, editors. The last refuge of the Mt. Graham red squirrel: ecology of endangerment. University of Arizona Press, Tucson, Arizona, USA.",,20,"xerophytic woods/scrub",0.341725802583285,2105.49272862178,4.98591782254938,-3.68777294861982,14.8290916985918,428.083393547986
8643,17858,1373,"Australian pollen","Soleve (Cakadrove)","Sol2",-17.2664,179.4931,2,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.76305795696853,9102.02294719119,24.9370491703868,22.9776506528384,26.730879896999,2458.2039089729
8644,17859,11237,"Bush et al., 2020","Sollata","Sollata",-15.687983,-70.19425,3838,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.482166933835702,3192.50493334455,8.74658885847821,6.24632609147875,10.2618534938381,712.991488222524
8645,17860,22497,"SMPDSv1","Solnechnoe","EPDcoretop_E612",65.833333,34.333333,10,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16690131934499,1674.66496158661,0.768304569922456,-12.5801399486861,14.6950902481991,503.803759822238
8645,17861,22498,"SMPDSv1","Solnechnoe","Solnechnoe_SS",65.4941,34.3906,100,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14969364247328,1608.92542022312,0.313099767074756,-13.1156504647372,14.3518975380821,518.474307209809
8646,17862,22499,"SMPDSv1","Solotscha","Solotscha_SS",54.7897,39.8383,146,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.820359632938171,2754.55948727815,4.84896431092297,-10.6338285134064,18.7870959321054,574.972945580757
8647,17863,13276,"Neotoma","Solum Lake","SOLUM",46.662222,-96.25,397,"not known","lake","core","-12","Unpublished data",,22,"steppe",0.710164993588323,3077.16518818282,4.93602986374788,-14.3397825843778,21.0917195119011,586.177348277726
8647,17863,13277,"Neotoma","Solum Lake","SOLUM",46.662222,-96.25,397,"not known","lake","core","12","Unpublished data",,22,"steppe",0.710164993588323,3077.16518818282,4.93602986374788,-14.3397825843778,21.0917195119011,586.177348277726
8647,17863,13278,"Neotoma","Solum Lake","SOLUM",46.662222,-96.25,397,"not known","lake","core","38","Unpublished data",,22,"steppe",0.710164993588323,3077.16518818282,4.93602986374788,-14.3397825843778,21.0917195119011,586.177348277726
8648,17864,22500,"SMPDSv1","Solvesborg-plage","Barboni_a363",56.1,14.5,10,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.909228041529406,2927.56397620259,7.85458106354355,-1.10158851481068,16.8942248557818,611.062128026816
8649,17865,22501,"SMPDSv1","Sommersuss","EPDcoretop_E1193",46.76083333,11.67833333,870,"0.015","terrestrial, bog/fen/swamp","peat core top","-15","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4520208041033,2608.3026984119,6.71455557416962,-2.53019850692168,15.6252672884803,1187.64639149946
8650,17866,8646,"EMPDv2","Sondre Illabreen","Pardoe_c116",61.35,8.09,1520,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.41065829071043,1018.55197230054,-1.02297904065114,-11.1807862503345,9.16142523023838,710.692010768188
8650,17867,8647,"EMPDv2","Sondre Illabreen","Pardoe_c117",61.35,8.09,1490,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.44860506171183,1035.05368362956,-0.899821752989704,-11.0138764134649,9.24775968103534,729.223585524532
8650,17868,8648,"EMPDv2","Sondre Illabreen","Pardoe_c118",61.35,8.09,1460,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.48661839702301,1051.72961133426,-0.77666446532827,-10.8469665765954,9.3340941318323,747.755160280875
8650,17869,8649,"EMPDv2","Sondre Illabreen","Pardoe_c119",61.35,8.09,1450,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.49930428236317,1057.32697091008,-0.735612036107792,-10.7913299643055,9.36287228209795,753.932351866323
8650,17870,8650,"EMPDv2","Sondre Illabreen","Pardoe_c120",61.35,8.09,1440,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51199755216655,1062.92433048589,-0.694559606887314,-10.7356933520157,9.3916504323636,760.109543451771
8651,17871,10566,"BIOME6000 Japan","Sonenuma","SnnmD0",35.23,136.2,86,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.70058963691659,5422.35453057892,14.8557658372025,3.87481861738582,26.7355734844395,1709.08558199036
8652,17872,6986,"EMPDv2","Sonnenberger Moor","EPDcoretop_E1422",51.77,10.52,780,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.011385247447,2503.00480086357,6.29239545773968,-3.01280453571558,15.2484704981186,657.338802625598
8653,17873,22502,"SMPDSv1","Sonnenburger Fenn","Sonnenburger Fenn_ss",52.74459,14.0419,72,"0.023","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.788043556458766,3282.28952086294,8.88971844398417,-0.950695452512308,18.0454887233671,560.403022676333
8654,17874,7188,"EMPDv2","Soppensee","EPDcoretop_E2362",47.09,8.08,596,"0.25","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.45229510709123,3154.73671131572,8.6094946872422,-0.381755330999554,17.4947559502138,1142.56738437402
8655,17875,22503,"SMPDSv1","Soppero","Barboni_a371",68,21.8,500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.33823374718376,1102.48343072943,-3.13702278633865,-16.6912338571117,11.400113568966,525.605708502356
8656,17876,11988,"Neotoma","Sopris Lake","SM-SOP",39.371325,-106.503064999999,3364,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.560629285880904,1011.55947467423,-2.00449574497287,-13.322911988476701,9.59296657339439,514.945067755451
8657,17877,22504,"SMPDSv1","Sor Storvatnet","Bjune_a180",68.7666666666666,15.15,80,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.24911120028594,1377.75326244586,2.29566883345528,-4.69072331144447,11.2204430056903,1208.14831372592
8658,17878,23150,"SMPDSv1","Sor Varanger","Bjune_a12",69.88469532,29.55515835,209,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.65033224164396,1176.76987565009,-1.16671627564362,-11.9287758966766,11.8794760622261,572.695480131939
8659,17879,23203,"SMPDSv1","Sor Varanger 2","Bjune_a95",69.63263445,29.44119385,90,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.33564585611115,1271.47249468246,-0.715343230566352,-11.8617971484244,12.4055618738332,480.534494537214
8660,17880,11238,"Bush et al., 2020","SoraKkota","SoraKkota",-16.18325,-68.338167,4305,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.330718149196643,2481.18082325212,6.79775568014279,3.84523834464785,8.85685459032191,479.543143515756
8661,17881,22505,"SMPDSv1","Sorsjon","Seppa_b149",57.02,14.47,204,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02341063153185,2445.59799437264,5.99652683150999,-3.28117556485037,15.5542539946949,648.069049702532
8662,17882,7080,"EMPDv2","Sosednee Lake","EPDcoretop_E1912",62.06,149.52,886,"not known","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.04841085212294,733.365807158168,-12.7620204677334,-33.5057224953453,8.81846647657952,364.032832351633
8663,17883,7100,"EMPDv2","Sources de l Yonne","EPDcoretop_E2014",46.96,4.01,740,"2e-04","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.13580052641931,3127.44294952875,8.56833684802396,0.33177990771432,17.3649944040309,978.71411172781
8664,17884,22506,"SMPDSv1","SOUSS/SIROUA","63",31.5809772163,-8.73973739159,590,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.221577249315161,6320.09251014806,17.3153219456111,11.3118828728692,24.1070210398354,315.504052746747
8664,17885,22507,"SMPDSv1","SOUSS/SIROUA","64",31.2212027122,-8.87393899232,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.208739871466455,5960.31052539203,16.3296178777864,9.7362073050741,24.032255610437,299.254440708968
8664,17886,22508,"SMPDSv1","SOUSS/SIROUA","65",30.8328746761,-9.1080779553,950,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.199100328934651,6010.69198258866,16.4676492673662,10.0501087509676,23.8415502075432,285.461690412761
8664,17887,22509,"SMPDSv1","SOUSS/SIROUA","66",30.9299566851,-8.27460035417,1450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.210839804008573,5643.79857022316,15.4624618362278,7.63217279210317,24.9935260979305,310.134732574924
8664,17888,22510,"SMPDSv1","SOUSS/SIROUA","67",30.7914720545,-8.27317267757,1150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.201419621397217,5942.86642433093,16.2818258200847,9.01721136321861,24.8966512523105,295.06331104398
8664,17889,22511,"SMPDSv1","SOUSS/SIROUA","68",30.6272892451,-8.13611572363,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.152749260651682,6714.20142734998,18.3950724036986,11.282549014819,26.4050251556543,228.146589658619
8664,17890,22512,"SMPDSv1","SOUSS/SIROUA","69",30.5189345396,-7.8992403805,1050,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.169184111744493,6313.21016256278,17.2964661988021,9.57364459586832,26.3062100907255,254.257050772266
8664,17891,22513,"SMPDSv1","SOUSS/SIROUA","70",30.6745512894,-7.9363599722,1200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.185614058417526,6067.52112806371,16.6233455563389,8.80367098299403,25.8936574174123,277.302767591903
8664,17892,22514,"SMPDSv1","SOUSS/SIROUA","71",30.6645575532,-7.73648524771,2100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.265169315448731,4721.91235341698,12.9367461737451,4.18085295349104,24.0190318474168,389.942066082592
8664,17893,22515,"SMPDSv1","SOUSS/SIROUA","72",30.524645246,-7.71078706884,1100,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.162459078174139,6400.23166837814,17.5348812832278,9.30933809810003,27.1747180998014,248.454556659414
8664,17894,22516,"SMPDSv1","SOUSS/SIROUA","73",30.4889533309,-7.60085597037,1700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.223364147899113,5394.59911437885,14.7797236010379,6.22229096122773,25.3077820420597,334.521175601056
8665,17895,13797,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","-43","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13798,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","-32","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13799,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","-20","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13800,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","-9","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13801,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","3","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13802,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","14","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13803,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","26","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13804,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","37","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8665,17895,13805,"Neotoma","South Bog","SOUTHBOG",44.717555,-67.20294,35,"not known","terrestrial, bog/fen/swamp","core","48","Dieffenbacher-Krall, A.C. 1997. Paleoecology and historical ecology of an extensive bluejoint reedgrass grassland in coastal eastern Maine.P.D. Vickery and P.W. Dunwiddie, editors. Grasslands of Northeastern North America: Ecology and Conservation of Native and Agricultural Landscapes. Audubon Society, Lincoln, Massachusetts, USA.; Dieffenbacher-Krall, A.C. 1996. Paleo and historical ecology of the Cutler Grasslands, Cutler, Maine (USA): implications for future management. Natural Areas Journal 16:3-13.",,9,"cool mixed forest",1.63472286923686,2898.98152453853,6.63985418227971,-6.21599966518445,18.619745220744498,1277.73554959217
8666,17896,17551,"Neotoma","South Fork Dry Blood Creek Reservoir","MTPEDB",47.207895,-108.3544,874,"not known","artificial water body","surface sample","Modern","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.373678613667472,3127.50392067715,6.47699302182099,-9.3709862392323,21.4972729965052,334.687301570244
8667,17897,11951,"Neotoma","South Glenn Lake","GLENNSP1",36.55924,-112.176279999999,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.374299522294936,2289.70766083931,5.29505894830211,-4.28070483293302,16.6368338659018,453.147302022848
8668,17898,11972,"Neotoma","South Halfmoon Lakes","SM-HFM-S",39.178205,-106.492785,3648,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.630808398226283,719.330724514487,-3.81116160244511,-15.0036383602948,7.63351706125922,560.198479442376
8669,17899,13530,"Neotoma","South Heron Lake","SOUHERON",43.7195,-95.228,428,"not known","lake","core","-10","Unpublished data",,22,"steppe",0.771620523482527,3493.71443693592,7.24162585656694,-10.5961623963573,22.714711187547,699.776001716543
8670,17900,14278,"Neotoma","South Lake","SOUTHMEL",69.080765,-121.42854,775,"not known","lake","core","-51","Ruhland, K., J.M. St. Jacques, B.D. Beierle, S.F. Lamoureux, A.S. Dyke, and J.P. Smol. 2009. Lateglacial and Holocene paleoenvironmental changes recorded in lake sediments, Brock Plateau (Melville Hills), Northwest Territories, Canada. The Holocene 19(7):1-12.",,31,"tundra",0.541612574616936,561.383451396419,-11.4758566989768,-28.3137797683822,7.5257710148896,174.278088079105
8670,17901,13978,"Neotoma","South Lake","SOUTHNY",42.19727,-74.045885,652,"not known","lake","core","-28","Ibe, R.A. 1982. Quaternary palynology of five lacustrine deposits in the Catskill Mountain region of New York. Dissertation. New York University, New York, New York, USA..",,9,"cool mixed forest",1.41250037427323,2722.36527396402,5.3185782816277,-9.16762815266541,18.3916355186186,1104.65448517715
8671,17902,11643,"Neotoma","South Lake Flat Dam","GPPS-13",44.073555,-100.347145,628,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.480037112213265,3574.24578082275,8.00812292384715,-8.4480074847026,23.7179722131871,463.845510058163
8672,17903,11954,"Neotoma","South Lookout Lake","LOOKSP1",36.462655,-112.1897,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.382919199985097,2276.27739582602,5.25889087845669,-4.25520600092445,16.556705975892,464.19161708484
8673,17904,11949,"Neotoma","South Murrays Lake","MURRSP1",36.6308049999999,-112.17572,2597,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.356806237463064,2410.51265434344,5.75002096136082,-3.99650442922292,17.1897466554211,435.657371881289
8674,17905,17380,"Neotoma","South Perry Lake","TW087",44.73,-84.1,335,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.930662822258752,2967.43057720741,6.27157895092839,-7.9282771832107,19.7178242858354,754.35640029217
8675,17906,16713,"Neotoma","South Pout Pond","PWD9",41.275,-70.05,6,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41111374711187,3973.45573139939,10.6782816060773,-1.61157614306531,22.4152113162178,1284.93744787776
8676,17907,14448,"Neotoma","South Rhody peatland","SRHODY",46.565795,-86.0752,285,"not known","terrestrial, bog/fen/swamp","core","-42","Booth, R.K., S.T. Jackson, and C.E.D. Gray. 2004. Paleoecology and high-resolution paleohydrology of a kettle peatland in upper Michigan. Quaternary Research 61(1):1-13. Booth, R.K., S.T. Jackson, S.L. Forman, J.E. Kutzbach, E.A. Bettis III, J. Kreig, and D.K. Wright. 2005. A severe centennial-scale drought in midcontinental North America 4200 years ago and apparent global linkages. The Holocene 15(3):321-328. [DOI: 10.1191/0959683605hl825ft] Notes: Author name Kreig is misspelled. Should be Krieg.; Booth, R.K., S.T. Jackson, V.A. Sousa, M.E. Sullivan, T.A. Minckley, and M.J. Clifford. 2012. Multi-decadal drought and amplified moisture variability drove rapid forest community change in a humid region. Ecology 93(2):219-226.","10.1016/j.yqres.2003.07.013;
10.1890/11-1068.1",9,"cool mixed forest",1.20296466119434,2612.78076219059,4.4883934975254,-10.7823580080295,18.1364780516258,904.929968297314
8676,17907,14449,"Neotoma","South Rhody peatland","SRHODY",46.565795,-86.0752,285,"not known","terrestrial, bog/fen/swamp","core","1","Booth, R.K., S.T. Jackson, and C.E.D. Gray. 2004. Paleoecology and high-resolution paleohydrology of a kettle peatland in upper Michigan. Quaternary Research 61(1):1-13. Booth, R.K., S.T. Jackson, S.L. Forman, J.E. Kutzbach, E.A. Bettis III, J. Kreig, and D.K. Wright. 2005. A severe centennial-scale drought in midcontinental North America 4200 years ago and apparent global linkages. The Holocene 15(3):321-328. [DOI: 10.1191/0959683605hl825ft] Notes: Author name Kreig is misspelled. Should be Krieg.; Booth, R.K., S.T. Jackson, V.A. Sousa, M.E. Sullivan, T.A. Minckley, and M.J. Clifford. 2012. Multi-decadal drought and amplified moisture variability drove rapid forest community change in a humid region. Ecology 93(2):219-226.","10.1016/j.yqres.2003.07.013;
10.1890/11-1068.1",9,"cool mixed forest",1.20296466119434,2612.78076219059,4.4883934975254,-10.7823580080295,18.1364780516258,904.929968297314
8676,17907,14450,"Neotoma","South Rhody peatland","SRHODY",46.565795,-86.0752,285,"not known","terrestrial, bog/fen/swamp","core","31","Booth, R.K., S.T. Jackson, and C.E.D. Gray. 2004. Paleoecology and high-resolution paleohydrology of a kettle peatland in upper Michigan. Quaternary Research 61(1):1-13. Booth, R.K., S.T. Jackson, S.L. Forman, J.E. Kutzbach, E.A. Bettis III, J. Kreig, and D.K. Wright. 2005. A severe centennial-scale drought in midcontinental North America 4200 years ago and apparent global linkages. The Holocene 15(3):321-328. [DOI: 10.1191/0959683605hl825ft] Notes: Author name Kreig is misspelled. Should be Krieg.; Booth, R.K., S.T. Jackson, V.A. Sousa, M.E. Sullivan, T.A. Minckley, and M.J. Clifford. 2012. Multi-decadal drought and amplified moisture variability drove rapid forest community change in a humid region. Ecology 93(2):219-226.","10.1016/j.yqres.2003.07.013;
10.1890/11-1068.1",9,"cool mixed forest",1.20296466119434,2612.78076219059,4.4883934975254,-10.7823580080295,18.1364780516258,904.929968297314
8677,17908,1374,"Australian pollen","South Salvation Creek Swamp","South Salvation Creek Swamp",-33.63,151.26,130,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-39","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.849041514851579,6132.7594564884,16.8020807027079,10.7095762094192,22.0323492883971,1088.52577337048
8678,17909,15233,"Neotoma","South Soefje Bog","AKG001",29.6,-97.516944,97,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Graham, A.K. and Heimsch, C., 1960. Pollen studies of some Texas peat deposits. Ecology, 41(4), pp.751-763.","10.2307/1931809",22,"steppe",0.643780472405805,7604.57653892483,20.8344562710269,10.618033748229,29.157766634873,881.853655881075
8679,17910,13279,"Neotoma","South Stanchfield Lake","SOSTANCH",45.725,-93.466667,293,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.870267632343151,3384.65367546529,6.69346103147472,-11.667078134967,22.1978420775325,733.126277911532
8679,17910,13280,"Neotoma","South Stanchfield Lake","SOSTANCH",45.725,-93.466667,293,"not known","lake","core","17","Unpublished data",,9,"cool mixed forest",0.870267632343151,3384.65367546529,6.69346103147472,-11.667078134967,22.1978420775325,733.126277911532
8679,17910,13281,"Neotoma","South Stanchfield Lake","SOSTANCH",45.725,-93.466667,293,"not known","lake","core","49","Unpublished data",,9,"cool mixed forest",0.870267632343151,3384.65367546529,6.69346103147472,-11.667078134967,22.1978420775325,733.126277911532
8680,17911,8432,"EMPDv2","South Sweden","Nielsen_b1",58.40593002,12.17586603,62,"8.42","lake","sediment sample","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.14399802224754,2566.7811207359,6.3539199799886,-3.2669168361655,16.1983047103582,711.619915322666
8680,17912,8433,"EMPDv2","South Sweden","Nielsen_b2",58.40504497,12.166959,62,"8.42","lake","sediment sample","-66","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.14426565435381,2566.98822048296,6.35485349013817,-3.26560216330345,16.1989561699098,711.816030485149
8680,17913,8434,"EMPDv2","South Sweden","Nielsen_b3",57.7085,16.2254,90,"2.1","lake","sediment sample","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.887556161701412,2534.21624895633,6.36939766871317,-2.85821447564093,16.0899051876567,563.995816792539
8680,17914,8435,"EMPDv2","South Sweden","Nielsen_b4",56.1666666666667,15.8666666666667,14,"2.5","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860172455801484,2779.68482851127,7.37972532006955,-1.36992483849809,16.6011611460487,573.814824028111
8681,17915,17321,"Neotoma","South Twin","TW023",46.051111,-89.13,513,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.04033004857304,2597.37966506959,3.7962405654527,-12.8605338077892,18.6708064423407,795.017383198874
8682,17916,17377,"Neotoma","South Twin Lake","TW083",44.75,-85.72,259,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.975565823683303,3029.61494609798,6.42493366220922,-8.18910108929173,19.984164680336,792.047789104927
8683,17917,22542,"SMPDSv1","South Uist Scotland","Edwards_a1",57.2240916666666,-7.43312777777777,0,"not applicable","terrestrial, soil","surface sample","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.07596236571587,3081.49422357134,8.44244992759272,4.17823101326969,13.3210356329383,1584.20883253843
8683,17918,22517,"SMPDSv1","South Uist Scotland","Edwards_a10",57.2247805555555,-7.39739722222222,6,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.10042101108232,3069.99989112511,8.41095860582221,4.14580539852542,13.2940008936048,1595.23406830271
8683,17919,22518,"SMPDSv1","South Uist Scotland","Edwards_a11",57.2251055555555,-7.38596388888888,9,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.11298398448234,3064.38363708968,8.39557160846489,4.13010737795358,13.2806738172475,1600.93804266437
8683,17920,22519,"SMPDSv1","South Uist Scotland","Edwards_a12",57.2241611111111,-7.37676111111111,31,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.20744939069189,3024.6302780132,8.28665829592658,4.02051923633051,13.1851790222799,1644.22502341059
8683,17921,22520,"SMPDSv1","South Uist Scotland","Edwards_a13",57.2259861111111,-7.36716388888888,61,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.33813888381912,2970.42170034328,8.13814164477609,3.87140303746096,13.0546318112131,1703.58792895553
8683,17922,22521,"SMPDSv1","South Uist Scotland","Edwards_a14",57.23155,-7.36372777777777,35,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.22547160378337,3016.96695607855,8.26566289336589,3.99976561424797,13.1663270971766,1652.10027787873
8683,17923,22522,"SMPDSv1","South Uist Scotland","Edwards_a15",57.2357583333333,-7.36117222222222,8,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.10895643287743,3065.32030852928,8.39813783158707,4.13313162261678,13.2823754528145,1598.50393456305
8683,17924,22523,"SMPDSv1","South Uist Scotland","Edwards_a16",57.239075,-7.34594999999999,4,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.0915245967551,3072.10646210009,8.41673003315094,4.15176762745581,13.2986803286909,1590.25429398948
8683,17925,22524,"SMPDSv1","South Uist Scotland","Edwards_a17",57.2414916666666,-7.35158055555555,7,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.10486189895167,3066.71005235903,8.40194534892886,4.13730690265026,13.2853355991642,1596.32239866153
8683,17926,22525,"SMPDSv1","South Uist Scotland","Edwards_a18",57.2409777777777,-7.34252222222222,11,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.12191825630707,3059.40066407353,8.38191962759871,4.11689391796665,13.2679915656583,1604.15217095166
8683,17927,22526,"SMPDSv1","South Uist Scotland","Edwards_a19",57.2412666666666,-7.32981388888888,95,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.49170728117934,2908.58074059945,7.96871435780671,3.70118965347015,12.9054632960734,1772.28561405252
8683,17928,22543,"SMPDSv1","South Uist Scotland","Edwards_a2",57.2239888888888,-7.43250555555555,0,"not applicable","terrestrial, soil","surface sample","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.0759336433115,3081.48753706164,8.44243160838805,4.17818601320227,13.3210425692362,1584.19659894827
8683,17929,22527,"SMPDSv1","South Uist Scotland","Edwards_a20",57.2398638888888,-7.31283055555555,22,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.1692883973294,3039.27201009413,8.32677263039488,4.06056502711415,13.2203016915626,1625.85364117744
8683,17930,22528,"SMPDSv1","South Uist Scotland","Edwards_a21",57.24271944,-7.307741667,63,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.35056658913316,2965.71376915439,8.1252432031627,3.85801601709226,13.0432428981957,1708.50040876543
8683,17931,22529,"SMPDSv1","South Uist Scotland","Edwards_a22",57.2402527777777,-7.30297777777777,36,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.23086681938008,3014.06657377515,8.25771664047986,3.99089696590943,13.1598455381505,1654.03806976571
8683,17932,22530,"SMPDSv1","South Uist Scotland","Edwards_a23",57.2429472222222,-7.29046666666666,108,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.55323323399808,2885.15498554358,7.90453420696872,3.63195313844838,12.8498900715319,1799.99524894356
8683,17933,22544,"SMPDSv1","South Uist Scotland","Edwards_a24",57.2458111111111,-7.284975,234,"not applicable","terrestrial, soil","surface sample","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",4.13473033136951,2660.07788793209,7.28788462447149,2.91400418762879,12.3087834495573,2056.15931647044
8683,17934,22531,"SMPDSv1","South Uist Scotland","Edwards_a25",57.247775,-7.276025,268,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",4.29772660351886,2599.55407762932,7.12206596610774,2.7202539096897,12.1635238679905,2126.49870809748
8683,17935,22532,"SMPDSv1","South Uist Scotland","Edwards_a26",57.254,-7.26354722222222,134,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.68104492805091,2834.86055902605,7.76674125760561,3.48254443766294,12.7183878604591,1855.70130494621
8683,17936,22533,"SMPDSv1","South Uist Scotland","Edwards_a27",57.2534055555555,-7.2529,38,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.24443470324231,3007.06953871343,8.23854668140665,3.9771673484096,13.1361645176792,1658.9130250178
8683,17937,22534,"SMPDSv1","South Uist Scotland","Edwards_a28",57.2570777777777,-7.24266388888888,4,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.90446815345702,3077.62762133576,8.4318564968103,4.21228354783691,13.2989192200496,1496.75423466393
8683,17938,22535,"SMPDSv1","South Uist Scotland","Edwards_a29",57.2564611111111,-7.24441944444444,5,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.91278267792654,3075.79794523833,8.42684368558446,4.20637265297402,13.2946536363801,1500.77431926538
8683,17939,22536,"SMPDSv1","South Uist Scotland","Edwards_a3",57.2239472222222,-7.43154444444444,0,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.07589875354283,3081.47219674108,8.44238958011254,4.17811491347715,13.3210293416989,1584.17701297526
8683,17940,22545,"SMPDSv1","South Uist Scotland","Edwards_a4",57.2218083333333,-7.43081666666666,0,"not applicable","terrestrial, soil","surface sample","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.07570160734936,3081.5508549559,8.44260508207095,4.17808972166848,13.3214506053282,1584.17452186583
8683,17941,22537,"SMPDSv1","South Uist Scotland","Edwards_a5",57.2218833333333,-7.42626388888888,3,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.08825112177838,3076.03862384104,8.42750307901656,4.16284400897344,13.3082503947703,1589.91501340505
8683,17942,22538,"SMPDSv1","South Uist Scotland","Edwards_a6",57.2224888888888,-7.42048333333333,6,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.10085175220537,3070.48723233814,8.41229378722777,4.14751088584295,13.2949289251847,1595.64724244993
8683,17943,22539,"SMPDSv1","South Uist Scotland","Edwards_a7",57.2230527777777,-7.41255277777777,3,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.08793754775404,3075.75101363528,8.42671510585007,4.16181983157654,13.3077205827509,1589.6478645024
8683,17944,22540,"SMPDSv1","South Uist Scotland","Edwards_a8",57.2239666666666,-7.40595277777777,3,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.08781381975903,3075.59754295995,8.42629463824643,4.16132222542612,13.3073940833003,1589.51657602702
8683,17945,22541,"SMPDSv1","South Uist Scotland","Edwards_a9",57.2246638888888,-7.39911388888888,6,"not applicable","terrestrial","moss polster or moss","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.10045789089037,3070.03384800211,8.41105163836194,4.14593136907786,13.2940589823829,1595.26470661407
8684,17946,22567,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/122",41.1459,41.9315833333333,260,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.42231582484928,4850.79870349092,13.289859461619,3.48452468785806,21.9858015328508,1428.97543570506
8684,17947,22568,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/124",41.20215,42.5207,2429,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.355811507733656,1940.58713202336,1.6134156827654,-13.5805839760985,14.815936700148301,382.21410664585
8684,17948,22569,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/126",41.22667,42.4675833333333,2195,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.465715002756449,2145.64560176588,2.8357275957575,-11.7790307126934,15.5522715004479,496.474387610111
8684,17949,22570,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/127",41.2243833,42.4556,2007,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.556034403806813,2322.75535842457,3.82731816746468,-10.3309521813972,16.1611674732031,589.465244403822
8684,17950,22571,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/132",41.251733,42.3292833333333,1033,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.08526379903559,3391.43079378668,8.88936151791016,-2.79332347484042,19.1505298859068,1103.03439979655
8684,17951,22572,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/133",41.2628667,42.2942,805,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.20621944578997,3743.172267113,10.1613320293076,-0.938421891902531,19.9588587583073,1218.35493484573
8684,17952,22573,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/134",41.2583833,42.1534333333333,603,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.26039078785726,4148.59200901707,11.3660055041564,0.779575936305037,20.7750186334337,1276.45197303165
8684,17953,22574,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/137",41.221,41.7935,257,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.41993243814238,4879.00790756993,13.3671449522464,3.58757453051057,22.0620449008433,1429.29956693384
8684,17954,22575,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/140",41.37,41.64,217,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.34020286521828,5037.80761594538,13.8022126464257,4.00286586386584,22.6193360896694,1372.66941639918
8684,17955,22576,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/143",41.39,41.5,368,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25003652977022,4744.05792883799,12.9974189831178,2.86439174828842,22.0976183695291,1289.2676434594
8684,17956,22546,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/24",41.0364166666667,37.2158333333333,376,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.585438667255627,4561.33769457315,12.4968156015703,2.67978547558876,21.4503701907989,647.016684792855
8684,17957,22547,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/25",40.996,37.16875,491,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.566163552594503,4383.44185413979,12.0094297373693,1.99672019131496,21.0472036485294,628.73974563165
8684,17958,22548,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/36",40.80805,37.0079833333333,1278,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.436053376108799,3315.11804067017,8.73395710414922,-2.72278331646261,18.4059857898757,501.163361849751
8684,17959,22549,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/40",40.7101166666667,37.0091166666667,989,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.474488048482867,3690.67008985912,10.022877259211601,-0.958784045584666,19.5348484279508,543.523155374246
8684,17960,22550,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/43",40.71345,37.0160833333333,954,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.480636348543086,3732.90234158587,10.1601698254307,-0.750522570095986,19.6363766155886,549.438691342187
8684,17961,22551,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/49.1",40.4221333333333,37.09005,729,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.517457804329092,4023.23087856844,11.0225503522423,0.57441768039327,20.2541055632485,585.735146962338
8684,17962,22552,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/50",40.4080666666667,36.68175,719,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.500476736812017,4042.88010735471,11.0763838557663,0.67726956534977,20.2734157775451,569.34484799955
8684,17963,22553,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/51",40.0547667,36.56143333,1239,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.398440472614138,3433.12891553021,9.1119423426177,-2.4315319232945,18.9318992019582,474.234037432435
8684,17964,22554,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/53.2",39.942933,36.5276,1586,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.338372570928934,3134.33923599429,7.88220146327775,-4.50841638402607,18.2198166522414,415.636328923482
8684,17965,22555,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/57",39.8930666666667,37.40335,1432,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.409146987230781,3359.27076612402,8.72549771854712,-3.37774158427235,19.1233113157002,495.388237069361
8684,17966,22556,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/62",39.5714,40.16255,1416,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.466778500061031,4004.9489734287,10.5481993630326,-3.03563680116742,23.3035156551638,620.175992342728
8684,17967,22557,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/65",39.9943,40.5648833333333,1822,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.52291940439888,3054.18823544903,7.10617935555688,-6.32578115382592,19.3878298284014,629.96148982049294
8684,17968,22558,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/69",40.2114166666667,40.2743666666667,1664,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.530244083717433,3227.13920281638,7.87830752799933,-5.27353158812372,19.8322189814828,635.541938300416
8684,17969,22559,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/71.3",40.4789833333333,40.2639333333333,1807,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.533549652182021,2963.12798695095,6.876920489917,-6.23521654652807,18.73389387754,625.508757201117
8684,17970,22560,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/72",40.5009833333333,40.2530833333333,2054,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.509890159058945,2692.00603436515,5.65461368692571,-7.78520231717327,17.8407779425452,598.66689198879
8684,17971,22561,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/84",40.5799166666667,40.2285333333333,1279,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.561948442038533,3632.24928432073,9.56110479100799,-2.84308947865887,20.6759032244789,658.027662577454
8684,17972,22562,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/85",40.6539166666667,40.2100333333333,807,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.59498521577547,4337.38015461012,11.8778837639647,0.0794217120960274,22.3870986320584,691.782444873747
8684,17973,22563,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/86",40.678,40.2278,617,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.609467985866371,4677.61440515473,12.8153819319308,1.25689363997032,23.0862296713376,706.398577840161
8684,17974,22564,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/93",40.7510833,40.2464666666667,273,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.636173425052705,5302.14470657938,14.5264238536421,3.3950133489491,24.371970017004,732.191767374841
8684,17975,22565,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/95",40.8198667,40.2667166666667,142,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.759606434846812,5497.34395248036,15.0612163081654,4.28248606584274,24.607520644578,859.122154716883
8684,17976,22566,"SMPDSv1","Southern Black Sea/Anatolia transect","S. Black Sea Transect/96",40.96895,40.3652666666667,24,"not applicable","terrestrial, soil","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.81014213773367,5712.0329130258,15.6494052411666,5.08643347644636,25.0066469977667,909.394856595146
8685,17977,11798,"Neotoma","Southern Twin Lake","LMSJ9",37.71912,-107.707295,3399,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.682060241614668,941.960230096363,-2.51817469002918,-14.2724240594388,9.1082386437936,644.621347639771
8686,17978,22577,"SMPDSv1","Southern Urals","Lapteva_a1",54.9427166666666,61.3527333333333,254,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.666844437007312,2589.03396668566,2.54027094492476,-15.8716243370088,19.7267654379328,456.383300784463
8686,17979,22578,"SMPDSv1","Southern Urals","Lapteva_a10",52.48745,58.2044166666666,490,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.56845301017472,2591.79123854935,2.13228994577007,-16.7462272398447,19.5862490694516,407.202304677056
8686,17980,22579,"SMPDSv1","Southern Urals","Lapteva_a101",54.36,61.04,300,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.648150201941104,2601.51843357692,2.45942708449351,-16.1084995404266,19.7483670187236,449.526716150557
8686,17981,22580,"SMPDSv1","Southern Urals","Lapteva_a11",52.3778333333333,57.6995833333333,565,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.604690405404206,2488.44781844533,1.68204969292047,-17.09349041958,19.0286806924394,427.168829150487
8686,17982,22581,"SMPDSv1","Southern Urals","Lapteva_a12",52.34165,57.8975333333333,579,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.616328509557013,2456.49807816135,1.54976514982275,-17.1817900377823,18.8515782117661,433.212278232964
8686,17983,22582,"SMPDSv1","Southern Urals","Lapteva_a13",52.23995,57.0713333333333,592,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.589450556010265,2495.27147178521,1.66367661948517,-17.1767423809628,19.0867691403619,419.485304243736
8686,17984,22583,"SMPDSv1","Southern Urals","Lapteva_a14",52.25305,57.4314,605,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.618040627683201,2434.47110153815,1.42763727587357,-17.3174930663778,18.7481924831679,434.26335074419
8686,17985,22584,"SMPDSv1","Southern Urals","Lapteva_a15",52.1642333333333,57.1625333333333,524,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.565414886339544,2599.06323729731,2.15849627872011,-16.7230033491391,19.6171682514926,408.308209847146
8686,17986,22585,"SMPDSv1","Southern Urals","Lapteva_a16",52.1119166666666,56.7386,260,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.506309247190536,2986.22601862289,4.0118326615145,-14.9282318547583,21.4844522779076,381.134554138863
8686,17987,22586,"SMPDSv1","Southern Urals","Lapteva_a17",51.7975,56.8269166666666,449,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.533879249192455,2725.53353257773,2.74819168985604,-16.1908621921776,20.2623636086073,394.235808131394
8686,17988,22587,"SMPDSv1","Southern Urals","Lapteva_a18",51.5267166666666,57.1581,212,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.435988373781701,3136.15883408029,4.60955487738173,-14.4931089421308,22.3011665600631,342.238478604465
8686,17989,22588,"SMPDSv1","Southern Urals","Lapteva_a19",51.5540333333333,57.5036333333333,407,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.480059397295029,2834.07316372764,3.17293984798531,-15.9143603207652,20.8677373981332,364.318474008213
8686,17990,22589,"SMPDSv1","Southern Urals","Lapteva_a2",54.6748666666666,61.2460166666666,244,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.624003980821765,2648.96543001636,2.69642396251995,-15.8899539371503,20.0157261200651,434.824313533874
8686,17991,22590,"SMPDSv1","Southern Urals","Lapteva_a20",51.3241666666666,58.1751666666666,281,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.409268392958274,3038.4963771334,3.98470597229829,-15.3792981288442,21.9587509471312,322.24410365493
8686,17992,22591,"SMPDSv1","Southern Urals","Lapteva_a21",51.29155,56.9221333333333,289,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.449214090182237,3025.65323602551,4.09577978039995,-14.9902537507427,21.7846231262572,350.040824070048
8686,17993,22592,"SMPDSv1","Southern Urals","Lapteva_a22",51.3393666666666,57.5421333333333,198,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.405031024609058,3174.43980371573,4.69883422944862,-14.5548207959203,22.5508296746345,322.534070621459
8686,17994,22593,"SMPDSv1","Southern Urals","Lapteva_a23",51.37635,56.3759666666666,142,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.431924665950444,3225.86707768326,5.06241430402915,-13.9704971327315,22.666079566235,341.916839064241
8686,17995,22594,"SMPDSv1","Southern Urals","Lapteva_a24",51.5729,56.5475166666666,206,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.452831317355381,3120.71555429955,4.58241956547633,-14.4409171415302,22.1765333913006,352.795646835619
8686,17996,22595,"SMPDSv1","Southern Urals","Lapteva_a25",51.9391166666666,56.4347833333333,337,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.524330507754444,2874.70564555715,3.49433446363914,-15.4208081399666,20.9531785661371,390.96061257198
8686,17997,22596,"SMPDSv1","Southern Urals","Lapteva_a26",51.9391166666666,56.4347833333333,337,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.524330507754444,2874.70564555715,3.49433446363914,-15.4208081399666,20.9531785661371,390.96061257198
8686,17998,22597,"SMPDSv1","Southern Urals","Lapteva_a27",52.3685,56.4602833333333,239,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.544477757780869,2962.50326244152,3.97047810669228,-14.8809249698971,21.307365906489,402.340565234851
8686,17999,22598,"SMPDSv1","Southern Urals","Lapteva_a28",52.8012666666666,55.89795,242,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",8,"cool evergreen needleleaf forest",0.614712144953375,2880.98893056953,3.71669376851252,-14.9622820623585,20.8331515392223,439.792648586742
8686,18000,22599,"SMPDSv1","Southern Urals","Lapteva_a29",53.3106,56.08305,196,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.693374799362501,2839.41805160239,3.67709799922028,-14.848506421713,20.5576208092978,479.483263319156
8686,18001,22600,"SMPDSv1","Southern Urals","Lapteva_a3",54.4191666666666,60.9507833333333,273,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.631361796781224,2631.95553968871,2.59509477376954,-16.0022279839889,19.9131360706952,440.098245710527
8686,18002,22601,"SMPDSv1","Southern Urals","Lapteva_a30",53.6544666666666,56.4363833333333,209,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.715072825808384,2797.1168475381,3.49971438732334,-15.021132836849,20.3534581722099,488.027706975882
8686,18003,22602,"SMPDSv1","Southern Urals","Lapteva_a31",53.6194666666666,56.6101166666666,330,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.696759036929538,2677.13380463221,2.85091988052355,-15.7214434702327,19.8237517209319,476.204632362341
8686,18004,22603,"SMPDSv1","Southern Urals","Lapteva_a32",53.5722166666666,57.03295,715,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.663594700269109,2270.71484934635,0.639058810685563,-18.0043365192762,17.9178852828252,450.348862473941
8686,18005,22604,"SMPDSv1","Southern Urals","Lapteva_a33",53.5500333333333,57.3284666666666,715,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.675650850717901,2246.55009410678,0.548547664420817,-18.0511461272758,17.795116645316,456.507128629317
8686,18006,22605,"SMPDSv1","Southern Urals","Lapteva_a34",53.81525,57.96135,491,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.714780916949906,2418.30381271088,1.56633088464373,-16.9586484401263,18.631501869207,478.895904372717
8686,18007,22606,"SMPDSv1","Southern Urals","Lapteva_a35",53.9691833333333,58.5360666666666,770,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.768218504141723,2115.75619691355,0.0488603092200746,-18.3249106563924,17.0956524421135,502.938532410881
8686,18008,22607,"SMPDSv1","Southern Urals","Lapteva_a36",54.0933166666666,59.0748333333333,482,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.695750901939139,2415.29761463845,1.51706055018382,-17.0244071046747,18.7035108937805,469.300288331411
8686,18009,22608,"SMPDSv1","Southern Urals","Lapteva_a37",54.3273166666666,59.3202333333333,590,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.767899285725963,2258.2072136822,0.842591746999891,-17.5165111582504,17.8995939394408,505.215480534158
8686,18010,22609,"SMPDSv1","Southern Urals","Lapteva_a38",54.7391833333333,60.1224833333333,397,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.733399562864419,2454.80858496381,1.86683560447622,-16.5094499730105,18.97256072707,491.043656176029
8686,18011,22610,"SMPDSv1","Southern Urals","Lapteva_a39",54.91525,60.5689,310,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.716499809385369,2517.71127895895,2.25781253785852,-16.041808536469,19.3427648968071,482.072081362107
8686,18012,22611,"SMPDSv1","Southern Urals","Lapteva_a4",54.2002,60.0741333333333,333,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.629446783619424,2609.47779974372,2.40356841583455,-16.2800551253005,19.7539706059381,438.063111429963
8686,18013,22612,"SMPDSv1","Southern Urals","Lapteva_a40",55.4684333333333,61.3608166666666,186,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.658808311513834,2584.29990866218,2.62138487718816,-15.7110055617733,19.7785103919234,447.768334077993
8686,18014,22613,"SMPDSv1","Southern Urals","Lapteva_a41",55.89305,61.1338333333333,249,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.763042317784247,2460.61419652825,2.26397728094219,-15.7127818466987,19.1624852224749,495.589757545973
8686,18015,22614,"SMPDSv1","Southern Urals","Lapteva_a43",55.5802166666666,60.39525,259,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.75613399722606,2487.88719395736,2.33588131531234,-15.6962185640902,19.2494538401314,495.542170002786
8686,18016,22615,"SMPDSv1","Southern Urals","Lapteva_a44",55.1211666666666,59.5947,748,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.847032584382163,2087.28366844584,0.0041919543333661,-18.2392778952774,16.9808321253848,539.773025918153
8686,18017,22616,"SMPDSv1","Southern Urals","Lapteva_a45",54.89985,59.1485,747,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.794316848035984,2117.48161015035,0.0916812065343853,-18.2379216571006,17.1286722459551,513.166236861401
8686,18018,22617,"SMPDSv1","Southern Urals","Lapteva_a46",54.5632,58.8224166666666,862,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.785957178327063,2024.76488166857,-0.451129877139544,-18.8113347637947,16.597079844652,506.749158932015
8686,18019,22618,"SMPDSv1","Southern Urals","Lapteva_a47",54.55525,58.8304833333333,985,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.790590481316204,1924.18697986118,-1.02925858096756,-19.3897490507047,16.026844838629,506.681239406944
8686,18020,22619,"SMPDSv1","Southern Urals","Lapteva_a48",54.5494333333333,58.8378,1090,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.795334119667089,1839.37414226076,-1.52420810105517,-19.8835750764084,15.5371976751575,506.960361402625
8686,18021,22620,"SMPDSv1","Southern Urals","Lapteva_a49",54.54895,58.8524833333333,1203,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.801533600122996,1748.95677345594,-2.05869114975859,-20.4151309420207,15.0068703776211,507.730367616122
8686,18022,22621,"SMPDSv1","Southern Urals","Lapteva_a5",53.9633333333333,60.0744166666666,287,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.586989820748521,2692.50263343152,2.72602752423617,-16.0787350652595,20.1782014209334,415.80370468752
8686,18023,22622,"SMPDSv1","Southern Urals","Lapteva_a50",54.5327,58.8523666666666,1260,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.805823955408103,1702.8644087919,-2.33106064947882,-20.6832493519149,14.7330843359666,508.703439836117
8686,18024,22623,"SMPDSv1","Southern Urals","Lapteva_a51",54.5285333333333,58.8494333333333,1315,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.808502461415349,1659.93756187242,-2.59057645327622,-20.9419217065726,14.4758892786748,508.873550618407
8686,18025,22624,"SMPDSv1","Southern Urals","Lapteva_a52",54.5263833333333,58.8463166666666,1420,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.813332556507759,1579.47630198895,-3.08511869924775,-21.4357398777421,13.9869255350081,509.010029284667
8686,18026,22625,"SMPDSv1","Southern Urals","Lapteva_a53",54.5201,58.84255,1582,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.82179251778633,1457.11450064496,-3.84977455381223,-22.197471433445,13.228969819326,509.622470429197
8686,18027,22626,"SMPDSv1","Southern Urals","Lapteva_a54",54.54275,58.8608833333333,1226,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.804283604458999,1729.55790007778,-2.17057060406313,-20.5233624627732,14.8925664156202,508.631729728991
8686,18028,22627,"SMPDSv1","Southern Urals","Lapteva_a55",54.8197166666666,58.50415,455,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.838302230321085,2320.50702220053,1.33094852496952,-16.9038005881114,18.2002208643866,537.710035811075
8686,18029,22628,"SMPDSv1","Southern Urals","Lapteva_a56",54.87235,57.3746833333333,427,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.829792608331819,2377.32640028668,1.59464110891317,-16.7016742986775,18.4018749044357,531.207476861594
8686,18030,22629,"SMPDSv1","Southern Urals","Lapteva_a57",54.89695,57.2975,175,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.869433574158858,2615.31463552977,2.92248286773172,-15.2962085051299,19.5170631000429,553.987837592317
8686,18031,22630,"SMPDSv1","Southern Urals","Lapteva_a58",54.9704333333333,57.4868666666666,210,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.871841197407734,2569.63426108802,2.69386240863974,-15.5193024361832,19.3170419207074,554.116637900766
8686,18032,22631,"SMPDSv1","Southern Urals","Lapteva_a59",54.9935,57.6184333333333,314,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.857668092678447,2467.47193015505,2.13320491484911,-16.1070650515979,18.8442074811034,545.649779289285
8686,18033,22632,"SMPDSv1","Southern Urals","Lapteva_a6",53.604,59.1239,425,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.599219809663681,2559.8524414246,2.03826664164026,-16.766458325724,19.4597366993473,418.817817588966
8686,18034,22633,"SMPDSv1","Southern Urals","Lapteva_a60",54.8966833333333,57.8890666666666,451,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.83593404468533,2339.34463713237,1.41190058621069,-16.8588286381459,18.2482115740471,534.572721536188
8686,18035,22634,"SMPDSv1","Southern Urals","Lapteva_a61",55.30335,58.0944333333333,277,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.912315055220044,2429.3316382689,2.06864664151312,-16.0370163850057,18.7349164105349,569.98464118766606
8686,18036,22635,"SMPDSv1","Southern Urals","Lapteva_a62",55.51505,58.8451,417,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.897806974033817,2299.86839211385,1.38902982424424,-16.64989497039,18.1649494909854,563.691052459618
8686,18037,22636,"SMPDSv1","Southern Urals","Lapteva_a7",53.2739166666666,59.1666666666666,357,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.544358526853817,2679.22539262604,2.51269226023946,-16.4560356956276,20.0840862274172,389.63125266855
8686,18038,22637,"SMPDSv1","Southern Urals","Lapteva_a8",52.40025,59.07065,291,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.443709554490652,2904.47167113179,3.33909118847154,-16.0297175400476,21.2872884661256,335.181778294516
8686,18039,22638,"SMPDSv1","Southern Urals","Lapteva_a9",52.6404,58.5117166666666,608,"not applicable","terrestrial, soil","soil sample","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.640125214757814,2385.72323701687,1.24298637649462,-17.4093544042932,18.4759771926463,443.277282696599
8686,18040,7647,"EMPDv2","Southern Urals","Lapteva_b1",51.55403,57.50363,400,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.477687785040302,2844.94945616211,3.22283426304955,-15.8695994830803,20.9222272274376,363.037231790858
8686,18041,7656,"EMPDv2","Southern Urals","Lapteva_b10",55.72775,58.90905,280,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.944389777616312,2371.93231433614,1.90590581804886,-16.0054787796804,18.5677394589526,583.936771972898
8686,18042,7743,"EMPDv2","Southern Urals","Lapteva_b104",52.19897,59.88886,296,"1e-04","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.419504399235051,2934.78067717472,3.35844863940692,-16.2074079509072,21.4892532216518,322.652042115571
8686,18043,7744,"EMPDv2","Southern Urals","Lapteva_b105",54.6,61.06667,230,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.609347988619613,2673.14139229975,2.79001480090243,-15.8341221951174,20.1400110224439,427.046907533434
8686,18044,7745,"EMPDv2","Southern Urals","Lapteva_b106",52.91667,58.76667,329,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.494724931358439,2783.3212512345,2.89691137024488,-16.2538064831342,20.6373820982363,362.515775505417
8686,18045,7657,"EMPDv2","Southern Urals","Lapteva_b11",56.05483,58.01595,220,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.976438276363478,2416.29452896824,2.15950982560714,-15.7833372908483,18.7395387467996,591.990627102366
8686,18046,7658,"EMPDv2","Southern Urals","Lapteva_b12",56.0554,58.01297,186,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.985535487479667,2438.6337828182,2.30044204219243,-15.6217722645632,18.8531570515871,595.665373176129
8686,18047,7659,"EMPDv2","Southern Urals","Lapteva_b13",56.22643,57.86113,342,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.949458106882613,2333.97449006234,1.64410987311306,-16.3655367545872,18.3177173371689,579.67721013572
8686,18048,7660,"EMPDv2","Southern Urals","Lapteva_b14",56.38033,58.69043,330,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.993557523988374,2295.65472406356,1.5917460595831,-16.2338154629939,18.2211766373386,598.624411240603
8686,18049,7661,"EMPDv2","Southern Urals","Lapteva_b15",55.96687,60.3827,435,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.910601713531515,2276.6515600129,1.40778630006834,-16.405126284341,18.1289763154277,569.037828524596
8686,18050,7648,"EMPDv2","Southern Urals","Lapteva_b2",52.65248,56.46487,387,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.592716036108155,2737.56898060232,2.93730062031126,-15.8452275035423,20.220311190403,425.075841927354
8686,18051,7649,"EMPDv2","Southern Urals","Lapteva_b3",52.65248,56.46487,387,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.592716036108155,2737.56898060232,2.93730062031126,-15.8452275035423,20.220311190403,425.075841927354
8686,18052,7681,"EMPDv2","Southern Urals","Lapteva_b35",52.16002,58.75319,265,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.415008342923936,2985.85962442282,3.65931197195729,-15.8233002154262,21.7244471509253,319.335755562984
8686,18053,7650,"EMPDv2","Southern Urals","Lapteva_b4",52.57528,56.82198,277,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.550137064514156,2910.09945735602,3.7104887987954,-15.1658290168463,21.0775608203015,403.596208006499
8686,18054,7693,"EMPDv2","Southern Urals","Lapteva_b47",52.19897,59.88886,296,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.419504399235051,2934.78067717472,3.35844863940692,-16.2074079509072,21.4892532216518,322.652042115571
8686,18055,7651,"EMPDv2","Southern Urals","Lapteva_b5",56.25898,60.84237,295,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.846275787420373,2363.06785894949,1.94379016643313,-15.8087357925935,18.6872524378257,530.682506770937
8686,18056,7652,"EMPDv2","Southern Urals","Lapteva_b6",55.99907,60.89792,255,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.776312453504251,2446.46051826725,2.22656054841923,-15.7052938739212,19.0934006793485,500.899534352585
8686,18057,7653,"EMPDv2","Southern Urals","Lapteva_b7",55.1144,60.04127,283,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.746153585744227,2519.10119793768,2.34639430370935,-15.862717131968,19.347708881929,496.032141719627
8686,18058,7654,"EMPDv2","Southern Urals","Lapteva_b8",55.07712,58.88462,636,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.810739723843974,2193.20092642689,0.564919300717685,-17.7145252715387,17.5474028281048,521.777745712397
8686,18059,7725,"EMPDv2","Southern Urals","Lapteva_b86",54.1,59.03333,477,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.694640243300304,2420.5536877604,1.5422080475797,-17.0024791357512,18.7301150767936,468.684846531161
8686,18060,7655,"EMPDv2","Southern Urals","Lapteva_b9",55.1512,58.7785,284,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.884746881115882,2424.52399324652,2.0228740063131,-16.0563060361881,18.7952664429297,562.308230579032
8687,18061,22639,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a120",68,68.5,80,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.09805337158968,1040.97294841965,-7.02061508481721,-24.7624417286141,12.6982278362217,376.802729409668
8687,18062,22640,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a121",67.5,68,100,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.1215460153271,1051.98391182978,-6.93779004146285,-24.7601208771795,12.8165242576473,392.652250617072
8687,18063,22641,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a122",68,68.5,80,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.09805337158968,1040.97294841965,-7.02061508481721,-24.7624417286141,12.6982278362217,376.802729409668
8687,18064,22642,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a123",68,68.5,100,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.1022316634296,1037.14866976128,-7.04452900970654,-24.8091717346412,12.6930274051252,379.728916717809
8687,18065,22643,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a124",68,68.5,90,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.10014816215844,1039.06080909047,-7.03257204726188,-24.7858067316277,12.6956276206734,378.265823063739
8687,18066,22644,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a125",68,68.5,90,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.10014816215844,1039.06080909047,-7.03257204726188,-24.7858067316277,12.6956276206734,378.265823063739
8687,18067,22645,"SMPDSv1","Southern Yamal Peninsula","Lapteva_a126",66.75,67,100,"not known","not known","not known","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16192321883777,1143.91778090506,-6.25432804802402,-24.334104611667,13.5959845083969,428.909728109127
8688,18068,17317,"Neotoma","Sparkling","TW021B",46.01,-89.699444,495,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03163303092936,2648.65473245956,3.9913490007497,-12.8030857067836,18.9206901856539,794.49802234937
8689,18069,8522,"EMPDv2","Spas Klepiki 10","Novenko_c300",55.26554,40.2076,116,"0.1","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.827545377438261,2752.57053038162,4.80128245774555,-10.8534333967477,18.8765774254023,575.083947917567
8690,18070,8514,"EMPDv2","Spas Klepiki 2","Novenko_c292",55.17088,40.17088,111,"0.1","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.824522588552014,2760.72068535862,4.8345901100528,-10.8309363380141,18.9038379440057,574.832640923774
8691,18071,8515,"EMPDv2","Spas Klepiki 3","Novenko_c293",55.17332,40.2197,108,"0.1","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.823531572675891,2762.55719650614,4.83638644527505,-10.8475495116106,18.9180233630696,574.317133849299
8692,18072,8516,"EMPDv2","Spas Klepiki 4","Novenko_c294",55.17699,40.2104,120,"0.12","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.827609276434966,2755.22131737458,4.82170496921104,-10.8045527939556,18.8660323446369,576.46605430075
8693,18073,8517,"EMPDv2","Spas Klepiki 5","Novenko_c295",55.17951,40.21693,112,"0.15","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.824954553975218,2760.07969502849,4.83135708539747,-10.8333461493524,18.9006150398163,575.027471173132
8694,18074,8518,"EMPDv2","Spas Klepiki 6","Novenko_c296",55.18348,40.22179,116,"0.1","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.826378983036499,2757.58220619413,4.8259777352856,-10.8201451025914,18.8833436387238,575.763103697711
8695,18075,8519,"EMPDv2","Spas Klepiki 7","Novenko_c297",55.18277,40.22221,110,"0.15","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.82432211409481,2761.27898842355,4.83356560485186,-10.8410224944971,18.9092914084609,574.664460588638
8696,18076,8520,"EMPDv2","Spas Klepiki 8","Novenko_c298",55.26815,40.21966,122,"0.2","terrestrial, soil","soil sample","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.833993887223804,2742.80117916118,4.77563138785033,-10.8441402038387,18.8289512260321,578.491233442159
8697,18077,8521,"EMPDv2","Spas Klepiki 9","Novenko_c299",55.267285,40.21557,118,"0.1","terrestrial, bog/fen/swamp","peat","-65","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.829710324743892,2749.2930516971,4.79249972230802,-10.8509125144307,18.8607817504864,576.224546085515
8698,18078,8196,"EMPDv2","Spasovka","Mikishin-Gvozdeva_b27",44.6675,132.802777777778,80,"not known","fluvial","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.845774381333319,3061.72426283636,4.32332083385581,-16.031325577496,21.027278005671,642.932590774809
8699,18079,13282,"Neotoma","Spectacle Lake","SPECTACL",45.572222,-93.408333,283,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.869149036717365,3427.37915055444,6.87740916661379,-11.4698831284924,22.3705671269962,736.557149731472
8699,18079,13283,"Neotoma","Spectacle Lake","SPECTACL",45.572222,-93.408333,283,"not known","lake","core","14","Unpublished data",,9,"cool mixed forest",0.869149036717365,3427.37915055444,6.87740916661379,-11.4698831284924,22.3705671269962,736.557149731472
8699,18079,13284,"Neotoma","Spectacle Lake","SPECTACL",45.572222,-93.408333,283,"not known","lake","core","41","Unpublished data",,9,"cool mixed forest",0.869149036717365,3427.37915055444,6.87740916661379,-11.4698831284924,22.3705671269962,736.557149731472
8700,18080,12027,"Neotoma","Spectacle Pond","DGSPEC10",44.799565,-71.850415,358,"not known","lake","surface sample","-8","Davis, M.B., and J.C. Goodlett. 1960. Comparison of the present vegetation with pollen‐spectra in surface samples from Brownington Pond, Vermont. Ecology 41(2):346-357.","10.2307/1930226",9,"cool mixed forest",1.56823270332006,2595.48566638415,4.41536449093813,-10.9607385483839,18.218598879711,1173.09009821828
8700,18081,16604,"Neotoma","Spectacle Pond","MGW008",41.7,-70.45,20,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",13,"temperate deciduous broadleaf forest",1.36130920653479,3870.6829205736,10.2816531781306,-2.25276961458569,22.3165434809424,1225.07602525153
8701,18082,9085,"EMPDv2","Spicak, Sumava","Svobodova_a3",49.1720472222222,13.2103083333333,1202,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.08635826971909,1941.41611598238,4.32086587867311,-4.23994773008589,12.6136102244857,1475.37303322275
8702,18083,14419,"Neotoma","Spicer Lake","SPIC06A1",41.75738,-86.52208,242,"not known","lake","core","-53","Wang, Y., J.L. Gill, J. Marsicek, A. Dierking, B. Shuman, and J.W. Williams. 2016. Pronounced variations in Fagus grandifolia abundances in the Great Lakes region during the Holocene. The Holocene 26(4):578-591.","10.1177/0959683615612586",13,"temperate deciduous broadleaf forest",1.01401035945281,3866.59759541108,9.70563530245636,-5.1650742766619,22.7644507760441,925.434145911236
8702,18083,14420,"Neotoma","Spicer Lake","SPIC06A1",41.75738,-86.52208,242,"not known","lake","core","-11","Wang, Y., J.L. Gill, J. Marsicek, A. Dierking, B. Shuman, and J.W. Williams. 2016. Pronounced variations in Fagus grandifolia abundances in the Great Lakes region during the Holocene. The Holocene 26(4):578-591.","10.1177/0959683615612586",13,"temperate deciduous broadleaf forest",1.01401035945281,3866.59759541108,9.70563530245636,-5.1650742766619,22.7644507760441,925.434145911236
8702,18083,14421,"Neotoma","Spicer Lake","SPIC06A1",41.75738,-86.52208,242,"not known","lake","core","25","Wang, Y., J.L. Gill, J. Marsicek, A. Dierking, B. Shuman, and J.W. Williams. 2016. Pronounced variations in Fagus grandifolia abundances in the Great Lakes region during the Holocene. The Holocene 26(4):578-591.","10.1177/0959683615612586",13,"temperate deciduous broadleaf forest",1.01401035945281,3866.59759541108,9.70563530245636,-5.1650742766619,22.7644507760441,925.434145911236
8703,18084,13981,"Neotoma","Spillway Pond","SPILLWAY",56.239975,-130.068815,852,"not known","lake","core","-30","Clague, J.J., and R.W. Mathewes. 1996. Neoglaciation, glacier-dammed lakes, and vegetation change in northwestern British Columbia, Canada. Arctic and Alpine Research 28:10-24.; Clague, J.J., B. Wohlfarth, J. Ayotte, M. Eriksson, I. Hutchinson, R.W. Mathewes, I.R. Walker, and L. Walker. 2004. Late Holocene environmental change at treeline in the northern Coast Mountains, British Columbia, Canada. Quaternary Science Reviews 23:2413-2431.",,31,"tundra",2.59226862243434,1623.00691591202,2.6611850013113,-6.43967360032441,11.7433928320637,1393.50486182235
8703,18084,13982,"Neotoma","Spillway Pond","SPILLWAY",56.239975,-130.068815,852,"not known","lake","core","33","Clague, J.J., and R.W. Mathewes. 1996. Neoglaciation, glacier-dammed lakes, and vegetation change in northwestern British Columbia, Canada. Arctic and Alpine Research 28:10-24.; Clague, J.J., B. Wohlfarth, J. Ayotte, M. Eriksson, I. Hutchinson, R.W. Mathewes, I.R. Walker, and L. Walker. 2004. Late Holocene environmental change at treeline in the northern Coast Mountains, British Columbia, Canada. Quaternary Science Reviews 23:2413-2431.",,31,"tundra",2.59226862243434,1623.00691591202,2.6611850013113,-6.43967360032441,11.7433928320637,1393.50486182235
8704,18085,13285,"Neotoma","Spirit Lake","SPIRIT",46.47,-86.958333,203,"not known","lake","core","-20","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.05097707223505,2741.03051002291,4.78791705866667,-11.0968824331724,18.9091403455515,800.681886066768
8704,18085,13286,"Neotoma","Spirit Lake","SPIRIT",46.47,-86.958333,203,"not known","lake","core","-10","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.05097707223505,2741.03051002291,4.78791705866667,-11.0968824331724,18.9091403455515,800.681886066768
8704,18085,13287,"Neotoma","Spirit Lake","SPIRIT",46.47,-86.958333,203,"not known","lake","core","9","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.05097707223505,2741.03051002291,4.78791705866667,-11.0968824331724,18.9091403455515,800.681886066768
8704,18085,13288,"Neotoma","Spirit Lake","SPIRIT",46.47,-86.958333,203,"not known","lake","core","38","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.05097707223505,2741.03051002291,4.78791705866667,-11.0968824331724,18.9091403455515,800.681886066768
8704,18085,13289,"Neotoma","Spirit Lake","SPIRIT",46.47,-86.958333,203,"not known","lake","core","48","Woods, K.D., and M.B. Davis. 1989. Paleoecology of range limits: beech in the Upper Peninsula of Michigan. Ecology 70(3):681-696.",,9,"cool mixed forest",1.05097707223505,2741.03051002291,4.78791705866667,-11.0968824331724,18.9091403455515,800.681886066768
8705,18086,16050,"Neotoma","Spiritwood Lake","JHM001",47.074695,-98.5866,437,"not known","lake","surface sample","Modern","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18087,11355,"Neotoma","Spiritwood Lake","NDSTSP",47.074695,-98.5866,437,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18088,12765,"Neotoma","Spiritwood Lake","SPIRITWD",47.074695,-98.5866,437,"not known","lake","core","-18","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18088,12766,"Neotoma","Spiritwood Lake","SPIRITWD",47.074695,-98.5866,437,"not known","lake","core","-11","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18088,12767,"Neotoma","Spiritwood Lake","SPIRITWD",47.074695,-98.5866,437,"not known","lake","core","-3","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18088,12768,"Neotoma","Spiritwood Lake","SPIRITWD",47.074695,-98.5866,437,"not known","lake","core","15","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8705,18088,12769,"Neotoma","Spiritwood Lake","SPIRITWD",47.074695,-98.5866,437,"not known","lake","core","33","Unpublished data",,22,"steppe",0.56880851010651,3003.65438073503,4.50286814728075,-14.7971913289568,21.0325818927024,472.161948401908
8706,18089,13290,"Neotoma","Splains Lake","SPLAINSL",38.83164,-107.078195,3165,"not known","lake","core","-30","Fall, P.L. 1988. Vegetation dynamics in the southern Rocky Mountains: late Pleistocene and Holocene timberline fluctuations. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Fall, P.L. 1997. Timberline fluctuations and late Quaternary paleoclimates in the southern Rocky Mountains, Colorado. Geological Society of America Bulletin 109(10):1306-1320.","10.1130/0016-7606(1997)109<1306:TFALQP>2.3.CO;2",17,"temperate evergreen needleleaf open woodland",0.570208068618959,1241.29143396069,-0.782758705388516,-12.4685421597721,10.999685891196,547.703180704349
8707,18090,9101,"EMPDv2","Splavske, Sumava","Svobodova_a17",48.9000444444444,13.7372222222222,812,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.45374475692361,2520.85344549584,6.30958355105369,-3.2787102868962,15.2007715253171,1085.35087185171
8708,18091,22646,"SMPDSv1","Sporovskoe lake","Sporovskoe lake_SS",52.4250055555555,25.3686472222222,130,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.808877761456763,2986.46450468895,7.11080313771045,-5.66969249843897,17.8889223202709,585.849142139654
8709,18092,11533,"Neotoma","Spring Lake","NDBESP",47.945785,-98.81996,438,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.584559088147267,2853.92501285656,3.65279497711783,-15.9771824316071,20.2879029174763,474.043131883888
8709,18093,11479,"Neotoma","Spring Lake","NDBOSP",46.2246899999999,-103.73472,902,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.434511077659072,3174.48398851864,6.70248814791507,-9.01104283975709,21.8758416552039,395.893963786806
8709,18094,13291,"Neotoma","Spring Lake","SPRINGBC",55.511389,-119.583333,835,"not known","lake","core","-2","White, J.M., and R.W. Mathewes. 1986. Postglacial vegetation and climatic change in the upper Peace River district, Alberta. Canadian Journal of Botany 64:2305-2318.; White, J.M., R.W. Mathewes, and W.H. Mathews. 1985. Late Pleistocene chronology and environment of the ""ice-free corridor"" of northwestern Alberta. Quaternary Research 24:173-186.",,15,"cold evergreen needleleaf forest",0.795094658577897,1956.89271210237,0.946256971404828,-15.1803927062701,14.4570520591912,506.161364903342
8709,18095,13292,"Neotoma","Spring Lake","SPRINGLK",41.673889,-76.35,342,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.14534021904492,3540.76473727179,8.83548488801017,-4.79467235238936,21.3825534562889,995.665294518985
8710,18096,16506,"Neotoma","Squa Pan Pond","KG003",46.55,-68.33,183,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47951986831049,2540.63704824753,4.0634001417391,-11.5991197711509,18.3920769204958,1084.52773118358
8711,18097,16706,"Neotoma","Squam","PWD16",41.308333,-70.008333,6,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41226037773286,3971.98551124596,10.6730647396919,-1.61878721805592,22.4117419581924,1285.23992184399
8712,18098,12129,"Neotoma","SR-9, Humber Park","SR-9",33.76565,-116.68636,1987,"not known","terrestrial","surface sample","-44","Anderson, R.S., and P.A. Koehler. 2003. Modern pollen and vegetation relationships in the mountains of southern California, USA. Grana 42(3):129-144.","10.1080/00173130310009949",20,"xerophytic woods/scrub",0.491905331657221,3471.01461309668,9.50962907697721,1.46036200952238,20.9679610656524,666.836599883
8713,18099,5933,"EMBSeCBIO","Sredna Gora mountains","Sredna Gora mountains_1_0",42.833333,24.833333,1300,"small (0.01-1 km2)","terrestrial","profile or section","-39","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.79974282804256,2757.28832932478,6.86336032325893,-3.83069197395232,16.9634861619622,744.158270425585
8713,18100,5934,"EMBSeCBIO","Sredna Gora mountains","Sredna Gora mountains_1_5",42.833333,24.833333,1300,"small (0.01-1 km2)","terrestrial","profile or section","17","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.79974282804256,2757.28832932478,6.86336032325893,-3.83069197395232,16.9634861619622,744.158270425585
8714,18101,22647,"SMPDSv1","Sredne-Sulemski Peatbog","Sredne-Sulemski_SS (Novenko_c173)",57.45,59.6667,380,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-26","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08640107209441,2169.36935489481,1.22518098784976,-16.1918214837342,17.7403238938938,627.247584725813
8715,18102,14155,"Neotoma","SRM-1","SRM-1",25.3527777777778,-81.1144444444444,0,"not known","coastal, estuarine","core","-49","Yao, Q., K.-B. Liu, W.J. Platt, and V.H. Rivera-Monroy. 2015. Palynological reconstruction of environmental changes in coastal wetlands of the Florida Everglades since the mid-Holocene. Quaternary Research 83(3):449-458.","10.1016/j.yqres.2015.03.005",17,"temperate evergreen needleleaf open woodland",0.799914958908427,9090.91817547706,24.9066251382933,20.2899895573443,28.7131274259516,1203.52886414327
8715,18102,14156,"Neotoma","SRM-1","SRM-1",25.3527777777778,-81.1144444444444,0,"not known","coastal, estuarine","core","-28","Yao, Q., K.-B. Liu, W.J. Platt, and V.H. Rivera-Monroy. 2015. Palynological reconstruction of environmental changes in coastal wetlands of the Florida Everglades since the mid-Holocene. Quaternary Research 83(3):449-458.","10.1016/j.yqres.2015.03.005",17,"temperate evergreen needleleaf open woodland",0.799914958908427,9090.91817547706,24.9066251382933,20.2899895573443,28.7131274259516,1203.52886414327
8715,18102,14157,"Neotoma","SRM-1","SRM-1",25.3527777777778,-81.1144444444444,0,"not known","coastal, estuarine","core","-22","Yao, Q., K.-B. Liu, W.J. Platt, and V.H. Rivera-Monroy. 2015. Palynological reconstruction of environmental changes in coastal wetlands of the Florida Everglades since the mid-Holocene. Quaternary Research 83(3):449-458.","10.1016/j.yqres.2015.03.005",17,"temperate evergreen needleleaf open woodland",0.799914958908427,9090.91817547706,24.9066251382933,20.2899895573443,28.7131274259516,1203.52886414327
8716,18103,9341,"EMPDv2","SS DJM ECOT","Remazani_a23",36.4788888888889,51.5097222222222,2300,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.265506638145641,3872.50773241269,9.79990891578072,-4.99686588710713,23.4159098785126,361.815087359566
8717,18104,9340,"EMPDv2","SS DJM FAG 1","Remazani_a22",36.4838888888889,51.5111111111111,2130,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.252418858023558,4087.16207045437,10.5944944369557,-4.06536415081644,24.1087041559086,345.066617334529
8718,18105,9339,"EMPDv2","SS DJM FAG 2","Remazani_a21",36.4877777777778,51.5122222222222,2010,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.243262318241183,4243.13852381195,11.1550411904172,-3.40803857050318,24.5972751872878,333.251546304786
8719,18106,9338,"EMPDv2","SS DJM FAG 3","Remazani_a20",36.4908333333333,51.5136111111111,1810,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.228109422404342,4512.74007764807,12.08970917751,-2.31213215692074,25.4120356553698,313.548954438665
8720,18107,9337,"EMPDv2","SS DJM FAG 4","Remazani_a19",36.4922222222222,51.5155555555556,1690,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.21907674716929,4681.30115679126,12.6508561950615,-1.65413025540748,25.901180138565,301.712958665182
8721,18108,9335,"EMPDv2","SS DJM FAG 5","Remazani_a17",36.4975,51.5208333333333,1470,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.202670652670612,5006.74032387701,13.6787285344514,-0.448165211343793,26.7965564644279,280.027627543191
8722,18109,9334,"EMPDv2","SS DJM FAG 6","Remazani_a16",36.5069444444444,51.5130555555556,1320,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.19177600741181,5246.18434885499,14.3731078050822,0.367505147228489,27.4003285553859,265.45787624716
8723,18110,9331,"EMPDv2","SS DJM FAG 7","Remazani_a13",36.5119444444444,51.5152777777778,1140,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.178601452434032,5552.40690547729,15.2120737136364,1.35249290761477,28.1305466842593,247.773845955314
8724,18111,9336,"EMPDv2","SS DJM MIRE","Remazani_a18",36.5019444444444,51.5069444444444,1550,"0.0025","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.208818870384252,4883.52514023423,13.2988284071887,-0.893218777524104,26.4647105754494,288.125166267255
8725,18112,9342,"EMPDv2","SS DJM PEAK","Remazani_a24",36.4780555555556,51.5066666666667,2370,"0.000625","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.270977395303287,3785.82688226005,9.47151166642052,-5.38172865288855,23.1293046023057,368.753963612423
8726,18113,9333,"EMPDv2","SS GZN SPOT N","Remazani_a15",36.5558333333333,51.6430555555556,1220,"0.007","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.183709682806001,5422.17921375463,14.855285517136,0.947732647529234,27.8091693398264,254.586920484239
8727,18114,9332,"EMPDv2","SS GZN SPOT S","Remazani_a14",36.5558333333333,51.6430555555556,1200,"0.0025","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.182250216999005,5456.14729393099,14.9483487504959,1.05707472482396,27.8899892041039,252.626061267002
8728,18115,9330,"EMPDv2","SSLARU 1","Remazani_a12",36.5188888888889,51.51,1030,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.170714866406475,5738.02021329674,15.7206033241006,1.95030125407194,28.5724612605599,237.10268247919
8729,18116,9329,"EMPDv2","SSLARU 2","Remazani_a11",36.5238888888889,51.5088888888889,940,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.16424739216254,5890.26333928865,16.137707778873,2.44073281621286,28.9348864438106,228.329898940667
8730,18117,9328,"EMPDv2","SSLARU 3","Remazani_a10",36.5402777777778,51.5136111111111,700,"4e-04","terrestrial","moss polster or moss","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.147081026985312,6295.9615162431,17.2492096335428,3.74942141740017,29.8991309029135,204.915348447155
8731,18118,22648,"SMPDSv1","St Douat","Barboni_a183",45.45,2.73,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1638151568487,2851.60267097437,7.81236789962385,0.0881822029127245,16.4857967379767,1037.60322151505
8732,18119,22651,"SMPDSv1","St Merdles Oussines","Miras_j1",45.6352416666666,2.04259166666666,827,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10466453968808,3119.7912561691,8.54737330457287,0.876164970604055,17.0320126099606,968.053968722917
8732,18120,22652,"SMPDSv1","St Merdles Oussines","Miras_j2",45.6351888888888,2.04117777777777,829,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10547965456103,3116.30008136047,8.53780844208348,0.866205256549158,17.023575935122,968.706526492173
8732,18121,22653,"SMPDSv1","St Merdles Oussines","Miras_j3",45.6356083333333,2.04051111111111,836,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10830672041379,3104.10176541634,8.50438839840092,0.831416616510818,16.9941577129276,970.979224030243
8732,18122,22654,"SMPDSv1","St Merdles Oussines","Miras_j4",45.6347972222222,2.04086388888888,831,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10626713018842,3112.84347580072,8.52833828986499,0.856337830783025,17.0152837329876,969.351420504057
8732,18123,22655,"SMPDSv1","St Merdles Oussines","Miras_j5",45.6346472222222,2.03984444444444,834,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10747366883964,3107.62442728651,8.51403952681236,0.841446652676727,17.0027077590001,970.324899312493
8732,18124,22656,"SMPDSv1","St Merdles Oussines","Miras_j6",45.6349527777777,2.03128333333333,821,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10239134683205,3130.09136066448,8.57559276894377,0.905545330438518,17.0565259330916,966.155451557774
8732,18125,22657,"SMPDSv1","St Merdles Oussines","Miras_j7",45.6344805555555,2.02858333333333,809,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09760979326255,3150.95621533489,8.63275675434216,0.965072884289248,17.1067196301675,962.282477783462
8732,18126,22658,"SMPDSv1","St Merdles Oussines","Miras_j8",45.6352472222222,2.02122777777777,812,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.09893066336819,3145.60603691186,8.61809873126536,0.949832140799907,17.093573581047,963.291997344749
8733,18127,22659,"SMPDSv1","St-Crepin","Ortu_d41",44.708,6.611,920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07196174308326,3438.7395627725,9.4212042815685,1.59328153951106,18.1257012149731,1077.55148680767
8733,18128,22660,"SMPDSv1","St-Crepin","Ortu_d42",44.708,6.611,920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07196174308326,3438.7395627725,9.4212042815685,1.59328153951106,18.1257012149731,1077.55148680767
8733,18129,22661,"SMPDSv1","St-Crepin","Ortu_d43",44.708,6.611,920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07196174308326,3438.7395627725,9.4212042815685,1.59328153951106,18.1257012149731,1077.55148680767
8734,18130,13294,"Neotoma","St. Catherines Lake","STCATHER",44.626875,-93.43352,287,"not known","lake","core","11","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847498500113324,3430.38329452782,6.83968707697255,-11.6583154966478,22.404226575074,728.39284388657
8734,18130,13295,"Neotoma","St. Catherines Lake","STCATHER",44.626875,-93.43352,287,"not known","lake","core","36","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.847498500113324,3430.38329452782,6.83968707697255,-11.6583154966478,22.404226575074,728.39284388657
8735,18131,13891,"Neotoma","St. Clair Lake","MNBCSC",46.80338,-95.88068,407,"not known","lake","core","-18","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.750404535165947,3011.23618198559,4.63194823947461,-14.7414220858374,20.7428898187246,612.194132651035
8735,18131,13892,"Neotoma","St. Clair Lake","MNBCSC",46.80338,-95.88068,407,"not known","lake","core","5","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.750404535165947,3011.23618198559,4.63194823947461,-14.7414220858374,20.7428898187246,612.194132651035
8735,18131,13893,"Neotoma","St. Clair Lake","MNBCSC",46.80338,-95.88068,407,"not known","lake","core","24","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.750404535165947,3011.23618198559,4.63194823947461,-14.7414220858374,20.7428898187246,612.194132651035
8735,18131,13894,"Neotoma","St. Clair Lake","MNBCSC",46.80338,-95.88068,407,"not known","lake","core","46","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.750404535165947,3011.23618198559,4.63194823947461,-14.7414220858374,20.7428898187246,612.194132651035
8735,18131,13895,"Neotoma","St. Clair Lake","MNBCSC",46.80338,-95.88068,407,"not known","lake","core","50","Birks, H.H., M.C. Whiteside, D.M. Stark, and R.C. Bright. 1975. Recent paleolimnology of three lakes in northwestern Minnesota. Quaternary Research 6(2):249-272.","10.1016/0033-5894(76)90053-3",9,"cool mixed forest",0.750404535165947,3011.23618198559,4.63194823947461,-14.7414220858374,20.7428898187246,612.194132651035
8736,18132,9683,"Gaillard et al., 1992","St. Greda","St. Greda",57.000025,16.861318,3,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.874084807325018,2680.03493587426,7.07552708869501,-1.63451870729119,16.355032390042,564.356171777316
8737,18133,11631,"Neotoma","St. Jacob's Tank","GPPS-20",37.241381,-99.980865,704,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.4607005793804,5129.04250252216,14.0461086434243,0.127840057962935,27.4118418240273,574.336394669411
8738,18134,14815,"Neotoma","St. Jones River (SJB6)","SJB6",39.081105,-75.4438299999999,-3,"not known","terrestrial, marsh","core","-32","Moskalski, S.M. 2005. Palynological determination of historical sediment accumulation rates and paleoecological variation in marshes on the St. Jones River, Delaware, USA. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.; Wilson, B. 2005. The paleoenvironmental history of the St. Jones Estuary, Delaware: pre-Holocene to present. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.",,13,"temperate deciduous broadleaf forest",1.07420049453554,4880.57186780776,13.3714297748158,1.07689145091864,24.828964379513,1101.68897620767
8738,18134,14816,"Neotoma","St. Jones River (SJB6)","SJB6",39.081105,-75.4438299999999,-3,"not known","terrestrial, marsh","core","41","Moskalski, S.M. 2005. Palynological determination of historical sediment accumulation rates and paleoecological variation in marshes on the St. Jones River, Delaware, USA. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.; Wilson, B. 2005. The paleoenvironmental history of the St. Jones Estuary, Delaware: pre-Holocene to present. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.",,13,"temperate deciduous broadleaf forest",1.07420049453554,4880.57186780776,13.3714297748158,1.07689145091864,24.828964379513,1101.68897620767
8739,18135,14817,"Neotoma","St. Jones River (SJC6)","SJC6",39.092015,-75.45265,-3,"not known","terrestrial, marsh","core","30","Moskalski, S.M. 2005. Palynological determination of historical sediment accumulation rates and paleoecological variation in marshes on the St. Jones River, Delaware, USA. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.; Wilson, B. 2005. The paleoenvironmental history of the St. Jones Estuary, Delaware: pre-Holocene to present. Doctoral dissertation. University of Delaware, Newark, Delaware, USA.",,13,"temperate deciduous broadleaf forest",1.07430807687973,4879.96966951238,13.3697799164723,1.07219578907904,24.8295832117194,1101.63869422317
8740,18136,14264,"Neotoma","St. Lawrence Island Section 3","STLAWR3",63.6738888888889,-171.581944444444,0,"not known","coastal, other","core","-44","Lozhkin, A.V., D.M. Hopkins, T.B. Solomatkina, W.R. Eisner, and J. Brigham-Grette. 1998. Radiocarbon dates and palynological characteristics of peat from St Lawrence Island, Alaska. Pages 9-27 in Environmental changes in Beringia during the Quaternary. North East Interdisciplinary Research Institute, Far East Branch, Russian Academy of Sciences, Magadan, Russia. Translated from Russian.",,31,"tundra",1.64998889414912,816.018663207225,-3.86938707353588,-15.8572559576299,8.2445451576949,567.829291842301
8741,18137,14263,"Neotoma","St. Lawrence Section 2","STLAWR2",63.6672222222222,-171.547916666666,0,"not known","coastal, other","core","-567","Lozhkin, A.V., D.M. Hopkins, T.B. Solomatkina, W.R. Eisner, and J. Brigham-Grette. 1998. Radiocarbon dates and palynological characteristics of peat from St Lawrence Island, Alaska. Pages 9-27 in Environmental changes in Beringia during the Quaternary. North East Interdisciplinary Research Institute, Far East Branch, Russian Academy of Sciences, Magadan, Russia. Translated from Russian.",,31,"tundra",1.65044811084927,816.571818013244,-3.86522099859786,-15.8494028514805,8.24881294500686,568.164028509897
8742,18138,9684,"Gaillard et al., 1992","St. Lonnemala","St. Lonnemala",56.429618,15.365932,112,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.908873762574656,2597.64561294734,6.67757189487288,-2.28474146718293,16.0533094898484,597.118453281863
8743,18139,22662,"SMPDSv1","St. Oksso","Odgaard_a2",56.807062,9.87018,50,"0.33","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19353963341456,2751.21796885027,7.45437672380979,-0.546824044777129,15.4835576313175,740.401260946246
8744,18140,22663,"SMPDSv1","St. Oreso","Odgaard_a7",55.121358,10.298535,50,"0.08","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.11072166826519,2879.4147397134,7.86637542189172,-0.0896793541522888,15.889685181507,718.300510262582
8745,18141,14782,"Neotoma","St. Shotts","SHOTTS1",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-19","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18142,14781,"Neotoma","St. Shotts","SHOTTS2",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-14","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18143,14780,"Neotoma","St. Shotts","SHOTTS3",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-5","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18144,14783,"Neotoma","St. Shotts","SHOTTS4",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","8","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18145,14779,"Neotoma","St. Shotts","SHOTTS5",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-14","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18146,14784,"Neotoma","St. Shotts","SHOTTS6",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-2","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8745,18147,14785,"Neotoma","St. Shotts","SHOTTS8",46.647495,-53.600965,35,"not known","terrestrial, blanket bog","core","-2","Irwin, T.E. 1994. Development of a blanket bog at St. Shotts, Avalon Peninsula, Newfoundand. Doctoral dissertation. University of Toronto, Toronto, Ontario, Canada.",,9,"cool mixed forest",2.1489504014511,2290.55334084709,5.52173863808984,-3.80219993468555,15.5990003162556,1436.42651291027
8746,18148,22664,"SMPDSv1","St. Tjorna","Bjune_a146",58.897208,8.53317377,167,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.94376234080525,2263.66223016933,5.28705759413298,-4.31248594741518,14.8931112175135,1134.35293857585
8747,18149,11239,"Bush et al., 2020","St.Emilio.10","St.Emilio.10",10.816705,-85.65,145,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.24034732110628,9489.70662236841,25.9991962256669,25.0006127820995,27.4870637401047,2187.36160809825
8748,18150,11240,"Bush et al., 2020","St.Emilio.9","St.Emilio.9",10.816705,-85.65,145,"not known","terrestrial","pollen trap","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.24034732110628,9489.70662236841,25.9991962256669,25.0006127820995,27.4870637401047,2187.36160809825
8749,18151,22665,"SMPDSv1","Stabbvatnet","Bjune_a262",63.0516666666666,9.43333333333333,506,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.36392534603398,1512.48784291594,2.49427811084041,-5.98424939608168,11.4320473394142,1068.30141300265
8750,18152,7081,"EMPDv2","Stadukhinskaya Protoka Channel","EPDcoretop_E1913",68.67,159.5,5,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.560176515822983,935.939514082757,-12.793784078812,-33.0635745543879,11.3010937047555,180.899805462145
8751,18153,16563,"Neotoma","Stafford Pond","KG057",44.72,-69.5,80,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47592380794098,2945.28687406824,6.35966593454399,-7.84769918196646,19.6017932018537,1153.43297784085
8752,18154,22666,"SMPDSv1","Staffsee","Stafsee_ss",52.59436,14.189,30,"0.096","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.771907938082119,3260.13888735786,8.83521244939664,-0.897221961224294,17.9450355571657,552.83538836438
8753,18155,22667,"SMPDSv1","Stand","CH/WVDK/G10",46.655579,8.012162,2120,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.83791491098772,1089.81943569275,1.00027203132534,-6.13106268070011,8.77571508564465,2059.01933973559
8753,18156,22668,"SMPDSv1","Stand","CH/WVDK/G12",46.658173,8.015129,2270,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99742918561636,928.367844258004,0.209991756673879,-6.71898955197084,7.85498446474139,2142.53836963126
8754,18157,16814,"Neotoma","Stand 1 (Mack and Bryant 1974]","RNM001",47.43,-118.96,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.266762780808008,3805.57806084462,10.2346327692233,-1.37534514064172,21.5930493881095,242.123083177483
8755,18158,16823,"Neotoma","Stand 10 (Mack and Bryant 1974]","RNM010",46.8,-119.13,351,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.227267923932949,4066.56950251005,11.0775602356071,-0.33050874171139,22.3489118749943,210.83488346121
8756,18159,16824,"Neotoma","Stand 11 (Mack and Bryant 1974]","RNM011",47.15,-119.75,366,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.16491132120736,4040.75497756246,10.9783556673252,-0.572875905413608,22.2760050454046,151.301630437755
8757,18160,16825,"Neotoma","Stand 12 (Mack and Bryant 1974]","RNM012",46.53,-120.26,411,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.270271421396573,3880.07004791539,10.5429082334909,-0.499420141997599,21.555624413043,245.04027607741
8758,18161,16826,"Neotoma","Stand 13 (Mack and Bryant 1974]","RNM013",46.81,-117.23,732,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.547643192536708,3495.90748417266,9.34376430370863,-1.61998047298358,20.9148285870524,502.087547392254
8759,18162,16827,"Neotoma","Stand 14 (Mack and Bryant 1974]","RNM014",47.7,-118.7,701,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.427415486467886,3291.46216001054,8.52498122657556,-3.07861414528707,20.0082754442627,374.275777218387
8760,18163,16828,"Neotoma","Stand 15 (Mack and Bryant 1974]","RNM015",46.5,-118.93,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.281557087236735,3880.28923378399,10.5301009707026,-0.666403613976587,21.8012129021979,261.091991962874
8761,18164,16829,"Neotoma","Stand 16 (Mack and Bryant 1974]","RNM016",46.53,-119.88,427,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.238129196076515,3892.88434473447,10.5690592625426,-0.589828157176661,21.6932093854255,217.586870965938
8762,18165,16830,"Neotoma","Stand 17 (Mack and Bryant 1974]","RNM017",47.15,-119.43,366,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.186867166499398,4059.73194103414,11.0391296500533,-0.512280693720353,22.3667072811835,172.399936950804
8763,18166,16831,"Neotoma","Stand 18 (Mack and Bryant 1974]","RNM018",46.78,-118.43,503,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.322653610140867,3827.21492139297,10.3496972236573,-0.971750794204113,21.7252827378418,298.128215487554
8764,18167,16832,"Neotoma","Stand 19 (Mack and Bryant 1974]","RNM019",47.31,-117.96,549,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.367480638635559,3736.41482943409,10.048071872455001,-1.37412311301234,21.5255313928045,336.142085566406
8765,18168,16815,"Neotoma","Stand 2 (Mack and Bryant 1974]","RNM002",47.45,-118.75,549,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.312986622097383,3661.45216871528,9.76686797651098,-1.85936516837458,21.1758072041883,282.084664140897
8766,18169,16833,"Neotoma","Stand 20 (Mack and Bryant 1974]","RNM020",46.78,-118.51,457,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.300129901793792,3896.50604863002,10.5609266732553,-0.804433167178552,21.9162888577155,277.893704958972
8767,18170,16834,"Neotoma","Stand 21 (Mack and Bryant 1974]","RNM021",46.76,-118.15,351,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.281056192056189,4062.83187868081,11.0633165989693,-0.421872530900799,22.4320153039638,262.779226181878
8768,18171,16835,"Neotoma","Stand 22 (Mack and Bryant 1974]","RNM022",46.8,-119.13,351,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.227267923932949,4066.56950251005,11.0775602356071,-0.33050874171139,22.3489118749943,210.83488346121
8769,18172,16836,"Neotoma","Stand 23 (Mack and Bryant 1974]","RNM023",46.8,-117.88,427,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.325382802252154,3943.27808917405,10.7041973291091,-0.705561557767561,22.1124107826889,302.821765437672
8770,18173,16837,"Neotoma","Stand 24 (Mack and Bryant 1974]","RNM024",46.72,-119.03,351,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.237124606892202,4046.43215725185,11.0141281865238,-0.415036065163703,22.2745597750617,219.753913213067
8771,18174,16838,"Neotoma","Stand 25 (Mack and Bryant 1974]","RNM025",46.82,-117.65,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.373105085461165,3866.16552405342,10.4755212357163,-0.860335144857949,21.9362961177949,347.17620710469
8772,18175,16839,"Neotoma","Stand 26 (Mack and Bryant 1974]","RNM026",46.77,-117.97,427,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.322794234773979,3946.15191315797,10.71436618639,-0.684403909681042,22.1166395993061,300.588246705351
8773,18176,16840,"Neotoma","Stand 27 (Mack and Bryant 1974]","RNM027",46.63,-118.77,290,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.231120487950769,4130.90869964237,11.2647917033432,-0.234681718778065,22.532531683389,215.267402490375
8774,18177,16841,"Neotoma","Stand 28 (Mack and Bryant 1974]","RNM028",47.37,-118.1,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.413594366407801,3579.17473320566,9.53765495074262,-1.87492925503226,21.0279709306808,373.899958841617
8775,18178,16842,"Neotoma","Stand 29 (Mack and Bryant 1974]","RNM029",46.7,-119,351,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.238484464553641,4047.45050825088,11.0177432580049,-0.408038073250386,22.279338529668,221.135565141123
8776,18179,16816,"Neotoma","Stand 3 (Mack and Bryant 1974]","RNM003",47.21,-119.41,366,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.184059578854505,4062.51540953172,11.0450253348303,-0.530100999500477,22.3824451172671,169.748316864746
8777,18180,16843,"Neotoma","Stand 30 (Mack and Bryant 1974]","RNM030",46.77,-118.37,457,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.305284966153907,3898.26017821473,10.5676048689748,-0.792111560419818,21.9296722274438,282.896156891864
8778,18181,16844,"Neotoma","Stand 31 (Mack and Bryant 1974]","RNM031",46.73,-119.08,290,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.21902985378741,4124.58373717516,11.2441465860872,-0.257922597799238,22.4965779315319,203.271113982033
8779,18182,16845,"Neotoma","Stand 32 (Mack and Bryant 1974]","RNM032",46.82,-117.85,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.355924768840621,3852.1028467692,10.4294093838891,-0.903397910485378,21.858812620104,330.075359460471
8780,18183,16846,"Neotoma","Stand 33 (Mack and Bryant 1974]","RNM033",47.28,-117.95,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.419394209228929,3594.46387517557,9.59597622132627,-1.77217601798473,21.0881638215781,380.398377459794
8781,18184,16847,"Neotoma","Stand 34 (Mack and Bryant 1974]","RNM034",46.65,-118.58,335,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.261525090552089,4083.3128449834,11.1256509648161,-0.340273266322184,22.4441026607267,244.145405409851
8782,18185,16848,"Neotoma","Stand 35 (Mack and Bryant 1974]","RNM035",46.67,-118.47,320,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.261452813599363,4100.60544436765,11.1755493142049,-0.319397319919398,22.4991861344094,244.163397751475
8783,18186,16849,"Neotoma","Stand 36 (Mack and Bryant 1974]","RNM036",46.28,-120.45,244,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.0840643223643657,4167.72397937131,11.3822857412531,0.00362480316916389,22.622198303481,77.9738330878062
8784,18187,16850,"Neotoma","Stand 37 (Mack and Bryant 1974]","RNM037",46.93,-117.7,549,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.403244497838155,3766.80436161475,10.1694422795254,-1.10782888486555,21.6487555480435,372.929096926609
8785,18188,16851,"Neotoma","Stand 38 (Mack and Bryant 1974]","RNM038",46.78,-118.3,411,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.288016467821703,3968.10915758723,10.7787270046479,-0.628977547307852,22.1295281035408,267.547417633801
8786,18189,16852,"Neotoma","Stand 39 (Mack and Bryant 1974]","RNM039",46.73,-119.62,213,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.154298935951175,4273.36827103266,11.6813048667833,0.0938746112800069,22.993604306676,144.268306054716
8787,18190,16817,"Neotoma","Stand 4 (Mack and Bryant 1974]","RNM004",47.35,-118.68,518,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.30954150558136,3748.9911370708,10.0645388922534,-1.4848022468234,21.4654595341972,281.297110740159
8788,18191,16853,"Neotoma","Stand 40 (Mack and Bryant 1974]","RNM040",46.22,-120.47,366,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.234871435886671,3937.60104167422,10.7240337601474,-0.282053305658524,21.7628835661532,214.375897634732
8789,18192,16854,"Neotoma","Stand 41 (Mack and Bryant 1974]","RNM041",47,-118.18,457,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.323849056584187,3894.60402377348,10.5504789218236,-0.868383595401729,21.9610299090851,299.725928954983
8790,18193,16855,"Neotoma","Stand 42 (Mack and Bryant 1974]","RNM042",46.8,-118.08,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.347289542965569,3855.89329123209,10.4417814858118,-0.884645783918071,21.8591574593093,322.169027756984
8791,18194,16856,"Neotoma","Stand 43 (Mack and Bryant 1974]","RNM043",46.33,-120.32,229,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.0588902272242351,4203.95732763608,11.4827141991081,0.0187393743135869,22.7682685582796,54.7767929721445
8792,18195,16857,"Neotoma","Stand 44 (Mack and Bryant 1974]","RNM044",46.72,-118.12,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.348861697198854,3896.29792571272,10.576011368819,-0.695206656422759,21.9940753034173,325.340487278337
8793,18196,16858,"Neotoma","Stand 45 (Mack and Bryant 1974]","RNM045",46.38,-120.67,259,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.122586088773134,4128.8418919863,11.2744878403068,-0.0139831562767039,22.445822019566,113.0246095389
8794,18197,16859,"Neotoma","Stand 46 (Mack and Bryant 1974]","RNM046",46.38,-120.65,259,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.119911846535102,4130.36364255443,11.2782739819165,-0.0180650053567668,22.4548371704119,110.592323317303
8795,18198,16860,"Neotoma","Stand 47 (Mack and Bryant 1974]","RNM047",46.9,-120.47,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.57901181486918,3472.61046927691,9.33013859032236,-1.21107168650365,19.9439175891367,504.744316448146
8796,18199,16861,"Neotoma","Stand 48 (Mack and Bryant 1974]","RNM048",46.38,-120.7,274,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.146289003661304,4099.14195250524,11.190436180584,-0.0448927803358573,22.32881493459,134.554303799791
8797,18200,16862,"Neotoma","Stand 49 (Mack and Bryant 1974]","RNM049",46.55,-119.8,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.289752458012592,3789.16278667919,10.2614422343915,-0.777188162454345,21.3189091981413,262.904441948595
8798,18201,16818,"Neotoma","Stand 5 (Mack and Bryant 1974]","RNM005",46.73,-117.13,732,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.543996067968233,3569.33156774853,9.5904565368156,-1.32698912130373,21.1842182164849,503.089117979995
8799,18202,16863,"Neotoma","Stand 50 (Mack and Bryant 1974]","RNM050",46.73,-119.42,213,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.165531185253766,4269.75662478907,11.6711685998483,0.0857564983154538,22.9739214907662,154.787553327351
8800,18203,16864,"Neotoma","Stand 51 (Mack and Bryant 1974]","RNM051",46.38,-119.48,244,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.19066349264153,4206.63822593446,11.4947993707359,0.0470277604304979,22.7305235856303,178.191567733408
8801,18204,16865,"Neotoma","Stand 52 (Mack and Bryant 1974]","RNM052",47.1,-118.68,549,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.330205704869031,3721.8415382403,9.99948992970895,-1.41343613048415,21.400043201595,301.460509568479
8802,18205,16866,"Neotoma","Stand 53 (Mack and Bryant 1974]","RNM053",47.13,-119.85,381,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.150099579300927,3993.52016535747,10.8293572148893,-0.735787928374558,22.1314187337463,137.211342708572
8803,18206,16867,"Neotoma","Stand 54 (Mack and Bryant 1974]","RNM054",47.6,-119.67,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.308452929894487,3507.50715650029,9.28094360823827,-2.1912084508905,20.4859150982369,271.516658168654
8804,18207,16868,"Neotoma","Stand 55 (Mack and Bryant 1974]","RNM055",47.88,-119.37,655,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.318829557664862,3396.64500144535,8.87089708497312,-2.798089403149,20.1842073829847,278.107532252563
8805,18208,16869,"Neotoma","Stand 56 (Mack and Bryant 1974]","RNM056",47.88,-119.58,671,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.328058238926053,3357.77751238411,8.75128495890195,-2.85296878886166,20.020218365242,284.911781796528
8806,18209,16870,"Neotoma","Stand 57 (Mack and Bryant 1974]","RNM057",47.73,-119.8,792,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.512321135322715,3085.56653922296,7.95098259118433,-3.01919556051448,18.8399658477011,433.747118047747
8807,18210,16871,"Neotoma","Stand 58 (Mack and Bryant 1974]","RNM058",46.13,-119.22,274,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.231160626857329,4158.36891143676,11.3639436806419,0.0582634396783002,22.556274119072,216.425395155083
8808,18211,16872,"Neotoma","Stand 59 (Mack and Bryant 1974]","RNM059",47.83,-119.73,762,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.402297516213685,3141.03113698076,8.05188777098828,-3.31866691328899,19.1986967049894,343.324207123184
8809,18212,16819,"Neotoma","Stand 6 (Mack and Bryant 1974]","RNM006",47.13,-118.58,564,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.340985551227573,3695.98684557948,9.91805932358447,-1.48541918987944,21.3306222040952,310.901672191141
8810,18213,16873,"Neotoma","Stand 60 (Mack and Bryant 1974]","RNM060",46.83,-118.32,518,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.332583183957312,3801.91547430579,10.2707475194842,-1.04655879799488,21.659274910097,306.848911166792
8811,18214,16874,"Neotoma","Stand 61 (Mack and Bryant 1974]","RNM061",47.08,-118.85,457,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.269063244679528,3875.11914120975,10.4801817371918,-0.967158571018263,21.7975185890689,246.652625323926
8812,18215,16875,"Neotoma","Stand 62 (Mack and Bryant 1974]","RNM062",45.95,-119.48,335,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.242701168870517,4055.1171747196,11.0692460089168,-0.069180607406884,22.2005610244166,226.04076390434
8813,18216,16876,"Neotoma","Stand 63 (Mack and Bryant 1974]","RNM063",46.28,-119.48,152,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.165090921623624,4345.88799277147,11.8964463618647,0.338336243049648,23.1472913748952,155.346779424978
8814,18217,16877,"Neotoma","Stand 64 (Mack and Bryant 1974]","RNM064",46.38,-119.43,137,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.157791962388233,4373.49566641342,11.9738386239388,0.368691039038976,23.2448821502618,148.577128700822
8815,18218,16878,"Neotoma","Stand 65 (Mack and Bryant 1974]","RNM065",46.2,-119.73,305,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.224415709951059,4085.23055634612,11.1503037954431,-0.0771679730229536,22.2776521869502,208.013750273525
8816,18219,16879,"Neotoma","Stand 66 (Mack and Bryant 1974]","RNM066",47.93,-119.48,671,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.32893850803559,3356.14348128454,8.73946387625867,-2.89554476504177,20.0317896598255,285.649398378929
8817,18220,16880,"Neotoma","Stand 67 (Mack and Bryant 1974]","RNM067",47.75,-119.6,762,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.404720196459605,3160.30467114723,8.12170329998397,-3.24813773614523,19.2632455638765,346.424670623873
8818,18221,16881,"Neotoma","Stand 68 (Mack and Bryant 1974]","RNM068",47.65,-120.02,823,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.566796591615236,3025.15962578367,7.780501446323,-3.01300929898503,18.5592832271484,477.249703472897
8819,18222,16882,"Neotoma","Stand 69 (Mack and Bryant 1974]","RNM069",47.45,-119.53,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.315232962077717,3507.31000351357,9.28552618924393,-2.16011896265952,20.4857976016096,278.252806113091
8820,18223,16820,"Neotoma","Stand 7 (Mack and Bryant 1974]","RNM007",46.88,-119.6,290,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.152755909139876,4213.14926507358,11.5057064293879,-0.0382773327401853,22.8553373801896,142.694204192753
8821,18224,16883,"Neotoma","Stand 70 (Mack and Bryant 1974]","RNM070",47.25,-119.45,381,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.173721642687767,4032.3522087817,10.9368348131706,-0.751417346508444,22.295518205108,159.80187676417
8822,18225,16884,"Neotoma","Stand 71 (Mack and Bryant 1974]","RNM071",45.93,-119.38,152,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.203295378414548,4320.66828207745,11.8317958505212,0.423467999864362,22.9619513861937,190.97797776215
8823,18226,16885,"Neotoma","Stand 72 (Mack and Bryant 1974]","RNM072",46.33,-119.3,137,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.166817262158643,4370.02070271761,11.9645215718479,0.369695656540777,23.2216557373991,157.13068604447
8824,18227,16886,"Neotoma","Stand 73 (Mack and Bryant 1974]","RNM073",47.23,-119.98,305,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.0568589828913958,4160.82311905312,11.3179790013053,-0.479904266262947,22.755086334435,52.5231360677015
8825,18228,16887,"Neotoma","Stand 74 (Mack and Bryant 1974]","RNM074",46.93,-119.43,122,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.0705789881207398,4605.87973068462,12.6188485772181,0.88592939428476,24.1041894273121,67.5883903092815
8826,18229,16888,"Neotoma","Stand 75 (Mack and Bryant 1974]","RNM075",47.12,-118.58,549,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.333907501723591,3722.64782218651,10.0030916877629,-1.40513003468891,21.4084238817978,304.875942362845
8827,18230,16889,"Neotoma","Stand 76 (Mack and Bryant 1974]","RNM076",46.12,-119.6,335,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.236786607375684,4048.11035270851,11.0446329456469,-0.123883382424865,22.174592606678,219.706128596402
8828,18231,16890,"Neotoma","Stand 77 (Mack and Bryant 1974]","RNM077",47.28,-120.08,232,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",,,,,,
8829,18232,16891,"Neotoma","Stand 78 (Mack and Bryant 1974]","RNM078",47.6,-119.37,488,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.229829433608376,3797.73478191861,10.1927212778581,-1.5049365729201,21.5324867958346,207.120909613925
8830,18233,16821,"Neotoma","Stand 8 (Mack and Bryant 1974]","RNM008",46.8,-118.65,457,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,22,"steppe",0.294916482394015,3893.69950910315,10.5503558723573,-0.824804437721624,21.8998535571119,272.770956397729
8831,18234,16822,"Neotoma","Stand 9 (Mack and Bryant 1974]","RNM009",47.63,-118.86,610,"not known","terrestrial","surface sample","Modern","Mack, R.N. and Bryant, V.M., 1974. Modern pollen spectra from the Columbia Basin, Washington. Northwest Science, 48(3), pp.183-194.",,17,"temperate evergreen needleleaf open woodland",0.335589760807274,3508.78273162158,9.26275727571933,-2.34894275980365,20.647192685384,297.752195571631
8832,18235,6254,"EMPDv2","Stanichnyi ryam","Binney2017_E2243",56.82,70.23,129,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.663740766922339,2464.31447064626,1.25317264634268,-17.8609909258031,19.5334282042879,392.728613253132
8833,18236,22669,"SMPDSv1","Stapf","CH/WVDK/G06",46.651606,8.006241,1930,"not applicable","terrestrial","pollen trap","-63","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.64291575968166,1306.34582186836,2.00195988567493,-5.38589965793446,9.94298359175239,1953.1327744602
8834,18237,14596,"Neotoma","Star Meadows","STARMEAD",46.51655,-114.683705,1109,"not known","terrestrial","core","-60","Herring, E.M., and D.G. Gavin. 2015. Climate and vegetation since the last interglacial (MIS 5e) in a putative glacial refugium, northern Idaho, USA. Quaternary Science Reviews 117:82-95.","10.1016/j.quascirev.2015.03.028",15,"cold evergreen needleleaf forest",0.703490962623278,2778.81128524562,6.69734493570564,-4.62016872158916,18.6223619771945,612.148514719402
8835,18238,22670,"SMPDSv1","Stara planina","Central Stara Planina N1_1",42.735,25.32138,1310,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823054685441881,2685.53889754365,6.60482536265755,-4.04264069079441,16.8239669383712,773.382462349498
8835,18239,22671,"SMPDSv1","Stara planina","Central Stara Planina N1_2",42.735,25.32138,1310,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823054685441881,2685.53889754365,6.60482536265755,-4.04264069079441,16.8239669383712,773.382462349498
8835,18240,22672,"SMPDSv1","Stara planina","Central Stara Planina N1_3",42.735,25.32138,1310,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.823054685441881,2685.53889754365,6.60482536265755,-4.04264069079441,16.8239669383712,773.382462349498
8835,18241,22673,"SMPDSv1","Stara planina","Central Stara Planina N2_1",42.746,25.3258,1195,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.795910817875736,2831.55393800107,7.11580223019223,-3.67325717909852,17.3980957952827,753.708510316838
8835,18242,22674,"SMPDSv1","Stara planina","Central Stara Planina N2_2",42.746,25.3258,1195,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.795910817875736,2831.55393800107,7.11580223019223,-3.67325717909852,17.3980957952827,753.708510316838
8835,18243,22675,"SMPDSv1","Stara planina","Central Stara Planina N2_3",42.746,25.3258,1195,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.795910817875736,2831.55393800107,7.11580223019223,-3.67325717909852,17.3980957952827,753.708510316838
8835,18244,22676,"SMPDSv1","Stara planina","Central Stara Planina N2_4",42.746,25.3258,1195,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.795910817875736,2831.55393800107,7.11580223019223,-3.67325717909852,17.3980957952827,753.708510316838
8835,18245,22677,"SMPDSv1","Stara planina","Central Stara Planina N3_1",42.738,25.325,1061,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.76382463371374,3007.44382950431,7.71847980619149,-3.23714038012099,18.0752016057586,730.415709838162
8835,18246,22678,"SMPDSv1","Stara planina","Central Stara Planina N3_2",42.738,25.325,1061,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.76382463371374,3007.44382950431,7.71847980619149,-3.23714038012099,18.0752016057586,730.415709838162
8835,18247,22679,"SMPDSv1","Stara planina","Central Stara Planina N3_3",42.738,25.325,1061,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.76382463371374,3007.44382950431,7.71847980619149,-3.23714038012099,18.0752016057586,730.415709838162
8835,18248,22680,"SMPDSv1","Stara planina","Central Stara Planina N3_4",42.738,25.325,1061,"not applicable","terrestrial","moss polster or moss","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.76382463371374,3007.44382950431,7.71847980619149,-3.23714038012099,18.0752016057586,730.415709838162
8835,18249,22681,"SMPDSv1","Stara planina","Central Stara Planina N4_1",42.7244,25.323,895,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.724966092564625,3231.35146196982,8.46653022477918,-2.69302479207107,18.9145348950285,701.581654518303
8835,18250,22682,"SMPDSv1","Stara planina","Central Stara Planina N4_2",42.7244,25.323,895,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.724966092564625,3231.35146196982,8.46653022477918,-2.69302479207107,18.9145348950285,701.581654518303
8835,18251,22683,"SMPDSv1","Stara planina","Central Stara Planina N4_3",42.7244,25.323,895,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.724966092564625,3231.35146196982,8.46653022477918,-2.69302479207107,18.9145348950285,701.581654518303
8835,18252,22684,"SMPDSv1","Stara planina","Central Stara Planina N5_1",42.717,25.3202,690,"not applicable","terrestrial","moss polster or moss","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.678751015602809,3516.43134100083,9.38779385471948,-2.02204026204174,19.9477020745154,666.124409323779
8835,18253,22685,"SMPDSv1","Stara planina","Central Stara Planina N5_2",42.717,25.3202,690,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.678751015602809,3516.43134100083,9.38779385471948,-2.02204026204174,19.9477020745154,666.124409323779
8835,18254,22686,"SMPDSv1","Stara planina","Central Stara Planina N5_3",42.717,25.3202,690,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.678751015602809,3516.43134100083,9.38779385471948,-2.02204026204174,19.9477020745154,666.124409323779
8836,18255,8177,"EMPDv2","Staritsa","Mikishin-Gvozdeva_b7",43.7513888888889,135.168333333333,4,"0.025","lake","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15509467793867,2880.49738291459,5.22644525451069,-11.1120253178425,20.2266469032233,862.659950995803
8837,18256,13293,"Neotoma","Starkweather Pond","STARKWEA",37.6625,-119.0675,2438,"not known","lake","core","20","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Anderson, R.S. 1990. Holocene forest development and paleoclimates within the central Sierra Nevada, California. Journal of Ecology 78:470-489.",,17,"temperate evergreen needleleaf open woodland",0.565804841787156,2451.30160969928,6.39746913742336,-1.79404630598656,17.1015133177816,687.332494900982
8838,18257,18331,"SMPDSv1","Staro Oryahovo_Bulga27","Barboni_a725",42.98333333,27.8,14,"not applicable","fluvial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.546527124825858,4459.85034777989,12.2187680761093,0.786102898810865,22.3489739844135,535.638557277174
8839,18258,18332,"SMPDSv1","Staro Oryahovo_Bulga28","Barboni_a726",43.03333333,27.88333333,0,"not applicable","fluvial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.545693081021561,4460.92062093464,12.2217003313278,0.754565078574064,22.358097884356,533.617054647948
8840,18259,8014,"EMPDv2","Starodubskoye_1","Mikishin-Gvozdeva_a75",47.4133333333333,142.795,4,"not applicable","terrestrial, soil","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.66555062623814,2141.60439136586,2.53509910088701,-12.3304973277253,16.5992427326436,1007.08080055741
8841,18260,8015,"EMPDv2","Starodubskoye_2","Mikishin-Gvozdeva_a76",47.4133333333333,142.796388888889,4,"not applicable","terrestrial, soil","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.66552245723714,2141.56734561434,2.53516607847857,-12.3298193580022,16.5990013598178,1007.06755413158
8841,18261,8016,"EMPDv2","Starodubskoye_2","Mikishin-Gvozdeva_a77",47.4147222222222,142.793611111111,5,"not applicable","terrestrial, soil","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.66470202679282,2140.3602735324,2.52835271759331,-12.3386381135494,16.59364068443,1006.55381642637
8842,18262,22687,"SMPDSv1","Staroe lake","Staroe lake_SS",52.8849916666666,30.9197222222222,145,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.805297245668607,2938.6577158121,6.49165290752414,-7.42956645268553,18.3616683848062,596.449327397102
8843,18263,22688,"SMPDSv1","Staroselsky Moch","STAROSEL",56.2852777777777,32.0275,205,"6.17","terrestrial, bog/fen/swamp","core top","-37","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06404333202488,2477.93265998748,4.45792857362908,-9.60100688192039,16.8783020231453,684.267254391972
8844,18264,17159,"Neotoma","Station 1 (Lichti-Federovich and Ritchie 1968)","LFR68001",64.33,-96.17,12,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",31,"tundra",0.77398901962592,838.463718371611,-11.8175064477636,-32.3292164750893,10.9791528783977,266.227185322934
8845,18265,17168,"Neotoma","Station 10 (Lichti-Federovich and Ritchie 1968)","LFR68010",62.33,-97,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.816650603735176,906.116969913825,-10.6366120088038,-31.3620682654605,11.4428999243326,306.558970739042
8846,18266,17259,"Neotoma","Station 105 (Lichti-Federovich and Ritchie 1968)","LFR68105",50.17,-102.67,620,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.52714414571199,2599.82547667089,2.62237904368144,-16.5981185512871,19.0336596405722,415.789174715415
8847,18267,17263,"Neotoma","Station 109 (Lichti-Federovich and Ritchie 1968)","LFR68109",50.05,-105.05,566,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.465963882934948,2682.01260429781,3.01470660063339,-16.0750965718661,19.290613997287,373.87548372687
8848,18268,17169,"Neotoma","Station 11 (Lichti-Federovich and Ritchie 1968)","LFR68011",61.83,-96.6,152,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.823100563444653,915.633929975972,-10.381845288187,-31.0517827981575,11.4523504447129,313.0964141734
8849,18269,17264,"Neotoma","Station 110 (Lichti-Federovich and Ritchie 1968)","LFR68110",51.17,-105.05,566,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.485488750465408,2568.93159747165,2.34018140274421,-16.9363518900027,18.6783315246562,374.84582867026
8850,18270,17265,"Neotoma","Station 111 (Lichti-Federovich and Ritchie 1968)","LFR68111",57.17,-96,213,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.947902017386811,1442.56700233439,-5.20648870479657,-26.4155949910839,14.3334046806757,478.840998994373
8851,18271,17266,"Neotoma","Station 112 (Lichti-Federovich and Ritchie 1968)","LFR68112",57.25,-97.83,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.909753297102188,1494.92958042537,-5.04636219920938,-26.6061118083678,14.7090157632196,468.808714400416
8852,18272,17267,"Neotoma","Station 113 (Lichti-Federovich and Ritchie 1968)","LFR68113",56.67,-96.92,265,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.920884141616089,1536.25754910724,-4.68002304604949,-26.1661231989058,14.8390222617197,485.202744795314
8853,18273,17268,"Neotoma","Station 114 (Lichti-Federovich and Ritchie 1968)","LFR68114",56.33,-97,265,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.915352762388659,1559.53874350044,-4.52239833475072,-26.0243146909327,14.949044860233,488.190345641392
8854,18274,17269,"Neotoma","Station 115 (Lichti-Federovich and Ritchie 1968)","LFR68115",56,-98,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.866962986483289,1776.26704995352,-3.14753275389896,-24.742332233949,16.0352191190878,490.841903446777
8855,18275,17270,"Neotoma","Station 116 (Lichti-Federovich and Ritchie 1968)","LFR68116",55,-97.8,213,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.811430527857697,1974.76156861517,-1.91509383550964,-23.4672028195861,17.0387625521187,489.353889479222
8856,18276,17271,"Neotoma","Station 117 (Lichti-Federovich and Ritchie 1968)","LFR68117",55,-96,213,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.867404109841683,1914.88220407447,-2.25137933467589,-23.7790669541273,16.8160657596436,513.487429117459
8857,18277,17272,"Neotoma","Station 118 (Lichti-Federovich and Ritchie 1968)","LFR68118",54.83,-96.33,213,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.854713234904462,1923.24379123825,-2.20939758530487,-23.7384137737344,16.8505786034452,508.854500294728
8858,18278,17273,"Neotoma","Station 119 (Lichti-Federovich and Ritchie 1968)","LFR68119",54.83,-95,138,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.904403160247376,1706.72437122883,-3.52998365326173,-24.9423831213411,15.8041313707123,503.194884455349
8859,18279,17170,"Neotoma","Station 12 (Lichti-Federovich and Ritchie 1968)","LFR68012",61.2,-96,152,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.848309863451071,963.667648795757,-9.6189235905631,-30.3042699591693,11.6945865038794,334.199124254004
8860,18280,17274,"Neotoma","Station 120 (Lichti-Federovich and Ritchie 1968)","LFR68120",54.67,-94.33,138,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.90422081650017,1752.07108825547,-3.24666794569689,-24.7110348206283,16.0543222202559,509.484948026841
8861,18281,17275,"Neotoma","Station 121 (Lichti-Federovich and Ritchie 1968)","LFR68121",55,-98.33,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.798279164528307,1987.76815373946,-1.83496792394854,-23.4093178154148,17.0753830342767,484.025849453556
8862,18282,17276,"Neotoma","Station 122 (Lichti-Federovich and Ritchie 1968)","LFR68122",55.05,-98.67,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.795427512622437,1995.65662085493,-1.78456014542827,-23.3559208290945,17.1098879851448,482.86330245931
8863,18283,17277,"Neotoma","Station 123 (Lichti-Federovich and Ritchie 1968)","LFR68123",54.67,-96.05,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.854836886657351,2015.40063274051,-1.62247229209819,-23.1378146809226,17.300336565954,522.378244155135
8864,18284,17278,"Neotoma","Station 124 (Lichti-Federovich and Ritchie 1968)","LFR68124",54.33,-96.33,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.837912379738083,2041.64145531755,-1.46955488000394,-22.9722795348748,17.4224140097331,518.48917781026
8865,18285,17279,"Neotoma","Station 125 (Lichti-Federovich and Ritchie 1968)","LFR68125",54.17,-96.33,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.832754437573071,2073.17859455701,-1.26959040918127,-22.7487417318082,17.5602915761134,520.689702014405
8866,18286,17280,"Neotoma","Station 126 (Lichti-Federovich and Ritchie 1968)","LFR68126",54.33,-95.9,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.851975760658489,2025.15962789841,-1.56132838475809,-23.0795232117061,17.3495310514213,524.451886377177
8867,18287,17281,"Neotoma","Station 127 (Lichti-Federovich and Ritchie 1968)","LFR68127",55.92,-98.33,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.848428445231778,1830.36898729836,-2.82678351846182,-24.4604876467926,16.3046441628511,487.595502749809
8868,18288,17282,"Neotoma","Station 128 (Lichti-Federovich and Ritchie 1968)","LFR68128",56,-98.83,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.834258235343877,1872.86810420933,-2.57034595339334,-24.2170522547385,16.5185089889012,484.008419943181
8869,18289,17283,"Neotoma","Station 129 (Lichti-Federovich and Ritchie 1968)","LFR68129",56.75,-100.25,340,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.859970263646283,1675.9116084002,-4.07212631824663,-26.1746062758107,15.7454360785213,470.916896240159
8870,18290,17171,"Neotoma","Station 13 (Lichti-Federovich and Ritchie 1968)","LFR68013",60.05,-96,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.87148292811472,1025.36954282164,-8.53031739079024,-29.0610056447344,11.8459099281834,357.417665383119
8871,18291,17284,"Neotoma","Station 130 (Lichti-Federovich and Ritchie 1968)","LFR68130",57,-100.83,340,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.86926515885816,1693.05320248308,-3.93094471134319,-26.0318114172511,15.8149973589238,476.65739392374
8872,18292,17285,"Neotoma","Station 131 (Lichti-Federovich and Ritchie 1968)","LFR68131",56.83,-101.33,340,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.879145403017356,1734.92724824051,-3.58133775657346,-25.6337377005156,15.9368936933926,489.401002056554
8873,18293,17172,"Neotoma","Station 14 (Lichti-Federovich and Ritchie 1968)","LFR68014",59.83,-95.33,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.876747392604205,1036.7748925635,-8.39947347882321,-28.9455129262471,11.9110351185924,362.59336386295
8874,18294,17173,"Neotoma","Station 15 (Lichti-Federovich and Ritchie 1968)","LFR68015",59.92,-96,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.873349385643042,1032.34673108001,-8.45696299957423,-28.9978536938728,11.8885266263804,359.979901576935
8875,18295,17174,"Neotoma","Station 16 (Lichti-Federovich and Ritchie 1968)","LFR68016",59.75,-95.92,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.881420321652574,1055.2620546849,-8.22141492023256,-28.7972277598291,12.0229990008024,367.68171448313
8876,18296,17175,"Neotoma","Station 17 (Lichti-Federovich and Ritchie 1968)","LFR68017",61,-97,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.812306625260261,892.447021193521,-10.2553761670284,-30.6315146505881,11.0880806762349,308.070630609569
8877,18297,17176,"Neotoma","Station 18 (Lichti-Federovich and Ritchie 1968)","LFR68018",61.05,-100.08,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.715180657186412,818.029354948863,-11.758439465864,-32.2983963398934,10.7097183652107,262.480016862627
8878,18298,17177,"Neotoma","Station 19 (Lichti-Federovich and Ritchie 1968)","LFR68019",61.05,-99.33,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.795461980178782,870.9352233419,-10.9973463499784,-31.6232173411792,11.1372651919972,300.338196021265
8879,18299,17160,"Neotoma","Station 2 (Lichti-Federovich and Ritchie 1968)","LFR68002",64,-97,137,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",31,"tundra",0.758586074187437,783.906175235938,-12.2216013131819,-32.6323964783046,10.5100959092859,260.136382241327
8880,18300,17178,"Neotoma","Station 20 (Lichti-Federovich and Ritchie 1968)","LFR68020",60.05,-97.83,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.863211514668872,1031.66415071509,-8.89964877022155,-29.7320387524115,12.154327713292,357.682080626601
8881,18301,17179,"Neotoma","Station 21 (Lichti-Federovich and Ritchie 1968)","LFR68021",60.83,-100.67,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.656274167600514,843.83815161952,-11.7765745410647,-32.5044713800647,11.0189669600245,243.248069801081
8882,18302,17180,"Neotoma","Station 22 (Lichti-Federovich and Ritchie 1968)","LFR68022",60.33,-98.83,168,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.850036607885677,935.235282185563,-9.98064054949509,-30.6488850449445,11.5547901264798,336.260717848758
8883,18303,17181,"Neotoma","Station 25 (Lichti-Federovich and Ritchie 1968)","LFR68025",59.33,-97.17,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.875165121080334,1013.68553565908,-8.62876518882631,-29.0941035683087,11.7820627902574,361.189185926862
8884,18304,17182,"Neotoma","Station 26 (Lichti-Federovich and Ritchie 1968)","LFR68026",59.17,-98,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.892203674731938,1226.19864650141,-7.24915733648862,-28.6000663756704,13.4417192492155,407.805675792904
8885,18305,17183,"Neotoma","Station 27 (Lichti-Federovich and Ritchie 1968)","LFR68027",59.25,-96.42,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.924628154274204,1183.2238647458,-7.45008974963563,-28.6019351187421,13.1260964860771,416.428463189839
8886,18306,17184,"Neotoma","Station 28 (Lichti-Federovich and Ritchie 1968)","LFR68028",59.17,-98.92,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.869821622848195,1218.98344830816,-7.44838016762265,-28.883171898949,13.4747959571036,395.865074165281
8887,18307,17185,"Neotoma","Station 29 (Lichti-Federovich and Ritchie 1968)","LFR68029",58.33,-96.17,35,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.912460746457496,1127.10436996466,-7.37859094492803,-27.9266522106556,12.3836780232145,399.459709370502
8888,18308,17161,"Neotoma","Station 3 (Lichti-Federovich and Ritchie 1968)","LFR68003",63.05,-65,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",31,"tundra",1.64031483606361,463.97082872014,-7.79317055426828,-21.6029503413955,5.96011786724528,536.942409157792
8889,18309,17186,"Neotoma","Station 30 (Lichti-Federovich and Ritchie 1968)","LFR68030",58.25,-97.17,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.92758993694166,1315.19072215872,-6.32480603562783,-27.6516092471679,13.7955883888299,444.85598500304
8890,18310,17187,"Neotoma","Station 31 (Lichti-Federovich and Ritchie 1968)","LFR68031",58.17,-98.17,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.905198780815105,1364.69446740005,-6.05915398426539,-27.5422799795003,14.1250907479808,441.137146678712
8891,18311,17188,"Neotoma","Station 32 (Lichti-Federovich and Ritchie 1968)","LFR68032",58.42,-99.17,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.877945696958908,1332.82155347239,-6.4623809485294,-28.0327781703851,14.0619260445165,421.026500785797
8892,18312,17189,"Neotoma","Station 33 (Lichti-Federovich and Ritchie 1968)","LFR68033",59.08,-99.83,274,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.839884606215659,1264.84265907917,-7.28655693236777,-28.9479121648953,13.8582028835996,387.746482083528
8893,18313,17190,"Neotoma","Station 34 (Lichti-Federovich and Ritchie 1968)","LFR68034",59.67,-101.08,366,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.853447715273343,1305.06237299995,-7.04898432213793,-28.9737574148742,14.1387673318314,399.161235495222
8894,18314,17191,"Neotoma","Station 35 (Lichti-Federovich and Ritchie 1968)","LFR68035",59.05,-101.17,366,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.858706531093103,1375.50784685648,-6.44338612240885,-28.4659717338991,14.4893741617269,415.314643150086
8895,18315,17192,"Neotoma","Station 36 (Lichti-Federovich and Ritchie 1968)","LFR68036",58.83,-101.17,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.853168078338687,1379.92404772623,-6.41548047375698,-28.4408527229231,14.5174287856236,414.042131614919
8896,18316,17193,"Neotoma","Station 37 (Lichti-Federovich and Ritchie 1968)","LFR68037",58.75,-100,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.860852859969722,1401.14525484792,-6.18879511452273,-28.1767249175719,14.5936937445556,421.391953298037
8897,18317,17194,"Neotoma","Station 38 (Lichti-Federovich and Ritchie 1968)","LFR68038",58.67,-100.25,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.860418618131582,1423.85862165628,-6.01414706056941,-28.0361855661446,14.7052705991117,424.774101504403
8898,18318,17195,"Neotoma","Station 39 (Lichti-Federovich and Ritchie 1968)","LFR68039",55,-96.67,233,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.846273507595115,1988.52856424519,-1.8078406169838,-23.332956400089,17.1627551739009,511.840789429207
8899,18319,17162,"Neotoma","Station 4 (Lichti-Federovich and Ritchie 1968)","LFR68004",63.83,-98,137,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",31,"tundra",0.735110931089812,797.135305236264,-12.0926646459868,-32.5888661434445,10.6115969496259,254.721087140661
8900,18320,17204,"Neotoma","Station 48 (Lichti-Federovich and Ritchie 1968)","LFR68048",56.05,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.867585222878594,1891.83442800514,-2.21090414957959,-23.729652015159,16.2769821854873,512.995134903607
8901,18321,17163,"Neotoma","Station 5 (Lichti-Federovich and Ritchie 1968)","LFR68005",63.75,-99,137,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",31,"tundra",0.698795680934622,802.718664994996,-11.9975049438411,-32.5615289221441,10.6155497356229,243.732451670499
8902,18322,17164,"Neotoma","Station 6 (Lichti-Federovich and Ritchie 1968)","LFR68006",62.75,-93.75,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.789574022960101,761.403292064254,-11.5713354434237,-31.5599636931539,9.98322494078522,275.042915210546
8903,18323,17165,"Neotoma","Station 7 (Lichti-Federovich and Ritchie 1968)","LFR68007",63,-100,137,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.677310189688432,792.165863517664,-12.0279250939698,-32.5974402607345,10.4853819595476,238.90796528617
8904,18324,17166,"Neotoma","Station 8 (Lichti-Federovich and Ritchie 1968)","LFR68008",61.83,-94.92,61,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.80759575982796,852.049724464671,-10.5683368424341,-30.8222207462027,10.7347449549232,297.645711906306
8905,18325,17240,"Neotoma","Station 84 (Lichti-Federovich and Ritchie 1968)","LFR68084",53.33,-108,689,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.547178051185569,2269.95698345737,0.96014124199023,-18.2534272273752,16.6450245803683,389.807331689658
8906,18326,17167,"Neotoma","Station 9 (Lichti-Federovich and Ritchie 1968)","LFR68009",62.05,-97.17,12,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.739298581551406,792.402319366608,-11.7933537649241,-31.9929861251878,10.4222862027371,259.392049379474
8907,18327,17248,"Neotoma","Station 94 (Lichti-Federovich and Ritchie 1968)","LFR68094",54.67,-107.05,472,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.685654740194545,2118.4945542178,-0.166755920305653,-20.4109112236009,16.5326306777557,446.966414535117
8908,18328,17252,"Neotoma","Station 98 (Lichti-Federovich and Ritchie 1968)","LFR68098",50.75,-104.17,558,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.504248090941477,2567.34178017863,2.30235719449757,-17.1772251612611,18.6902447193348,391.203580708743
8909,18329,17253,"Neotoma","Station 99 (Lichti-Federovich and Ritchie 1968)","LFR68099",50.42,-101,546,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.61678308466339,2452.78331933975,1.63197849242479,-18.0176745902734,18.26943192549,465.758938883103
8910,18330,17198,"Neotoma","Stations 40-43 (Lichti-Federovich and Ritchie 1968)","LFR68040",55.75,-105.67,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.790405604497153,2079.28426942827,-0.66477681397503,-21.3402843145705,16.6883035862464,492.927318800526
8910,18331,17197,"Neotoma","Stations 40-43 (Lichti-Federovich and Ritchie 1968)","LFR68041",55.75,-105.67,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.790405604497153,2079.28426942827,-0.66477681397503,-21.3402843145705,16.6883035862464,492.927318800526
8910,18332,17196,"Neotoma","Stations 40-43 (Lichti-Federovich and Ritchie 1968)","LFR68042",55.75,-105.67,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.790405604497153,2079.28426942827,-0.66477681397503,-21.3402843145705,16.6883035862464,492.927318800526
8910,18333,17199,"Neotoma","Stations 40-43 (Lichti-Federovich and Ritchie 1968)","LFR68043",55.75,-105.67,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.790405604497153,2079.28426942827,-0.66477681397503,-21.3402843145705,16.6883035862464,492.927318800526
8911,18334,17201,"Neotoma","Stations 44-47 (Lichti-Federovich and Ritchie 1968)","LFR68044",55.75,-105,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.812889618920864,2030.5612289545,-1.03167563746564,-21.8794674995545,16.5481907354478,501.092959728322
8911,18335,17203,"Neotoma","Stations 44-47 (Lichti-Federovich and Ritchie 1968)","LFR68045",55.75,-105,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.812889618920864,2030.5612289545,-1.03167563746564,-21.8794674995545,16.5481907354478,501.092959728322
8911,18336,17200,"Neotoma","Stations 44-47 (Lichti-Federovich and Ritchie 1968)","LFR68046",55.75,-105,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.812889618920864,2030.5612289545,-1.03167563746564,-21.8794674995545,16.5481907354478,501.092959728322
8911,18337,17202,"Neotoma","Stations 44-47 (Lichti-Federovich and Ritchie 1968)","LFR68047",55.75,-105,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.812889618920864,2030.5612289545,-1.03167563746564,-21.8794674995545,16.5481907354478,501.092959728322
8912,18338,17205,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68049",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18339,17208,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68050",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18340,17209,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68051",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18341,17206,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68052",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18342,17207,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68053",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18343,17210,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68054",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8912,18344,17211,"Neotoma","Stations 49-55 (Lichti-Federovich and Ritchie 1968)","LFR68055",54.9,-103.05,358,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.788237869504707,2059.82701750666,-1.10855828245296,-22.350658775686,16.7958341323143,495.593379361877
8913,18345,17216,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68056",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8913,18346,17215,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68057",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8913,18347,17213,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68058",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8913,18348,17212,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68059",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8913,18349,17217,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68060",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8913,18350,17214,"Neotoma","Stations 56-61 (Lichti-Federovich and Ritchie 1968)","LFR68061",55,-102,299,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.768503489583986,2125.68890292779,-0.889076924800828,-22.4076712646531,17.2719318974986,485.092384454874
8914,18351,17221,"Neotoma","Stations 62-65 (Lichti-Federovich and Ritchie 1968)","LFR68062",51.25,-95.08,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.807347017998393,2429.35831532735,1.16414508904971,-19.7292918507354,18.7596244660742,576.829765488397
8914,18352,17218,"Neotoma","Stations 62-65 (Lichti-Federovich and Ritchie 1968)","LFR68063",51.25,-95.08,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.807347017998393,2429.35831532735,1.16414508904971,-19.7292918507354,18.7596244660742,576.829765488397
8914,18353,17220,"Neotoma","Stations 62-65 (Lichti-Federovich and Ritchie 1968)","LFR68064",51.25,-95.08,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.807347017998393,2429.35831532735,1.16414508904971,-19.7292918507354,18.7596244660742,576.829765488397
8914,18354,17219,"Neotoma","Stations 62-65 (Lichti-Federovich and Ritchie 1968)","LFR68065",51.25,-95.08,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.807347017998393,2429.35831532735,1.16414508904971,-19.7292918507354,18.7596244660742,576.829765488397
8915,18355,17224,"Neotoma","Stations 66-69 (Lichti-Federovich and Ritchie 1968)","LFR68066",50.83,-95.17,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.79412445319652,2468.50991980678,1.40888820388809,-19.4066025928843,18.890710169237,575.546907866006
8915,18356,17222,"Neotoma","Stations 66-69 (Lichti-Federovich and Ritchie 1968)","LFR68067",50.83,-95.17,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.79412445319652,2468.50991980678,1.40888820388809,-19.4066025928843,18.890710169237,575.546907866006
8915,18357,17225,"Neotoma","Stations 66-69 (Lichti-Federovich and Ritchie 1968)","LFR68068",50.83,-95.17,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.79412445319652,2468.50991980678,1.40888820388809,-19.4066025928843,18.890710169237,575.546907866006
8915,18358,17223,"Neotoma","Stations 66-69 (Lichti-Federovich and Ritchie 1968)","LFR68069",50.83,-95.17,335,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.79412445319652,2468.50991980678,1.40888820388809,-19.4066025928843,18.890710169237,575.546907866006
8916,18359,17230,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68070",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18360,17229,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68071",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18361,17232,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68072",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18362,17231,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68073",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18363,17227,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68074",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18364,17226,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68075",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8916,18365,17228,"Neotoma","Stations 70-76 (Lichti-Federovich and Ritchie 1968)","LFR68076",53.75,-103.05,351,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.6936030941505,2242.72521923507,-0.0283765662525851,-21.1226573766549,17.3211450871644,464.630974137738
8917,18366,17236,"Neotoma","Stations 77-81 (Lichti-Federovich and Ritchie 1968)","LFR68077",53.75,-102.67,271,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.699360526916448,2260.78165287763,-0.0515420509314028,-21.4138603394717,17.5576177808769,464.559531532625
8917,18367,17235,"Neotoma","Stations 77-81 (Lichti-Federovich and Ritchie 1968)","LFR68078",53.75,-102.67,271,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.699360526916448,2260.78165287763,-0.0515420509314028,-21.4138603394717,17.5576177808769,464.559531532625
8917,18368,17233,"Neotoma","Stations 77-81 (Lichti-Federovich and Ritchie 1968)","LFR68079",53.75,-102.67,271,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.699360526916448,2260.78165287763,-0.0515420509314028,-21.4138603394717,17.5576177808769,464.559531532625
8917,18369,17234,"Neotoma","Stations 77-81 (Lichti-Federovich and Ritchie 1968)","LFR68080",53.75,-102.67,271,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.699360526916448,2260.78165287763,-0.0515420509314028,-21.4138603394717,17.5576177808769,464.559531532625
8917,18370,17237,"Neotoma","Stations 77-81 (Lichti-Federovich and Ritchie 1968)","LFR68081",53.75,-102.67,271,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.699360526916448,2260.78165287763,-0.0515420509314028,-21.4138603394717,17.5576177808769,464.559531532625
8918,18371,17239,"Neotoma","Stations 82-83 (Lichti-Federovich and Ritchie 1968)","LFR68082",54.33,-104.83,442,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.728700822503649,2102.06179385317,-0.525786291193535,-21.0326184973018,16.6653419155269,474.547206187913
8918,18372,17238,"Neotoma","Stations 82-83 (Lichti-Federovich and Ritchie 1968)","LFR68083",54.33,-104.83,442,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.728700822503649,2102.06179385317,-0.525786291193535,-21.0326184973018,16.6653419155269,474.547206187913
8919,18373,17241,"Neotoma","Stations 85-86 (Lichti-Federovich and Ritchie 1968)","LFR68085",51.83,-101.08,689,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.665799336462111,2208.01859678124,0.360600284152759,-19.118295554671,16.8494903544547,477.23721556423
8919,18374,17242,"Neotoma","Stations 85-86 (Lichti-Federovich and Ritchie 1968)","LFR68086",51.83,-101.08,689,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",9,"cool mixed forest",0.665799336462111,2208.01859678124,0.360600284152759,-19.118295554671,16.8494903544547,477.23721556423
8920,18375,17243,"Neotoma","Stations 87-88 (Lichti-Federovich and Ritchie 1968)","LFR68087",51.05,-101.17,440,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.658744960343103,2405.36859890774,1.24627047438924,-18.7389640189414,18.0664430586071,483.305974894119
8920,18376,17244,"Neotoma","Stations 87-88 (Lichti-Federovich and Ritchie 1968)","LFR68088",51.05,-101.17,440,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",15,"cold evergreen needleleaf forest",0.658744960343103,2405.36859890774,1.24627047438924,-18.7389640189414,18.0664430586071,483.305974894119
8921,18377,17251,"Neotoma","Stations 96-97 (Lichti-Federovich and Ritchie 1968)","LFR68096",50.83,-104.05,602,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.515704160148577,2543.85644855417,2.24865746656952,-17.1431923191423,18.6014394822299,399.739264894996
8921,18378,17250,"Neotoma","Stations 96-97 (Lichti-Federovich and Ritchie 1968)","LFR68097",50.83,-104.05,602,"not known","lake","surface sample","Modern","Lichti-Federovich, S. and Ritchie, J.C., 1968. Recent pollen assemblages from the western interior of Canada. Review of Palaeobotany and Palynology, 7(4), pp.297-344.","10.1016/0034-6667(68)90035-3",22,"steppe",0.515704160148577,2543.85644855417,2.24865746656952,-17.1431923191423,18.6014394822299,399.739264894996
8922,18379,9685,"Gaillard et al., 1992","Stavarod","Stavarod",56.014494,13.641007,98,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.0224815482847,2718.60843091962,7.1213229706368,-1.84625770952614,16.205668754603,673.095438138063
8923,18380,22689,"SMPDSv1","Stavresjon","Seppa_b172",59.92,16.38,94,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04415486697643,2172.78707434016,4.5925667617961,-5.38617549216257,15.1460334364886,599.830673737397
8924,18381,22690,"SMPDSv1","Stavtjern","Bjune_a278",61.3183333333333,8.82,1055,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.62481907451823,1228.95593227545,0.151827887345135,-10.1632334659149,10.3658012185037,804.160639872124
8925,18382,15498,"Neotoma","Steamboat Creek","CJH077",47.78,-124.1,122,"not known","terrestrial","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.91089363749909,3471.55183250728,9.51110091097886,3.73188619753743,16.010289525873,2194.63668575017
8926,18383,14268,"Neotoma","Steel Lake","STEELMN",46.973155,-94.68138,415,"not known","lake","core","-50","Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166. Nelson, D.M., F.S. Hu, J. Tian, I. Stefanova, and T.A. Brown. 2004. Response of C3 and C4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proceedings of the National Academy of Sciences of the United States of America 101(2):562-567.; Tian, J., T.A. Brown, and F.S. Hu. 2004. Comparison of varve and C14 chronologies from Steel Lake, Minnesota, USA. The Holocene 15(4):510-517.; Wright, H.E., Jr., I. Stefanova, J. Tian, T.A. Brown, and F.S. Hu. 2004. A chronological framework for the Holocene vegetational history of central Minnesota: the Steel Lake pollen record. Quaternary Science Reviews 23:611-626.","10.1023/A:1025574100319",9,"cool mixed forest",0.818495671383713,2966.42472157984,4.54917348551227,-14.649403480059,20.5072706652249,659.002061775757
8926,18383,14269,"Neotoma","Steel Lake","STEELMN",46.973155,-94.68138,415,"not known","lake","core","5","Geiss, C.E., C.E. Umbanhowar, P. Camill, and S.K. Banerjee. 2003. Sediment magnetic properties reveal Holocene climate change along the Minnesota prairie-forest ecotome. Journal of Paleolimnology 30(2):151-166. Nelson, D.M., F.S. Hu, J. Tian, I. Stefanova, and T.A. Brown. 2004. Response of C3 and C4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proceedings of the National Academy of Sciences of the United States of America 101(2):562-567.; Tian, J., T.A. Brown, and F.S. Hu. 2004. Comparison of varve and C14 chronologies from Steel Lake, Minnesota, USA. The Holocene 15(4):510-517.; Wright, H.E., Jr., I. Stefanova, J. Tian, T.A. Brown, and F.S. Hu. 2004. A chronological framework for the Holocene vegetational history of central Minnesota: the Steel Lake pollen record. Quaternary Science Reviews 23:611-626.","10.1023/A:1025574100319",9,"cool mixed forest",0.818495671383713,2966.42472157984,4.54917348551227,-14.649403480059,20.5072706652249,659.002061775757
8927,18384,22691,"SMPDSv1","Steerenmoos","EPDcoretop_E1028",47.8,8.2,1000,"0.2","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.89110638609096,2452.95424417199,6.40103524103562,-2.06173010959912,14.8842486796501,1412.88455153602
8928,18385,8307,"EMPDv2","Steffenshager Wald","Mrotzek_a6",54.1239944444444,13.2956194444444,7,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.852771155996498,3078.60622634865,8.32011740977181,-0.851830582758402,17.3493513016257,592.575032652764
8928,18386,8308,"EMPDv2","Steffenshager Wald","Mrotzek_a7",54.1074694444444,13.3036555555556,10,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.85257118120017,3082.73295589625,8.33303590341094,-0.847067855856526,17.3579383095174,592.297319731383
8929,18387,7197,"EMPDv2","Steinkiste","EPDcoretop_E2505",53.66,8.77,5,"0.02","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.21903190115149,3172.62127856286,8.69211309195305,0.66400798748117,16.6043265029539,790.315822591587
8930,18388,22692,"SMPDSv1","Steinsee","Steinsee_ss",53.31843,13.6226,95,"0.067","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811379287245422,3323.5089303925,9.04323872068307,-0.647471985215403,18.0103913535486,562.667727008667
8931,18389,22693,"SMPDSv1","Steinsjoen","Bjune_a71",60.51422134,11.77784203,481,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.30116077513993,1747.93592962549,2.07527575579355,-9.3731481987414,13.3494007486032,700.116827746383
8932,18390,22694,"SMPDSv1","Steintjern","Bjune_a31",66.15789467,14.49895129,529,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.54305028673478,1230.94943777341,0.25991695959544,-9.45325926310841,10.8252936623086,1419.6575537245
8933,18391,23163,"SMPDSv1","Steintjonn","Bjune_a205",59.6066666666666,7.80833333333333,574,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.09353316021468,1829.68307642643,3.53166279765035,-5.8895322071447,12.9936018087183,1169.61317964188
8934,18392,8741,"EMPDv2","Steisslinger See","Roesch_b4",47.7993,8.917355,446,"0.113","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.10726355380627,3318.98267887871,9.06999518571128,-0.268948302302764,18.1292204550817,867.417619688037
8935,18393,22695,"SMPDSv1","Steklin","EPDcoretop_E625",52.933333,18.983333,73,"1.123","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.759858565268094,3082.37244829809,8.12100219538664,-2.37981458021373,17.545262439889,550.279674461779
8936,18394,7347,"EMPDv2","Stellune","Finsinger_a70",46.1962881833128,11.4987863077811,2099,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.69471407676455,772.014466685513,-0.839550599811211,-8.06948571684445,6.73690704461715,1775.13890677671
8937,18395,22696,"SMPDSv1","Stemtjern","Bjune_a116",58.4351069,7.87820966,250,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.17613838813754,2249.62848392462,5.41633264106625,-3.68673323017926,14.5577214780196,1285.91930769587
8938,18396,23155,"SMPDSv1","Stemtjonn","Bjune_a147",58.3386119,7.83515118,295,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.18600043575839,2194.31947689816,5.20667276359135,-3.87552025197191,14.3402865268414,1289.01993371099
8938,18397,22697,"SMPDSv1","Stemtjonn","Bjune_a232",58.1733333333333,8.19666666666666,35,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.83977494732123,2609.04377283038,6.79628766033158,-2.03105249412088,15.6863694354451,1121.28694780091
8939,18398,1375,"Australian pollen","Stencils cave","Stencils cave",-31.467,129.7,85,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.158898943508195,6524.56548519501,17.8755218772466,11.6658900156026,23.469726467144,231.960676766674
8940,18399,9686,"Gaillard et al., 1992","Steneryd","Steneryd N",56.157208,15.841974,34,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.866571247850004,2743.77031070282,7.24537658992263,-1.53467913265293,16.4998247312271,577.557628753695
8940,18400,9687,"Gaillard et al., 1992","Steneryd","Steneryd S",56.157208,15.841974,34,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.866571247850004,2743.77031070282,7.24537658992263,-1.53467913265293,16.4998247312271,577.557628753695
8941,18401,22698,"SMPDSv1","Stephill Bottom","Grant_a12",50.848694,-1.497388,20,"0.4","terrestrial, blanket bog","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.22878215180236,3775.07839882126,10.3426805447158,4.83350563411937,16.5207540606446,889.970006244102
8942,18402,4705,"CMPD","Steppe area in northern China","Steppe area in northern China S01",43.6521333333333,112.353333333333,1098,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.179130688840035,2982.95412532526,3.43922333967077,-17.5549507465533,21.7481315967768,195.726251008108
8942,18403,4706,"CMPD","Steppe area in northern China","Steppe area in northern China S02",40.253383333333304,107.085966666667,1156,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.153225421358124,3501.44658344697,7.13222714510409,-10.9249260496445,22.9363624906579,175.020340521681
8942,18404,4707,"CMPD","Steppe area in northern China","Steppe area in northern China S03",40.2532333333333,107.085716666667,1147,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.153181046545403,3505.3062757257,7.14743274582303,-10.9137156360362,22.9530885275887,174.92390960389
8942,18405,4708,"CMPD","Steppe area in northern China","Steppe area in northern China S04",40.1481666666667,107.5218,1232,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177681101139223,3426.96173200798,6.9283979170728,-10.8835243119428,22.4994016069835,201.54678495596
8942,18406,4709,"CMPD","Steppe area in northern China","Steppe area in northern China S05",40.1481333333333,107.521683333333,1230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177590545592694,3427.76409217424,6.93081319896933,-10.8838457418748,22.5036985848215,201.444189479673
8942,18407,4710,"CMPD","Steppe area in northern China","Steppe area in northern China S06",38.7813166666667,105.670283333333,1546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176228224861419,3442.0534963415,7.39927911646654,-9.18428320872246,21.9768535606008,198.012888580454
8942,18408,4711,"CMPD","Steppe area in northern China","Steppe area in northern China S07",38.7812166666667,105.670666666667,1546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.176232716355375,3442.05272437643,7.39929091703007,-9.18425052852149,21.9768219642236,198.018031250517
8942,18409,4712,"CMPD","Steppe area in northern China","Steppe area in northern China S08",38.6696,105.778933333333,1832,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.238620840860218,3175.59851754176,6.75648843140802,-8.72065994200161,20.3976041683286,260.009799249543
8942,18410,4713,"CMPD","Steppe area in northern China","Steppe area in northern China S09",38.66945,105.779033333333,1848,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.240368391173326,3163.7535842625,6.72313780431734,-8.71309753143501,20.3324194122949,261.650859731336
8942,18411,4714,"CMPD","Steppe area in northern China","Steppe area in northern China S10",41.4608333333333,109.051233333333,1392,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.193536822507129,3176.16949857397,5.39620264357212,-13.3142136944341,21.8870970779342,219.045346942977
8942,18412,4715,"CMPD","Steppe area in northern China","Steppe area in northern China S11",39.9806666666667,107.94905,1247,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196454056487103,3394.05757184467,6.81804682159253,-10.9232512299658,22.3162722122731,222.520399134805
8942,18413,4716,"CMPD","Steppe area in northern China","Steppe area in northern China S12",39.9801666666667,107.948983333333,1249,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196697206890675,3393.14803758942,6.81591270385932,-10.9208260003086,22.3106340064876,222.780817632831
8942,18414,4717,"CMPD","Steppe area in northern China","Steppe area in northern China S13",40.7814166666667,108.7807,1065,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195561076726988,3452.49340739913,6.83856149122283,-11.4368202471299,22.7741023174438,221.070560597069
8942,18415,4718,"CMPD","Steppe area in northern China","Steppe area in northern China S14",43.8788166666667,114.232666666667,1120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.217762686019378,2844.12552694001,2.56129037340116,-18.8748385633282,21.1167959978185,228.386194673315
8942,18416,4719,"CMPD","Steppe area in northern China","Steppe area in northern China S15",43.9777833333333,115.151666666667,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.263134941842709,2609.72153763505,1.44975444573913,-19.930685537273,19.9321446696371,265.784120113056
8942,18417,4720,"CMPD","Steppe area in northern China","Steppe area in northern China S16",43.9774666666667,115.1523,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.263160171654931,2609.73215104555,1.45007943543467,-19.9299122430922,19.9320408315022,265.807099696423
8942,18418,4721,"CMPD","Steppe area in northern China","Steppe area in northern China S17",41.6832833333333,109.9282,1553,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.229394504199483,2968.98031570846,4.5659156534039,-13.9293065028886,20.8974223313706,253.962756963096
8942,18419,4722,"CMPD","Steppe area in northern China","Steppe area in northern China S18",41.41605,109.552233333333,1661,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.22344133423913,2939.93860473013,4.41902739395355,-14.0876658825722,20.7925976860483,249.726478768518
8942,18420,4723,"CMPD","Steppe area in northern China","Steppe area in northern China S19",41.5665666666667,110.605283333333,1452,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.242672678175129,2976.51242656533,4.59861722364614,-13.9247709392532,20.9039593084427,266.78842209255
8942,18421,4724,"CMPD","Steppe area in northern China","Steppe area in northern China S20",41.5664666666667,110.6056,1447,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.242389140234288,2980.14319912039,4.61239729911174,-13.9168515873443,20.9219577527459,266.528253853816
8942,18422,4725,"CMPD","Steppe area in northern China","Steppe area in northern China S21",43.9069,115.45375,1219,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.27790539353002,2623.10313544321,1.6288745210226,-19.5371177847035,19.9586284383087,277.804280773542
8942,18423,4726,"CMPD","Steppe area in northern China","Steppe area in northern China S22",43.9440166666667,115.956516666667,1109,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.281822801509758,2608.81042235037,1.45669040538044,-19.8265851141893,19.9974843894643,278.481230273656
8942,18424,4727,"CMPD","Steppe area in northern China","Steppe area in northern China S23",43.944,115.955866666667,1109,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.281812224895338,2608.84572157835,1.45680613598747,-19.8266294062007,19.9976761675337,278.473073738414
8942,18425,4728,"CMPD","Steppe area in northern China","Steppe area in northern China S24",39.70035,108.757816666667,1420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.261783046147548,3362.771695803,6.9249158550029,-10.1820648068493,21.854030119451,294.730080465669
8942,18426,4729,"CMPD","Steppe area in northern China","Steppe area in northern China S25",39.70005,108.75825,1430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.262513493097822,3359.49473722928,6.92067147118404,-10.160942744066,21.8312580366255,295.490787276716
8942,18427,4730,"CMPD","Steppe area in northern China","Steppe area in northern China S26",43.5411166666667,116.555866666667,1179,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.313883455326469,2561.47004892466,1.58808215668221,-18.9743325365272,19.5530720313352,307.333912560696
8942,18428,4731,"CMPD","Steppe area in northern China","Steppe area in northern China S27",43.5417666666667,116.5562,1183,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.314903183136874,2559.75612746174,1.59196140860566,-18.9478689604681,19.536461587034,308.225842536965
8942,18429,4732,"CMPD","Steppe area in northern China","Steppe area in northern China S28",43.5415166666667,116.55605,1183,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.314899531514692,2559.77373339825,1.59203967251492,-18.9478371696261,19.5365444202272,308.224040828262
8942,18430,4733,"CMPD","Steppe area in northern China","Steppe area in northern China S29",41.35165,111.129116666667,1618,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.271720868121022,2802.8949822764,3.95338157801145,-14.2699984294735,19.9834056686447,294.204903180663
8942,18431,4734,"CMPD","Steppe area in northern China","Steppe area in northern China S30",43.55355,116.674766666667,1352,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.359840052197503,2480.76614272059,1.73069413382697,-17.8297855737614,18.8015636715592,346.795593434186
8942,18432,4735,"CMPD","Steppe area in northern China","Steppe area in northern China S31",43.5529833333333,116.67506666666701,1352,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.359844682457627,2480.76265788795,1.7307446866496,-17.8296009235663,18.8015035879543,346.801557649341
8942,18433,4736,"CMPD","Steppe area in northern China","Steppe area in northern China S32",43.3558,116.5969,1385,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.367712014587155,2477.93966542188,1.82760947010659,-17.5456688075399,18.7047209833623,354.629743476422
8942,18434,4737,"CMPD","Steppe area in northern China","Steppe area in northern China S33",43.369,116.728666666667,1368,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.364874005277568,2475.78049788994,1.77286357860183,-17.6670064948576,18.7308879376064,351.846736654278
8942,18435,4738,"CMPD","Steppe area in northern China","Steppe area in northern China S34",43.30975,116.756533333333,1370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.367737497422908,2457.34458791707,1.68381937268118,-17.7394538443472,18.6479329838415,353.8445253113
8942,18436,4739,"CMPD","Steppe area in northern China","Steppe area in northern China S35",43.3816833333333,116.8989,1363,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.367989156864489,2450.25248646234,1.638586893786,-17.7814332822086,18.6274500247901,353.445809409747
8942,18437,4740,"CMPD","Steppe area in northern China","Steppe area in northern China S36",43.3211333333333,117.578083333333,1273,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372986999364416,2468.26107037125,1.75403411405022,-17.4637002048116,18.7362458051036,357.172053718823
8942,18438,4741,"CMPD","Steppe area in northern China","Steppe area in northern China S37",39.9776666666667,110.01355,1405,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.273330994975142,3258.0319577753,6.23946527859489,-11.460699152843,21.630209725713,307.775917021159
8942,18439,4742,"CMPD","Steppe area in northern China","Steppe area in northern China S38",39.9771833333333,110.01425,1414,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.272433026082626,3250.20208011419,6.2042153011393,-11.4975373538035,21.603631696712,306.822841106682
8942,18440,4743,"CMPD","Steppe area in northern China","Steppe area in northern China S39",39.7561333333333,110.119216666667,1485,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.267135069517976,3207.61211998674,6.0350576048854,-11.6148326964068,21.4371442617051,302.213415171592
8942,18441,4744,"CMPD","Steppe area in northern China","Steppe area in northern China S40",41.0147166666667,111.482783333333,1686,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.291611387374059,2719.14009323274,3.66768035121317,-14.3366719691742,19.5073354665341,313.705420246451
8942,18442,4745,"CMPD","Steppe area in northern China","Steppe area in northern China S41",40.9355166666667,111.544533333333,1562,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.295839991496536,2839.07454992984,4.23081622024727,-13.7920446464908,20.0032856435971,319.425489550867
8942,18443,4746,"CMPD","Steppe area in northern China","Steppe area in northern China S42",39.33395,110.286766666667,1293,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.326031803540148,3374.18593824937,6.89501666544079,-10.4770632821761,21.7812376729295,364.466289309421
8942,18444,4747,"CMPD","Steppe area in northern China","Steppe area in northern China S43",36.098,106.258433333333,1705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.417844861200582,3126.51528533935,7.29289596096532,-6.28827379833579,19.5258416482145,437.800161449764
8943,18445,6052,"EMBSeCBIO","Steregoiu","Steregoiu_0.5",47.813889,23.540278,790,"0.005","terrestrial, bog/fen/swamp","core","-39","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.10801212549374,2500.05421484827,5.50666269431006,-6.80573244110738,15.3664524045924,851.639973927873
8943,18446,6053,"EMBSeCBIO","Steregoiu","Steregoiu_2",47.813889,23.540278,790,"0.005","terrestrial, bog/fen/swamp","core","-10","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.10801212549374,2500.05421484827,5.50666269431006,-6.80573244110738,15.3664524045924,851.639973927873
8943,18447,6054,"EMBSeCBIO","Steregoiu","Steregoiu_4.5",47.813889,23.540278,790,"0.005","terrestrial, bog/fen/swamp","core","36","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.10801212549374,2500.05421484827,5.50666269431006,-6.80573244110738,15.3664524045924,851.639973927873
8944,18448,22699,"SMPDSv1","Sternebecker See","Sternebecker See_ss",52.67933,14.0025,95,"0.077","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.79222421719112,3301.05100138507,8.93685149329338,-0.986499608261298,18.1286129538645,562.674356707273
8945,18449,17358,"Neotoma","Stewart","TW063",43,-89.8,366,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.866927600449677,3099.19340391045,5.86475029409027,-11.5200715710927,20.7866685168017,737.011331640555
8946,18450,13979,"Neotoma","Stewart Bog","STEWARTB",35.832,-105.722,3115,"not known","terrestrial, bog/fen/swamp","core","-32","Jimenez-Moreno, G., P.J. Fawcett, and R.S. Anderson. 2008. Millennial and centennial scale vegetation and climate changes during the late Pleistocene and Holocene from northern New Mexico (USA). Quaternary Science Reviews 27:1442-1452.",,17,"temperate evergreen needleleaf open woodland",0.451195873906613,1746.76413529891,2.13151744784382,-9.62560333780433,13.7916690474093,505.250164727982
8946,18450,13980,"Neotoma","Stewart Bog","STEWARTB",35.832,-105.722,3115,"not known","terrestrial, bog/fen/swamp","core","20","Jimenez-Moreno, G., P.J. Fawcett, and R.S. Anderson. 2008. Millennial and centennial scale vegetation and climate changes during the late Pleistocene and Holocene from northern New Mexico (USA). Quaternary Science Reviews 27:1442-1452.",,17,"temperate evergreen needleleaf open woodland",0.451195873906613,1746.76413529891,2.13151744784382,-9.62560333780433,13.7916690474093,505.250164727982
8947,18451,12896,"Neotoma","Stewart's Dark Lake","STWDARK2",45.3,-91.45,335,"not known","lake","core","11","Heide, K.M. 1984. Holocene pollen stratigraphy from a lake and small hollow in north-central Wisconsin, USA. Palynology 8:3-19.",,9,"cool mixed forest",0.933578167257439,3103.86058788989,5.75646613657125,-11.9373094521436,20.8857658963906,764.315832757478
8947,18452,16595,"Neotoma","Stewart's Dark Lake","STWDARK3",45.3,-91.45,335,"not known","lake","surface sample","Modern","Peters, A. and Webb III, T., 1979. A radiocarbon-dated pollen diagram from west-central Wisconsin. Bulletin of the Ecological Society of America, 60(102), pp.131-153.",,9,"cool mixed forest",0.933578167257439,3103.86058788989,5.75646613657125,-11.9373094521436,20.8857658963906,764.315832757478
8948,18453,11649,"Neotoma","Sticker Melon Pond","GPPS-22",37.087215,-102.00317,1068,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.343256847404967,4690.09124962631,12.8090754477131,-0.355378577375736,26.0214379057852,437.381011215561
8949,18454,22700,"SMPDSv1","Stiksvatn","Bjune_a113",60.3418947,6.06281109,356,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.0362281309218,2156.34631461436,5.71751282003877,-1.21859585335956,13.1796621209794,2112.68583457232
8950,18455,11510,"Neotoma","Stink Lake","NDBEST",48.25071,-99.23709,438,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.595540327722121,2799.85322179178,3.36468924489421,-16.3630641127579,20.021068602521,479.437306023001
8950,18456,11509,"Neotoma","Stink Lake","NDSTST",46.88215,-99.42161,528,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.540944652145451,2979.93675167555,4.60104574772692,-14.2167596461152,21.0177032593678,453.523615284166
8950,18457,11551,"Neotoma","Stink Lake","SDCOST",44.96723,-97.404695,519,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.604616518031176,3360.39459933706,6.53793333954281,-11.6939422352708,22.6543057568474,540.420076142015
8951,18458,1376,"Australian pollen","Stirling Moss","Stirling Moss",-37.1333,146.5,1650,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.57035586645904,1773.35276040707,4.31880387132267,-2.85527997047318,11.883588371904,1766.82302327428
8952,18459,11565,"Neotoma","Stockade Lake","SDCUST",43.768935,-103.519485,1582,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.412319232147498,2947.69398585856,6.78023870082775,-5.91512137963826,20.6273686457669,402.130862454661
8953,18460,13297,"Neotoma","Stockbridge Bowl","STOCKBRI",42.333333,-73.15,274,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.30908474623517,3363.55807805601,8.02652749283705,-6.12984105232453,20.9564000270427,1106.71425218789
8954,18461,1377,"Australian pollen","Stockyard Swamp","Stockyard Swamp",-40.55,144.75,58,"not known","terrestrial, bog/fen/swamp","core top","20","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.25174848430686,4470.55906177891,12.2481070185724,8.2519564151514,16.7307097125332,1184.94724157496
8955,18462,22702,"SMPDSv1","Stokketjonn","Bjune_a199",59.6633333333333,7.5383333333333304,898,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.13685460989598,1591.74401797441,2.53368396714678,-6.63034222863059,11.8401833649794,1175.89964536785
8956,18463,22703,"SMPDSv1","Stolevatn","Bjune_a124",59.02636,8.82755122,361,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72984258846216,2040.32218248184,4.24935439428309,-5.61173049391592,14.1125747456992,996.710102659646
8957,18464,14621,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-59.9","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14622,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-57.1","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14623,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-54.2","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14624,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-51.4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14625,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-48.6","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14626,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-44","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14627,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-39.5","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14628,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-34.9","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14629,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-30.4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14630,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-25.8","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14631,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-23","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14632,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-20.1","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14633,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-17.3","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14634,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-14.4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14635,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","-6.6","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14636,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","3.4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14637,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","13.4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14638,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","24.6","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14639,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","35.7","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8957,18464,14640,"Neotoma","Stoll Lake","STOLL",44.973845,-77.289295,303,"not known","lake","core","45.5","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.11168070557773,2761.36959395039,4.77083381178474,-11.59054484756,19.0784397753016,897.889865265251
8958,18465,13298,"Neotoma","Stone Lake","STONE",45.4,-93.522222,301,"not known","lake","core","-11","Unpublished data",,13,"temperate deciduous broadleaf forest",0.86313658119965,3382.90357487644,6.66827092453885,-11.7363894935634,22.1938142690668,731.192917665546
8958,18465,13299,"Neotoma","Stone Lake","STONE",45.4,-93.522222,301,"not known","lake","core","18","Unpublished data",,13,"temperate deciduous broadleaf forest",0.86313658119965,3382.90357487644,6.66827092453885,-11.7363894935634,22.1938142690668,731.192917665546
8958,18465,13300,"Neotoma","Stone Lake","STONE",45.4,-93.522222,301,"not known","lake","core","49","Unpublished data",,13,"temperate deciduous broadleaf forest",0.86313658119965,3382.90357487644,6.66827092453885,-11.7363894935634,22.1938142690668,731.192917665546
8959,18466,16679,"Neotoma","Stoneham (sud)","PJHR032",46.95,-71.366667,152,"not known","not known","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.56629867691166,2509.39348313737,3.43970797876188,-13.320132578652,18.23986845739,1128.75668915289
8960,18467,1378,"Australian pollen","Stonehaven Creek","Stonehaven Creek",-42.21,145.99,380,"not applicable","terrestrial","surface sample","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.40366447217586,3639.14293615321,9.97025461959783,5.73575099264127,14.6148279452988,1283.39316100685
8961,18468,14173,"Neotoma","Stoneman Lake","STONEMAN",34.7788649999999,-111.517775,2047,"not known","lake","core","-42","Hasbargen, J. 1994. A Holocene paleoclimatic and environmental record from Stoneman Lake, Arizona. Quaternary Research 42:188-196.; Hasbargen, J. 1993. The plaeoenvironment of Stoneman Lake, Arizona. Master's thesis. Northern Arizona University, Flagstaff, Arizona, USA.",,22,"steppe",0.293094832074044,3664.10735249938,9.90376468615629,-1.02450762841605,21.8396943268504,407.313161059112
8962,18469,7047,"EMPDv2","Stonetor Brook","EPDcoretop_E1683",50.66,-3.91,401,"0.006","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.97596608558693,2972.3817020629,8.14351151250109,2.47443230296251,14.2215602029403,1842.51745047853
8963,18470,16768,"Neotoma","Stony Rapids Area","RJM030",59.5,-105.75,213,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.769429816796921,1836.75336952929,-3.25636261661887,-26.0545065676691,15.929591039453,415.510029332898
8963,18471,16769,"Neotoma","Stony Rapids Area","RJM031",59.5,-105.75,213,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.769429816796921,1836.75336952929,-3.25636261661887,-26.0545065676691,15.929591039453,415.510029332898
8964,18472,9688,"Gaillard et al., 1992","Stora Barby","Stora Barby A",58.669425,12.047415,114,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.19386713442691,2455.54946671222,5.87490291683253,-3.87555818196131,15.8671905101208,734.488795203549
8964,18473,9689,"Gaillard et al., 1992","Stora Barby","Stora Barby B",58.669425,12.047415,114,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.19386713442691,2455.54946671222,5.87490291683253,-3.87555818196131,15.8671905101208,734.488795203549
8965,18474,23170,"SMPDSv1","Stora Gangtjonn","Bjune_a226",58.2716666666666,8.05333333333333,135,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.09844840177311,2418.84067049693,6.05573329228906,-3.0306463083111,15.1772320227743,1260.36508367085
8966,18475,22649,"SMPDSv1","Stora Gloppsjon","Seppa_b162",59.82,14.62,194,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.14750166724283,2110.3717739884,4.04782674860169,-6.5696240417696,14.873003631323,658.126869347303
8967,18476,22701,"SMPDSv1","Stora Laggarbotjarnen","Seppa_b159",59.78,15.67,134,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09337932497023,2138.44415372753,4.35914157443419,-5.82369831938588,14.9578331584929,628.934315642803
8968,18477,22650,"SMPDSv1","Stora Lovsjon","Seppa_b145",57.87,12.23,111,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15735495177649,2548.44597387848,6.35644628078029,-3.03996061433665,15.9666633052121,726.676933110892
8969,18478,22704,"SMPDSv1","Storavatn","Bjune_a97",60.2633333333333,6.1,74,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",4.47704642982098,2604.70039160084,7.13616545644065,0.835471877771269,14.0407397089636,2346.72598465936
8970,18479,22705,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a1",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18480,22706,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a10",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18481,22707,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a11",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18482,22708,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a12",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18483,22709,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a13",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18484,22710,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a14",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18485,22711,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a15",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18486,22712,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a16",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18487,22713,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a17",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18488,22714,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a18",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18489,22715,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a19",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18490,22716,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a2",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18491,22717,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a20",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18492,22718,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a21",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18493,22719,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a22",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18494,22720,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a3",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18495,22721,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a4",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18496,22722,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a5",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18497,22723,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a6",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18498,22724,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a7",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18499,22725,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a8",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18500,22726,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_a9",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18501,22727,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b1",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18502,22728,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b10",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18503,22729,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b11",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18504,22730,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b12",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18505,22731,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b13",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18506,22732,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b14",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18507,22733,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b15",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18508,22734,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b16",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18509,22735,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b17",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18510,22736,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b18",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18511,22737,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b19",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18512,22738,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b2",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18513,22739,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b20",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18514,22740,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b21",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18515,22741,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b22",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18516,22742,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b23",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18517,22743,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b24",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18518,22744,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b25",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18519,22745,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b26",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18520,22746,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b27",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18521,22747,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b28",61.5879,8.176014,1300,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.72438691002144,1106.06256297253,-0.336872350128961,-10.1897418353929,9.59837288721503,848.495059012135
8970,18522,22748,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b29",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18523,22749,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b3",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18524,22750,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b30",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18525,22751,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b31",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18526,22752,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b32",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18527,22753,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b33",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18528,22754,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b34",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18529,22755,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b35",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18530,22756,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b36",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18531,22757,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b37",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18532,22758,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b38",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18533,22759,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b39",61.585176,8.168112,1350,"not applicable","glacial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.6563780217519,1078.30104092793,-0.539140063140506,-10.4677613316842,9.45902279960423,816.434840067068
8970,18534,22760,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b4",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18535,22761,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b5",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18536,22762,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b6",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18537,22763,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b7",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18538,22764,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b8",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18539,22765,"SMPDSv1","Storbreen, Jotunheimen","Pardoe_b9",61.593046,8.189927,1150,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.92897298354277,1193.13042458898,0.278632612064747,-9.34563544637771,10.0238777969157,944.656130710888
8970,18540,9369,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c100",61.584809,8.169201,1235,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.81335582237335,1144.97355275949,-0.0588059268691123,-9.80813562583041,9.7905217025986,890.937258043069
8970,18541,9370,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c101",61.584809,8.169201,1175,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.89576863208539,1180.67674431225,0.192026230782913,-9.46359241319156,9.96357770233122,929.839949158427
8970,18542,9371,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c102",61.584809,8.169201,1200,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86139228127505,1165.70007257402,0.0875128317612361,-9.60715208512442,9.89147103577596,913.630494527028
8970,18543,9372,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c103",61.584809,8.169201,1175,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.89576863208539,1180.67674431225,0.192026230782913,-9.46359241319156,9.96357770233122,929.839949158427
8970,18544,9373,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c104",61.584809,8.169201,1150,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.93019867727346,1195.69505548064,0.296539629804591,-9.32003274125871,10.0356843688865,946.049403789826
8970,18545,9374,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c105",61.584809,8.169201,1150,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.93019867727346,1195.69505548064,0.296539629804591,-9.32003274125871,10.0356843688865,946.049403789826
8970,18546,9375,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c106",61.584809,8.169201,1140,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.94398593634243,1201.75190505438,0.338344989413262,-9.26260887248557,10.0645270355086,952.533185642386
8970,18547,9376,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c107",61.584809,8.169201,1140,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.94398593634243,1201.75190505438,0.338344989413262,-9.26260887248557,10.0645270355086,952.533185642386
8970,18548,9377,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c108",61.584809,8.169201,1165,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.90953419614228,1186.67917101131,0.233831590391584,-9.40616854441842,9.99242036895332,936.323731010987
8970,18549,9378,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c109",61.584809,8.169201,1175,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.89576863208539,1180.67674431225,0.192026230782913,-9.46359241319156,9.96357770233122,929.839949158427
8970,18550,9379,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c110",61.584809,8.169201,1150,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.93019867727346,1195.69505548064,0.296539629804591,-9.32003274125871,10.0356843688865,946.049403789826
8970,18551,9358,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c89",61.584809,8.169201,1370,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62903749941985,1066.83449319871,-0.62317828158617,-10.5833578542678,9.40114570320022,803.406203033513
8970,18552,9359,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c90",61.584809,8.169201,1370,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.62903749941985,1066.83449319871,-0.62317828158617,-10.5833578542678,9.40114570320022,803.406203033513
8970,18553,9360,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c91",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18554,9361,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c92",61.584809,8.169201,1350,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.65624865614129,1078.25517213159,-0.539567562368828,-10.4685101167215,9.45883103644443,816.373766738632
8970,18555,9362,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c93",61.584809,8.169201,1325,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.69030860120229,1092.55945306451,-0.435054163347151,-10.3249504447887,9.53093770299968,832.583221370032
8970,18556,9363,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c94",61.584809,8.169201,1325,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.69030860120229,1092.55945306451,-0.435054163347151,-10.3249504447887,9.53093770299968,832.583221370032
8970,18557,9364,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c95",61.584809,8.169201,1310,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.71076927697068,1101.19724692494,-0.372346123934145,-10.238814641629,9.57420170293284,842.308894148871
8970,18558,9365,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c96",61.584809,8.169201,1310,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.71076927697068,1101.19724692494,-0.372346123934145,-10.238814641629,9.57420170293284,842.308894148871
8970,18559,9366,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c97",61.584809,8.169201,1300,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.72442032837804,1106.99642331942,-0.330540764325474,-10.1813907728558,9.60304436955494,848.792676001431
8970,18560,9367,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c98",61.584809,8.169201,1300,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.72442032837804,1106.99642331942,-0.330540764325474,-10.1813907728558,9.60304436955494,848.792676001431
8970,18561,9368,"EMPDv2","Storbreen, Jotunheimen","Pardoe_c99",61.584809,8.169201,1250,"not applicable","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.79280049810801,1136.13788813766,-0.121513966282119,-9.89427142899012,9.74725770266545,881.211585264229
8971,18562,7428,"EMPDv2","Storebotn","Hjelle_a17",60.3818204,5.8105805,78,"0.019","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",4.41018448175647,2585.16239209537,7.08263669067226,0.80397636249517,13.9736735145784,2302.8047888543
8972,18563,23189,"SMPDSv1","Storfiskplutten","Bjune_a39",64.4986185,13.9445633,390,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.88840499464499,1560.95897735985,1.70680688541938,-8.86898395463516,12.4035764686849,850.91925721786
8973,18564,1379,"Australian pollen","Storm Creek","Storm Creek",-37.4442,145.8069,1177,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.29280674370494,2833.66529571155,7.76346656359328,0.365203085322234,15.6719812663597,1496.85989619129
8974,18565,22766,"SMPDSv1","Storsandvatnet (N)","Bjune_a258",63.4583333333333,8.45,106,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.84658567141842,1995.73695631589,4.98117882367555,-2.40615205330026,13.0011610935219,1301.73776198619
8975,18566,22767,"SMPDSv1","Storsjon","Seppa_b150",57.72,14.48,295,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08009835687464,2347.74603182094,5.60082018095456,-3.75237416445148,15.178481910327,666.234960726718
8976,18567,22768,"SMPDSv1","Stortaela","Barboni_a1276",62.5668,8.906,740,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.28530314316042,1304.18911307597,1.16265467648371,-7.91653069036448,10.5148851992215,1035.38318810525
8977,18568,22769,"SMPDSv1","Storvatn","Bjune_a10",69.81370903,21.06491521,210,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.4900478464569,1113.55424792453,-1.15432357926451,-11.2721125522716,11.1063511245605,849.762357751707
8977,18569,22770,"SMPDSv1","Storvatn","Bjune_a24",68.52319343,14.91433974,232,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.43625051685077,1309.34040562288,1.57117416725978,-6.09801659916611,11.1332535072884,1290.08484607619
8978,18570,13302,"Neotoma","Stotzel-Leis Site","STOT14",40.216667,-84.689444,309,"not known","terrestrial, bog/fen/swamp","core","39","Watson, B.I., J.W. Williams, J.M. Russell, S.T. Jackson, L. Shane, and T.V. Lowell. 2018. Temperature variations in the southern Great Lakes during the last deglaciation: Comparison between pollen and GDGT proxies. Quaternary Science Reviews 182:78-92.",,13,"temperate deciduous broadleaf forest",1.03585288374364,3984.67435789982,10.2321237271778,-4.31595570340741,22.8903612389575,969.059238003939
8978,18571,13301,"Neotoma","Stotzel-Leis Site","STOTZEL",40.216667,-84.689444,309,"not known","terrestrial, bog/fen/swamp","core","33","Shane, L.C.K. 1976. Late-glacial and postglacial palynology and chronology of Darke County, west-central Ohio. Dissertation. Kent State University, Kent, Ohio, USA.; Shane, L.C.K. 1987. Late glacial vegetational and climatic history of the Allegheny Plateau and the Till Plains of Ohio and Indiana, U.S.A. Boreas 16:1-20.; Shane, L.C.K., and K.H. Anderson. 1993. Intensity, gradients and reversals in late glacial environmental change in East-Central North America. Quaternary Science Reviews 12:307-320.",,13,"temperate deciduous broadleaf forest",1.03585288374364,3984.67435789982,10.2321237271778,-4.31595570340741,22.8903612389575,969.059238003939
8979,18572,9092,"EMPDv2","Stozecek, Sumava","Svobodova_a10",48.8740194444444,13.8523944444444,803.3,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.39926663726362,2554.69339698816,6.40134006270026,-3.31723719073387,15.3635077294112,1053.42532800792
8980,18573,6055,"EMBSeCBIO","Straldza","Straldza",42.62541667,26.79041667,137,"40","terrestrial, bog/fen/swamp","core","-36","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.554547102394762,4569.69041233663,12.5196997598264,1.54335235585135,22.6570278122647,570.398454342648
8980,18574,6056,"EMBSeCBIO","Straldza","Straldzha mire CANAL_20",42.62541667,26.79041667,137,"40","terrestrial, bog/fen/swamp","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.554547102394762,4569.69041233663,12.5196997598264,1.54335235585135,22.6570278122647,570.398454342648
8980,18575,6057,"EMBSeCBIO","Straldza","Straldzha mire CANAL_40",42.62541667,26.79041667,137,"40","terrestrial, bog/fen/swamp","core","0","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.554547102394762,4569.69041233663,12.5196997598264,1.54335235585135,22.6570278122647,570.398454342648
8980,18576,6058,"EMBSeCBIO","Straldza","Straldzha mire CANAL_60",42.62541667,26.79041667,137,"40","terrestrial, bog/fen/swamp","core","-57","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",13,"temperate deciduous broadleaf forest",0.554547102394762,4569.69041233663,12.5196997598264,1.54335235585135,22.6570278122647,570.398454342648
8981,18577,22771,"SMPDSv1","Strandzha Mountains","Strandzha Mts (Brodilovo)_MFBG075",42.1336111111111,27.7841666666667,85,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.592452700230818,4871.29364780883,13.3460099939968,3.43706629790216,22.7240306429007,643.694305356546
8981,18578,22772,"SMPDSv1","Strandzha Mountains","Strandzha Mts (Brodilovo)_MFBG085",42.1005555555556,27.9675,56,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.602632656797923,4951.68057838908,13.5662481599701,3.85244845807119,22.7925853011229,660.601577484881
8981,18579,22773,"SMPDSv1","Strandzha Mountains","Strandzha Mts (Brodilovo)_MFBG105",42.084,27.8503,62,"not applicable","terrestrial, soil","surface sample","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.597782300157255,4936.52093623213,13.5247148937867,3.7591436851172,22.7944653931755,654.847922053631
8982,18580,22992,"SMPDSv1","Stratike, close to Limni Ozeros","Jahns_a1",38.6519444444444,21.2127777777777,50,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.533083903892738,6229.50305469584,17.0671316567009,9.48951638320173,25.4303402507594,728.750474818779
8982,18581,22993,"SMPDSv1","Stratike, close to Limni Ozeros","Jahns_a2",38.6505555555555,21.1983333333333,450,"not applicable","terrestrial","moss polster or moss","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.572332482757413,5398.06968366092,14.7892320100299,6.57177605677223,23.5512206300688,763.261485697065
8983,18582,11384,"Neotoma","Stratton","TW053",44.291667,-89.181389,270,"not known","not known","surface sample","-17","Webb, T., III. 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.932284710719209,3243.79806925942,6.71240333129851,-9.89855890321179,21.2989457766563,780.886213948673
8984,18583,9107,"EMPDv2","Strazenska slat, Sumava","Svobodova_a23",48.895811,13.732775,820,"1.2","terrestrial, bog/fen/swamp","core top","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.46696200823597,2508.34789334356,6.26788696460126,-3.30105644728116,15.1475570597956,1094.67131051567
8985,18584,22774,"SMPDSv1","Strazym Lake","EPDcoretop_E1000",53.331111,19.446667,71,"0.734","lake","lacustrine core top","100","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81577085448607,3036.12016379174,7.93323894902466,-2.645779780548,17.4530163080786,583.510927913412
8986,18585,7931,"EMPDv2","Stromboli Island","Mercuri_i12",38.801613,15.236252,54,"not applicable","archaeological site","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.485884903095615,6444.99004206918,17.6575069645731,11.0511755545506,25.6084666459161,626.953994010821
8986,18586,7932,"EMPDv2","Stromboli Island","Mercuri_i13",38.801614,15.236253,54,"not applicable","archaeological site","soil sample","50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.485884920456005,6444.99010494071,17.6575071368239,11.0511758276627,25.6084667637282,626.954014653715
8987,18587,17299,"Neotoma","Strum","TW005",44.554722,-91.392222,271,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.887043050882396,3509.93940488922,7.39117394217395,-10.5166050836862,22.4595861787207,769.934561246704
8988,18588,22775,"SMPDSv1","Stupino (boloto)","Stupino (boloto)_SS",52.25,39.8333,95,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.617611583101871,3237.1229493658,6.81920172842271,-8.77424387822716,20.6832291483747,495.744132746306
8989,18589,8671,"EMPDv2","Styggebreen","Pardoe_c141",61.39,8.24,1660,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.2529711514925,922.312452671466,-1.72794188714091,-12.0931313326052,8.63550036577651,628.758316543124
8989,18590,8672,"EMPDv2","Styggebreen","Pardoe_c142",61.39,8.24,1600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32450009290752,954.796535721089,-1.47985399228524,-11.7642937107066,8.81458533004963,663.855568640271
8989,18591,8673,"EMPDv2","Styggebreen","Pardoe_c143",61.39,8.24,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.44414600878241,1010.20847926699,-1.06637416752579,-11.2162310075423,9.11306027050482,722.350988802183
8989,18592,8674,"EMPDv2","Styggebreen","Pardoe_c144",61.39,8.24,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56434652262716,1067.13102293516,-0.652894342766344,-10.668168304378,9.41153521096002,780.846408964095
8989,18593,8675,"EMPDv2","Styggebreen","Pardoe_c145",61.39,8.24,1300,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.68512086147597,1125.66085940641,-0.239414518006896,-10.1201056012137,9.71001015141521,839.341829126007
8990,18594,8614,"EMPDv2","Styggedalsbreen","Pardoe_c62",61.29,7.53,1280,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.82841131584114,1218.1850696331,0.441727526257505,-9.1022145853199,10.134033324178,929.301736670322
8990,18595,8615,"EMPDv2","Styggedalsbreen","Pardoe_c63",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18596,8616,"EMPDv2","Styggedalsbreen","Pardoe_c64",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18597,8617,"EMPDv2","Styggedalsbreen","Pardoe_c65",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18598,8618,"EMPDv2","Styggedalsbreen","Pardoe_c66",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18599,8619,"EMPDv2","Styggedalsbreen","Pardoe_c67",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18600,8620,"EMPDv2","Styggedalsbreen","Pardoe_c68",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18601,8621,"EMPDv2","Styggedalsbreen","Pardoe_c69",61.29,7.53,1260,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.86623272914902,1229.71919376666,0.529158516329863,-8.96761399539372,10.184336060682,947.627409337059
8990,18602,8622,"EMPDv2","Styggedalsbreen","Pardoe_c70",61.29,7.53,1240,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.90412846829758,1241.3397871784,0.616589506402221,-8.83301340546754,10.234638797186,965.953082003796
8991,18603,22776,"SMPDSv1","Styggtjarnen","EPDcoretop_E1036",62.316667,13.566667,715,"0.01","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.54439697819098,1292.30060109718,-0.105727899907893,-11.113434436336,10.9797832389952,712.095668053725
8992,18604,22777,"SMPDSv1","Suarbol","Barboni_a1404",42.863889,-6.852778,1080,"not known","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.905730104561452,3396.38715655433,9.30517029192967,1.85428437031562,17.9587319576037,935.98792326135
8993,18605,6212,"EMPDv2","Subpolar Urals","Antipina_a4",64.23,60.54,112,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26233682783622,1504.47725896399,-3.15104624223766,-21.8493240188419,15.8001006763706,536.50664930372
8993,18606,6213,"EMPDv2","Subpolar Urals","Antipina_a5",64.13,61.04,33,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22451321657152,1575.10029700682,-2.80070322067395,-21.6232058370337,16.2639760871032,526.160976009497
8994,18607,8739,"EMPDv2","Sudostlicher Buchensee","Roesch_b2",47.767025,8.984608,429,"0.011","lake","moss polster or moss","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0824287777544,3351.90466880493,9.16511935826889,-0.210435268016406,18.2484241059915,850.1553650562
8995,18608,4748,"CMPD","Sugan Lake","Sugan Lake 01",38.8677,93.7654333333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0418375269050146,2308.03579287873,3.04253713951456,-12.1923715435113,16.8294821512147,46.5228357954884
8995,18609,4749,"CMPD","Sugan Lake","Sugan Lake 02",38.8661666666667,93.7989333333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0419473758174689,2310.4142835215,3.05186319113345,-12.1891194588209,16.840632516202,46.661678851846
8995,18610,4750,"CMPD","Sugan Lake","Sugan Lake 03",38.8778666666667,93.8340666666667,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0419887471228026,2312.62173894703,3.05940854143244,-12.1895818129407,16.8516381532834,46.7169337954237
8995,18611,4751,"CMPD","Sugan Lake","Sugan Lake 04",38.8787666666667,93.8716,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0420984601421194,2315.2421837945,3.06947120685013,-12.1866682270886,16.8640105457808,46.8562339749944
8995,18612,4752,"CMPD","Sugan Lake","Sugan Lake 05",38.8660666666667,93.8782,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0421892423545839,2316.00463931054,3.07348982298622,-12.1823438866111,16.866931851536,46.968492038236
8995,18613,4753,"CMPD","Sugan Lake","Sugan Lake 06",38.9222,93.8878,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0419097490304255,2315.36465878187,3.06627391296414,-12.1980887873003,16.8667478279332,46.6262938368276
8995,18614,4754,"CMPD","Sugan Lake","Sugan Lake 07",38.8823666666667,93.9121666666667,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0422030702023385,2318.03182041675,3.07991929439478,-12.1842743768573,16.8772356986386,46.9897211858163
8995,18615,4755,"CMPD","Sugan Lake","Sugan Lake 08",38.8720666666667,93.9288666666667,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423112847784969,2319.46492377468,3.0863228761838,-12.1797639054846,16.8834105466971,47.1248261644979
8995,18616,4756,"CMPD","Sugan Lake","Sugan Lake 09",38.8706666666667,93.9308666666667,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.042325171470894,2319.64182931716,3.08712121444188,-12.1791716798898,16.8841617299935,47.1421523770786
8995,18617,4757,"CMPD","Sugan Lake","Sugan Lake 10",38.8755666666667,93.9337613333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423070064744562,2319.72978499299,3.08704280023172,-12.1803885573298,16.8848187505093,47.120164669055
8995,18618,4758,"CMPD","Sugan Lake","Sugan Lake 11",38.8766666666667,93.935563,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423064829245528,2319.83173023772,3.08734092101244,-12.1805622972282,16.8853480280548,47.1197398491876
8995,18619,4759,"CMPD","Sugan Lake","Sugan Lake 12",38.8778666666667,93.9373886666667,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423054878339705,2319.93289173793,3.08762756443426,-12.1807639950891,16.8858785987095,47.1187367323564
8995,18620,4760,"CMPD","Sugan Lake","Sugan Lake 13",38.9279333333333,93.9414433333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0420450034759737,2318.99334628657,3.07977704971284,-12.1953202192209,16.8839685889101,46.7984263856082
8995,18621,4761,"CMPD","Sugan Lake","Sugan Lake 14",38.8815333333333,93.9431433333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423030297294427,2320.25416727588,3.08855028149854,-12.181365716856,16.8875555456607,47.1164024517928
8995,18622,4762,"CMPD","Sugan Lake","Sugan Lake 15",38.8801333333333,93.9449533333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423163063767995,2320.41776724386,3.08929724203819,-12.1807903441555,16.888244897172,47.1329601546697
8995,18623,4763,"CMPD","Sugan Lake","Sugan Lake 16",38.8731,93.9471033333333,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423616645538889,2320.74387392382,3.09114706190503,-12.1784946690091,16.8894050502596,47.1890468456572
8995,18624,4764,"CMPD","Sugan Lake","Sugan Lake 17",38.879,93.951942,2792.6,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.042344073916253,2320.94495097735,3.09141803050621,-12.1798470746779,16.8906357864845,47.1679780588277
8996,18625,4765,"CMPD","Sugan Lake basin","Sugan Lake basin D01",39.2725,94.2525,3388,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0371974581575037,1651.80738010136,0.0358947516495186,-14.4966614932121,13.5863672774015,39.4720771667534
8996,18626,4766,"CMPD","Sugan Lake basin","Sugan Lake basin D02",39.2402777777778,94.2172222222222,3196,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0391692761915312,1895.47837648353,1.2280681102281,-13.5052793933606,14.8335787245593,42.398118654192
8996,18627,4767,"CMPD","Sugan Lake basin","Sugan Lake basin D03",39.1591666666667,94.1888888888889,2929,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.040946748803538,2179.63868792467,2.47242443390971,-12.6625328579711,16.2311412203552,45.1481365575799
8996,18628,4768,"CMPD","Sugan Lake basin","Sugan Lake basin D04",38.9397222222222,93.8891666666667,2970,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0408502309737042,2119.51513938837,2.23812378139204,-12.7518377136781,15.9327528386827,44.9190073559087
8996,18629,4769,"CMPD","Sugan Lake basin","Sugan Lake basin D05",38.9205555555556,93.7547222222222,2883,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0409876330356783,2205.09800859602,2.60692318000476,-12.4897321534548,16.3439614882351,45.2718539460201
8996,18630,4770,"CMPD","Sugan Lake basin","Sugan Lake basin D06",38.8922222222222,93.6705555555556,2783,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0402167217023636,2265.69301878031,2.88503483557754,-12.2377849834908,16.6213648016355,44.4083815275069
8996,18631,4771,"CMPD","Sugan Lake basin","Sugan Lake basin D07",38.7361111111111,94.7225,3102,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0506598677643176,2039.8162129343,1.92329540926772,-12.9813925281635,15.4920620779862,55.8579867562175
8996,18632,4772,"CMPD","Sugan Lake basin","Sugan Lake basin D08",38.6502777777778,95.0358333333333,2436,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0530189882547396,2837.68114819989,5.26102792547375,-10.4537574336515,19.1405547993537,61.2413779785547
8996,18633,4773,"CMPD","Sugan Lake basin","Sugan Lake basin M01",39.1036111111111,94.2013888888889,2848,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0416901513532206,2271.01684237507,2.86120961667477,-12.3962054041476,16.6643616559739,46.2489539568284
8996,18634,4774,"CMPD","Sugan Lake basin","Sugan Lake basin M02",39.0375,94.1694444444445,2813,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0420923715225013,2309.40711333904,3.02684973564326,-12.2717705772275,16.8429127274951,46.8272268430478
8996,18635,4775,"CMPD","Sugan Lake basin","Sugan Lake basin M03",39.0344444444444,94.1897222222222,2762,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.042419751415902,2367.43308390931,3.26686781413414,-12.1132720330939,17.114341768433,47.351164080081404
8996,18636,4776,"CMPD","Sugan Lake basin","Sugan Lake basin M04",38.9869444444444,94.2558333333333,2811,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0441544229685056,2300.15299755074,2.96582700138342,-12.3930949391091,16.7966987086876,49.1114102331347
8996,18637,4777,"CMPD","Sugan Lake basin","Sugan Lake basin M05",38.9369444444444,94.0727777777778,2798,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423800191991982,2322.04657398371,3.08898573327188,-12.2035269168807,16.8982626204465,47.2124385343094
8996,18638,4778,"CMPD","Sugan Lake basin","Sugan Lake basin M06",38.9175,94.0088888888889,2793,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0423089906009429,2323.58536222265,3.0981694635467,-12.1877587509438,16.9047524087357,47.1300680833387
8996,18639,4779,"CMPD","Sugan Lake basin","Sugan Lake basin M07",38.8880555555556,93.9116666666667,2790,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0421837512898138,2320.7658189153,3.09082464962782,-12.1779877181485,16.8903420762756,46.9720298273064
8996,18640,4780,"CMPD","Sugan Lake basin","Sugan Lake basin M08",38.7752777777778,94.2227777777778,2856,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0434894923263013,2274.42601679688,2.90028885574219,-12.3147324246701,16.6653032212041,48.4667423244014
8996,18641,4781,"CMPD","Sugan Lake basin","Sugan Lake basin M09",38.7533333333333,94.2866666666667,2870,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.045265901072507,2247.94579500236,2.76557141902635,-12.4878867649652,16.5391626540631,50.3696812574712
8996,18642,4782,"CMPD","Sugan Lake basin","Sugan Lake basin M10",38.7588888888889,94.3422222222222,2876,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0454225093784658,2242.51351005308,2.74054243064768,-12.5133127081162,16.5129113085667,50.5333389924106
8996,18643,4783,"CMPD","Sugan Lake basin","Sugan Lake basin M11",38.8366666666667,94.3561111111111,2874,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0450886646794141,2240.89883641853,2.72658270030245,-12.5404498902924,16.5084630978624,50.1041333573543
8996,18644,4784,"CMPD","Sugan Lake basin","Sugan Lake basin M12",38.72,94.8419444444444,3198,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.053410837898436,1886.11812577481,1.22067675899679,-13.5583428654734,14.7177304945881,58.1359327404559
8997,18645,10574,"BIOME6000 Japan","Sugano","SuganoD0",35.45,134.38,340,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.78129668099807,4618.43684755316,12.653251637132,1.2859459215499,24.9792213994746,1695.17188387703
8998,18646,13303,"Neotoma","Sugarloaf Pond","SUGRLOAF",47.616667,-52.666667,100,"not known","lake","core","-27","Macpherson, J.B. 1982. Postglacial vegetational history of the eastern Avalon Peninsula, Newfoundland, and Holocene climatic change along the eastern Canadian seaboard. Géographie physique et Quaternaire 36(1-2):175-196. https://www.erudit.org/revue/gpq/1982/v36/n1-2/032476ar.html. Lowdon, J.A., and W. Blake, Jr. 1978. Geological Survey of Canada radiocarbon dates XVIII. Geological Survey of Canada Paper 78-7:3.","10.7202/032476ar",9,"cool mixed forest",2.1266092623799,2214.29134793778,5.08408153781958,-4.64315394759733,15.3903166052409,1375.59142672757
8998,18646,13304,"Neotoma","Sugarloaf Pond","SUGRLOAF",47.616667,-52.666667,100,"not known","lake","core","-15","Macpherson, J.B. 1982. Postglacial vegetational history of the eastern Avalon Peninsula, Newfoundland, and Holocene climatic change along the eastern Canadian seaboard. Géographie physique et Quaternaire 36(1-2):175-196. https://www.erudit.org/revue/gpq/1982/v36/n1-2/032476ar.html. Lowdon, J.A., and W. Blake, Jr. 1978. Geological Survey of Canada radiocarbon dates XVIII. Geological Survey of Canada Paper 78-7:3.","10.7202/032476ar",9,"cool mixed forest",2.1266092623799,2214.29134793778,5.08408153781958,-4.64315394759733,15.3903166052409,1375.59142672757
8998,18646,13305,"Neotoma","Sugarloaf Pond","SUGRLOAF",47.616667,-52.666667,100,"not known","lake","core","9","Macpherson, J.B. 1982. Postglacial vegetational history of the eastern Avalon Peninsula, Newfoundland, and Holocene climatic change along the eastern Canadian seaboard. Géographie physique et Quaternaire 36(1-2):175-196. https://www.erudit.org/revue/gpq/1982/v36/n1-2/032476ar.html. Lowdon, J.A., and W. Blake, Jr. 1978. Geological Survey of Canada radiocarbon dates XVIII. Geological Survey of Canada Paper 78-7:3.","10.7202/032476ar",9,"cool mixed forest",2.1266092623799,2214.29134793778,5.08408153781958,-4.64315394759733,15.3903166052409,1375.59142672757
8998,18646,13306,"Neotoma","Sugarloaf Pond","SUGRLOAF",47.616667,-52.666667,100,"not known","lake","core","33","Macpherson, J.B. 1982. Postglacial vegetational history of the eastern Avalon Peninsula, Newfoundland, and Holocene climatic change along the eastern Canadian seaboard. Géographie physique et Quaternaire 36(1-2):175-196. https://www.erudit.org/revue/gpq/1982/v36/n1-2/032476ar.html. Lowdon, J.A., and W. Blake, Jr. 1978. Geological Survey of Canada radiocarbon dates XVIII. Geological Survey of Canada Paper 78-7:3.","10.7202/032476ar",9,"cool mixed forest",2.1266092623799,2214.29134793778,5.08408153781958,-4.64315394759733,15.3903166052409,1375.59142672757
8999,18647,10573,"BIOME6000 Japan","Sugawara","SugawC0",35.42,133.98,640,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.13423172793026,3814.51459504668,10.2566026970332,-1.38624365941197,22.921601903077,1874.06620519255
9000,18648,10565,"BIOME6000 Japan","Sugiyaike","SugyikC0",35.23,135.88,950,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.5470895237778,3417.61352940215,8.67229131137904,-3.73097377417129,21.400130249703,2167.96771423258
9001,18649,4785,"CMPD","Suichuan","Suichuan",26.28,114.56,210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29901318865271,6708.21581564018,18.3786734675073,6.77660952924119,28.9724147838764,1516.88832567897
9002,18650,8245,"EMPDv2","Suiphun (Razdolnaya river)","Mikishin-Gvozdeva_b76",43.4738888888889,131.913888888889,1,"not known","fluvial","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.928785603273463,3187.5135689551,5.88581270716501,-12.3019166898133,21.4937630158724,731.036932414144
9003,18651,8250,"EMPDv2","Sukhodol (Sukhodol river)","Mikishin-Gvozdeva_b81",43.2511111111111,132.375555555556,0,"not known","fluvial","sediment sample","-38","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.918836943090655,3172.01761731097,5.79951716279385,-12.4019425125551,21.4369416264002,724.933138903571
9004,18652,13307,"Neotoma","Sulphur Lake","SULPHUR",60.95,-137.957778,847,"not known","lake","core","-45","Lacourse, T., and K. Gajewski. 2000. Late Quaternary vegetation history of Sulphur Lake, southwest Yukon Territory, Canada. Arctic 53(1):27-35.; Lacourse, T. 1998. Late Quaternary vegetation history of Sulphur Lake, southwest Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada. 59p.. Master's thesis.",,15,"cold evergreen needleleaf forest",1.05907590282213,1221.82382909357,-3.53406609835411,-20.5273023459293,11.4353679466126,493.126535100175
9004,18652,13308,"Neotoma","Sulphur Lake","SULPHUR",60.95,-137.957778,847,"not known","lake","core","50","Lacourse, T., and K. Gajewski. 2000. Late Quaternary vegetation history of Sulphur Lake, southwest Yukon Territory, Canada. Arctic 53(1):27-35.; Lacourse, T. 1998. Late Quaternary vegetation history of Sulphur Lake, southwest Yukon Territory, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada. 59p.. Master's thesis.",,15,"cold evergreen needleleaf forest",1.05907590282213,1221.82382909357,-3.53406609835411,-20.5273023459293,11.4353679466126,493.126535100175
9005,18653,11241,"Bush et al., 2020","Sumaco165","Sumaco165",-0.659894,-77.5923004,1530,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.97037641213697,7203.96639528706,19.7368942336632,18.9577541893061,20.0617250715405,2521.22003795502
9006,18654,11242,"Bush et al., 2020","Sumaco166","Sumaco166",-0.659127,-77.5922012,1530,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.9703465909239,7203.96371046605,19.7368868779892,18.9578030076657,20.0617281236633,2521.16809850072
9007,18655,11243,"Bush et al., 2020","Sumaco167","Sumaco167",-0.657188,-77.5916977,1532,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96882707555982,7200.5447395376405,19.7275198343497,18.9490161799662,20.0521290901535,2519.19502782325
9008,18656,11244,"Bush et al., 2020","Sumaco168","Sumaco168",-0.656951,-77.5915985,1567,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.943693276785,7140.65477243387,19.5634377326955,18.7927432017756,19.8835079235386,2487.12268330582
9009,18657,11245,"Bush et al., 2020","Sumaco170","Sumaco170",-0.654935,-77.5914993,1567,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.94361989731043,7140.63930951259,19.5633953685276,18.7928525631875,19.8834918219824,2486.9917780157
9010,18658,11246,"Bush et al., 2020","Sumaco171","Sumaco171",-0.653663,-77.5916977,1532,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96870419584763,7200.51386667835,19.7274352511735,18.9492026948649,20.052090087561,2518.97420406682
9011,18659,11247,"Bush et al., 2020","Sumaco172","Sumaco172",-0.652638,-77.5932999,1532,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.9687187816989,7200.44019799215,19.7272334191566,18.9491252428539,20.0518935054447,2518.97358177793
9012,18660,11248,"Bush et al., 2020","Sumaco173","Sumaco173",-0.654138,-77.5942001,1532,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.96879947519864,7200.41702193549,19.7271699231109,18.9489718829224,20.0518061072912,2519.10343421112
9013,18661,11249,"Bush et al., 2020","Sumaco174","Sumaco174",-0.681424,-77.5978012,1470,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.01442269433613,7306.56338384876,20.0179818735583,19.2239783137304,20.3502880852171,2577.73307500202
9014,18662,11250,"Bush et al., 2020","Sumaco175","Sumaco175",-0.68164,-77.5979004,1470,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.01443358854782,7306.56089308797,20.0179750495561,19.223957710686,20.3502779224086,2577.75064859745
9015,18663,11251,"Bush et al., 2020","Sumaco176","Sumaco176",-0.681882,-77.5975037,1470,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.0144280209416,7306.57890469181,20.0180243964159,19.2239767165405,20.3503261557789,2577.74839083017
9016,18664,11252,"Bush et al., 2020","Sumaco177","Sumaco177",-0.681511,-77.5975037,1470,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.01441527435686,7306.57620438693,20.0180169983204,19.2239979834492,20.3503236109282,2577.72557255725
9017,18665,1380,"Australian pollen","Sumatra","Plot 1",-1.067,100.767,1640,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.30893762389039,8119.6171458524,22.2455264269929,21.692844070531,22.8748758419232,3508.25806413149
9017,18666,1381,"Australian pollen","Sumatra","Plot 10",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18667,1382,"Australian pollen","Sumatra","Plot 11",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18668,1383,"Australian pollen","Sumatra","Plot 12",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18669,1384,"Australian pollen","Sumatra","Plot 13",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18670,1385,"Australian pollen","Sumatra","Plot 16",-1.067,100.767,1440,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.24557396830548,8334.70696881471,22.834813613191,22.31383732276,23.4135470235588,3434.85950808328
9017,18671,1386,"Australian pollen","Sumatra","Plot 17",-1.067,100.767,1440,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.24557396830548,8334.70696881471,22.834813613191,22.31383732276,23.4135470235588,3434.85950808328
9017,18672,1387,"Australian pollen","Sumatra","Plot 18",-1.067,100.767,1430,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.24243296299062,8345.46145996282,22.8642779725009,22.3448869853714,23.4404805826406,3431.18958028087
9017,18673,1388,"Australian pollen","Sumatra","Plot 19",-1.067,100.767,1450,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.24871753462986,8323.95247766659,22.8053492538811,22.2827876601485,23.386613464477,3438.52943588569
9017,18674,1389,"Australian pollen","Sumatra","Plot 2",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18675,1390,"Australian pollen","Sumatra","Plot 20",-1.067,100.767,1970,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.41582049850505,7764.7189379646,21.273202569766,20.6682052043533,21.9860683922245,3629.36568161103
9017,18676,1391,"Australian pollen","Sumatra","Plot 24",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18677,1392,"Australian pollen","Sumatra","Plot 3",-1.067,100.767,1750,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.34423688552785,8001.31774322314,21.9214184745839,21.3512977818051,22.5786066920237,3548.62726995801
9017,18678,1393,"Australian pollen","Sumatra","Plot 4",-1.067,100.767,1780,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.35392034380768,7969.05426977879,21.8330253966542,21.2581487939708,22.4978060147783,3559.63705336524
9017,18679,1394,"Australian pollen","Sumatra","Plot 5",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18680,1395,"Australian pollen","Sumatra","Plot 6",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18681,1396,"Australian pollen","Sumatra","Plot 7",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18682,1397,"Australian pollen","Sumatra","Plot 8",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9017,18683,1398,"Australian pollen","Sumatra","Plot 9",-1.067,100.767,1535,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.27554185615682,8232.53930290761,22.5549021997469,22.0188655279512,23.1576782122819,3469.72382220618
9018,18684,22778,"SMPDSv1","Sumery","Barboni_a190",45.43,2.85,1030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.17925632576179,2821.4936059585,7.72564994961594,-0.0101737539158098,16.442661726834,1058.48841530847
9019,18685,8728,"EMPDv2","Suminko Lake","Pędziszewska_a1",54.182874,17.797284,163,"0.15","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.891395056563974,2870.33643464434,7.53971467517642,-2.30913381879451,16.6992884964858,620.031157852505
9020,18686,12211,"Neotoma","Summerhaven","HMCMSH",32.43975,-110.76108,2350,"not known","terrestrial","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",20,"xerophytic woods/scrub",0.416695624516086,3323.08302098582,9.10433704379676,0.738268919122875,18.4901039378633,551.414925990401
9021,18687,14963,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","-47","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14964,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","-36","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14965,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","-24","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14966,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","-12","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14967,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","3","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14968,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","17","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14969,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","31","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9021,18687,14970,"Neotoma","Summit Lake","SUMMIT",40.545455,-106.68236,3149,"not known","lake","core","45","Calder, W.J. 2016. Interactions among climate change, wildfire, and vegetation shaping landscapes for the last 2000 years. Doctoral dissertation. University of Wyoming, Laramie, Wyoming, USA.; Calder, W.J., and B.N. Shuman. 2017. Extensive wildfires, climate change, and an abrupt state change in subalpine ribbon forests, Colorado. Ecology 98(10):2585-2600. Calder, W.J., D. Parker, C.J. Stopka, G. Jiménez-Moreno, and B.N. Shuman. 2015. Medieval warming initiated exceptionally large wildfire outbreaks in the Rocky Mountains. Proceedings of the National Academy of Sciences of the United States of America 112(43):13261-13266. Calder, W.J., I. Stefanova, and B. Shuman. 2019. Climate-fire-vegetation interactions and the rise of novel landscape patterns in the subalpine ecosystems, Colorado. Journal of Ecology early view:1-15.","10.1002/ecy.1959;
10.1073/pnas.1500796112;
10.1111/1365-2745.13138",17,"temperate evergreen needleleaf open woodland",0.558646399069184,1208.31899972819,-0.810068628638661,-11.9968789951804,10.9197651587093,512.913440453981
9022,18688,4786,"CMPD","Sun-moon Lake","Sun-moon Lake",23.8667,120.917,726,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61505050963138,6710.56476153298,18.3851089357068,12.5421228306252,23.5794632902547,1986.81888973002
9023,18689,1399,"Australian pollen","Sundown Point","Sundown Point core 2",-41.117,144.667,5,"not known","terrestrial, bog/fen/swamp","core top","19","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.23968672050871,4594.91235573967,12.5888009746292,8.6830782775369,16.9378975802334,1160.46296012041
9024,18690,13309,"Neotoma","Sunfish Lake","SUNFISH",44.874722,-93.1,296,"not known","lake","core","-12","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.864800298345552,3400.8985771583302,6.76475387323764,-11.5915743344304,22.2425193531663,738.226207699682
9024,18690,13310,"Neotoma","Sunfish Lake","SUNFISH",44.874722,-93.1,296,"not known","lake","core","7","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.864800298345552,3400.8985771583302,6.76475387323764,-11.5915743344304,22.2425193531663,738.226207699682
9024,18690,13311,"Neotoma","Sunfish Lake","SUNFISH",44.874722,-93.1,296,"not known","lake","core","36","McAndrews, J.H. 1968. Pollen evidence for the protohistoric development of the ""Big Woods"" in Minnesota (U.S.A.). Review of Palaeobotany and Palynology 7:201-211.",,13,"temperate deciduous broadleaf forest",0.864800298345552,3400.8985771583302,6.76475387323764,-11.5915743344304,22.2425193531663,738.226207699682
9025,18691,11629,"Neotoma","Sunflower Pond","GPPS-18",38.1996149999999,-98.4879305,530,"not known","lake","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.560742698049966,4944.93422388059,13.4113932634299,-1.33600348452716,27.3293303390969,663.61837937742
9026,18692,15207,"Neotoma","Sunken Island Lake","SIL-04",60.59302,-150.88623,76,"not known","lake","core","-51","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.40821507879899,1719.25779141137,1.98746302811714,-8.75703648451351,13.3769815522423,635.079598304938
9026,18692,15208,"Neotoma","Sunken Island Lake","SIL-04",60.59302,-150.88623,76,"not known","lake","core","-37","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.40821507879899,1719.25779141137,1.98746302811714,-8.75703648451351,13.3769815522423,635.079598304938
9026,18692,15209,"Neotoma","Sunken Island Lake","SIL-04",60.59302,-150.88623,76,"not known","lake","core","-17","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.40821507879899,1719.25779141137,1.98746302811714,-8.75703648451351,13.3769815522423,635.079598304938
9026,18692,15210,"Neotoma","Sunken Island Lake","SIL-04",60.59302,-150.88623,76,"not known","lake","core","-3","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.40821507879899,1719.25779141137,1.98746302811714,-8.75703648451351,13.3769815522423,635.079598304938
9026,18692,15211,"Neotoma","Sunken Island Lake","SIL-04",60.59302,-150.88623,76,"not known","lake","core","21","Anderson, R.S., E. Berg, C. Williams, and T. Clark. 2019. Postglacial vegetationcommunity change over an elevational gradienton the western Kenai Peninsula, Alaska: pollen records from Sunken Island and Choquette Lakes. Journal of Quaternary Science 34(4-5):309-322.","10.1002/jqs.3102",15,"cold evergreen needleleaf forest",1.40821507879899,1719.25779141137,1.98746302811714,-8.75703648451351,13.3769815522423,635.079598304938
9027,18693,11521,"Neotoma","Sunrock Pond","FH-6",38.94889,-96.781,389,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.75387837323001206,4731.51576605637,12.625496916817,-2.702827496611,26.5134728796674,841.735635135636
9028,18694,6255,"EMPDv2","Sunset Chukotka","Binney2017_E2244",64.82,178.3,36,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.20164249297862,899.576075995571,-7.24274463730949,-21.7744598106874,10.3784770358024,396.281940406538
9029,18695,6537,"EMPDv2","Sunset Lake","Binney2017_E3188",64.82,175.3,36,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.05368339521312,962.868909814709,-7.87903276871432,-23.0771978029154,11.1143161412024,351.410952965447
9029,18696,14999,"Neotoma","Sunset Lake","SUNSET",58.497,-124.652,1530,"not known","lake","core","-48","Pisaric, M.F.J. 2001. Holocene environmental change at the subarctic alpine treeline in northern British Columbia and the southern Yukon Territory, Canada. Doctoral dissertation. Queen's University, Kingston, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.03842051177345,1077.67966656645,-3.13990590719571,-16.7688054924936,10.003479627054,527.995091329064
9030,18697,14728,"Neotoma","Sunwapta Pass Bog 6","SP-20",52.21728,-117.19451,2045,"not known","terrestrial, bog/fen/swamp","core","-18","Beaudoin, A.B. 1984. Holocene environmental change in the Sunwapta Pass Area, Jasper National Park. Dissertation. University of Western Ontario, London, Ontario, Canada.. Doctoral dissertation.",,15,"cold evergreen needleleaf forest",1.79510298105674,979.649968424562,-1.79590466021991,-12.4788619378115,9.02453449211205,1119.6617633624
9030,18697,14729,"Neotoma","Sunwapta Pass Bog 6","SP-20",52.21728,-117.19451,2045,"not known","terrestrial, bog/fen/swamp","core","50","Beaudoin, A.B. 1984. Holocene environmental change in the Sunwapta Pass Area, Jasper National Park. Dissertation. University of Western Ontario, London, Ontario, Canada.. Doctoral dissertation.",,15,"cold evergreen needleleaf forest",1.79510298105674,979.649968424562,-1.79590466021991,-12.4788619378115,9.02453449211205,1119.6617633624
9031,18698,1400,"Australian pollen","Supulah Hill","Supulah Hill",-4.07,138.58,1580,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.36363982956489,8195.25782675774,22.4527611691993,21.7541770955875,22.8289763751778,3242.76920854689
9032,18699,13312,"Neotoma","Surprise Lake","SURPRISE",49.3196899999999,-122.562125,540,"not known","lake","core","43","Mathewes, R.W. 1973. A palynological study of postglacial vegetation changes in the University Research Forest, southeastern British Columbia. Canadian Journal of Botany 51(11):2085-2103.","10.1139/b73-271",8,"cool evergreen needleleaf forest",2.19709689330209,2743.80588052383,7.50185139741965,-0.0121758703273898,15.6446312442743,1653.33050135246
9033,18700,13313,"Neotoma","Sutherland Pond","SUTHRLND",41.391389,-74.037778,380,"not known","lake","core","44","Maenza-Gmelch, T.E. 1997. Holocene vegetation, climate, and fire history of the Hudson Highlands, southeastern New York, USA. The Holocene 7(1):25-37. Maenza-Gmelch, T.E. 1997. Late-glacial - early Holocene vegetation, climate, and fire at Sutherland Pond, Hudson Highlands, southeastern New York, U.S.A. Canadian Journal of Botany In Press.","10.1177/095968369700700103",13,"temperate deciduous broadleaf forest",1.31021578066619,3363.86966099826,8.0903069999962,-5.84925429321062,20.831116658303,1129.53559865407
9034,18701,22779,"SMPDSv1","Suurijarvi","Seppa_b49",62.67,28,116,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04137175722006,2143.97239764681,2.99250351137249,-10.7184918960247,16.6685318561439,551.668240578417
9035,18702,9690,"Gaillard et al., 1992","Svaneholm","Svaneholm",55.493716,13.495046,52,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.95908681048411,2863.03104997681,7.63016553238545,-1.34967122560887,16.6504584819347,643.845707061205
9036,18703,22780,"SMPDSv1","Svanetjern","Bjune_a90",69.06558362,29.01911774,96,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.3802715122884,1258.72852536454,-0.856914258661632,-12.0844786580655,12.4292739397781,493.882152896481
9037,18704,22781,"SMPDSv1","Svartatjern","Bjune_a145",58.3989013,6.81329264,208,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87680440220462,2396.65078549041,6.33542679345375,-1.44537311656396,14.2778080606279,1657.53349874652
9038,18705,22782,"SMPDSv1","Svartetjern","Bjune_a108",60.8352004,5.57214045,251,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",4.22090519782835,2246.43643822937,6.09595053723584,-0.439180988276874,13.2638898483118,2157.61811306714
9039,18706,22783,"SMPDSv1","Svarttjern","Bjune_a52",62.26514817,8.16218037,625,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.70146182157142,1456.13833019065,2.2332610871941,-6.20724996878369,11.0742227055042,1244.84397685999
9039,18707,22784,"SMPDSv1","Svarttjern","Bjune_a82",59.36340881,10.98450749,136,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.30194529519959,2374.57839152794,5.44649454205515,-4.66055451967377,15.7568158837854,782.633244904396
9040,18708,22786,"SMPDSv1","Svartvatnet","Bjune_a259",63.3466666666666,9.54166666666666,183,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.6059731216242,1893.58715630964,4.57307254971475,-2.90132857872485,12.7669121538019,1194.6561105694
9041,18709,22785,"SMPDSv1","Svatoborice-Mistrin","EPDcoretop_E637",48.833333,17.166667,175,"not known","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.705778734015609,3553.99717749652,9.51904824672885,-1.927178329406,19.3378536486374,572.750467262256
9042,18710,9201,"EMPDv2","Svetinu lake","EPDcoretop_E2598",56.76,27.15,95,"0.3137","lake","core top","32","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.954007510173319,2526.47364991341,5.16278018959564,-7.40292409711724,16.7852133274714,608.744693340538
9043,18711,22787,"SMPDSv1","Svitjaz","EPDcoretop_E639",53.433333,25.916667,242,"2.24","lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.928081858221092,2742.07046565154,6.0360170647706,-6.77230640168375,17.2912392377423,640.006307531546
9044,18712,8075,"EMPDv2","Svobodnoye_1","Mikishin-Gvozdeva_a138",46.675,143.361666666667,2,"2.9","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60432458986862,2291.08798702991,3.54053503356248,-10.5073650594776,17.1977845051569,1010.73903383729
9045,18713,8076,"EMPDv2","Svobodnoye_2","Mikishin-Gvozdeva_a139",46.6716666666667,143.371388888889,2,"2.9","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60388870522533,2291.45276880195,3.54262299159266,-10.5041386597488,17.1991886178232,1010.61290673736
9046,18714,8077,"EMPDv2","Svobodnoye_3","Mikishin-Gvozdeva_a140",46.67,143.371666666667,2,"2.9","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60384337707725,2291.74763909679,3.54420685479989,-10.5018890631323,17.2004548094647,1010.6528824292
9047,18715,8078,"EMPDv2","Svobodnoye_4","Mikishin-Gvozdeva_a141",46.6772222222222,143.363333333333,2,"2.9","lake","sediment sample","-41","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60430920100786,2290.64289658558,3.53817266427383,-10.5106627711015,17.1958372939535,1010.64008613519
9048,18716,15965,"Neotoma","Swallow Falls","JAMMBD8",39.65,-79.4,713,"not known","fluvial","surface sample","Modern","Maxwell, J.A. and Davis, M.B., 1972. Pollen Evidence of Pleistocene and Holocene Vegetation on the Allegheny Plateau, Maryland1. Quaternary Research, 2(4), pp.506-530.","10.1016/0033-5894(72)90089-0",13,"temperate deciduous broadleaf forest",1.28839383457822,3698.87534593279,9.72161890670291,-2.85446479988033,20.9627353976944,1164.86405134626
9049,18717,13314,"Neotoma","Swamp Lake","SWAMPLK",37.95,-119.816667,1554,"not known","lake","core","-10","Smith, S.J. 1989. Pollen and microscopic charcoal analysis of a sediment core from Swamp Lake, Yosemite National Park, California. Thesis. Northern Arizona University, Flagstaff, Arizona.; Smith, S.J., and R.S. Anderson. 1992. Late Wisconsin Paleoecologic record from Swamp Lake, Yosemite National Park, California. Quaternary Research 38:91-102.",,8,"cool evergreen needleleaf forest",0.555707899045065,3606.68835358242,9.88133795502032,1.44810079020161,20.0121651881247,709.786443151089
9050,18718,14089,"Neotoma","Swampbuggy Lake","SWAMPBUG",63.05455,-147.42066,813,"not known","lake","core","-46","Rohr, M. 2001. Paleoenvironmental changes at treeline: A 6,500 year long pollen and stable isotope record. Master's thesis. University of Alaska, Fairbanks, Alaska, USA.; Edwards, M.E., and M. Rohr. 2005. A 6500-year long pollen record at treeline from Swampbuggy and Nutella Lakes in central Alaska: Pollen records. Bonanza Creek Long-term Ecological Research website. http://www.lter.uaf.edu/data_detail.cfm?datafile_pkey=82.",,15,"cold evergreen needleleaf forest",0.865008334670292,1333.42006635537,-4.11099633269695,-20.584031753592,12.6558361413118,358.797344450787
9051,18719,8940,"EMPDv2","Swan lake","Salonen_a18",66.1,60.25,50,"1.35","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.26374042210731,1250.17201238512,-4.49771524226172,-21.5654057454715,14.4284621617421,474.522956493331
9052,18720,15204,"Neotoma","Swan Lake","SWAN1962",42.294395,-111.99205,1450,"not known","lake","core","-12","Bright, R.C. 1966. Pollen and seed stratigraphy of Swan Lake, southeastern Idaho: its relation to regional vegetational history and to Lake Bonneville history. Tebiwa, The Journal of the Idaho State University Museum 9:1-47.",,17,"temperate evergreen needleleaf open woodland",0.337602294665852,3316.80194586047,8.36424470078995,-4.23280987199484,21.6381204193026,356.404758955765
9052,18721,13315,"Neotoma","Swan Lake","SWANLAKE",41.72106,-102.499255,1164,"not known","lake","core","32","Stuiver, M. 1969. Yale Natural Radiocarbon Measurments IX. Radiocarbon 11(2):545-658. Wright, H.E., Jr., J.C. Almendinger, and J. Grüger. 1985. Pollen diagram from the Nebraska sandhills and the age of the dunes. Quaternary Research 24:115-120.","10.1017/S0033822200011413",22,"steppe",0.416297666153952,3612.27378068901,9.09635400159342,-4.51188500147911,23.3241932120007,438.045725842848
9053,18722,13316,"Neotoma","Swartswood Lake","SWARTS",41.072335,-74.83698,150,"not known","lake","core","-12","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",9,"cool mixed forest",1.21239830999968,4004.20205895111,10.5734577874983,-2.76245610066608,22.9300064396007,1133.75471288797
9053,18722,13317,"Neotoma","Swartswood Lake","SWARTS",41.072335,-74.83698,150,"not known","lake","core","8","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",9,"cool mixed forest",1.21239830999968,4004.20205895111,10.5734577874983,-2.76245610066608,22.9300064396007,1133.75471288797
9053,18722,13318,"Neotoma","Swartswood Lake","SWARTS",41.072335,-74.83698,150,"not known","lake","core","28","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",9,"cool mixed forest",1.21239830999968,4004.20205895111,10.5734577874983,-2.76245610066608,22.9300064396007,1133.75471288797
9053,18722,13319,"Neotoma","Swartswood Lake","SWARTS",41.072335,-74.83698,150,"not known","lake","core","49","Russell, E.W.B. 1980. Vegetational change in northern New Jersey from precolonization to the present: a palynological interpretation. Bulletin of the Torrey Botanical Club 107(3):432-446. Russell, E.W.B., R.B. Davis, R.S. Anderson, T.E. Rhodes, and D.S. Anderson. 1993. Recent centuries of vegetational change in the glaciated north-eastern United States. Journal of Ecology 81(4):647-664.","10.2307/2484166;
10.2307/2261663",9,"cool mixed forest",1.21239830999968,4004.20205895111,10.5734577874983,-2.76245610066608,22.9300064396007,1133.75471288797
9054,18723,13320,"Neotoma","Sweet Little Lake","SWEETLIT",67.65,-132.016667,248,"not known","lake","core","0","Ritchie, J.C. 1984. A Holocene pollen record of boreal forest history from the Travaillant Lake area, Lower Mackenzie River Basin. Canadian Journal of Botany 62:1385-1392.",,15,"cold evergreen needleleaf forest",0.575642891360605,1167.67505373664,-9.11010041943269,-29.0478909892219,13.2010950788423,219.025043624547
9055,18724,15069,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","-43","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15070,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","-31","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15071,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","-18","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15072,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","-4","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15073,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","11","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15074,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","24","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15075,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","37","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9055,18724,15076,"Neotoma","Sweeton Pond","SWEETON",36.7913099999999,-92.22314,304,"not known","lake","core","49","Nanavati, W.P., and E.C. Grimm. 2019. Humans, fire, and ecology in the southern Missouri Ozarks, USA. The Holocene.","10.1177/0959683619875807",13,"temperate deciduous broadleaf forest",0.941528721682333,5166.30409613382,14.1542577976269,0.652754702150612,26.1151027420907,1099.31303938004
9056,18725,22788,"SMPDSv1","Swietokrzyskie Lake","EPDcoretop_E1008",52.544444,17.598611,103,"0.144","lake","lacustrine core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.738423967379975,3132.42741127055,8.31751030602921,-2.07103954628331,17.750265708478,541.446625485137
9057,18726,22789,"SMPDSv1","SY01","Barboni_a621",34.72,40.26,240,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.106468591309123,7228.19055623092,19.8032617978929,7.23430333849138,32.1781335959768,188.082150464899
9058,18727,22790,"SMPDSv1","SY02","Barboni_a622",34.89,40.38,245,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.113404283257672,7207.01774797365,19.7452541040374,7.17548463007401,32.1770928346809,199.545129612169
9059,18728,22791,"SMPDSv1","SY03","Barboni_a623",35.07,40.39,230,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.116163794582998,7221.15956400443,19.7839988054916,7.20081174615869,32.2841929850874,203.804825098148
9060,18729,22792,"SMPDSv1","SY04","Barboni_a624",35.493056,40.595833,225,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.118743350981073,7238.98514926772,19.832836025391,7.25456472553799,32.3621236721175,207.47571591156
9061,18730,22793,"SMPDSv1","SY05","Barboni_a625",35.49,40.57,225,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.118707036741876,7237.65022997879,19.8291787122707,7.25178928172393,32.3576940713007,207.395540716746
9062,18731,22794,"SMPDSv1","SY06","Barboni_a626",35.416111,40.298056,230,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.119032284984421,7212.91351336144,19.7614068859218,7.19570089525899,32.2733373160014,207.80342377738
9063,18732,22795,"SMPDSv1","SY07","Barboni_a627",34.91,38.54,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0883683921419697,5573.98303170252,15.2711863882261,4.02265338815536,24.7839591350956,153.512401342697
9064,18733,22796,"SMPDSv1","SY08","Barboni_a628",34.47,38.23,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.118616812118573,6584.27062598261,18.0390976054318,6.1844561208666,29.087254381367,205.383622824332
9065,18734,22797,"SMPDSv1","SY09","Barboni_a629",34.5,37.97,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.125441613631968,6551.28990258937,17.9487394591489,6.17040219752195,28.929990354527,216.196534030159
9066,18735,22798,"SMPDSv1","SY10","Barboni_a630",34.580556,37.306111,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.180187302048404,6123.87057862129,16.7777276126611,5.67450074028887,27.0686829844044,301.026247403933
9067,18736,22799,"SMPDSv1","SY11","Barboni_a631",34.646111,36.886944,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.242971710447346,6053.82097966399,16.585810903189,6.07609706737946,26.3322614128195,395.640949589432
9068,18737,22800,"SMPDSv1","SY12","Barboni_a632",34.42,37.71,530,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.144095973946712,6434.48109187561,17.6287153202071,6.17454246151335,28.2555939989239,245.749396911989
9069,18738,22801,"SMPDSv1","SY13","Barboni_a633",34.32,37.42,600,"not known","not known","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.15885670647605,6263.94917066669,17.161504577169,5.93886523042432,27.5525594625637,268.718793230102
9070,18739,22802,"SMPDSv1","SY14","Barboni_a634",34.187778,37.198333,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.191212092764067,5956.90919447614,16.3202991629483,5.73306857385443,26.0526816382404,318.110788717342
9071,18740,22803,"SMPDSv1","SY15","Barboni_a635",34,36.96,825,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.206647943905409,5795.61538292798,15.8783983093917,5.49827805046363,25.4023778638792,341.332394845528
9072,18741,22804,"SMPDSv1","SY16","Barboni_a636",33.904444,36.850278,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.20882465611871,5843.20803429332,16.0087891350502,5.70100749346034,25.4638668928361,345.009597046875
9073,18742,22805,"SMPDSv1","SY17","Barboni_a637",33.829444,36.755,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.212770601404312,5840.34439314005,16.0009435428494,5.76391295220523,25.3861673414043,351.107477834589
9074,18743,22806,"SMPDSv1","SY18","Barboni_a638",33.74,36.6775,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.224732980309779,5645.28115364809,15.4665237086249,5.50249127879486,24.5384640578673,368.092251992049
9075,18744,22807,"SMPDSv1","SY19","Barboni_a639",33.803056,36.594722,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.247634956457673,5207.94517580308,14.2683429474057,4.20574814358257,23.4900348505781,399.473718766782
9076,18745,22808,"SMPDSv1","SY20","Barboni_a640",33.997222,36.710278,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.251755202404106,4614.32854705268,12.6419960193224,2.41734273759417,21.9981761872924,401.192301202235
9077,18746,22809,"SMPDSv1","SY21","Barboni_a641",33.95,36.59,1450,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.25647297033347,4515.9196460254,12.3723825918504,2.16407681227128,21.7150293882782,407.445637365517
9078,18747,22810,"SMPDSv1","SY22","Barboni_a642",33.915278,36.486944,1550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.260793748923806,4320.87590466621,11.8380161771677,1.61260378909631,21.1962456758123,412.374180252794
9079,18748,22811,"SMPDSv1","SY23","Barboni_a643",33.896111,36.336111,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.26731618355364,3656.2440061138,9.97215199282345,-0.399679405046503,19.4619612133949,416.544081741726
9080,18749,22812,"SMPDSv1","SY24","Barboni_a644",33.893056,36.345556,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.266953403586099,3656.59886094043,9.9728378362548,-0.401988691234632,19.4652422144949,416.067305106646
9081,18750,22813,"SMPDSv1","SY25","Barboni_a645",33.891944,36.363889,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.266413609552091,3656.90921747751,9.97326499852932,-0.405465127938191,19.4683885555994,415.342688793848
9082,18751,22814,"SMPDSv1","SY26","Barboni_a646",33.852778,36.402778,1900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.264216521823287,3660.41552972932,9.9811683271089109,-0.418893551799433,19.4982313212064,412.553013094437
9083,18752,22815,"SMPDSv1","SY27","Barboni_a647",33.8,36.4,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.261492189856298,4035.56892703637,11.0563532247572,0.749549899258439,20.4960477212434,411.838305430733
9084,18753,22816,"SMPDSv1","SY28","Barboni_a648",33.765556,36.389722,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.26112044033008,3843.65447515494,10.5305602059039,0.156850906493747,20.0345814107058,410.115580114395
9085,18754,22817,"SMPDSv1","SY29","Barboni_a649",33.707222,36.371944,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.245750489547451,4458.1820519923,12.2141974027186,1.86757805624276,21.7103312493893,392.79355786568
9086,18755,22818,"SMPDSv1","SY30","Barboni_a650",33.37,35.88,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.261272564089873,5043.58502649314,13.8180411684744,3.99203434713679,22.7843236839672,419.149767357724
9087,18756,22819,"SMPDSv1","SY31","Barboni_a651",33.613611,36.023889,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.268348496313761,4822.21893269134,13.2115587197023,3.26731836012966,22.3140818847514,427.084586580477
9088,18757,22820,"SMPDSv1","SY32","Barboni_a652",33.6525,35.979444,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.272848245484727,4818.37782486927,13.2010351366281,3.28267779024062,22.2872758809484,433.360943479243
9089,18758,22821,"SMPDSv1","SY33","Barboni_a653",33.678889,35.963333,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.275254126574864,4815.75667904905,13.1938539152029,3.28796832418924,22.2727824554613,436.68714057701
9090,18759,22822,"SMPDSv1","SY34","Barboni_a654",33.900833,36.218889,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.288666307197534,4180.84783800143,11.4543776383601,1.40385324681866,20.678869749274,449.621832712607
9091,18760,22823,"SMPDSv1","SY35","Barboni_a655",33.928333,36.230833,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.28955734211427,4374.5414589407,11.9850450929882,2.00220487518686,21.146137217349,452.393965857533
9092,18761,22824,"SMPDSv1","SY36","Barboni_a656",33.941389,36.209722,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.29154340917435,4765.02086341768,13.0548516805964,3.20690774519329,22.1146794093704,458.338579938631
9093,18762,22825,"SMPDSv1","SY37","Barboni_a657",33.983889,36.199167,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.293519562018432,4762.43628221983,13.0477706362187,3.20816479650247,22.1025518955069,460.933809546653
9094,18763,22826,"SMPDSv1","SY38","Barboni_a658",34.057778,36.157778,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.298858135864723,5345.30945655268,14.6446834426101,4.99969730133165,23.5647103038867,472.9474054624
9095,18764,22827,"SMPDSv1","SY39","Barboni_a659",34.083333,36.126389,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.301213656082675,5344.17290810256,14.6415696112399,5.00830251837036,23.5547228549636,476.193640079005
9096,18765,22828,"SMPDSv1","SY40","Barboni_a660",34.13,36.12,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.302898354353543,5341.51059511043,14.6342756030423,5.00003749732249,23.5523752906292,478.391810556099
9097,18766,22829,"SMPDSv1","SY41","Barboni_a661",34.114722,36.035556,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.304938498371563,4364.75099614908,11.9582219072578,2.07789823806706,21.0435841295526,472.769728384755
9098,18767,22830,"SMPDSv1","SY42","Barboni_a662",34.114722,36.035556,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.304938498371563,4364.75099614908,11.9582219072578,2.07789823806706,21.0435841295526,472.769728384755
9099,18768,22831,"SMPDSv1","SY43","Barboni_a663",34.156111,36.076667,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.304718781122932,4557.42397571336,12.4860930841462,2.65325848249959,21.5378557442651,474.074431390988
9100,18769,22832,"SMPDSv1","SY44","Barboni_a664",34.243333,36.049167,2000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.30825119900526,3419.66213149333,9.25278496379389,-0.858208157821653,18.4981741061395,467.167392360697
9101,18770,22833,"SMPDSv1","SY45","Barboni_a665",34.290556,35.979167,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.326723906931961,4726.11420365457,12.9482580922043,3.28190666832233,21.900442668778,505.68430811984
9102,18771,22834,"SMPDSv1","SY46","Barboni_a666",34.308889,35.954444,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.328063054453964,4726.01398581383,12.9479835227776,3.2892155945157,21.8950589356595,507.444883985672
9103,18772,22835,"SMPDSv1","SY47","Barboni_a667",34.320833,35.932778,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.33642240501105,5895.71311408225,16.1526386687185,6.64305949717655,25.0790169022029,530.09983281912
9104,18773,22836,"SMPDSv1","SY48","Barboni_a668",34.309444,35.904167,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338927045040484,6091.71215590643,16.6896223449491,7.22085297972173,25.5979576328338,535.437979702038
9105,18774,22837,"SMPDSv1","SY49","Barboni_a669",34.312778,35.888611,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.341081283206605,6286.80574646437,17.2241253327791,7.78662668903357,26.1232638130995,540.193203530329
9106,18775,22838,"SMPDSv1","SY50","Barboni_a670",34.329444,35.864444,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.344004233492157,6481.58563045335,17.7577688505571,8.35222098245919,26.647994026643,545.967723528212
9107,18776,22839,"SMPDSv1","SY51","Barboni_a671",34.338333,35.807222,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347066257981146,6482.45296328605,17.7601451048933,8.38111087237823,26.6277166291793,550.316774095048
9108,18777,22840,"SMPDSv1","SY52","Barboni_a672",34.323056,35.759167,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.351907723953956,6873.29436085243,18.8309434543902,9.53215340025765,27.6612425494911,560.671094151142
9109,18778,22841,"SMPDSv1","SY53","Barboni_a673",34.308056,35.697778,50,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375257080476271,7158.10053729459,19.6112343487523,10.5961858548544,28.256304330264,595.391773740209
9110,18779,22842,"SMPDSv1","SY54","Barboni_a674",34.096389,35.831389,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.316210986128595,5250.35421408851,14.3845320933932,4.84869375166274,23.2207497167209,496.497922526023
9111,18780,22843,"SMPDSv1","SY55","Barboni_a675",34.098611,35.810833,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.31757427564153,5348.51901282542,14.6534767474669,5.15695610914819,23.4602839789743,499.284043037518
9112,18781,22844,"SMPDSv1","SY56","Barboni_a676",34.091944,35.784167,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.318713737479639,5349.444782662,14.6560131031836,5.17162535448776,23.4526484260334,500.917518603059
9113,18782,22845,"SMPDSv1","SY57","Barboni_a677",34.111111,35.776111,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.319658149383019,5348.54729503139,14.6535542329627,5.17122730947215,23.4502151043946,502.162235062306
9114,18783,22846,"SMPDSv1","SY58","Barboni_a678",34.102778,35.748333,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347193298822402,5925.1233504204,16.233214658686,7.15022131459713,24.7279531066693,545.927888608565
9115,18784,22847,"SMPDSv1","SY59","Barboni_a679",34.106111,35.705,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348244894839928,6122.00657335175,16.7726207489089,7.75736354014993,25.2169108017864,549.205724135134
9116,18785,22848,"SMPDSv1","SY60","Barboni_a680",34.108056,35.683889,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348576084420701,6318.18950098248,17.3101082218698,8.35596968722095,25.7093700707695,551.441965240872
9117,18786,22849,"SMPDSv1","SY61","Barboni_a681",34.109167,35.669167,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.348697432338796,6514.17179901361,17.8470460246948,8.9521847688661,26.2026752095327,553.354423171489
9118,18787,22850,"SMPDSv1","SY62","Barboni_a682",35.51,36.2,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343658649776202,5258.56399268002,14.4070246374795,3.89122270905714,24.2157855422652,534.092591579141
9119,18788,22851,"SMPDSv1","SY63","Barboni_a683",35.54,36.2,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343473886940158,5262.10453220858,14.4167247457769,3.87603583621366,24.2483064750875,533.952281491659
9120,18789,22852,"SMPDSv1","SY64","Barboni_a684",35.55,36.19,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.329299450280396,4883.63898266652,13.3798328292233,2.66119276342856,23.3314121523215,511.837486539648
9121,18790,22853,"SMPDSv1","SY65","Barboni_a685",35.58,36.2,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.343227925665311,5267.14724502086,14.4305403973174,3.85550151722669,24.2936303536012,533.785322336492
9122,18791,22854,"SMPDSv1","SY66","Barboni_a686",35.5975,36.140278,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338600123595391,5081.18386345582,13.9210516807009,3.25554583164113,23.8479556953404,526.313938361875
9123,18792,22855,"SMPDSv1","SY67","Barboni_a687",35.594444,36.160556,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337580875737771,5080.53274503401,13.9192677946137,3.25119274710302,23.8476449426225,524.867301606901
9124,18793,22856,"SMPDSv1","SY68","Barboni_a688",35.604722,36.166944,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337124662832385,5082.13684380188,13.9236625857586,3.24336845158252,23.8629784798395,524.294681351702
9125,18794,22857,"SMPDSv1","SY69","Barboni_a689",35.59,36.168889,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337201642342621,5079.76237168337,13.9171571826942,3.25124727133,23.8431807988326,524.308038628573
9126,18795,22858,"SMPDSv1","SY70","Barboni_a690",35.615,36.178611,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336394564899771,5083.72882384245,13.9280241749108,3.23398606558969,23.8794559701251,523.339302912268
9127,18796,22859,"SMPDSv1","SY71","Barboni_a691",35.617222,36.179722,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.336310072429029,5084.08773811804,13.9290075016933,3.2323761398662,23.8827735160505,523.235726520622
9128,18797,22860,"SMPDSv1","SY72","Barboni_a692",35.7875,36.604167,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.230054145002268,5187.89978299316,14.213424062995,1.18180884586417,26.6559062135269,378.128915624989
9129,18798,22861,"SMPDSv1","SY73","Barboni_a693",35.783056,36.518611,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.317651652204754,5976.5504245327,16.3741107521444,4.95880328227102,27.1010222658196,505.739978850026
9130,18799,22862,"SMPDSv1","SY74","Barboni_a694",35.797778,36.481111,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.36899530019276,6415.56125178901,17.5768801418877,7.05924380125831,27.5049102307108,577.050103938594
9131,18800,22863,"SMPDSv1","SY75","Barboni_a695",35.728056,35.855,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422368952495713,6759.15847353496,18.5182423932465,8.81343347510705,27.7642082676783,649.596326069929
9132,18801,22864,"SMPDSv1","SY76","Barboni_a696",35.738889,35.855556,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.422811166900122,6758.30733860848,18.5159105167356,8.81173528992414,27.76117967086,650.107072302447
9133,18802,22865,"SMPDSv1","SY77","Barboni_a697",35.753056,35.876389,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.434351457433552,6754.4671558078,18.5053894679666,8.88485445878068,27.6491057748065,666.352386524187
9134,18803,22866,"SMPDSv1","SY78","Barboni_a698",35.836667,35.849444,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438550294604155,6750.17797399155,18.4936382849084,8.87169147222906,27.6370847497922,671.497113708912
9135,18804,22867,"SMPDSv1","SY79","Barboni_a699",35.835833,35.852778,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438436667774828,6750.28746654857,18.4939382645166,8.87154380703436,27.6377301906344,671.349807623741
9136,18805,22868,"SMPDSv1","SY80","Barboni_a700",35.839167,35.854167,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438546551839836,6750.17510324917,18.4936304198607,8.87080049172467,27.6376979904666,671.477926176356
9137,18806,22869,"SMPDSv1","SY81","Barboni_a701",35.837222,35.855556,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.438430905115377,6750.28910621309,18.4939427567482,8.87103428670595,27.6380971909824,671.334202214517
9138,18807,22870,"SMPDSv1","SY82","Barboni_a702",36.461944,36.896944,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.352222750345244,6952.68227616335,19.0484445922284,8.62532577854259,28.9717912338443,558.244873986677
9139,18808,22871,"SMPDSv1","SY83","Barboni_a703",36.443056,36.873333,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.354151687128201,6949.26056379072,19.0390700377828,8.63476360483793,28.9436451263193,560.90385563958
9140,18809,22872,"SMPDSv1","SY84","Barboni_a704",36.306111,36.843889,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.352791959361723,6938.77554130254,19.0103439487741,8.64417232803746,28.8698841758353,558.821177479461
9141,18810,22873,"SMPDSv1","SY85","Barboni_a705",36.301944,36.848611,200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.352147766219683,6938.99171903488,19.0109362165339,8.642072881344,28.8725996843429,557.917318169501
9142,18811,22874,"SMPDSv1","SY87","Barboni_a83",35.18,41.2,162,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.115820108038317,7462.17853578974,20.4443247555883,7.80397811927289,33.0850867699733,205.019347822786
9143,18812,22875,"SMPDSv1","SY88","Barboni_a84",35.17,41.19,162,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.115892325753712,7461.18217980254,20.4415950131576,7.80087333925076,33.0836279869317,205.151781529836
9144,18813,22876,"SMPDSv1","SY89","Barboni_a85",35.27,41.04,200,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.108525638478572,7392.75436766766,20.2541215552539,7.65608054130471,32.7441375870138,192.01527994993901
9145,18814,22877,"SMPDSv1","SY91","Barboni_a86",36.17,41.02,350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.195112389097758,6970.22765920315,19.0965141348031,6.43663059536284,31.9964015410885,331.931248510497
9146,18815,22878,"SMPDSv1","SY92","Barboni_a87",36.15,40.79,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.168111564183729,7042.98716708998,19.2958552523013,6.68147940551177,32.0854600513234,287.604861507476
9147,18816,22879,"SMPDSv1","SY93","Barboni_a88",36.4,40.83,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.184662252633083,7010.3085724899,19.2063248561367,6.59031973907351,32.100291778895,313.484179507189
9148,18817,22880,"SMPDSv1","SY94","Barboni_a89",36.43,40.88,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.186033783246672,7015.14346843951,19.2195711464096,6.6020592481042,32.1219273947192,315.733478221956
9149,18818,22881,"SMPDSv1","SY95","Barboni_a90",36.41,41.06,400,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.224950248050227,6847.99319436314,18.761625190036,6.03555644284505,31.807464547707,378.171694293673
9150,18819,22882,"SMPDSv1","SY96","Barboni_a91",36.4,41.14,450,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.244577385747734,6762.36986089954,18.5270407147933,5.75059217157644,31.639859636331,409.194254740123
9151,18820,22883,"SMPDSv1","SY97","Barboni_a92",36.38,40.68,350,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.193585103227191,6859.1895530231,18.7923001452688,6.16294144111032,31.6441312893414,326.240496690569
9152,18821,1401,"Australian pollen","Sydney marine surface samples","112/GS/056",-34.11,151.4,-87,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18822,1402,"Australian pollen","Sydney marine surface samples","112/GS/061",-33.92,151.94,-126,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18823,1403,"Australian pollen","Sydney marine surface samples","112/GS/066",-34.13,151.64,-134,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18824,1404,"Australian pollen","Sydney marine surface samples","112/GS/069",-33.59,151.55,-59,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18825,1405,"Australian pollen","Sydney marine surface samples","112/GS/070",-33.62,151.64,-99,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18826,1406,"Australian pollen","Sydney marine surface samples","112/GS/071",-33.67,151.77,-129,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9152,18827,1407,"Australian pollen","Sydney marine surface samples","112/GS/073",-33.7,151.9,-150,"not applicable","marine","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9153,18828,11478,"Neotoma","Sylvan Lake","SDCUSY",43.84595,-103.563575,1882,"not known","artificial water body","surface sample","-34","Unpublished data",,22,"steppe",0.416153737793733,2695.80509066284,5.9773069374992,-5.98125296100231,19.5112852416041,401.72728197803
9154,18829,22884,"SMPDSv1","Syrjalansuo","EPDcoretop_E640",61.216667,28.116667,83,"0.002","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03391050872371,2251.59285642515,3.68098411440443,-9.65580907911055,16.9146407160595,573.097367094531
9155,18830,22885,"SMPDSv1","Syvajarvi","Bjune_a166",67.7166666666666,22.2,318,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.13606769284381,1355.42514313878,-1.74604379516501,-15.7626786258322,12.946410607867,472.248781184494
9155,18831,22886,"SMPDSv1","Syvajarvi","Seppa_b67",60.8,28.13,46,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03028206585652,2330.90297276397,4.12301670976015,-9.01627007836832,17.0329614155651,582.300358327705
9155,18832,22887,"SMPDSv1","Syvajarvi","Seppa_b85",61.4,23.97,119,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03779134802993,2169.38264574131,3.70082263582404,-8.4796706727002,16.0099247262081,556.766856121763
9155,18833,22888,"SMPDSv1","Syvajarvi","Seppa_b91",60.68,25.92,63,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.06804264812847,2292.0408876227,4.18194517327526,-8.20114387185259,16.5465073573201,607.011762449266
9156,18834,13321,"Neotoma","Szabo Pond","SZABOPND",40.4,-74.483333,29,"not known","lake","core","-25","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,13,"temperate deciduous broadleaf forest",1.16587090575552,4349.82939149546,11.8061543192569,-1.03175548640901,23.8112870203777,1138.53181139389
9157,18835,22889,"SMPDSv1","Szymbark","EPDcoretop_E641",49.633333,21.1,465,"0.0015","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.979434379318476,2829.40054471103,7.00292565122377,-4.46346549922452,16.6449314863002,752.825580580679
9158,18836,4787,"CMPD","T","T114",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
9159,18837,7233,"EMPDv2","T1-1","Fall_b6",34.81714,33.60314,8,"5e-04","coastal, other","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.299118457367567,7274.96386052792,19.9314078370628,11.4792802456057,28.4340575083389,465.033858352224
9160,18838,7256,"EMPDv2","T1-10","Fall_b29",34.8505499999999,33.3270899999999,496,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.362391836168754,6216.09461444228,17.0303962039515,8.29399531560105,25.9062982856006,545.854824920685
9161,18839,7257,"EMPDv2","T1-11","Fall_b30",34.85123,33.3109699999999,542,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.36915586024628,6114.40354307722,16.7517905289787,7.98416795802548,25.6657909692536,554.346245096724
9162,18840,7248,"EMPDv2","T1-12","Fall_b21",34.8472999999999,33.2977899999999,416,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.351076205356461,6392.31075234472,17.5131801434102,8.83743506754994,26.3191380571327,531.602438284479
9163,18841,7249,"EMPDv2","T1-13","Fall_b22",34.84769,33.29758,416,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.351084344624285,6392.29287046714,17.5131311519648,8.83729495570774,26.3191680877185,531.614837137333
9164,18842,7252,"EMPDv2","T1-14","Fall_b25",34.8423099999999,33.26679,452,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.35628622544399,6312.85205121862,17.2954850718318,8.599215465845,26.1286112344415,538.215488402701
9165,18843,7253,"EMPDv2","T1-15","Fall_b26",34.84295,33.25976,467,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.358511814806439,6279.60198161369,17.2043889907224,8.49798654422989,26.0499383651268,541.042022494923
9166,18844,7263,"EMPDv2","T1-18","Fall_b36",34.8802499999999,33.1562199999999,757,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.405711247501776,5643.881142577,15.4626880618548,6.55554739977972,24.556496519796,599.90559316055
9167,18845,7268,"EMPDv2","T1-19","Fall_b41",34.8894499999999,33.15184,886,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.427150641358713,5361.02685320606,14.6877448033043,5.68570708235386,23.8998716957418,625.775745434806
9168,18846,7271,"EMPDv2","T1-20","Fall_b44",34.8911799999999,33.13815,1129,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.468737248489759,4829.25587641858,13.2308380175852,4.0588456921939,22.6566379773084,674.304536363043
9169,18847,7270,"EMPDv2","T1-21","Fall_b43",34.9015199999999,33.13571,1059,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.457116232306064,4980.6112056395,13.645510152437,4.51381217913083,23.0178194382436,661.251458412684
9170,18848,7264,"EMPDv2","T1-22","Fall_b37",34.93092,33.13112,769,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.409471460385732,5611.95468838602,15.3752183243453,6.43209926631909,24.50584687661,605.312298370447
9171,18849,7267,"EMPDv2","T1-23","Fall_b40",34.92586,33.1011799999999,864,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.425772351804157,5403.34754313652,14.8036918990042,5.79671779980413,24.0148485350925,625.07822826869506
9172,18850,7272,"EMPDv2","T1-24","Fall_b45",34.91425,33.0581099999999,1173,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.480320141252518,4725.85534647411,12.9475488944496,3.7287392743372,22.4222039711142,688.886807341891
9173,18851,7273,"EMPDv2","T1-25","Fall_b46",34.91487,33.05782,1202,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.485547552929179,4662.14207403101,12.7729919836466,3.53265315230037,22.2740128256617,694.846706369384
9174,18852,7281,"EMPDv2","T1-30","Fall_b54",34.9293199999999,32.90178,1613,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.572111865794413,3751.2689420398,10.2774491562734,0.735705306790542,20.1293709945425,792.113996510798
9175,18853,7280,"EMPDv2","T1-31","Fall_b53",34.93012,32.9020799999999,1597,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.568902787636333,3786.27109407726,10.3733454632254,0.842313980672047,20.2122381932443,788.73686405949
9176,18854,7278,"EMPDv2","T1-33","Fall_b51",34.92748,32.89585,1590,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.56777142463982,3802.15085562411,10.4168516592441,0.895150578894867,20.2447965162721,787.503235180787
9177,18855,7282,"EMPDv2","T1-34","Fall_b55",34.9391099999999,32.8917199999999,1721,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.595091106776368,3515.06766945256,9.619125541564,-0.0145116280732233,19.5768987089859,816.865981219132
9178,18856,7283,"EMPDv2","T1-37","Fall_b56",34.9350999999999,32.8622,1919,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.638785450821339,3145.56714487241,8.42674808098569,-1.3438277892803,18.5454333941793,861.779991369917
9179,18857,7239,"EMPDv2","T1-4","Fall_b12",34.82889,33.5107,56,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.303718541816496,7176.27057256389,19.6610152672983,11.1979769257171,28.1893855080185,470.664189641965
9180,18858,7236,"EMPDv2","T1-5","Fall_b9",34.79927,33.4857299999999,24,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.299189162087452,7246.99114929989,19.8547702720545,11.4162397626153,28.3546294761912,464.749924580275
9181,18859,7238,"EMPDv2","T1-6","Fall_b11",34.80335,33.47505,41,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.301187059075776,7210.62920187397,19.7551484982849,11.3082783937595,28.2669696672955,467.323184230133
9182,18860,7240,"EMPDv2","T1-7","Fall_b13",34.81246,33.4340199999999,98,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.307989957236815,7088.38346333274,19.420228666665,10.9449431049213,27.9724926865414,476.098090885288
9183,18861,7243,"EMPDv2","T1-8","Fall_b16",34.8220099999999,33.3596999999999,163,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.315906545773394,6948.7791959919,19.0377512218956,10.5323546282366,27.6349859388373,486.268807049836
9184,18862,7244,"EMPDv2","T1-9","Fall_b17",34.8338699999999,33.34875,272,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.330734416243974,6709.51421200517,18.3822307178224,9.80319405064752,27.0693181703717,505.517149203061
9185,18863,11253,"Bush et al., 2020","T10t-PGTE1L1","T10t-PGTE1L1",-13.152119,-71.639869,3568,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.649216954178527,3702.09741278359,10.1427326377633,8.07745106693164,11.4783660086804,947.037823302746
9186,18864,11254,"Bush et al., 2020","T11t-PGTE2L1","T11t-PGTE2L1",-13.152018,-71.638227,3568,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.649424273732034,3702.18929957588,10.1429843823997,8.07766802139354,11.4786267519863,947.348309989686
9187,18865,11255,"Bush et al., 2020","T12t-PE6WL1","T12t-PE6WL1",-13.190629,-71.59231,3301,"not known","terrestrial","soil sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795757089570406,4141.11523460552,11.3455211907,9.30418297737494,12.6544829638898,1165.03676304289
9188,18866,11256,"Bush et al., 2020","T13t-PGTI1L1","T13t-PGTI1L1",-13.151817,-71.63934,3568,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.649266160472041,3702.15800714759,10.1428986497194,8.07761904162915,11.4785437845077,947.114845506396
9189,18867,11257,"Bush et al., 2020","T14t-PE4WL1","T14t-PE4WL1",-13.187611,-71.593228,3301,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795411637978533,4141.37333275176,11.3462283089089,9.30503667421511,12.655264292025,1164.55539914431
9190,18868,6542,"EMPDv2","T15A","Binney2017_E3206",67.74,48.72,168,"not known","not known","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34260277610444,1365.89632591193,-2.80475046176895,-19.7273044538717,14.4849599978135,491.685294107002
9191,18869,11258,"Bush et al., 2020","T15t-PI6WL1","T15t-PI6WL1",-13.190372,-71.591736,3301,"not known","terrestrial","soil sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.795821750417291,4141.16274831784,11.3456513652544,9.30430649725977,12.6546206518109,1165.13708538971
9192,18870,7247,"EMPDv2","T2-1","Fall_b20",35.3033799999999,33.3550699999999,301,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.338351918862379,6614.47539017588,18.1218503840435,9.38105435108262,26.9277648577727,515.253796152549
9193,18871,7235,"EMPDv2","T2-2","Fall_b8",35.33138,33.3712999999999,23,"5e-04","coastal, other","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.317074813615583,7276.07822474352,19.9344608897083,11.6014267696831,28.4175804597305,489.468320414839
9194,18872,7234,"EMPDv2","T2-3","Fall_b7",35.33373,33.3931899999999,9,"5e-04","coastal, other","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.316288226360816,7307.95331940841,20.0217899161874,11.7041493140524,28.4917962535122,488.566805238481
9195,18873,7258,"EMPDv2","T2-4","Fall_b31",35.3072599999999,33.2759799999999,597,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.363428668299706,5909.7379209029295,16.1910627969943,7.02193899237027,25.3841932709213,544.799971887529
9196,18874,7260,"EMPDv2","T2-5","Fall_b33",35.30413,33.26816,645,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.367643863921835,5795.19593515462,15.8772491374099,6.638050681488,25.1363663606421,549.668482749172
9197,18875,7265,"EMPDv2","T2-6","Fall_b38",35.3064499999999,33.25578,784,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.380142305387253,5462.70150063912,14.9663054812031,5.51996052760246,24.4192916311966,563.913568379631
9198,18876,7262,"EMPDv2","T2-7","Fall_b35",35.30447,33.22413,693,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.374703211829342,5680.26497792547,15.5623698025355,6.26351034722351,24.8884284745073,559.074102522245
9199,18877,7261,"EMPDv2","T2-8","Fall_b34",35.32688,33.12716,667,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.373815684624535,5742.34758483089,15.732459136523,6.48381397269727,25.0181932141582,558.560779907284
9200,18878,7246,"EMPDv2","T2-9","Fall_b19",35.33411,33.1097299999999,299,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.338332092432761,6622.51391662625,18.1438737441815,9.44235565556958,26.9338381732695,515.870416836729
9201,18879,7237,"EMPDv2","T4-3","Fall_b10",34.9696939999999,34.0741939999999,39,"5e-04","terrestrial","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.314283706948564,7177.27353777728,19.663763117198,11.097461493645,28.2249896412621,487.141992012779
9202,18880,11259,"Bush et al., 2020","T4t-T3364.2M1-2cm","T4t-T3364.2M1-2cm",-12.921343,-71.796218,3450,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.61964422902376,3910.1686276122,10.7127907605814,8.69960801373387,12.0465063296037,905.479477277048
9203,18881,7276,"EMPDv2","T5-10","Fall_b49",34.927083,33.0481389999999,1330,"5e-04","terrestrial","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.509670194790438,4378.67610123447,11.9963728800944,2.65117638297412,21.6224567114337,722.403113527417
9204,18882,7275,"EMPDv2","T5-9","Fall_b48",34.9245829999999,33.0442219999999,1290,"5e-04","terrestrial","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.502415371595852,4466.79715375575,12.2378004212486,2.92485009578242,21.8247841761726,714.274680879501
9205,18883,11260,"Bush et al., 2020","T5t-12M1-2cm","T5t-12M1-2cm",-13.143294,-71.63794,3576,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.644776725993697,3690.00198020005,10.1095944663015,8.04389573675696,11.4462993010793,940.543297578439
9206,18884,7269,"EMPDv2","T6-8","Fall_b42",34.864333,32.8029999999999,980,"5e-04","terrestrial","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.452504082635741,5150.7852332502,14.111740365069,5.09744919767478,23.3428202728009,657.440021967546
9207,18885,11261,"Bush et al., 2020","T6t-2989.4B1-2cm","T6t-2989.4B1-2cm",-12.931456,-71.787324,3424,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.633934531888578,3951.93962660321,10.8272318537074,8.81590322103287,12.1579480560206,926.55593512469
9208,18886,11262,"Bush et al., 2020","T7t-644.2D2-3cm","T7t-644.2D2-3cm",-13.17484,-71.626652000000007,3306,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.787141635203655,4133.04029717129,11.3233980744419,9.28319520405539,12.633178672269,1152.31196899718
9209,18887,11263,"Bush et al., 2020","T8t-644.2B1-2cm","T8t-644.2B1-2cm",-13.17484,-71.626652000000007,3306,"not known","terrestrial","soil sample","-59","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.787141635203655,4133.04029717129,11.3233980744419,9.28319520405539,12.633178672269,1152.31196899718
9210,18888,22890,"SMPDSv1","TA02","Barboni_a93",37.279,39.08,812,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.315601316321746,5717.06859062816,15.6632016181593,2.59337896034264,28.6746322813745,493.870562452606
9211,18889,22891,"SMPDSv1","TA07","Barboni_a94",37.22,38.5,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
9212,18890,22892,"SMPDSv1","TA08","Barboni_a95",37.22,38.5,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
9213,18891,22893,"SMPDSv1","TA09","Barboni_a96",37.22,38.5,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.268599017582889,6169.74485414434,16.9034105592996,4.36839147289133,29.4025337847539,431.153675381932
9214,18892,22894,"SMPDSv1","TA10","Barboni_a97",37.27,38.529,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.280006723489726,6187.14563248724,16.9510839246226,4.36664089393906,29.5609934381254,449.058797710825
9215,18893,22895,"SMPDSv1","TA11","Barboni_a98",37.38,38.849,884,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.325288493687201,5512.08038417915,15.1015900936415,1.94743818826005,28.111483170252,503.295537677579
9216,18894,22896,"SMPDSv1","TA12","Barboni_a99",37.72,39.419,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.348921837580875,5527.22955544905,15.1430946724631,1.73306410120366,28.469965425218,536.848978876836
9217,18895,22897,"SMPDSv1","TA14","Barboni_a100",37.909,40.099,762,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.344813737587498,5907.74577316859,16.1856048579962,2.89415457487516,29.5824803167093,537.510880734618
9218,18896,22898,"SMPDSv1","TA15","Barboni_a101",38.18,39.72,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
9219,18897,22899,"SMPDSv1","TA16","Barboni_a102",38.18,39.72,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
9220,18898,22900,"SMPDSv1","TA17","Barboni_a103",38.18,39.72,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
9221,18899,22901,"SMPDSv1","TA19","Barboni_a104",38.18,39.72,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
9222,18900,22902,"SMPDSv1","TA20","Barboni_a105",38.18,39.72,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.360901366428969,5497.82727113284,15.0625404688571,1.67310332573402,28.3916529703037,549.825352354559
9223,18901,22903,"SMPDSv1","TA22","Barboni_a106",38.169,41.47,884,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.405275868311938,5663.43291853993,15.5162545713423,2.08729538385277,29.083488442046,621.84705718432
9224,18902,22904,"SMPDSv1","TA23","Barboni_a107",38.13,41.669,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.431148603959913,5201.54072014784,14.2507964935557,0.830226276720644,27.7456152129653,647.751320750055
9225,18903,22905,"SMPDSv1","TA24","Barboni_a108",37.93,42.49,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.419813378099664,5367.41790240589,14.7052545271394,1.52727267760917,28.1080873259795,642.231933276308
9226,18904,22906,"SMPDSv1","TA25","Barboni_a109",37.919,42.419,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.411300503929589,5731.55618073408,15.7028936458468,2.51797827909701,29.1622867349766,638.545488596178
9227,18905,22907,"SMPDSv1","TA26","Barboni_a110",37.909,42.36,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.420630244517636,5364.0445140871,14.6960123673619,1.50800916085718,28.102922002453,643.426796094453
9228,18906,22908,"SMPDSv1","TA27","Barboni_a111",37.919,42.259,853,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.408230282597145,5873.21468290379,16.0909991312433,2.888205863008,29.5787047379436,637.236483483447
9229,18907,22909,"SMPDSv1","TA28","Barboni_a112",37.93,42.229,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.407788620470581,5707.1886434198,15.6361332696433,2.40945973219007,29.1135870002525,631.711238210017
9230,18908,22910,"SMPDSv1","TA29","Barboni_a113",38,42.049,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.409845397999746,5680.02463293068,15.5617113230977,2.28450247308844,29.0567946452273,632.928647707431
9231,18909,22911,"SMPDSv1","TA30","Barboni_a114",37.979,41.849,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.40929613582288,5664.93349422419,15.5203657376005,2.21447783248897,29.0241073441177,631.514945230949
9232,18910,22912,"SMPDSv1","TA31","Barboni_a115",37.75,37.549,850,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.358616534412061,5393.56850755102,14.7769000206877,2.31322393746809,26.8053821095225,544.455814739077
9233,18911,22913,"SMPDSv1","TA32","Barboni_a116",37.88,37.279,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.369998211147798,5172.16375089782,14.1703116462954,1.74789470027679,26.0000840112275,552.20981807167
9234,18912,22914,"SMPDSv1","TA33","Barboni_a117",38.5,39.529,1219,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.404532872203555,4693.05213418866,12.7763808149832,-0.857281540206841,26.0010264732522,585.670433273948
9235,18913,22915,"SMPDSv1","TA34","Barboni_a118",38.47,39.549,1158,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.396894410421245,4851.47502296587,13.2592951462202,-0.345955851537902,26.5275686979431,580.690784317767
9236,18914,22916,"SMPDSv1","TA35","Barboni_a119",38.4,39.669,1158,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.398726507242017,4857.0311537095,13.275201205526,-0.337302427277056,26.566447065317,583.90652291751
9237,18915,22917,"SMPDSv1","TA37","Barboni_a120",38.279,39.75,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.391404791710473,5117.71224951406,14.0211294507235,0.433683152639886,27.426303496327,582.654278900503
9238,18916,22918,"SMPDSv1","TA38","Barboni_a121",37.979,40.169,1067,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.398494220520217,5105.59438029022,13.9879298090143,0.349615209240811,27.4679770424704,594.869441350651
9239,18917,22919,"SMPDSv1","TA39","Barboni_a122",38.069,40.049,610,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.322067690522587,6312.16347693914,17.2935985669565,4.13655243633231,30.6805385473961,511.453278560856
9240,18918,22920,"SMPDSv1","TA40","Barboni_a123",38.18,39.88,762,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.344895809177929,5913.19139969154,16.2005243827165,2.88613227675154,29.6051049086086,536.23640407716
9241,18919,22921,"SMPDSv1","TA41","Barboni_a124",38.2,39.819,762,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.344237411002241,5914.65473142328,16.2045335107487,2.89371897552375,29.60326205989,535.217806377917
9242,18920,22922,"SMPDSv1","TA42","Barboni_a125",38.5,41.029,1219,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.45243142584011,4726.36665974573,12.8564141022035,-0.955553853786247,26.4362882795519,654.437858053733
9243,18921,22923,"SMPDSv1","TA44","Barboni_a126",38.52,40.5,914,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.40220505931937,5534.09909942114,15.1619153408798,1.46573688689897,28.8341501725932,608.749499059182
9244,18922,22924,"SMPDSv1","TA45","Barboni_a127",38.58,40.5,1158,"not known","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.429796486042906,4865.94744990825,13.2807542836247,-0.553053907485285,26.8515045383175,626.179378825236
9245,18923,22925,"SMPDSv1","TA46","Barboni_a128",38.77,40.979,1219,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.460374626789042,4671.47529256085,12.6652442447384,-1.28609960121486,26.3035991344484,659.360808020034
9246,18924,22926,"SMPDSv1","TA47","Barboni_a129",38.909,40.43,1448,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.461609128380763,4134.97096025879,10.9042567585429,-3.04003199389407,24.2460471067614,635.073291988991
9247,18925,22927,"SMPDSv1","TA48","Barboni_a130",38.869,40.2,1828,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.494241815996188,3320.44365975683,7.98297401204392,-5.87300510642831,20.8375986178173,636.014278137157
9248,18926,11977,"Neotoma","Tabor Creek Lake","SM-TCL",39.053925,-106.647465,3588,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.632019685164486,777.662697648713,-3.44807176745283,-14.7030009332808,8.03042012436005,567.731144862644
9249,18927,11264,"Bush et al., 2020","Tacambaro","Tacambaro",19.21,-101.47,1519,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.617774127562008,7603.83858116396,20.8324344689424,17.7859160798951,23.9002659017215,965.181315904246
9250,18928,15555,"Neotoma","Tackawasick Lake","DCG07",42.53,-73.52,188,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.26930912496483,3572.52955524732,8.82515853715502,-5.30131406146056,21.7138692731994,1092.91783174416
9251,18929,16531,"Neotoma","Taffy Lake","KG026",46.18,-67.17,152,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.56811473403899,2573.65520644304,4.53345257818734,-10.3582038643764,18.224494738494,1162.28553355515
9252,18930,22928,"SMPDSv1","Tafila","Jordan-11",30.58,35.78,1083,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.0297181063863265,6517.82492766948,17.8570545963547,7.7209648479911,26.2629544613291,57.6729640674999
9253,18931,6172,"EMPDv2","Tahla, Taza","AlbaSanchez_a100",33.85286,-4.041782,1711,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.300523288554399,5093.24779734394,13.954103554367,5.06269816994407,25.4076760346211,436.568217514304
9253,18932,6173,"EMPDv2","Tahla, Taza","AlbaSanchez_a101",33.79968,-4.065878,1777,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.298665656890143,5029.45949918065,13.7793410936456,4.77616190025532,25.3917563074534,435.473050885333
9254,18933,4788,"CMPD","Taibai Mt","Taibai Mt 1",33.95,107.783,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.716039659029031,2503.32875804065,5.69530643157097,-5.38198920499785,16.3215936041883,695.617626242367
9254,18934,4789,"CMPD","Taibai Mt","Taibai Mt 2",33.95,107.783,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.725432299098541,1936.26308524355,3.50926325283753,-7.0576074851585,13.7669092524468,682.481547172525
9254,18935,4790,"CMPD","Taibai Mt","Taibai Mt 3",33.95,107.783,3100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.731791039156151,1618.8421058953,2.19763734559746,-8.0629784532549,12.2340986414019,674.59989973062
9254,18936,4791,"CMPD","Taibai Mt","Taibai Mt 4",33.95,107.783,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.738724684702742,1318.13162832308,0.886011438357399,-9.0683494213513,10.701288030357,666.718252288714
9255,18937,4792,"CMPD","Taibei","Taibei",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
9256,18938,4793,"CMPD","Taidong","Taidong",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
9257,18939,4794,"CMPD","Taihu Lake","Taihu Lake 1",31.2,120.2,30,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07677866713573,5749.46311564734,15.7519537414996,3.27142194240154,27.9460061806827,1189.82356139432
9257,18940,4795,"CMPD","Taihu Lake","Taihu Lake 2",31.2,120.2,30,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07677866713573,5749.46311564734,15.7519537414996,3.27142194240154,27.9460061806827,1189.82356139432
9258,18941,22929,"SMPDSv1","Taillefer Massif","Ortu_c1",45.08,5.931,2600,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21078477249006,1026.57182978458,0.567476810247537,-6.48580276836887,8.71723546760012,1806.42762553399
9258,18942,22930,"SMPDSv1","Taillefer Massif","Ortu_c10",45.071,5.935,2080,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84167164999009,1546.28167160494,3.07429850194956,-4.28152573826435,11.4409081754881,1586.8905093758
9258,18943,22931,"SMPDSv1","Taillefer Massif","Ortu_c11",45.07,5.934,2075,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.83814817177241,1551.78382637987,3.09862802732912,-4.26004416526961,11.467368452507399,1584.68608122882
9258,18944,22932,"SMPDSv1","Taillefer Massif","Ortu_c12",45.07,5.933,2050,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.82143261818309,1579.10807614042,3.21903111998205,-4.15410908127904,11.5981757114401,1574.12983401925
9258,18945,22933,"SMPDSv1","Taillefer Massif","Ortu_c13",45.068,5.934,2000,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.78808432649813,1634.66921865474,3.46056719691473,-3.94150594486214,11.860537894969,1552.97411545086
9258,18946,22934,"SMPDSv1","Taillefer Massif","Ortu_c14",45.067,5.932,1900,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.72269125423297,1748.73713664867,3.94261387173696,-3.51729647490616,12.384190353024,1510.75958805218
9258,18947,22935,"SMPDSv1","Taillefer Massif","Ortu_c15",45.065,5.931,1870,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.70308739690656,1783.93705333583,4.08776446970155,-3.38937230007574,12.5418686897344,1497.98231092573
9258,18948,22936,"SMPDSv1","Taillefer Massif","Ortu_c16",45.066,5.93,1860,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69679213643193,1795.63245222683,4.1355696372875,-3.3474103806253,12.593828890514,1493.8124130311
9258,18949,22937,"SMPDSv1","Taillefer Massif","Ortu_c17",45.065,5.925,1850,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.69012524280745,1807.47889923388,4.18380584851177,-3.30482162948933,12.6463570825941,1489.42359765449
9258,18950,22938,"SMPDSv1","Taillefer Massif","Ortu_c18",45.067,5.924,1840,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.68399658468119,1819.17273906937,4.23127199063781,-3.26328133663964,12.6979640609993,1485.31731068591
9258,18951,22939,"SMPDSv1","Taillefer Massif","Ortu_c19",45.067,5.923,1830,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.67760518305294,1831.09572915099,4.2793952944121,-3.22094158752143,12.7502689344563,1481.08744472132
9258,18952,22940,"SMPDSv1","Taillefer Massif","Ortu_c2",45.08,5.932,2500,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.13685088670264,1120.0748257347,1.04905611233737,-6.06247515557394,9.24046306178088,1764.34730763189
9258,18953,22941,"SMPDSv1","Taillefer Massif","Ortu_c20",45.064,5.921,1820,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.67078815209299,1843.26077452701,4.32846419383571,-3.17741064904122,12.8035975657519,1476.65171370803
9258,18954,22942,"SMPDSv1","Taillefer Massif","Ortu_c21",45.064,5.919,1810,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.66439919449498,1855.23784774434,4.3765317077448,-3.13511109238482,12.8558714617466,1472.40175963751
9258,18955,22943,"SMPDSv1","Taillefer Massif","Ortu_c22",45.06,5.915,1800,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65742586509517,1867.5669227616,4.42582774130013,-3.09123337353764,12.9094895756159,1467.8664340305
9258,18956,22944,"SMPDSv1","Taillefer Massif","Ortu_c23",45.058,5.91,1700,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59451453265542,1991.01344650999,4.90812589365745,-2.66657183565708,13.4335031184775,1425.63333721748
9258,18957,22945,"SMPDSv1","Taillefer Massif","Ortu_c24",45.057,5.907,1640,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.55740741708416,2067.51485628325,5.19744725973091,-2.41184245292293,13.7478572213767,1400.32435014636
9258,18958,22946,"SMPDSv1","Taillefer Massif","Ortu_c25",45.055,5.904,1620,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.54487916062522,2093.55506386903,5.29437207245905,-2.32624484178429,13.853194946244,1391.76522496727
9258,18959,22947,"SMPDSv1","Taillefer Massif","Ortu_c26",45.054,5.883,1580,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.5201356913324,2145.76473098732,5.4860007814008,-2.15763603037334,14.062163326286,1374.59710022971
9258,18960,22948,"SMPDSv1","Taillefer Massif","Ortu_c27",45.053,5.882,1560,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.50794226264994,2172.4204533382,5.58268918294024,-2.07240270792126,14.1672097627453,1366.14648981261
9258,18961,22949,"SMPDSv1","Taillefer Massif","Ortu_c28",45.023,5.865,1350,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.38029725874713,2468.25816564502,6.60606574352826,-1.16561323202124,15.2781351787495,1276.56323004201
9258,18962,22950,"SMPDSv1","Taillefer Massif","Ortu_c29",45.044,5.85,1250,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32576785495443,2614.26339759412,7.07785543934368,-0.755596021506163,15.7926798080355,1235.6564086233
9258,18963,22951,"SMPDSv1","Taillefer Massif","Ortu_c3",45.078,5.933,2480,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.12201857813485,1139.22176835505,1.1457860847976,-5.97755401986632,9.34566407532472,1755.80614254848
9258,18964,22952,"SMPDSv1","Taillefer Massif","Ortu_c30",45.041,5.844,1150,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26938844252006,2770.39963148752,7.56070668604512,-0.330141466781575,16.317415120186,1193.72730346083
9258,18965,22953,"SMPDSv1","Taillefer Massif","Ortu_c31",45.046,5.848,1050,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2150215749655,2934.90351969887,8.04069429515842,0.0909166688194918,16.8390830200889,1152.16405215527
9258,18966,22954,"SMPDSv1","Taillefer Massif","Ortu_c32",45.047,5.846,960,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16651296477107,3092.91821927092,8.47374854594772,0.471494968537707,17.3098385631534,1114.60040964545
9258,18967,22955,"SMPDSv1","Taillefer Massif","Ortu_c33",45.049,5.846,950,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1613875446975,3110.13572861713,8.5209198044305,0.512357532073738,17.3612804904292,1110.49661043109
9258,18968,22956,"SMPDSv1","Taillefer Massif","Ortu_c34",45.048,5.844,920,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14527364238726,3163.01869920135,8.66580465534616,0.640026016389989,17.5187532602507,1097.93222663391
9258,18969,22957,"SMPDSv1","Taillefer Massif","Ortu_c35",45.04,5.835,850,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10742664265998,3287.36615386828,9.00648261333775,0.941944265525048,17.8887491445684,1068.4667084619
9258,18970,22958,"SMPDSv1","Taillefer Massif","Ortu_c36",45.044,5.836,750,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.05579704904474,3462.54265006034,9.4864182193434,1.36284525992672,18.4105889415761,1026.85339121648
9258,18971,22959,"SMPDSv1","Taillefer Massif","Ortu_c37",45.04,5.829,650,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00430230581089,3639.02806608285,9.96993990707631,1.78930759318222,18.9360476561116,985.076044030462
9258,18972,22960,"SMPDSv1","Taillefer Massif","Ortu_c38",45.038,5.826,550,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.953885073656356,3815.2864907301,10.4528397006304,2.21478426450884,19.4607450474594,943.353748803621
9258,18973,22961,"SMPDSv1","Taillefer Massif","Ortu_c39",45.043,5.822,540,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.949466693028749,3831.63165744997,10.497620979315,2.25186990205087,19.5103835255988,939.376974050436
9258,18974,22962,"SMPDSv1","Taillefer Massif","Ortu_c4",45.079,5.938,2470,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.11514594855255,1148.74145203533,1.19384744887124,-5.93549414914937,9.3978229342051,1751.88563168709
9258,18975,22963,"SMPDSv1","Taillefer Massif","Ortu_c40",45.048,5.819,350,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.856952253741367,4164.57053934053,11.4097822995631,3.05171616349233,20.5026333341198,860.313438916704
9258,18976,22964,"SMPDSv1","Taillefer Massif","Ortu_c5",45.079,5.948,2450,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.10115759117995,1168.02805350818,1.2903635146237,-5.85108807406224,9.50266542802301,1743.87729045381
9258,18977,22965,"SMPDSv1","Taillefer Massif","Ortu_c6",45.078,5.945,2400,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.06481982605632,1216.56520682695,1.53135326093512,-5.63904862108693,9.76450951647197,1722.59218905965
9258,18978,22966,"SMPDSv1","Taillefer Massif","Ortu_c7",45.076,5.945,2350,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.02888393488131,1265.90561413527,1.77264699749774,-5.42686281895028,10.0267120877844,1701.35992047201
9258,18979,22967,"SMPDSv1","Taillefer Massif","Ortu_c8",45.074,5.945,2320,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.00739121669189,1295.93502176256,1.91763027715299,-5.29934610088305,10.1842797083547,1688.56308625311
9258,18980,22968,"SMPDSv1","Taillefer Massif","Ortu_c9",45.074,5.945,2300,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.99332586763986,1316.01730309643,2.01398240433647,-5.21459336540605,10.2889401661522,1680.13312158501
9259,18981,4796,"CMPD","Tainan","Tainan",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
9260,18982,17306,"Neotoma","Tainter","TW011",44.935556,-91.889167,266,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.877316155187995,3482.09688075028,7.1551069265449,-11.0658337105798,22.4850769379596,752.851014939653
9261,18983,4797,"CMPD","Taixi","Taixi",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
9262,18984,10630,"BIOME6000 Japan","Takadayachi 43","Tkdy43C0",40.63,140.88,1050,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.03600550819401,2778.69928040848,6.24646943749492,-6.09010231609943,19.3950794130713,1514.35331391368
9263,18985,10629,"BIOME6000 Japan","Takadayachi 44","TkdycC0",40.62,140.88,1050,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.03589786873913,2777.54092487089,6.24127787830752,-6.09678079474202,19.3898076265521,1514.26039407145
9264,18986,22969,"SMPDSv1","Takajavri","Bjune_a162",67.4833333333333,22.65,223,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.09603325955135,1515.52843279735,-0.85141116049066,-14.9723466185778,13.8751137688594,468.587651524011
9265,18987,24477,"Southern Hemisphere pollen","Takaka Range","Takaka summit",-40.9,172.6569,300,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",7,"cool-temperate rainforest",2.52110506589531,3957.31494316945,10.8419587484095,5.88711568393968,15.6059568977919,2290.10730383107
9266,18988,24478,"Southern Hemisphere pollen","Takaka River","Takaka river",-40.8257,172.7936,30,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",4,"warm-temperate evergreen and mixed forest",2.22586762559717,4535.1289716149,12.4250108811367,7.83973311944642,16.8207406109785,2096.17891714415
9267,18989,8017,"EMPDv2","Takoi","Mikishin-Gvozdeva_a78",47.3294444444444,142.758055555556,7,"not applicable","terrestrial, soil","litter","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.65520594169325,2155.08709150477,2.60758166057258,-12.2354466183685,16.6604837145569,1005.32368646247
9268,18990,11265,"Bush et al., 2020","Talamanca","Talamanca",9.450919,-83.522642,3287,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.6966150446854402,4045.96631835589,11.0848392283723,9.21633829345724,12.2018897307616,4450.6101597472
9268,18990,11266,"Bush et al., 2020","Talamanca","Talamanca",9.4447439,-83.539734,2771,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.54079935093342,4926.10870186033,13.4961882242749,11.9404785488936,14.3691050888107,4226.78707140447
9268,18990,11267,"Bush et al., 2020","Talamanca","Talamanca",9.465958,-83.576491,1728,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.24033899871607,6704.12369560389,18.3674621797367,17.4368844241839,19.049158776501,3764.67365950949
9269,18991,11268,"Bush et al., 2020","Talamancas","Talamancas",9.444212,-83.532628,3044,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.62347773281722,4460.66375305948,12.2209965837246,10.4986577790377,13.2173897312888,4347.2477885093
9269,18991,11269,"Bush et al., 2020","Talamancas","Talamancas",9.446218,-83.536299,2771,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.54043529400769,4925.53427699244,13.4946144575135,11.9392859593669,14.3675078207383,4225.88741203645
9269,18991,11270,"Bush et al., 2020","Talamancas","Talamancas",9.450828,-83.520181,3287,"not known","terrestrial","moss polster or moss","-43","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.6966079799979,4045.38448664841,11.0832451688998,9.21488179833664,12.1999650850871,4450.27432105144
9270,18992,6122,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a49",35.259856,-5.103634,1645,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.389580857609861,4750.29670998216,13.0145115341977,5.43327723783969,23.6318751665175,517.212214923322
9270,18993,6123,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a50",35.184338,-5.216593,1727,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.35349535374556,4836.0653116502,13.2494940045211,5.13891920300985,24.5176558942131,482.633577636751
9270,18994,6133,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a61",35.142129,-5.148185,1752,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.349403634690076,4823.33724441445,13.2146225874368,5.03007952909804,24.5991194964585,478.546262066353
9270,18995,6134,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a62",35.141913,-5.152082,2011,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.33745004476657,4578.72480574125,12.5444515225788,3.97565572742558,24.7055431387396,465.268665401117
9270,18996,6135,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a63",35.139146,-5.151044,1972,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.339145327181983,4615.97417894623,12.6465045998527,4.13393269874434,24.6925962796659,467.19770741747
9270,18997,6163,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a91",35.133767,-5.072076,1340,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.367293465454514,5217.6513918317,14.2949353200868,6.70743348092384,24.4602119871945,497.972699002947
9270,18998,6164,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a92",35.118435,-5.057928,1266,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.370339935929424,5289.5062522426,14.4917979513496,7.00841476596515,24.4418681453483,501.314864233113
9270,18999,6165,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a93",35.135797,-5.118979,1694,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.351250705565395,4881.03733200615,13.3727050191949,5.26478952670828,24.5935721120906,480.636157340998
9270,19000,6166,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a94",35.127825,-5.112933,1642,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.353384173677711,4931.36888695263,13.5105996902812,5.47561407637057,24.5804558217081,483.04394201093
9270,19001,6167,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a95",35.121953,-5.102893,1725,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.349033334540472,4854.6858798961,13.3005092599893,5.13621387370741,24.6260376437436,478.340084333341
9270,19002,6168,"EMPDv2","Talassemtane National Park, Chefchaouen","AlbaSanchez_a96",35.006211,-5.146365,718,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.397334509959241,5807.81525117301,15.9118226059534,9.24054771210547,24.3180852855462,530.078581820139
9271,19003,8357,"EMPDv2","Talganay","Naidina_a3",50.2333333333333,53.1333333333333,74,"not applicable","terrestrial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.330933355825902,3507.11645470796,6.35866728929426,-12.5771802580825,23.9734875037119,282.14316120913
9272,19004,1408,"Australian pollen","Talita Kupai","Talita Kupai 1_0",-10.0167,142.2,1,"not applicable","coastal, estuarine","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23264251137724,9823.39255132038,26.9134042501928,25.3186254136651,28.157829836646,1882.65934152533
9272,19005,1409,"Australian pollen","Talita Kupai","Talita Kupai 1_16",-10.0167,142.2,1,"not applicable","coastal, estuarine","core","16","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23264251137724,9823.39255132038,26.9134042501928,25.3186254136651,28.157829836646,1882.65934152533
9272,19006,1410,"Australian pollen","Talita Kupai","Talita Kupai 1_8",-10.0167,142.2,1,"not applicable","coastal, estuarine","core","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23264251137724,9823.39255132038,26.9134042501928,25.3186254136651,28.157829836646,1882.65934152533
9273,19007,11522,"Neotoma","Tallgrass 1 Pond","FH-7",38.434275,-96.563565,389,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.754244745665757,4861.65124515662,13.0920133743047,-2.02426342639701,26.7926699689979,856.994001228636
9274,19008,11523,"Neotoma","Tallgrass 2 Pond","FH-8",38.40737,-96.560305,379,"not known","artificial water body","surface sample","-59","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.76783061673662,4871.47150244538,13.1267474627475,-1.97304471439027,26.7759177792084,871.613295112594
9275,19009,8211,"EMPDv2","Talmy_Protoka","Mikishin-Gvozdeva_b42",42.47,130.773888888889,0.5,"37.19","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.910584125619958,3324.18937177538,6.64278777929474,-11.1224706378128,21.9995289815537,750.447205378939
9276,19010,8215,"EMPDv2","Talmy_Sever","Mikishin-Gvozdeva_b46",42.5436111111111,130.715555555556,0.5,"37.19","lake","sediment sample","-44","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.84880377744109,3296.47013113756,6.42616735126043,-11.54593718529,21.8995772801667,700.649454987835
9277,19011,8214,"EMPDv2","Talmy_sol","Mikishin-Gvozdeva_b45",42.5094444444444,130.752777777778,0.5,"37.19","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.910453939627691,3322.3484085608,6.63370493326451,-11.1348536755985,21.9928934605744,749.772289167534
9278,19012,8213,"EMPDv2","Talmy_Yug","Mikishin-Gvozdeva_b44",42.5038888888889,130.766111111111,0.5,"37.19","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.910734203891821,3321.83945448793,6.63201000964379,-11.1359742496231,21.9910784698174,749.911719174641
9279,19013,8212,"EMPDv2","Talmy_Yuzjnyi zaliv","Mikishin-Gvozdeva_b43",42.4755555555556,130.762222222222,0.5,"37.19","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.910346777784802,3324.58534367043,6.64405572638202,-11.1217429126628,22.0009398498675,750.316457167422
9280,19014,7084,"EMPDv2","Taloye Lake","EPDcoretop_E1921",61.02,152.33,750,"not known","terrestrial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.15509177576677,858.755279329693,-10.5669507933191,-30.0563135449629,9.68737814563999,407.933673660179
9281,19015,13322,"Neotoma","Tamarack Creek","TAMARACK",44.15,-91.45,244,"not known","not known","core","12","Davis, A.M. 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers 67(2):204-213.; Davis, A.M. 1979. Wetland succession, fire and the pollen record: a midwestern example. American Midland Naturalist 102(1):86-94. http://www.jstor.org/discover/10.2307/2425069?uid=3739656.",,13,"temperate deciduous broadleaf forest",0.877910096786479,3596.41369093125,7.82164870827281,-9.9056775687234,22.7169633595081,775.904653030268
9281,19015,13323,"Neotoma","Tamarack Creek","TAMARACK",44.15,-91.45,244,"not known","not known","core","35","Davis, A.M. 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers 67(2):204-213.; Davis, A.M. 1979. Wetland succession, fire and the pollen record: a midwestern example. American Midland Naturalist 102(1):86-94. http://www.jstor.org/discover/10.2307/2425069?uid=3739656.",,13,"temperate deciduous broadleaf forest",0.877910096786479,3596.41369093125,7.82164870827281,-9.9056775687234,22.7169633595081,775.904653030268
9282,19016,13917,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-27","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13918,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-23","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13919,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-21","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13920,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-18","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13921,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-13","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13922,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-10","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13923,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-6","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13924,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-5","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13925,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-3","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13926,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","-1","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13927,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","1","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13928,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","2","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13929,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","4","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13930,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","4","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13931,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","5","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13932,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","6","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13933,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","8","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13934,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","10","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13935,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","12","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13936,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","13","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13937,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","15","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13938,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","16","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13939,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","19","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13940,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","20","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13941,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","24","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13942,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","29","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13943,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","31","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13944,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","34","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13945,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","37","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13946,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","40","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13947,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","44","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13948,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","48","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9282,19016,13949,"Neotoma","Tamarack Lake","MNCVTL",44.87385,-93.6346399999999,294,"not known","lake","core","49","Waddington, J.C.B. 1978. Vegetational changes associated with settlement and land-clearance in Minnesota over the last 125 years: a comparison of historical and sedimentary records. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,13,"temperate deciduous broadleaf forest",0.852213243612531,3437.81355487772,6.88299762685803,-11.5578274148898,22.4242440045229,731.947384198073
9283,19017,1411,"Australian pollen","Tamaringa Billabong","Tamaringa Billabong",-37.15,145.4833,160,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.594244909359669,5343.44898057831,14.6395862481598,8.30757759867818,21.2584963840131,675.670030931658
9284,19018,1412,"Australian pollen","Tamewhera","TAME_12",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-52","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19019,1413,"Australian pollen","Tamewhera","TAME_17",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-47","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19020,1414,"Australian pollen","Tamewhera","TAME_22",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-41","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19021,1415,"Australian pollen","Tamewhera","TAME_27",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-36","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19022,1416,"Australian pollen","Tamewhera","TAME_32",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-31","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19023,1417,"Australian pollen","Tamewhera","TAME_37",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-25","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19024,1418,"Australian pollen","Tamewhera","TAME_42",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-20","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19025,1419,"Australian pollen","Tamewhera","TAME_47",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-15","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19026,1420,"Australian pollen","Tamewhera","TAME_5",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-60","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19027,1421,"Australian pollen","Tamewhera","TAME_52",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-9","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19028,1422,"Australian pollen","Tamewhera","TAME_57",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-4","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19029,1423,"Australian pollen","Tamewhera","TAME_62",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","2","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19030,1424,"Australian pollen","Tamewhera","TAME_67",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","7","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19031,1425,"Australian pollen","Tamewhera","TAME_7",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","-58","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19032,1426,"Australian pollen","Tamewhera","TAME_72",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","14","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19033,1427,"Australian pollen","Tamewhera","TAME_77",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","23","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19034,1428,"Australian pollen","Tamewhera","TAME_82",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","31","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19035,1429,"Australian pollen","Tamewhera","TAME_87",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","40","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9284,19036,1430,"Australian pollen","Tamewhera","TAME_92",-36.59345,175.75907,17,"not known","terrestrial, bog/fen/swamp","core","49","Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833. [DOI: 10.1073/pnas.1821732116]","10.21233/rrzj-sp79",4,"warm-temperate evergreen and mixed forest",1.14979571367574,5412.16036178583,14.8278366076324,10.6268991391776,19.0846967556292,1192.41558791555
9285,19037,17652,"Phelps et al., 2020","Tamsaa Swamp","TAMSAA_1",7.133333,39.766667,3039,"not known","terrestrial, bog/fen/swamp","core top","15","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",20,"xerophytic woods/scrub",0.764569798324598,4222.75969450452,11.5692046424781,10.2239303247562,12.864135468813,1309.37770989428
9286,19038,7432,"EMPDv2","Tangelandsvatnet","Hjelle_a21",60.3940105,5.4512319,116,"0.097","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.1619453696047,2504.65700160078,6.86207397698844,0.492989195453267,13.8322311052526,2174.50354556628
9287,19039,4798,"CMPD","Tanggula","Tanggula 1",33.21,91.86,5121,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.278321435763582,453.415786950223,-5.8822655275746,-17.4519693290377,5.11847486665393,272.893149284267
9287,19040,4799,"CMPD","Tanggula","Tanggula 2",32.69,91.87,5010,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.300346749868645,578.707760681303,-4.7977446957761,-16.3778118064434,6.03627091240508,303.106543794129
9287,19041,4800,"CMPD","Tanggula","Tanggula 3",32.88,91.92,5231,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.276899070296653,396.117647258681,-6.35474890269134,-17.8703229592933,4.63826653609105,270.220565526342
9287,19042,4801,"CMPD","Tanggula","Tanggula 4",32.91,91.95,5180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.279119730566311,427.375866474564,-6.08331252236385,-17.622211337034,4.89701285910257,273.69674301649
9288,19043,4802,"CMPD","Tanghongling","Tanghongling",48.4,129.1,465,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.869356905851493,2334.83959324377,-1.07666691919456,-24.8048216290765,18.9075433117777,598.920486194944
9289,19044,13324,"Neotoma","Tannersville Bog","TANBOG07",41.038875,-75.263845,277,"not known","terrestrial, bog/fen/swamp","core","-12","Cai, S., and Z. Yu. 2011. Response of a warm temperate peatland to Holocene climate change in northeastern Pennsylvania. Quaternary Research 75:531-540.",,9,"cool mixed forest",1.21096520951339,3730.82607059177,9.56806173812709,-3.95318361524957,22.0311136932638,1095.27952600618
9289,19044,13325,"Neotoma","Tannersville Bog","TANBOG07",41.038875,-75.263845,277,"not known","terrestrial, bog/fen/swamp","core","33","Cai, S., and Z. Yu. 2011. Response of a warm temperate peatland to Holocene climate change in northeastern Pennsylvania. Quaternary Research 75:531-540.",,9,"cool mixed forest",1.21096520951339,3730.82607059177,9.56806173812709,-3.95318361524957,22.0311136932638,1095.27952600618
9289,19045,13326,"Neotoma","Tannersville Bog","TANNERSV",41.038875,-75.263845,277,"not known","terrestrial, bog/fen/swamp","core","0","Watts, W.A. 1979. Late Quaternary vegetation of central Appalachia and the New Jersey coastal plain. Ecological Monographs 49:427-469.",,9,"cool mixed forest",1.21096520951339,3730.82607059177,9.56806173812709,-3.95318361524957,22.0311136932638,1095.27952600618
9290,19046,6823,"EMPDv2","Tannu-Ola","Blyakharchuk_a17",50.6177527777778,95.1816333333333,1506,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.507923186341139,1757.24618633656,-4.89686391284319,-29.1240815318106,14.9092715908615,388.909536441305
9290,19047,6824,"EMPDv2","Tannu-Ola","Blyakharchuk_a18",50.6177527777778,95.1816333333333,1506,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.507923186341139,1757.24618633656,-4.89686391284319,-29.1240815318106,14.9092715908615,388.909536441305
9290,19048,6825,"EMPDv2","Tannu-Ola","Blyakharchuk_a19",50.6177527777778,95.1816333333333,1506,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.507923186341139,1757.24618633656,-4.89686391284319,-29.1240815318106,14.9092715908615,388.909536441305
9290,19049,6826,"EMPDv2","Tannu-Ola","Blyakharchuk_a20",50.6177527777778,95.1816333333333,1506,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.507923186341139,1757.24618633656,-4.89686391284319,-29.1240815318106,14.9092715908615,388.909536441305
9291,19050,10587,"BIOME6000 Japan","Tanohata","TanhrC0",35.9,137.48,2000,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.84539466521744,2024.73327279513,2.60542257580824,-10.6997574346152,15.8734600123103,1400.16022708018
9292,19051,6158,"EMPDv2","Tanourdi, Khenifra","AlbaSanchez_a86",32.849844,-5.180248,1985,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.329070705240426,4667.90417663883,12.7887785661338,3.61877997201752,24.3405072782222,474.874329093163
9293,19052,22970,"SMPDSv1","Taormina","Mercuri_d1",37.85,15.3,204,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459559287774945,6257.83557140899,17.1447549901616,10.551552272502,25.1349355914204,611.016504388098
9293,19053,22971,"SMPDSv1","Taormina","Mercuri_d2",37.85,15.3,204,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459559287774945,6257.83557140899,17.1447549901616,10.551552272502,25.1349355914204,611.016504388098
9293,19054,22972,"SMPDSv1","Taormina","Mercuri_d3",37.85,15.3,204,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459559287774945,6257.83557140899,17.1447549901616,10.551552272502,25.1349355914204,611.016504388098
9293,19055,22973,"SMPDSv1","Taormina","Mercuri_d4",37.85,15.3,204,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459559287774945,6257.83557140899,17.1447549901616,10.551552272502,25.1349355914204,611.016504388098
9293,19056,22974,"SMPDSv1","Taormina","Mercuri_d5",37.85,15.3,204,"0.01","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.459559287774945,6257.83557140899,17.1447549901616,10.551552272502,25.1349355914204,611.016504388098
9294,19057,11271,"Bush et al., 2020","Tapajos0cm","Tapajos0cm",0.62889,-61.67917,45,"not known","lake","lake surface sample","-53","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.51181468189437,9811.22625302194,26.8800719260875,26.1666444126225,27.4807721094101,2159.59762132892
9295,19058,7964,"EMPDv2","Tapauna","Mikishin-Gvozdeva_a24",52.1813888888889,143.031111111111,23,"0.076","terrestrial","moss polster or moss","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22373519183696,1847.44500880105,-0.716610618198635,-18.9897203758759,15.3133910918266,653.492195292249
9296,19059,11582,"Neotoma","Taquitz Meadow","ERW2002-18",33.76857,-116.66361,2405,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.590772444758772,2662.19943894334,7.14368169273488,-0.90956660245449,19.2022616603289,776.275141859787
9296,19060,11581,"Neotoma","Taquitz Meadow","ERW2002-19",33.76857,-116.66361,2405,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,20,"xerophytic woods/scrub",0.590772444758772,2662.19943894334,7.14368169273488,-0.90956660245449,19.2022616603289,776.275141859787
9296,19061,11583,"Neotoma","Taquitz Meadow","ERW2002-20",33.76857,-116.66361,2405,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,20,"xerophytic woods/scrub",0.590772444758772,2662.19943894334,7.14368169273488,-0.90956660245449,19.2022616603289,776.275141859787
9297,19062,11867,"Neotoma","Tar Hollow State Forest","KKMFA15",39.37472222,-82.7625,354,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.03471452241167,3789.44919515777,9.59867187053728,-4.69128540797326,22.1484496390835,955.347769877337
9298,19063,22975,"SMPDSv1","Taravilla","Taravilla",40.65103,-1.97435,1126,"not known","not known","core top","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.453201349790365,3890.03228678578,10.6576227035227,2.80675546321547,20.4426498877893,531.991521578365
9299,19064,6139,"EMPDv2","Targuist, Al Hoceima","AlbaSanchez_a67",34.819963,-4.435739,1774,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.325440963795376,4883.48178847622,13.3794021602088,4.73499650758591,25.2389865516573,458.723276028311
9299,19065,6140,"EMPDv2","Targuist, Al Hoceima","AlbaSanchez_a68",34.812419,-4.46209,1886,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.320132424788119,4779.07349521956,13.0933520416974,4.25693635748456,25.3072509433639,453.389150343194
9299,19066,6141,"EMPDv2","Targuist, Al Hoceima","AlbaSanchez_a69",34.848,-4.298583,1866,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.322752190966632,4794.67188981901,13.1360873693672,4.29082015459616,25.334499783714,457.521706658655
9299,19067,6142,"EMPDv2","Targuist, Al Hoceima","AlbaSanchez_a70",34.859132,-4.321148,1738,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.328190778763866,4914.72845801882,13.4650094740242,4.85886379951924,25.237465333007,462.180221031634
9299,19068,6143,"EMPDv2","Targuist, Al Hoceima","AlbaSanchez_a71",34.888293,-4.328126,1524,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.33791375483305103,5114.4637078339,14.0122293365312,5.79749235775775,25.0816362639551,470.768486107315
9300,19069,1431,"Australian pollen","Tarn Shelf","Tarn Shelf",-42.6667,146.5,1158,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44450762731208,2210.01026427005,6.05482264183575,0.751148221648544,12.1075519853117,1367.54742736
9301,19070,1432,"Australian pollen","Tarn Shelf, Mt Field","Tarn Shelf, Mt Field",-41.917,145.583,1000,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.6283148680286,2330.85469097341,6.38590326294085,1.53478056328063,11.9460197468647,1510.6341650235
9302,19071,22976,"SMPDSv1","Tarnawa Wyzna","EPDcoretop_E643",49.1,22.833333,670,"0.09","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14031076503043,2580.6540085676,5.89409143333583,-6.09236566967107,15.7207749209713,854.451081168928
9303,19072,22977,"SMPDSv1","Tarnowiec","EPDcoretop_E647",49.7,21.616667,220,"0.12","ephemeral lake/pond","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.820463631951736,3225.45508427189,8.34828880642134,-3.49515289201492,18.1907617664798,649.305995630357
9304,19073,10600,"BIOME6000 Japan","Tarosan","TarosC0",36.82,139.48,2300,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.34542252953567,1582.21464897516,0.356161606894447,-12.8920882895872,13.8107494479241,1684.10164343618
9305,19074,1433,"Australian pollen","Tarraleah Bog","Tarraleah Bog core",-42.3,146.433,440,"not applicable","terrestrial","core","-34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.3013462941845,3516.50623330126,9.63426365288018,5.23970411996404,14.3813578303856,1188.43151317123
9306,19075,6892,"EMPDv2","Tas","Colombaroli_a7",37.8969166666667,14.4798333333333,1430,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.498946867381829,4230.79292125542,11.5912134828916,4.79684175585532,20.2390574267703,681.702783975783
9307,19076,10633,"BIOME6000 Japan","Tashiro moor","D2001",40.866667,140.933333,550,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.84384497046738,3163.12484629592,7.78431995790466,-4.36266296747009,20.996966957322,1424.89224698312
9308,19077,8994,"EMPDv2","Tasiusaq","Schofield_a25",61.1461,-45.6156,59,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.48138585131414,982.162850757677,0.625145229970754,-5.75735012811013,8.2751743731038,1069.73472910921
9308,19078,8995,"EMPDv2","Tasiusaq","Schofield_a26",61.1449,-45.613,78,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.49264209862988,965.44626868108,0.538898815241881,-5.81316606106602,8.1975934218195,1072.27255248851
9308,19079,8996,"EMPDv2","Tasiusaq","Schofield_a27",61.147,-45.6228,40,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.46900311004416,999.016520004542,0.711187031980253,-5.70217530843827,8.35262174496392,1066.66381357493
9308,19080,8997,"EMPDv2","Tasiusaq","Schofield_a28",61.1463,-45.6163,40,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.47086342335155,998.963672750697,0.711314723340882,-5.7012846730584,8.35247870466979,1067.52272779409
9308,19081,9016,"EMPDv2","Tasiusaq","Schofield_a47",61.1457,-45.625,23,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.45948133929198,1014.13933001455,0.788009012138696,-5.65225520613339,8.42132531658196,1064.63441807346
9308,19082,9017,"EMPDv2","Tasiusaq","Schofield_a48",61.1457,-45.625,23,"not applicable","terrestrial","moss polster or moss","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.45948133929198,1014.13933001455,0.788009012138696,-5.65225520613339,8.42132531658196,1064.63441807346
9308,19083,9029,"EMPDv2","Tasiusaq","Schofield_a60",61.1468,-45.6224,30,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.46374324309922,1007.92762781365,0.756523622792614,-5.67256425027155,8.39322443210181,1065.62138941257
9308,19084,9033,"EMPDv2","Tasiusaq","Schofield_a64",61.1473,-45.6206,32,"not applicable","terrestrial, soil","soil sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",30,"tundra",2.46520952778581,1006.15787913411,0.747593149335205,-5.6782167978758,8.38526087916382,1066.0142378642
9309,19085,6151,"EMPDv2","Tatchas, Khenifra","AlbaSanchez_a79",32.944753,-5.269515,2046,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.336920356304568,4579.24792888891,12.545884736682,3.33569522498884,24.1848618350208,484.689549512704
9309,19086,6152,"EMPDv2","Tatchas, Khenifra","AlbaSanchez_a80",32.947561,-5.242167,2060,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.330224042090811,4578.48297172919,12.5437889636416,3.28017200629996,24.2538572624566,476.345310668999
9310,19087,130,"APD","Tate Vondo","VENDA_10",-22.8958333333333,30.01,1100,"not applicable","terrestrial","not known","0","Scott, L., 1987. Late Quaternary forest history in Venda, southern Africa. Review of palaeobotany and palynology, 53(1-2), pp.1-10.","10.1016/0034-6667(87)90008-X",20,"xerophytic woods/scrub",0.314454860993977,7071.12683713992,19.3729502387395,13.3916825353381,23.6587518620098,537.529395212777
9311,19088,11959,"Neotoma","Tater Sink","TATERP1",36.46839,-112.121315,2646,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.380057479508676,2312.66319033356,5.41232465457672,-4.10453419471724,16.7087230629726,462.45196127635
9312,19089,22978,"SMPDSv1","Tatinki","Tatinki_SS (Novenko_c9)",53.6756,38.6478,165,"0.01","terrestrial, soil","surface sample","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.765909118276158,2841.43613218418,5.21519056338116,-10.1568010207241,19.0132272587604,556.393635329346
9313,19090,7286,"EMPDv2","Taul Muced","Feurdean_a3",47.57389,24.545,1360,"0.02","terrestrial, bog/fen/swamp","peat","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.3709898791141,1742.24517045257,2.2753620645844,-9.83522541752583,12.0523987086695,962.591387416101
9314,19091,6059,"EMBSeCBIO","Taul Zanogutii","Taul Zanogutii core",45.327778,22.802778,1840,"0.02","terrestrial, marsh","core","6","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",9,"cool mixed forest",1.83897200419298,1108.97664591828,0.0860650743430498,-9.78652180567466,8.53359125436589,1222.09882863394
9315,19092,13327,"Neotoma","Taupawshas Bog","TAUPAW",41.275,-70.058333,14,"not known","terrestrial, bog/fen/swamp","core","-30","Dunwiddie, P.W. 1989. Forest and health: the shaping of the vegetation on Nantucket Island. Journal of Forest History 33:126-133.",,9,"cool mixed forest",1.38325628160001,3919.78020086407,10.468486234538,-1.97397661811312,22.3816755236591,1255.43506386103
9316,19093,8300,"EMPDv2","Tavarone","Montanari_b14",44.3135388888889,9.54923611111111,606,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.14085195169388,3624.84184891604,9.93107355867407,1.07745000348101,19.0437359262801,1096.4420322135
9317,19094,14641,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-60","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14642,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-57","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14643,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-54","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14644,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-51","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14645,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-47","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14646,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-47","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14647,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-46","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14648,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-45","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14649,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-45","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14650,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-43","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14651,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-42","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14652,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-40","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14653,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-39","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14654,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-37","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14655,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-36","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14656,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-34","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14657,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-33","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14658,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-32","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14659,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-30","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14660,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-29","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14661,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-28","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14662,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-26","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14663,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-25","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14664,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-24","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14665,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-23","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14666,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-21","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14667,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-19","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14668,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-17","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14669,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-15","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14670,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-12","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14671,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-11","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14672,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-10","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14673,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-7","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14674,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-6","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14675,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-5","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14676,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-3","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14677,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-2","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14678,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","-1","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14679,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","1","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14680,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","2","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14681,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","3","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14682,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","4","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14683,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","5","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14684,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","8","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14685,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","10","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14686,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","13","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14687,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","16","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14688,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","18","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14689,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","21","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14690,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","23","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14691,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","26","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14692,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","29","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14693,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","31","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14694,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","35","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14695,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","38","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14696,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","41","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14697,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","43","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14698,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","45","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14699,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","47","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9317,19094,14700,"Neotoma","Tawny Pond","TAWNY",44.8163888888889,-77.18251,276,"not known","lake","core","49","Keizer, P.S., K. Gajewski, and R. McLeman. 2015. Forest dynamics in relation to multi-decadal late-Holocene climatic variability, eastern Ontario, Canada. Review of Palaeobotany and Palynology 219:106-115. Keizer, P.S. 2013. Forest dynamics in relation to late-Holocene climatic variability, eastern Ontario, Canada. Master's thesis. University of Ottawa, Ottawa, Ontario, Canada.","10.1016/j.revpalbo.2015.04.001",9,"cool mixed forest",1.09824936020364,2814.86267385,5.02297025523836,-11.2658062677015,19.3102388641019,890.038427120551
9318,19095,1434,"Australian pollen","Tawonga Bog","Tawonga Bog",-36.6833,147.1333,350,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.702831434535385,4937.85181516459,13.5283611374372,6.60451213650835,20.7672802316448,829.676080404881
9319,19096,15546,"Neotoma","Taylor Creek Site 1A","DAW017",25.197778,-80.643333,4,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.970084497356668,8827.86256430427,24.1859248337103,18.9929520751572,28.3299565435535,1413.93527746615
9320,19097,13328,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-35","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13329,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-29","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13330,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-23","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13331,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-16","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13332,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-10","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13333,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","-5","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13334,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","0","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13335,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","5","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13336,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","10","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13337,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","15","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13338,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","20","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13339,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","25","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13340,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","30","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13341,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","35","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13342,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","40","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13343,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","45","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19097,13344,"Neotoma","Taylor Creek Site 2","TAYCRK2A",25.205556,-80.643889,5,"not known","terrestrial","core","50","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19098,13345,"Neotoma","Taylor Creek Site 2","TAYCRK2B",25.205556,-80.643889,5,"not known","terrestrial","core","-26","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19098,13346,"Neotoma","Taylor Creek Site 2","TAYCRK2B",25.205556,-80.643889,5,"not known","terrestrial","core","18","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9320,19098,13347,"Neotoma","Taylor Creek Site 2","TAYCRK2B",25.205556,-80.643889,5,"not known","terrestrial","core","38","Willard, D.A., and C.W. Holmes. 1997. Pollen and geochronological data from south Florida: Taylor Creek Site 2. U.S. Geological Survey Open-File Report 97-35.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02987007803438,8754.89410196024,23.9860112382472,18.6227963747685,28.222830795501,1485.04221473648
9321,19099,13348,"Neotoma","Taylor Lake","TAYLOR",46.100556,-123.906667,4,"not known","lake","core","-45","Long, C.J., and C. Whitlock. 2002. Fire and vegetation history from the coastal rain forest of the western Oregon Coast Range. Quaternary Research 58:215-225.",,8,"cool evergreen needleleaf forest",2.5768448119656,3716.80032206775,10.1830145810075,5.37197200404067,15.5099620937378,1993.14521606936
9321,19099,13349,"Neotoma","Taylor Lake","TAYLOR",46.100556,-123.906667,4,"not known","lake","core","14","Long, C.J., and C. Whitlock. 2002. Fire and vegetation history from the coastal rain forest of the western Oregon Coast Range. Quaternary Research 58:215-225.",,8,"cool evergreen needleleaf forest",2.5768448119656,3716.80032206775,10.1830145810075,5.37197200404067,15.5099620937378,1993.14521606936
9321,19100,17415,"Neotoma","Taylor Lake","TW122",42.58,-84.7,285,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.977388347350989,3583.00943734293,8.69744320233799,-5.85720559596728,21.842391219948,861.373901649725
9322,19101,14189,"Neotoma","Taylor Marsh","TAYLMRSH",38.9375,-120.059699999999,1896,"not known","terrestrial, marsh","core","22","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.601659127586265,2909.09711240371,7.85345058185108,-0.779463825274061,18.6919336919336,724.219735262304
9323,19102,15548,"Neotoma","Taylor Slough Site 14","DAW019",25.213056,-80.736389,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",1.08526984055505,8681.35590931874,23.7845367378596,18.247984616272,28.1185361952654,1549.0311470358
9324,19103,13350,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","-3","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13351,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","-1","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13352,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","1","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13353,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","2","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13354,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","4","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13355,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","7","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13356,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","11","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13357,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","14","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13358,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","21","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9324,19103,13359,"Neotoma","Taylor Slough Site 15","TAYLSL15",25.201944,-80.687222,5,"not known","terrestrial, marsh","core","30","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",1.02777996883999,8754.89364197325,23.9860099780089,18.6217515343629,28.2242397324747,1482.40218155289
9325,19104,15547,"Neotoma","Taylor Slough Site 2","DAW018",25.205556,-80.643889,4,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.970099615876978,8827.61718218469,24.1852525539307,18.991675408412,28.3298803505904,1413.86264373402
9326,19105,13360,"Neotoma","Taylor Slough Site 7","TAYLSL7",25.287222,-80.646389,5,"not known","terrestrial, marsh","core","-31","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.952455076533046,8726.74375618651,23.9088870032507,18.4909978299885,28.2506973168176,1384.67894214344
9326,19105,13361,"Neotoma","Taylor Slough Site 7","TAYLSL7",25.287222,-80.646389,5,"not known","terrestrial, marsh","core","-2","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.952455076533046,8726.74375618651,23.9088870032507,18.4909978299885,28.2506973168176,1384.67894214344
9326,19105,13362,"Neotoma","Taylor Slough Site 7","TAYLSL7",25.287222,-80.646389,5,"not known","terrestrial, marsh","core","27","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.952455076533046,8726.74375618651,23.9088870032507,18.4909978299885,28.2506973168176,1384.67894214344
9327,19106,8436,"EMPDv2","Taymyr peninsula","Niemeyer_a1",72.66776,105.88073,9,"0.02","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.889976015737471,898.418876563257,-14.2978530746992,-37.0822649601713,12.7855895943116,243.895489907408
9327,19107,8445,"EMPDv2","Taymyr peninsula","Niemeyer_a10",72.40615,105.44247,37,"0.24","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.903351121281479,894.792001293756,-14.2008777523992,-36.7884572679452,12.7503005989342,248.849413740596
9327,19108,8446,"EMPDv2","Taymyr peninsula","Niemeyer_a11",72.40078,105.43985,43,"0.04","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.904472093790507,894.113632066102,-14.2031350227183,-36.7963591569186,12.7438128643312,249.283679196447
9327,19109,8447,"EMPDv2","Taymyr peninsula","Niemeyer_a12",72.39236,105.46581,56,"0.8","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.906648170513937,892.723469871928,-14.2111189034112,-36.8247445469618,12.7304907176556,250.151002640694
9327,19110,8448,"EMPDv2","Taymyr peninsula","Niemeyer_a13",72.39159,105.44349,19,"0.7","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.89976201377587,897.193603550454,-14.1888064163839,-36.7578848071543,12.7731651351934,247.615138128947
9327,19111,8449,"EMPDv2","Taymyr peninsula","Niemeyer_a14",72.38663,105.45663,55,"0.05","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.906481144358028,892.879315339707,-14.2090004478913,-36.8192304360179,12.7319732254396,250.109171588395
9327,19112,8450,"EMPDv2","Taymyr peninsula","Niemeyer_a15",72.18103,104.48785,40,"not known","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.914672737132424,900.449647134643,-13.8740731122403,-35.9343504972245,12.8024461021237,253.69887518123
9327,19113,8451,"EMPDv2","Taymyr peninsula","Niemeyer_a16",72.15487,102.10133,19,"0.04","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.932161295943039,919.478792679386,-13.2179163523657,-34.3688767898403,12.9730067454679,259.986999546278
9327,19114,8452,"EMPDv2","Taymyr peninsula","Niemeyer_a17",72.15327,102.07542,69,"0.77","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.94259387351931,907.351613314199,-13.3283176557786,-34.5787655837094,12.8748431646524,263.233293868745
9327,19115,8453,"EMPDv2","Taymyr peninsula","Niemeyer_a18",72.14929,102.05598,0,"0.07","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.928492527100871,924.543256080447,-13.1690439254273,-34.2831193938852,13.0147259680364,258.865703539679
9327,19116,8454,"EMPDv2","Taymyr peninsula","Niemeyer_a19",72.1484,102.11604,28,"0.32","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.933768730707959,917.36730200141,-13.2378945495687,-34.4071777541485,12.955983888017,260.538873618711
9327,19117,8437,"EMPDv2","Taymyr peninsula","Niemeyer_a2",72.55307,105.71745,42,"0.05","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.903129670538286,893.396645097004,-14.2483460552339,-36.9112430157718,12.7370158273344,248.336434498397
9327,19118,8455,"EMPDv2","Taymyr peninsula","Niemeyer_a20",72.14203,102.0905,22,"0.88","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.932634072811488,919.104756790521,-13.2205047020132,-34.3784974675642,12.9705548537759,260.21501092041
9327,19119,8456,"EMPDv2","Taymyr peninsula","Niemeyer_a21",72.13599,102.06801,30,"0.06","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.934352718779808,917.382612400929,-13.2351369739936,-34.409599757532,12.9569975945833,260.778415903403
9327,19120,8457,"EMPDv2","Taymyr peninsula","Niemeyer_a22",72.12775,102.03437,36,"0.2","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.935730337676103,916.229213267263,-13.2439675516838,-34.4311572983055,12.9482079186073,261.241921723173
9327,19121,8458,"EMPDv2","Taymyr peninsula","Niemeyer_a23",71.88648,101.21703,50,"0.1","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.956143625933494,922.084552950563,-13.1152805507119,-34.4213613261021,13.0154982006019,267.395614210225
9327,19122,8459,"EMPDv2","Taymyr peninsula","Niemeyer_a24",71.4031,102.2826,65,"0.25","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.920022637575997,930.076061980399,-13.1322331284516,-34.4651618668163,13.0864523195586,262.426132517189
9327,19123,8460,"EMPDv2","Taymyr peninsula","Niemeyer_a25",71.11221,100.85285,95,"0.2","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.959915646457322,940.247728378884,-12.9318175925884,-34.5031873341698,13.2159014450108,274.800070819406
9327,19124,8461,"EMPDv2","Taymyr peninsula","Niemeyer_a26",71.10669,100.82288,8,"0.21","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.937815447032937,966.62000161796,-12.687201883944,-34.1037341888708,13.4362303803188,268.374902978889
9327,19125,8462,"EMPDv2","Taymyr peninsula","Niemeyer_a27",71.10383,100.87602,89,"0.5","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.957843407655306,942.099160280633,-12.91522304591,-34.4743088032718,13.2313967529045,274.261023691326
9327,19126,8463,"EMPDv2","Taymyr peninsula","Niemeyer_a28",71.10203,100.82722,84,"0.17","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.957377082360475,943.710972410083,-12.8992819292227,-34.4537778807339,13.2450939544456,274.089627848517
9327,19127,8464,"EMPDv2","Taymyr peninsula","Niemeyer_a29",71.09708,100.85389,88,"0.9","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.957878529351548,942.505530939915,-12.9110335687893,-34.4708416380324,13.2350069016057,274.284834070203
9327,19128,8438,"EMPDv2","Taymyr peninsula","Niemeyer_a3",72.54811,105.75047000000001,36,"0.04","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.896553201376853,896.471338337616,-14.2808851714671,-37.0662297733879,12.7663728645309,246.625409899606
9327,19129,8465,"EMPDv2","Taymyr peninsula","Niemeyer_a30",71.09591,100.79747,88,"0.37","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.958849621704836,942.613505721323,-12.9088417765921,-34.4737523948536,13.2361702342951,274.521285207466
9327,19130,8466,"EMPDv2","Taymyr peninsula","Niemeyer_a31",71.09266,100.83102,93,"0.07","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.959512689042424,941.077575687493,-12.923788240709,-34.495079792542,13.2232663716712,274.761124323402
9327,19131,8439,"EMPDv2","Taymyr peninsula","Niemeyer_a4",72.54794,105.72582,42,"0.02","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.903004087652868,893.494664529899,-14.248236106312,-36.9133131753924,12.7379195680856,248.325925794883
9327,19132,8440,"EMPDv2","Taymyr peninsula","Niemeyer_a5",72.54733,105.74213,1,"0.06","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.894400140600256,898.347456152042,-14.2305946750362,-36.8556867548311,12.7846152518367,245.253126394517
9327,19133,8441,"EMPDv2","Taymyr peninsula","Niemeyer_a6",72.54158,105.76354,54,"0.017","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.900424964388645,894.452174125269,-14.2903383608703,-37.1000053695171,12.7462882916784,248.024384083139
9327,19134,8442,"EMPDv2","Taymyr peninsula","Niemeyer_a7",72.4883,105.64833,73,"0.02","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.909379808780241,890.288810161564,-14.2481698050172,-36.9267912779769,12.7067966801284,250.852621217259
9327,19135,8443,"EMPDv2","Taymyr peninsula","Niemeyer_a8",72.41291,105.44771,32,"0.05","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.902406057289285,895.338401886957,-14.1996212247841,-36.7832639078277,12.7555334873135,248.475812567797
9327,19136,8444,"EMPDv2","Taymyr peninsula","Niemeyer_a9",72.41184,105.46357,26,"0.11","lake","sediment sample","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.90108954986192,896.148399438575,-14.197493320553,-36.7789168770187,12.763250405704,248.019664265146
9328,19137,7108,"EMPDv2","Taymyr pensula","EPDcoretop_E2041",72.24,102.24,54,"1","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.939522775488708,908.58040121624,-13.3272014947619,-34.5421337595177,12.8806745384371,261.815539709211
9329,19138,11272,"Bush et al., 2020","Taypi","Taypi",-16.2,-68.35,4299,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.331586761998693,2491.23195835473,6.8252930365883,3.86870664209194,8.884564535287,480.879476145516
9330,19139,6169,"EMPDv2","Tazekka National Park, Taza","AlbaSanchez_a97",34.043501,-4.195262,1235,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.323250815140905,5507.0442917745,15.0877925802041,7.11579549877913,25.2007346945416,454.897263250999
9330,19140,6170,"EMPDv2","Tazekka National Park, Taza","AlbaSanchez_a98",34.084397,-4.176906,1798,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.306248386641154,4977.45183089445,13.6368543312177,4.65402218502807,25.290877601997,444.202041586317
9330,19141,6171,"EMPDv2","Tazekka National Park, Taza","AlbaSanchez_a99",34.077415,-4.178092,1751,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.307548687276366,5021.80060224622,13.7583578143732,4.85999782213698,25.2825706154193,444.996095593694
9331,19142,6256,"EMPDv2","Tcerkovnoe","Binney2017_E2246",56.03,28.23,140,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.950758478286465,2595.5304658157,5.32500227685794,-7.65613617063636,16.9803526015756,626.207018928161
9332,19143,22979,"SMPDSv1","Teanga","EPDcoretop_E925",57.324041,-7.288235,18,"0.08333","lake","core top","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",3.16122490508478,3040.62952466437,8.33049184839552,4.07681890822531,13.2103301584493,1617.85047184284
9333,19144,11273,"Bush et al., 2020","Tecocomulco","Tecocomulco",19.88,-98.42,2743,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.496870215440021,5027.48449753767,13.7739301302402,11.0181499235887,16.0475498294278,731.970301352727
9334,19145,11274,"Bush et al., 2020","Tecoconulco1","Tecoconulco1",19.87,-98.4,2535,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.552983658953488,5339.24660132631,14.6280728803461,11.6783322441889,16.9854172088568,814.307404246326
9335,19146,22980,"SMPDSv1","Teersee","Teerofensee_ss",51.9193,14.2263,65,"0.08","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.76270643649838,3339.47842563018,9.04907137872959,-0.951284531259122,18.268152967636,550.258087370021
9336,19147,1435,"Australian pollen","Tegepangwa","Tegepangwa_a",-5.7889,145.0139,3820,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.795848881542075,5358.59683191968,14.6810872107388,13.4974028840361,15.4234813178996,1108.0435909382
9336,19148,1436,"Australian pollen","Tegepangwa","Tegepangwa_b",-5.7889,145.0139,3820,"not known","lake","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.795848881542075,5358.59683191968,14.6810872107388,13.4974028840361,15.4234813178996,1108.0435909382
9337,19149,22981,"SMPDSv1","Teici Mire 1","LV/LK/TEI1",56.588,26.469,104,"not applicable","terrestrial","pollen trap","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.969594822400983,2549.20368802503,5.36059588098833,-6.93750658307108,16.7220417969193,617.848584322628
9338,19150,22982,"SMPDSv1","Teigan","N/CJ/HA1",68.569444,14.65,56,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.40828122928395,1401.59749495989,2.63432221656752,-3.9132973270121,11.087186581392,1268.45555429108
9338,19151,22983,"SMPDSv1","Teigan","N/CJ/HA2",68.569444,14.655556,39,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.39304378831424,1408.0841435396,2.71507995263527,-3.73989967239979,11.071663237243,1260.83863181728
9339,19152,11275,"Bush et al., 2020","Tekom","Tekom",20.6,-88.27,26,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.747941538022704,9410.95176127924,25.7834294829568,22.6697301332697,27.8315869430989,1142.26836759428
9340,19153,1437,"Australian pollen","Telefomin","Telefomin core",-5.1833,141.6333,1280,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",3.24438099885196,8358.54108667653,22.9001125662371,22.0344873129461,23.330410056589,4426.56210370756
9341,19154,13363,"Neotoma","Telegraph Creek","TELEGRPH",46.531111,-112.395556,2130,"not known","terrestrial, marsh","core","-27","Brant, L.A. 1980. A palynological investigation of postglacial sediments at two locations along the Continental Divide near Helena, Montana. Dissertation. Pennsylvania State University, State college, Pennsylvania, USA.",,17,"temperate evergreen needleleaf open woodland",0.429692472455936,2193.11970134606,4.28379815141849,-6.70822421493091,16.3884028168321,372.155112502924
9342,19155,22984,"SMPDSv1","Telkkalampi","Seppa_b39",63.6,29.92,138,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1441377993613,1980.68975059449,1.9961369268049,-12.2277714923621,16.0712062197187,578.470090065717
9343,19156,10268,"Herzschuh et al., 2019","Telmen Nuur.1A","Telmen Nuur.1A",48.83108,97.49133,1580,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.351277567818987,1707.84806806888,-5.15439427110451,-29.5185931137122,14.5576920852748,285.366887085772
9344,19157,22985,"SMPDSv1","Temnitzsee","Temnitzsee_ss",53.12171,13.6462,60,"0.099","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.798288674935926,3279.51394728227,8.9092637348515,-0.724387652831043,17.9582499517593,560.92241294678
9345,19158,13364,"Neotoma","Ten Lakes","TENLAKES",37.9,-119.533333,2743,"not known","lake","core","-35","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.",,17,"temperate evergreen needleleaf open woodland",0.681126509700697,2027.11669942758,4.7142337996705,-3.25149761574215,15.5169346267368,795.81341890059
9346,19159,13365,"Neotoma","Ten Mile Lake","TENMILE",63.066667,-145.7,1000,"not known","lake","core","0","Anderson, P.M., A.V. Lozhkin, W.R. Eisner, D.M. Hopkins, L.B. Brubaker, and P.A. Colinvaux. 1994. Pollen records from Ten Mile and Wonder Lake, Alaska. Geographie Physique et Quaternaire 48(2):131-141..",,31,"tundra",0.780728582864722,1165.27434136159,-5.1111612250773,-21.6270488279894,11.5955728146387,321.456032191956
9347,19160,11276,"Bush et al., 2020","Tena182","Tena182",-0.628648,-77.8410034,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.5627729441843,6246.77397567934,17.1144492484366,16.4756539491502,17.4170932153019,1995.69117899764
9348,19161,11277,"Bush et al., 2020","Tena183","Tena183",-0.630723,-77.8414001,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56283472435983,6246.80853833252,17.114543940637,16.4755905915258,17.4171940112563,1995.8164812009
9349,19162,11278,"Bush et al., 2020","Tena184","Tena184",-0.631522,-77.8414001,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56286782744326,6246.83036034534,17.1146037269735,16.4755850322142,17.4172493045041,1995.87611670484
9350,19163,11279,"Bush et al., 2020","Tena185","Tena185",-0.631871,-77.8404999,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56293736470757,6246.89003016692,17.1147672059368,16.4756935721463,17.4173704821501,1995.96949277485
9351,19164,11280,"Bush et al., 2020","Tena187","Tena187",-0.629431,-77.8414993,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56277507587581,6246.76771948994,17.1144321081916,16.4755873423953,17.4170938977584,1995.71256785941
9352,19165,11281,"Bush et al., 2020","Tena188","Tena188",-0.626191,-77.8421021,2275,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.41803724291005,5903.61850913083,16.17429728529,15.5753752045594,16.4631253284675,1811.23133565689
9353,19166,11282,"Bush et al., 2020","Tena189","Tena189",-0.625207,-77.8414001,2071,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.56260561303287,6246.65785668158,17.1141311141961,16.4756289266336,17.4168122745241,1995.40407697848
9354,19167,11283,"Bush et al., 2020","Tena190","Tena190",-0.593841,-77.8778992,2046,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57668110258504,6285.74148868005,17.2212095580275,16.5815873365304,17.5274889222902,2012.7086314372
9355,19168,11284,"Bush et al., 2020","Tena191","Tena191",-0.59462,-77.8771973,2046,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.57676083232138,6285.8038588386,17.2213804351742,16.581670891397,17.5276216003168,2012.82537361682
9356,19169,22986,"SMPDSv1","Tenaghi Philippon","EPDcoretop_E650",40.983333,24.783333,10,"not applicable","coastal, estuarine","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.503821937122473,5294.89457103557,14.5065604685906,4.40141944653873,24.4728606904935,598.636347704346
9357,19170,11285,"Bush et al., 2020","TenaTrail149","TenaTrail149",-0.91093,-77.8414001,619,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61181627374288,8683.45120498948,23.7902772739438,22.7965352861789,24.2486969413411,3317.51048714808
9358,19171,11286,"Bush et al., 2020","TenaTrail150","TenaTrail150",-0.910782,-77.8414993,619,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61180776374648,8683.44433236223,23.790258444828,22.7965320726801,24.2486864741161,3317.49456903496
9359,19172,11287,"Bush et al., 2020","TenaTrail151","TenaTrail151",-0.910056,-77.8414993,619,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61180645299857,8683.45311711278,23.7902825126378,22.7966132281297,24.2487277541944,3317.48039693751
9360,19173,11288,"Bush et al., 2020","TenaTrail152","TenaTrail152",-0.909874,-77.8410034,619,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61184733641432,8683.49863904493,23.7904072302601,22.796732352730402,24.2488325304405,3317.54198562309
9361,19174,11289,"Bush et al., 2020","TenaTrail153","TenaTrail153",-0.912901,-77.8402023,619,"not known","terrestrial","soil sample","-56","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.61191902208554,8683.53181590221,23.7904981257595,22.7965532854239,24.2488125351622,3317.70583024832
9362,19175,11290,"Bush et al., 2020","TenaTrail155","TenaTrail155",-0.908483,-77.8404007,619,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.6118947731849,8683.56812806721,23.790597611143,22.79700792507,24.2490264302638,3317.5938378087
9363,19176,11291,"Bush et al., 2020","TenaTrail158","TenaTrail158",-0.9044,-77.8424988,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48421454604317,8392.00819754882,22.9918032809557,22.0355925755234,23.4265687283595,3161.42154612119
9364,19177,11292,"Bush et al., 2020","TenaTrail159","TenaTrail159",-0.90302,-77.8436966,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48411429560298,8391.92546889672,22.9915766271143,22.0355177867763,23.4264272263769,3161.24511932338
9365,19178,11293,"Bush et al., 2020","TenaTrail160","TenaTrail160",-0.903521,-77.8434982,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48413151875702,8391.93585525739,22.991605082897,22.0354999544069,23.4264356419826,3161.2796963916
9366,19179,11294,"Bush et al., 2020","TenaTrail161","TenaTrail161",-0.904034,-77.8430023,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48417291107435,8391.9708253227,22.9917008912951,22.0355374071962,23.4264974611025,3161.35161984404
9367,19180,11295,"Bush et al., 2020","TenaTrail162","TenaTrail162",-0.904556,-77.8427963,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.4841907293207,8391.98155609539,22.9917302906723,22.0355186397698,23.4265060255937,3161.38746507197
9368,19181,11296,"Bush et al., 2020","TenaTrail163","TenaTrail163",-0.905221,-77.8427963,792,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.484192095165,8391.97340101541,22.9917079479874,22.035444777972,23.4264692147545,3161.40034712197
9369,19182,11297,"Bush et al., 2020","TenaTrail164","TenaTrail164",-0.908363,-77.8419037,635,"not known","terrestrial","soil sample","-66","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.59993831060687,8656.48522349308,23.7163978725838,22.7262981470645,24.1726969697352,3302.98270527182
9370,19183,22987,"SMPDSv1","Tenndammen","Bjune_a320",78.1,15.0333333333333,5,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.85458300515339,349.476626015673,-5.62728989223268,-13.5165555108651,4.92444313481302,432.863724146889
9371,19184,15252,"Neotoma","Tennyson","AMD019",42.65,-90.67,305,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.918229641954817,3538.72325854869,7.77634861824384,-9.41237184805973,22.2792670201389,831.211548036248
9372,19185,22988,"SMPDSv1","Teno river","FIN/SPH/U16",69.9320055555556,27.1867305555556,147,"not applicable","terrestrial","pollen trap","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.45798123980745,1262.17551026705,-1.6283431258447,-14.3502604892781,12.5921847658003,505.245784732655
9373,19186,11298,"Bush et al., 2020","Tepeltitic","Tepeltitic",21.27,-104.68,1486,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.550416799673722,7292.45593636776,19.9793313325144,15.7785318436571,23.3943884184771,905.934309688501
9374,19187,7013,"EMPDv2","Teplicke udoli","EPDcoretop_E1547",50.58,16.13,715,"0.01","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.23857704810537,2550.20415833949,6.16845090482841,-4.38420382854172,15.4622049443701,873.561473566087
9375,19188,11299,"Bush et al., 2020","Teremendo","Teremendo",19.81,-101.45,2176,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.52495032761557,6080.09819890937,16.6578032846832,12.8022944236378,19.9145295489632,803.615634989864
9376,19189,22989,"SMPDSv1","Tersana","Barboni_a1443",35.573839,24.080557,8,"not known","lake","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.375513604449255,6647.37602252598,18.2119891028109,10.8977156721776,26.2378431769136,571.637597554005
9377,19190,22990,"SMPDSv1","Teufelssee","Teufelssee_ss",53.01995,12.8263,52,"0.048","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.809143872444799,3254.97690694873,8.87042822223029,-0.462514608162175,17.7635414357426,565.874901395596
9378,19191,8356,"EMPDv2","Thamir","Naidina_a2",49.9,53.8,76,"not applicable","terrestrial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.299821557724832,3557.40772869349,6.54991731183556,-12.4554688441033,24.3046263526755,262.215393544682
9379,19192,16731,"Neotoma","The Albany Forks","RGS001",51.03,-84.38,91,"not known","not known","surface sample","Modern","Skinner, R.G., 1973. Quaternary geology of the Moose River basin. Geological Survey of Canada Bulletin, 225, p.77.",,9,"cool mixed forest",1.06283780034163,1961.07990281363,-0.982247608981103,-21.5786041128044,16.5770006256575,652.44894063294
9380,19193,22991,"SMPDSv1","The Noads Bog","Grant_a13",50.853407,-1.436677,30,"0.045","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21359406510235,3737.86299722428,10.2407205403405,4.68640467979983,16.4838460070392,870.393658727552
9381,19194,14198,"Neotoma","Thibaudeau","THIB127B",57.0870833333333,-94.1694444444444,125,"not known","terrestrial, bog/fen/swamp","core","-34","Dredge, L.A., and R.J. Mott. 2003. Holocene pollen records and peatland development, northeastern Manitoba. Géographie physique et Quaternaire 57:7-19.",,15,"cold evergreen needleleaf forest",0.955632998819246,1438.58345904942,-5.08237097352444,-26.049088456917602,14.2635477866932,476.37901781545
9382,19195,16075,"Neotoma","Thinn Lake","JHM028",44.95,-79.28,282,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.14796354163014,2861.35940119359,5.46033061983145,-10.088416660655,19.3610079108683,945.791441878597
9382,19196,16076,"Neotoma","Thinn Lake","RJM053",44.95,-79.28,282,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.14796354163014,2861.35940119359,5.46033061983145,-10.088416660655,19.3610079108683,945.791441878597
9383,19197,16636,"Neotoma","Third Lake","PCS10",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19198,16638,"Neotoma","Third Lake","PCS11",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19199,16640,"Neotoma","Third Lake","PCS12",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19200,16634,"Neotoma","Third Lake","PCS13",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19201,16644,"Neotoma","Third Lake","PCS14",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19202,16631,"Neotoma","Third Lake","PCS15",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19203,16639,"Neotoma","Third Lake","PCS16",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19204,16645,"Neotoma","Third Lake","PCS17",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19205,16637,"Neotoma","Third Lake","PCS18",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19206,16633,"Neotoma","Third Lake","PCS19",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19207,16632,"Neotoma","Third Lake","PCS20",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19208,16635,"Neotoma","Third Lake","PCS21",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19209,16643,"Neotoma","Third Lake","PCS22",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19210,16641,"Neotoma","Third Lake","PCS23",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9383,19211,16642,"Neotoma","Third Lake","PCS24",48.098755,-92.010535,446,"not known","lake","surface sample","Modern","Swain, P.C. 1979. The development of some bogs in eastern Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.992674192248264,2441.10351344923,2.48008440758008,-16.1190609753382,18.1198800989401,730.647332383077
9384,19212,11996,"Neotoma","Thomas Lakes North","SM-TL-N",39.27261,-107.14384,3089,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.561995723779296,1279.1417213676,-0.550277584817997,-12.1267539049404,11.2475816014896,532.693023883186
9385,19213,11995,"Neotoma","Thomas Lakes South","SM-TL-S",39.270095,-107.14066,3114,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.567349130211668,1247.63402472682,-0.713429679535692,-12.2466056744214,11.0542760330432,535.596369643398
9386,19214,17302,"Neotoma","Thompson (US:Wisconsin)","TW007",44.634444,-91.986667,233,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.860440425247887,3536.86705207084,7.39608878044635,-10.8243540582203,22.7086024689348,744.846732821038
9387,19215,13369,"Neotoma","Thompson Pond","THOMPSON",47.19482,-96.09332,368,"not known","lake","core","3","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,22,"steppe",0.711890429118588,3018.44113347908,4.56316022241542,-15.0078829877065,20.8260727038545,579.21549129204
9387,19215,13370,"Neotoma","Thompson Pond","THOMPSON",47.19482,-96.09332,368,"not known","lake","core","26","McAndrews, J.H. 1966. Postglacial history of prairie, savanna, and forest in northwestern Minnesota. Torrey Botanical Club Memoir 22(2):1-72.",,22,"steppe",0.711890429118588,3018.44113347908,4.56316022241542,-15.0078829877065,20.8260727038545,579.21549129204
9388,19216,1438,"Australian pollen","Thompson River","Thompson River",-37.75,146.083,860,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.11076170115048,3541.81516553121,9.7036031932362,2.81687484375167,17.025587174359,1262.22079043978
9389,19217,11900,"Neotoma","Thompson site","CT5041",56.1666666666667,-97.8333333333333,305,"not known","not known","surface sample","-20","Ritchie, J.C. 1976. The late-Quaternary vegetational history of the western interior of Canada. Canadian Journal of Botany 54(15):1793-1818.","10.1139/b76-194",15,"cold evergreen needleleaf forest",0.888726433459477,1595.55999050492,-4.38628417145559,-26.1128274457049,15.1630516787425,481.008314236861
9390,19218,15556,"Neotoma","Thompsons Lake","DCG08",42.65,-74.05,387,"not known","lake","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.32269698283734,3145.40293144649,7.10266937598549,-7.26052522684328,20.1265634646292,1087.53668092271
9391,19219,24480,"Southern Hemisphere pollen","Thool Swamp","Thol_25",9.537008,138.165772,5,"small (0.01-1 km2)","terrestrial","core","-14","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36555393123944,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
9391,19220,24479,"Southern Hemisphere pollen","Thool Swamp","Thool_0",9.537008,138.165772,5,"small (0.01-1 km2)","terrestrial","core","-49","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36555393123944,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
9391,19221,24481,"Southern Hemisphere pollen","Thool Swamp","Thool_45",9.537008,138.165772,5,"small (0.01-1 km2)","terrestrial","core","15","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36555393123944,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
9391,19222,24482,"Southern Hemisphere pollen","Thool Swamp","Thool_55",9.537008,138.165772,5,"small (0.01-1 km2)","terrestrial","core","29","Dodson, J.R. and Intoh, M., 1999. Prehistory and palaeoecology of Yap, federated states of Micronesia. Quaternary International, 59(1), pp.17-26.","10.1016/S1040-6182(98)00068-8",3,"tropical deciduous broadleaf forest and woodland",2.36555393123944,9992.65346535047,27.3771327817821,26.9372921228409,27.7372921824455,3414.54617556847
9392,19223,16556,"Neotoma","Three Mile Pond","KG050",44.38,-69.62,54,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46583708347584,3037.52978378987,6.77742053412692,-7.30100101446237,19.9014501803988,1161.16580602659
9393,19224,12212,"Neotoma","Three Pines Bog","3PINES",47,-80.116667,294,"not known","terrestrial, bog/fen/swamp","core","-26","Gordon, D.L. 1990. Prehistoric occupations at Lake Temagami. Pages 152-183 in M. Bray and A. Thomson, editors. Temagami: a debate on wilderness. Dunburn Press, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.14607106920874,2566.47609014268,3.35217723309171,-14.1958325626043,18.6218884773523,871.134092911215
9393,19224,12213,"Neotoma","Three Pines Bog","3PINES",47,-80.116667,294,"not known","terrestrial, bog/fen/swamp","core","10","Gordon, D.L. 1990. Prehistoric occupations at Lake Temagami. Pages 152-183 in M. Bray and A. Thomson, editors. Temagami: a debate on wilderness. Dunburn Press, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.14607106920874,2566.47609014268,3.35217723309171,-14.1958325626043,18.6218884773523,871.134092911215
9393,19224,12214,"Neotoma","Three Pines Bog","3PINES",47,-80.116667,294,"not known","terrestrial, bog/fen/swamp","core","50","Gordon, D.L. 1990. Prehistoric occupations at Lake Temagami. Pages 152-183 in M. Bray and A. Thomson, editors. Temagami: a debate on wilderness. Dunburn Press, Toronto, Ontario, Canada.",,9,"cool mixed forest",1.14607106920874,2566.47609014268,3.35217723309171,-14.1958325626043,18.6218884773523,871.134092911215
9394,19225,1439,"Australian pollen","Three Quarter Mile Lake","Three Quarter Mile Lake centre core",-13.7473,143.4874,199,"small (0.01-1 km2)","lake","core top","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.779077051120204,9403.60851621213,25.7633110033209,22.7214675455205,28.1991068678483,1328.67571040794
9395,19226,1440,"Australian pollen","Tiam Point","Tiam Point",-10.2,142.3,3,"not known","coastal, other","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9395,19226,1441,"Australian pollen","Tiam Point","Tiam Point",-10.2,142.3,3,"not known","coastal, other","core","25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9396,19227,4803,"CMPD","Tianbaoyan","Tianbaoyan 1",25.97,117.51,1187,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.47455595164974,5624.12756872693,15.4085686814436,6.54578636783637,23.1860056347826,1653.81169119735
9396,19228,4804,"CMPD","Tianbaoyan","Tianbaoyan 2",25.96,117.43,625,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37478042938124,6456.06220855705,17.6878416672796,8.25037605272674,26.1682623115862,1594.87210770825
9396,19229,4805,"CMPD","Tianbaoyan","Tianbaoyan 3",25.96,117.43,626,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37494156656536,6454.61723947378,17.6838828478734,8.24755282671832,26.1629301119119,1594.96888979763
9396,19230,4806,"CMPD","Tianbaoyan","Tianbaoyan 4",25.96,117.43,626,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37494156656536,6454.61723947378,17.6838828478734,8.24755282671832,26.1629301119119,1594.96888979763
9397,19231,10269,"Herzschuh et al., 2019","Tiancai","Tiancai 1",26.63,99.72,3898,"not known","not known","not known","8.6","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.658478449977732,1025.96555945719,0.735066170194632,-6.72198660975373,7.63573291814618,677.120215778886
9397,19232,10270,"Herzschuh et al., 2019","Tiancai","Tiancai 2",26.63,99.72,3898,"not known","not known","not known","34.799999999999997","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",13,"temperate deciduous broadleaf forest",0.658478449977732,1025.96555945719,0.735066170194632,-6.72198660975373,7.63573291814618,677.120215778886
9398,19233,4807,"CMPD","Tianmu Mt","Tianmu Mt 1",30.37,119.45,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",2.15800946936965,4161.88576670008,11.4024267580824,0.592824443863863,21.1497517125574,2167.39298870531
9398,19234,4808,"CMPD","Tianmu Mt","Tianmu Mt 2",30.37,119.45,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",2.00147030892374,4392.06877357997,12.0330651330958,0.989467134894328,22.1186255512758,2041.48970250538
9398,19235,4809,"CMPD","Tianmu Mt","Tianmu Mt 3",30.37,119.45,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.9251267552508,4507.16027701992,12.3483843206025,1.18778848040956,22.603062470635,1978.53805940541
9398,19236,4810,"CMPD","Tianmu Mt","Tianmu Mt 4",30.37,119.45,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.77609606031727,4737.34328389981,12.9790226956159,1.58443117144003,23.5719363093534,1852.63477320547
9398,19237,4811,"CMPD","Tianmu Mt","Tianmu Mt 5",30.37,119.45,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.77609606031727,4737.34328389981,12.9790226956159,1.58443117144003,23.5719363093534,1852.63477320547
9399,19238,4812,"CMPD","Tianshan GZ","Tianshan GZ1",43.2,87.15,3736,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.243632135008217,697.498179940355,-5.14490595621291,-18.7434264391428,7.05122919167024,216.96258776446
9399,19239,4813,"CMPD","Tianshan GZ","Tianshan GZ2",43.2,87.15,4075,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263363590835791,424.103608180471,-6.77108242706725,-19.667512704714,4.9759648352026,227.445147248517
9399,19240,4814,"CMPD","Tianshan GZ","Tianshan GZ3",43.2,87.15,4075,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263363590835791,424.103608180471,-6.77108242706725,-19.667512704714,4.9759648352026,227.445147248517
9399,19241,4815,"CMPD","Tianshan GZ","Tianshan GZ4",43.2,87.15,4075,"not applicable","glacial","surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263363590835791,424.103608180471,-6.77108242706725,-19.667512704714,4.9759648352026,227.445147248517
9400,19242,4816,"CMPD","Tianshan Mt","Tianshan Mt 1",43,87,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.156368265948756,2588.09419177689,3.42831216842259,-13.7210966642013,17.8287939136542,159.663550729751
9400,19243,4817,"CMPD","Tianshan Mt","Tianshan Mt 2",43,87,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.145667976401717,2914.11216428753,4.69229146010012,-12.9707456758054,19.4125975600628,151.085535222613
9400,19244,4818,"CMPD","Tianshan Mt","Tianshan Mt 3",43,87,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.17825043085635,1991.49897249382,0.997582761350419,-15.1640793341935,14.7830176705608,176.159734397325
9400,19245,4819,"CMPD","Tianshan Mt","Tianshan Mt 4",43,87,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.145667976401717,2914.11216428753,4.69229146010012,-12.9707456758054,19.4125975600628,151.085535222613
9400,19246,4820,"CMPD","Tianshan Mt","Tianshan Mt 5",43,87,3015,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.202876989173472,1423.0727951665301,-1.50606852793392,-16.6503514842854,11.6458681401747,193.150803574925
9400,19247,4821,"CMPD","Tianshan Mt","Tianshan Mt 6",43,87,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.145667976401717,2914.11216428753,4.69229146010012,-12.9707456758054,19.4125975600628,151.085535222613
9400,19248,4822,"CMPD","Tianshan Mt","Tianshan Mt 7",43,87,1740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.145667976401717,2914.11216428753,4.69229146010012,-12.9707456758054,19.4125975600628,151.085535222613
9401,19249,4823,"CMPD","Tianshan North","Tianshan North 01",43.7943,88.2274,3510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.266724193741561,638.781321941281,-5.9634198321112,-19.4851614077553,6.77802228516873,226.620399189003
9401,19250,4824,"CMPD","Tianshan North","Tianshan North 02",43.7933,88.2269,3420,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.260179889454511,722.079503896731,-5.49865419795901,-19.2597578677146,7.38788687234663,223.380989174537
9401,19251,4825,"CMPD","Tianshan North","Tianshan North 03",43.7927,88.2239,3400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.258715718561146,741.155523540738,-5.3935202675523,-19.2072070569313,7.52400632282634,222.641886230521
9401,19252,4826,"CMPD","Tianshan North","Tianshan North 04",43.7926,88.2235,3380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.257289219023267,760.188149110169,-5.29012107463203,-19.1569157616737,7.65953012760038,221.921108169234
9401,19253,4827,"CMPD","Tianshan North","Tianshan North 05",43.7927,88.2193,3300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.251641361209232,837.883537638779,-4.87520925552293,-18.9538049703315,8.20186315359592,219.026031746504
9401,19254,4828,"CMPD","Tianshan North","Tianshan North 06",43.793,88.2124,3200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.244741423735438,938.028485517046,-4.35592976090649,-18.6989321883538,8.87988491640331,215.405239678686
9401,19255,4829,"CMPD","Tianshan North","Tianshan North 07",43.7969,88.2072,3130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.240052897782694,1009.84070285869,-3.99357435049809,-18.5213257969547,9.35340534987433,212.887049555438
9401,19256,4830,"CMPD","Tianshan North","Tianshan North 08",43.7971,88.2078,3110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.238734707310676,1030.56143711586,-3.8909037771164,-18.4719761915955,9.48866766254316,212.174472553075
9401,19257,4831,"CMPD","Tianshan North","Tianshan North 09",43.8108,88.1983,3000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.231637493425003,1146.58550909406,-3.32357037808881,-18.1944951134697,10.2307786169258,208.249503461357
9401,19258,4832,"CMPD","Tianshan North","Tianshan North 10",43.8159,88.1946,2910,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.225948842796876,1244.13468768998,-2.8598164265648,-17.9693988321783,10.8392028892555,205.039138022914
9401,19259,4833,"CMPD","Tianshan North","Tianshan North 11",43.8156,88.1941,2900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.225317071314429,1255.18911305424,-2.80798386873451,-17.9441099231606,10.9070514535118,204.679282066212
9401,19260,4834,"CMPD","Tianshan North","Tianshan North 12",43.8247,88.1636,2900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.225265007256649,1255.82509088072,-2.79639512893663,-17.9258350820361,10.9079868545391,204.618842252669
9401,19261,4835,"CMPD","Tianshan North","Tianshan North 13",43.8182,88.1898,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.219135196200507,1366.51575579744,-2.29185207535104,-17.6933833735602,11.5839262100667,201.105999465313
9401,19262,4836,"CMPD","Tianshan North","Tianshan North 14",43.8178,88.1894,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.219130605239315,1366.54892760755,-2.29154601268575,-17.6930043742649,11.5840710914757,201.103553850633
9401,19263,4837,"CMPD","Tianshan North","Tianshan North 15",43.826,88.1645,2800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.219114878656776,1367.00954444458,-2.28289543706363,-17.6790431529017,11.5844689771754,201.072039535835
9401,19264,4838,"CMPD","Tianshan North","Tianshan North 16",43.8201,88.1777,2755,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.216379128824784,1417.74814834322,-2.05539031667447,-17.5742903038444,11.8893264077029,199.479845142353
9401,19265,4839,"CMPD","Tianshan North","Tianshan North 17",43.82,88.1778,2750,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.216076954725093,1423.43247515306,-2.02967152909825,-17.5619167291234,11.9231923906275,199.30158845104
9401,19266,4840,"CMPD","Tianshan North","Tianshan North 18",43.8222,88.1759,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.213092559855151,1480.59219577394,-1.7722307676384,-17.4372994096453,12.2613179658172,197.524944077604
9401,19267,4841,"CMPD","Tianshan North","Tianshan North 19",43.8266,88.1669,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.213105439068774,1480.68032675366,-1.76976503277967,-17.4329688233455,12.2610418497409,197.524306241479
9401,19268,4842,"CMPD","Tianshan North","Tianshan North 20",43.8247,88.18,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.213122400069652,1480.33396035922,-1.774770140781,-17.4406502583211,12.2603105743765,197.541754654816
9401,19269,4843,"CMPD","Tianshan North","Tianshan North 21",43.8242,88.1756,2600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207218188771993,1596.70672391621,-1.25813773559488,-17.1896571754406,12.9378755571674,193.970720859008
9401,19270,4844,"CMPD","Tianshan North","Tianshan North 22",43.8274,88.1683,2600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207230958408427,1596.78992988472,-1.25617955085518,-17.1862521096234,12.9377123657084,193.973159638907
9401,19271,4845,"CMPD","Tianshan North","Tianshan North 23",43.8536,88.1614,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201669462301263,1714.26968320149,-0.747261737052475,-16.9431324289807,13.6091950730373,190.507439801913
9401,19272,4846,"CMPD","Tianshan North","Tianshan North 24",43.8475,88.1344,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201605633550358,1715.38154997214,-0.735184323254235,-16.925584772807,13.6124860734315,190.469044825221
9401,19273,4847,"CMPD","Tianshan North","Tianshan North 25",43.8421,88.1741,2428,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.197527497457416,1801.13873004241,-0.377971133293286,-16.7682319155522,14.0985717169723,187.910037176894
9401,19274,4848,"CMPD","Tianshan North","Tianshan North 26",43.8485,88.1349,2400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.196012575791802,1836.01290546478,-0.221918298427233,-16.6794124133426,14.2891810955883,186.935477980176
9401,19275,4849,"CMPD","Tianshan North","Tianshan North 27",43.9091,88.1733,2320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192005319130612,1930.24898363246,0.157832793155462,-16.5238677890598,14.8163949282927,184.299470525781
9401,19276,4850,"CMPD","Tianshan North","Tianshan North 28",43.8493,88.1376,2300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.190538406070728,1958.69326778726,0.290709652857171,-16.4343238478241,14.9658416916611,183.399247490683
9401,19277,4851,"CMPD","Tianshan North","Tianshan North 29",43.8506,88.1456,2295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.190269541418717,1964.60473140772,0.313353398105155,-16.4266510548948,14.9990169577136,183.222136770674
9401,19278,4852,"CMPD","Tianshan North","Tianshan North 30",43.842,88.1696,2230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186681685094457,2045.31386321216,0.642428390502409,-16.2752394307483,15.4397373114558,180.864405266243
9401,19279,4853,"CMPD","Tianshan North","Tianshan North 31",43.8417,88.1689,2230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186680614240923,2045.34567392665,0.642741804318735,-16.2747698090167,15.4398267744831,180.864012113519
9401,19280,4854,"CMPD","Tianshan North","Tianshan North 32",43.8537,88.1449,2100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179942272779002,2209.79260410895,1.31496292860034,-15.945804165672,16.3188193110099,176.323696499322
9401,19281,4855,"CMPD","Tianshan North","Tianshan North 33",43.8568,88.1347,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.174848794182654,2338.54136072175,1.83077817078037,-15.6953981847142,16.9956677605967,172.814820808377
9401,19282,4856,"CMPD","Tianshan North","Tianshan North 34",43.8576,88.1475,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.174815584349277,2338.22830216858,1.82714093729686,-15.7015522800789,16.9952454003277,172.787626939743
9401,19283,4857,"CMPD","Tianshan North","Tianshan North 35",43.8916,88.1107,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.170110160338537,2467.92851347145,2.34037852386828,-15.4522984431961,17.6677216722709,169.466615505059
9401,19284,4858,"CMPD","Tianshan North","Tianshan North 36",43.8917,88.1108,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.17011037291387,2467.92253212209,2.34032564218149,-15.4523814404412,17.6677052674671,169.466656367979
9401,19285,4859,"CMPD","Tianshan North","Tianshan North 37",43.9035,88.1161,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.165230498783907,2599.4867125597402,2.84931712645234,-15.2135627951676,18.3434389096136,165.961002594258
9401,19286,4860,"CMPD","Tianshan North","Tianshan North 38",43.9058,88.019,1800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.165664446488734,2601.00942554168,2.86990149289824,-15.1751141375558,18.3432680251129,166.312147366691
9401,19287,4861,"CMPD","Tianshan North","Tianshan North 39",43.9218,88.0725,1720,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.16166592301324,2706.34299406462,3.26410655775432,-15.0073678991642,18.882989447825,163.369693223068
9401,19288,4862,"CMPD","Tianshan North","Tianshan North 40",43.9212,88.0679,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.16073141046911,2733.3563561198,3.3677614720858,-14.9564000420557,19.0185318387838,162.685436815377
9401,19289,4863,"CMPD","Tianshan North","Tianshan North 41",43.9164,88.111,1615,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.156460940360255,2847.96331825768,3.79704704476061,-14.7623888226723,19.5954996184735,159.495248090852
9401,19290,4864,"CMPD","Tianshan North","Tianshan North 42",43.9265,88.0754,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.156003723544903,2868.44560132064,3.87781472380449,-14.7167216884448,19.6955545616874,159.163014703009
9401,19291,4865,"CMPD","Tianshan North","Tianshan North 43",43.9287,88.0932,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.155915990263013,2868.15952249182,3.87403434264462,-14.7241803947922,19.6955911076339,159.086758587594
9401,19292,4866,"CMPD","Tianshan North","Tianshan North 44",43.9303,88.0852,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.151333803904922,3005.26442426604,4.38825688597236,-14.4769842779786,20.3730546040823,155.614901592892
9401,19293,4867,"CMPD","Tianshan North","Tianshan North 45",43.9315,88.0895,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.151313176665027,3005.18464508366,4.38725941818603,-14.478988930032,20.373044401027,155.596019744371
9401,19294,4868,"CMPD","Tianshan North","Tianshan North 46",43.9465,88.0942,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.146798139530492,3143.34052306891,4.89615295470882,-14.2420263153547,21.0498767312951,152.094995784704
9401,19295,4869,"CMPD","Tianshan North","Tianshan North 47",43.9459,88.095,1400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.146790192395461,3143.35198404604,4.89618800462456,-14.2420307957468,21.0499444120252,152.08871183635
9401,19296,4870,"CMPD","Tianshan North","Tianshan North 48",43.9581,88.0833,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.142451940389485,3283.31819345228,5.40821518022873,-13.9987374998661,21.7268906346751,148.674522284724
9401,19297,4871,"CMPD","Tianshan North","Tianshan North 49",43.958,88.0867,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.142427184666536,3283.30401757576,5.40781632530526,-13.9997517378726,21.727019153105,148.652887038039
9401,19298,4872,"CMPD","Tianshan North","Tianshan North 50",43.9722,88.0778,1230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.139467998711223,3382.06171598421,5.76492639846711,-13.8319942733442,22.2007659056802,146.286399854054
9401,19299,4873,"CMPD","Tianshan North","Tianshan North 51",43.9735,88.0764,1200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.138175307815148,3424.73237965413,5.91879342290817,-13.7588103685435,22.4041672043779,145.245093150893
9401,19300,4874,"CMPD","Tianshan North","Tianshan North 52",44.0096,88.0579,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134138860961149,3567.27496566405,6.42610191400833,-13.5249699300723,23.0809557132696,141.949015612126
9401,19301,4875,"CMPD","Tianshan North","Tianshan North 53",44.0084,88.0578,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129901112902833,3712.03013971815,6.93967646695852,-13.2805562312204,23.7598117553031,138.440673119422
9401,19302,4876,"CMPD","Tianshan North","Tianshan North 54",44.0252,88.0607,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129927822239826,3711.76428973971,6.93609103072215,-13.2885989075574,23.7599572441673,138.451822078201
9401,19303,4877,"CMPD","Tianshan North","Tianshan North 55",44.0256,88.0603,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.129932431012976,3711.75720132051,6.93604352198962,-13.2886637815433,23.7599376480991,138.455706545296
9401,19304,4878,"CMPD","Tianshan North","Tianshan North 56",44.0663,88.0836,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.125667850148982,3857.50761648014,7.44028338530179,-13.0684143967455,24.4409165416258,134.826291516337
9401,19305,4879,"CMPD","Tianshan North","Tianshan North 57",44.0682,88.0652,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.125835640966098,3857.44089485792,7.44128224876833,-13.0643972202882,24.4401101085315,134.979680079872
9401,19306,4880,"CMPD","Tianshan North","Tianshan North 58",44.0908,88.0774,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.121665774405867,4004.97526144973,7.95062080369189,-12.8333448875773,25.1213946127924,131.390177612132
9401,19307,4881,"CMPD","Tianshan North","Tianshan North 59",44.0921,88.0782,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.121661347903677,4004.96585264262,7.95034545586119,-12.8340981391967,25.1214761329737,131.385127400186
9401,19308,4882,"CMPD","Tianshan North","Tianshan North 60",44.1076,88.0504,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.117905842470917,4153.75898048238,8.4636864110174,-12.5901513243778,25.8013292723072,128.129136266355
9401,19309,4883,"CMPD","Tianshan North","Tianshan North 61",44.1079,88.0493,700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11791692304391,4153.75093802313,8.46369592052921,-12.5900105564384,25.8012928330209,128.139397915069
9401,19310,4884,"CMPD","Tianshan North","Tianshan North 62",44.135,88.0263,620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114997308299046,4273.70414111038,8.87219795990199,-12.4010436080389,26.3466067545181,125.567073959523
9401,19311,4885,"CMPD","Tianshan North","Tianshan North 63",44.1834,87.8299,520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.113069211560056,4423.23033573753,9.38734783019799,-12.1308065517228,27.0207779445284,123.94423868339901
9401,19312,4886,"CMPD","Tianshan North","Tianshan North 64",44.1694,87.85,520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112867172242043,4423.27686482037,9.38770189572354,-12.1308966067314,27.0202771250422,123.760531435714
9401,19313,4887,"CMPD","Tianshan North","Tianshan North 65",44.1831,87.8511,520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112861379606678,4423.5021285349,9.38681514106407,-12.1356608122879,27.0223049298373,123.746383832248
9401,19314,4888,"CMPD","Tianshan North","Tianshan North 66",44.1775,87.8228,515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112945715518383,4430.62063341941,9.41343034005912,-12.1152632132979,27.0534061151648,123.841707521141
9401,19315,4889,"CMPD","Tianshan North","Tianshan North 67",44.2014,87.8518,515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112667583942312,4431.39237616373,9.4113071892526,-12.1297390161727,27.0590310248014,123.56140182483
9401,19316,4890,"CMPD","Tianshan North","Tianshan North 68",44.1717,87.8504,510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11248049538724,4438.49683213378,9.43874750602857,-12.107708896030701,27.0887270780286,123.41305212348
9401,19317,4891,"CMPD","Tianshan North","Tianshan North 69",44.2025,87.8525,510,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112468803502186,4439.01593260044,9.43684661686264,-12.1182336933504,27.0933170927441,123.382480600562
9401,19318,4892,"CMPD","Tianshan North","Tianshan North 70",44.2132,87.8535,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112076870690986,4454.40169609961,9.48746953457068,-12.0978387877174,27.1631091317839,123.024173101825
9401,19319,4893,"CMPD","Tianshan North","Tianshan North 71",44.2214,87.8544,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112069157651336,4454.54870602953,9.4869888012275,-12.1006548864421,27.1643628790125,123.011553024379
9401,19320,4894,"CMPD","Tianshan North","Tianshan North 72",44.2215,87.8544,500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.112069169008306,4454.5503777505,9.48698335085334,-12.1006864639391,27.1643774441856,123.011499621079
9401,19321,4895,"CMPD","Tianshan North","Tianshan North 73",44.2347,87.8564,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111282663357122,4485.21924237536,9.58881622263525,-12.0571837593223,27.3028918509983,122.295965546482
9401,19322,4896,"CMPD","Tianshan North","Tianshan North 74",44.2432,87.8556,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111290343446675,4485.36248603119,9.58842550028878,-12.0596235578245,27.3041152155066,122.297857028309
9401,19323,4897,"CMPD","Tianshan North","Tianshan North 75",44.2424,87.8578,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111268935649102,4485.37056794382,9.58838076549691,-12.0599191361449,27.3041263135525,122.277880446405
9401,19324,4898,"CMPD","Tianshan North","Tianshan North 76",44.2532,87.858,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111862878639523,4443.07986868779,9.37695946896754,-12.3274107404441,27.1666419814917,123.033701673678
9401,19325,4899,"CMPD","Tianshan North","Tianshan North 77",44.252,87.8534,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111901978682968,4443.18370777734,9.37795815436062,-12.3250860880743,27.1668620243544,123.071794614954
9401,19326,4900,"CMPD","Tianshan North","Tianshan North 78",44.2599,87.8629,480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.11180258447058,4443.0034439714,9.37569601679371,-12.3308588924157,27.1668154606645,122.970877393613
9401,19327,4901,"CMPD","Tianshan North","Tianshan North 79",44.2424,87.8211,470,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111243328623291,4500.18808920318,9.64099249268591,-12.0268582343352,27.3700715567723,122.275520305464
9401,19328,4902,"CMPD","Tianshan North","Tianshan North 80",44.2731,87.8584,465,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.111171851304173,4466.51958066002,9.45516403648745,-12.2936900007497,27.2727537987687,122.391314995357
9401,19329,4903,"CMPD","Tianshan North","Tianshan North 81",44.2748,87.8758,460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110827958064467,4473.85088579349,9.47770979049337,-12.2895834216425,27.3064167729029,122.07294449634
9401,19330,4904,"CMPD","Tianshan North","Tianshan North 82",44.399,87.9047,460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110192112961633,4473.25294181107,9.46492185582643,-12.325749969363,27.3108032233445,121.360838190718
9402,19331,4905,"CMPD","Tianshan South","Tianshan South 01",43.07,86.08,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.137545466121595,3198.46004484198,5.85460367018506,-12.3017231177867,20.4997389630403,144.658843352491
9402,19332,4906,"CMPD","Tianshan South","Tianshan South 02",43.07,86.08,1773,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.144366967489408,2983.25479550074,5.02452852500506,-12.8725777527845,19.5097395108566,150.489093910516
9402,19333,4907,"CMPD","Tianshan South","Tianshan South 03",43.07,86.08,1945,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.151308349395275,2773.74429840042,4.19925150205154,-13.4401326500077,18.5254625988589,156.285643598264
9402,19334,4908,"CMPD","Tianshan South","Tianshan South 04",43.07,86.08,2118,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.158459995012262,2567.64795469653,3.36917635687155,-14.0109872850055,17.5354631466752,162.115894156289
9402,19335,4909,"CMPD","Tianshan South","Tianshan South 05",43.07,86.08,2291,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.165792214609931,2366.14539072033,2.53910121169155,-14.5818419200033,16.5454636944915,167.946144714314
9402,19336,4910,"CMPD","Tianshan South","Tianshan South 06",43.07,86.08,2464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.173315771138293,2169.28830846461,1.70902606651156,-15.1526965550012,15.5554642423078,173.776395272339
9402,19337,4911,"CMPD","Tianshan South","Tianshan South 07",43.07,86.08,2636,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.180996788876904,1978.3481021895,0.883749043558033,-15.7202514522244,14.5711873303101,179.572944960087
9402,19338,4912,"CMPD","Tianshan South","Tianshan South 08",43.07,86.08,2809,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.188936507818347,1791.18240435863,0.053673898378038,-16.2911060872222,13.5811878781264,185.403195518112
9402,19339,4913,"CMPD","Tianshan South","Tianshan South 09",43.07,86.08,2982,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.197103568302882,1609.1332244964,-0.776401246801958,-16.86196072222,12.5911884259427,191.233446076137
9402,19340,4914,"CMPD","Tianshan South","Tianshan South 10",43.07,86.08,3154,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.205462114617877,1433.50159835401,-1.6016782697554801,-17.4295156194433,11.606911513945,197.029995763885
9402,19341,4915,"CMPD","Tianshan South","Tianshan South 11",43.07,86.08,3327,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.21412357472614,1262.6282394943,-2.43175341493547,-18.0003702544411,10.6169120617613,202.86024632191
9402,19342,4916,"CMPD","Tianshan South","Tianshan South 12",43.07,86.08,3500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223055143118714,1097.81440293064,-3.26182856011547,-18.5712248894389,9.6269126095776,208.690496879935
9403,19343,4917,"CMPD","Tianshi Lac","Tianshi Lac",43.67,88.17,2000,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.168829020784219,2388.60022954578,2.1574014410258,-15.2720683615065,17.1960371262223,168.036662189684
9404,19344,4918,"CMPD","Tiantongshan","Tiantongshan 01",29.66916,121.6756,145,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27063682080117,5914.27895332005,16.2035039816988,4.92372241262724,27.3340469237551,1396.93605705704
9404,19345,4919,"CMPD","Tiantongshan","Tiantongshan 02",29.66916,121.6756,149,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2715827342937,5912.42751591466,16.1984315504511,4.9195566605853696,27.3292853672018,1397.68206886846
9404,19346,4920,"CMPD","Tiantongshan","Tiantongshan 03",29.66916,121.6756,187,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28059984079781,5894.83886056343,16.1502434535984,4.87998201618764,27.2840505799457,1404.7691810769
9404,19347,4921,"CMPD","Tiantongshan","Tiantongshan 04",29.66916,121.6756,209,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28584605679074,5884.65595483378,16.1223450817364,4.85707037995738,27.2578620189027,1408.87224603969
9404,19348,4922,"CMPD","Tiantongshan","Tiantongshan 05",29.66916,121.6756,258,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.29759970808625,5861.97584661772,16.0602077989527,4.80603991744452,27.1995329511251,1418.01089072953
9404,19349,4923,"CMPD","Tiantongshan","Tiantongshan 06",29.66916,121.6756,269,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30025148864171,5856.88439375289,16.0462586130216,4.79458409932939,27.1864386706036,1420.06242321092
9404,19350,4924,"CMPD","Tiantongshan","Tiantongshan 07",29.66916,121.6756,297,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.30702356798527,5843.92433191515,16.0107515942881,4.76542383503632,27.1531077747306,1425.28450589083
9404,19351,4925,"CMPD","Tiantongshan","Tiantongshan 08",29.66916,121.6756,365,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32360391046083,5812.44989602348,15.924520263078,4.6946060503246,27.072161313325,1437.96670668489
9404,19352,4926,"CMPD","Tiantongshan","Tiantongshan 09",29.66916,121.6756,400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33221306658914,5796.24981872629,15.8801364896611,4.65815571995827,27.0304976934838,1444.49431003477
9404,19353,4927,"CMPD","Tiantongshan","Tiantongshan 10",29.66916,121.6756,560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37224173317585,5722.1923225106,15.6772392397551,4.49152563828363,26.8400354313528,1474.33478249139
9405,19354,22994,"SMPDSv1","Tiavatnet","Bjune_a263",63.0466666666666,9.41666666666666,464,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.39615336063891,1556.44639350126,2.76152614033898,-5.59361624088266,11.6061322551948,1085.63457609192
9406,19355,4928,"CMPD","Tibet","Tibet 01",37.9,77.4,2400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0656686302568985,3193.38571906341,6.77681944530133,-9.36729229742733,20.0391047152114,77.4838494668858
9406,19356,4929,"CMPD","Tibet","Tibet 02-1",34,81.1,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.283118502235692,1405.48782791737,-0.36922675583406,-12.6078534807249,12.9323578947569,314.958535436452
9406,19357,4930,"CMPD","Tibet","Tibet 03",37.2,77.1,2400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0639356940290469,3189.13778125894,6.80396362754843,-9.22761207193056,19.9887275476397,76.0175601778081
9406,19358,4931,"CMPD","Tibet","Tibet 04",37.1,76.9,2400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.063784875340451,3172.01679158151,6.7439664836923,-9.2682994100508,19.918056691466,75.8486455231732
9406,19359,4932,"CMPD","Tibet","Tibet 05",37,76.9,2400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.063439764566227,3172.18210289762,6.74523848328568,-9.26428010932465,19.9177708275708,75.511216870791
9406,19360,4933,"CMPD","Tibet","Tibet 06-1",37,77,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103249468218063,1874.0936798901,1.65516779150754,-12.9749772141684,14.4600342584912,116.981330291834
9406,19361,4934,"CMPD","Tibet","Tibet 07",36.9,77,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103234989818502,1875.40091656166,1.66247966030999,-12.9645051667001,14.4663207766493,117.098626664615
9406,19362,4935,"CMPD","Tibet","Tibet 08",36.8,77,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.10320891188799,1876.5899805471,1.66926957143596,-12.954513666767,14.4719497348725,117.201567699493
9406,19363,4936,"CMPD","Tibet","Tibet 09",36.8,77,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.10320891188799,1876.5899805471,1.66926957143596,-12.954513666767,14.4719497348725,117.201567699493
9406,19364,4937,"CMPD","Tibet","Tibet 10-1",36.8,77.1,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.102273302910971,1880.6825183739,1.68106543038767,-12.9555403304324,14.496862398936,116.130381466352
9406,19365,4938,"CMPD","Tibet","Tibet 11",36.7,77,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.10593155334302,1876.45154139838,1.71201582796833,-12.8107950540894,14.4583753529523,120.387330404377
9406,19366,4939,"CMPD","Tibet","Tibet 12",36.7,77.1,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.104630293853813,1882.13395571922,1.72878137650686,-12.8126010766097,14.4909676690006,118.918716106227
9406,19367,4940,"CMPD","Tibet","Tibet 13",36.2,78.4,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0979914818930853,1286.89531795918,-1.21647400533199,-15.2494130245044,11.7948378747363,106.98837470478
9406,19368,4941,"CMPD","Tibet","Tibet 14",34.6,80.4,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.205969375151673,1472.00608548098,-0.211044772039156,-13.0859047310108,13.3886119933386,230.865680816394
9406,19369,4942,"CMPD","Tibet","Tibet 15",34.7,80.4,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.201514165998698,1437.6883488863,-0.404127225196431,-13.3041257608222,13.1866735821731,224.447965967748
9406,19370,4943,"CMPD","Tibet","Tibet 16",33.7,80,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.283478983196099,1780.3981484216,1.72159451439049,-10.4939919583584,14.8781048669509,339.541780556261
9406,19371,4944,"CMPD","Tibet","Tibet 17",33.2,79.8,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.339752105891879,1746.51111758358,2.01071328244525,-9.55954115549454,14.1503664178434,415.03622922414
9406,19372,4945,"CMPD","Tibet","Tibet 18",32.5,80,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.363609628735781,1654.8417979437,1.8800169313981001,-9.31122604125518,13.2243446235532,449.12606685651
9406,19373,4946,"CMPD","Tibet","Tibet 19-1",33.1,80.2,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.326773219919427,1715.60896431868,1.74744519471774,-9.97984529417676,14.1139815116322,396.031946836978
9406,19374,4947,"CMPD","Tibet","Tibet 20",34.2,81,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.272620487369533,1399.40104109249,-0.432949903679333,-12.7350946507111,12.9193960380692,302.418373047983
9406,19375,4948,"CMPD","Tibet","Tibet 21",37.5,77.2,2400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.067176288649937,3173.77395350147,6.72798949383324,-9.34986833793676,19.951781926569,79.6258931690685
9406,19376,4949,"CMPD","Tibet","Tibet 22",34.3,80.9,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.232418731601301,1421.86499205467,-0.462646291687826,-13.1183382342127,13.112924965203,258.128913284837
9406,19377,4950,"CMPD","Tibet","Tibet 23",34.5,80.9,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.225408656842475,1359.29000831654,-0.829956049730894,-13.5196083652911,12.7385461698946,247.191341291673
9406,19378,4951,"CMPD","Tibet","Tibet 24",35,80.4,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0979417044157096,1229.72199965518,-1.84798935337348,-15.8574241793434,11.6849684097217,104.688502517007
9406,19379,4952,"CMPD","Tibet","Tibet 25",35.4,79.6,4300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0877941462617556,1258.36737391659,-1.56432375784899,-15.6377048734759,11.7672630493593,94.7782056614976
9406,19380,4953,"CMPD","Tibet","Tibet 26",36,79.7,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0916257074193518,1083.24920270678,-2.56190631940586,-16.4861299923374,10.767005427618,96.9687101493534
9406,19381,4954,"CMPD","Tibet","Tibet 27",36.2,79.2,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0947635253004626,1088.47933954348,-2.42480163704351,-16.3079778376026,10.7675917727403,100.847110303468
9406,19382,4955,"CMPD","Tibet","Tibet 28",36.3,78.2,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.110857796925481,1081.88549289281,-2.26222513706685,-16.0439434108895,10.6250418311737,119.464326682454
9406,19383,4956,"CMPD","Tibet","Tibet 29",36.6,77.1,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.140021785942857,1066.35627363565,-2.09691979748725,-15.5906069869687,10.4029221768646,152.514229025386
9406,19384,4957,"CMPD","Tibet","Tibet 30",37.4,77.3,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.118504938653655,1058.25344244099,-2.26823253152644,-15.9805741712798,10.4096186162622,127.095283287655
9406,19385,4958,"CMPD","Tibet","Tibet 31",39.5,76,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.272078863872496,520.905274497207,-6.4590945174405,-21.2793109495428,6.35328137025067,264.0372161874
9406,19386,4959,"CMPD","Tibet","Tibet 32",37.3,77.2,4500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.127804278674034,1057.52273318233,-2.22474336390618,-15.8984608067515,10.3579219124378,137.875164420699
9406,19387,4986,"CMPD","Tibet","Tibet F-01",39.9,77.2,1200,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0724337293520166,4556.41950678974,11.4361323987759,-6.26817849912903,25.1272860571672,87.7089377747553
9406,19388,4987,"CMPD","Tibet","Tibet F-02",39.5,74.5,1500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.195296662208539,3582.96203831546,7.97646738502628,-9.26900182830388,21.5103603316417,231.853793714055
9406,19389,4988,"CMPD","Tibet","Tibet F-03",38.8,74.9,3400,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.191830273030317,1741.66567981052,0.783567587055673,-14.4725514898751,13.6359474661644,211.913971524341
9406,19390,4989,"CMPD","Tibet","Tibet F-04",38.6,74.9,3360,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.174820143567337,1855.396150371,1.37037755617133,-13.8122362819818,14.1874025737472,195.385311208418
9406,19391,4990,"CMPD","Tibet","Tibet F-05",38.3,74.9,4070,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210832475021272,1159.31028346598,-1.81885036915964,-16.0712652105512,10.668681513787,226.355083846665
9406,19392,4991,"CMPD","Tibet","Tibet F-06",37.9,75.1,3150,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.134634429042967,2115.26482895483,2.55618287541085,-12.6972998256639,15.4134313662972,153.26216248007
9406,19393,4992,"CMPD","Tibet","Tibet F-07",37,75.4,3680,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.162492828786343,1632.81941134327,0.801017452061926,-13.1928010721373,13.1107352284878,182.884394207374
9406,19394,4993,"CMPD","Tibet","Tibet F-08",37.4,75.2,3600,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150309203810503,1686.80747990161,0.837564267234827,-13.6705389092857,13.3897844686172,168.727350024193
9406,19395,4994,"CMPD","Tibet","Tibet F-09",37.6,75.3,3300,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.123520617061343,1980.08985285437,2.06950706873104,-12.8368834884377,14.8097489329914,139.688387943717
9406,19396,4995,"CMPD","Tibet","Tibet F-10",38.4,76.8,1340,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0601309888015853,4463.4583478846,11.1836515425634,-6.22975587953867,24.8220946635942,73.7976317048508
9406,19397,4996,"CMPD","Tibet","Tibet F-11",36.4,77.1,3800,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.114002285961293,1690.18384211944,0.91381530374191,-13.3602418455295,13.5977428427463,128.911381663067
9406,19398,4997,"CMPD","Tibet","Tibet F-12",36.4,77.8,3850,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0950967035839968,1663.48229578032,0.6386291483682,-13.8334876941055,13.5831267178406,106.289266327709
9406,19399,4998,"CMPD","Tibet","Tibet F-13",35.6,79.4,4880,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103485327732485,836.434550498664,-4.11858989542229,-17.5479149743389,9.1498820335541,108.037798624211
9406,19400,4999,"CMPD","Tibet","Tibet F-14",35.8,79.3,5100,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.106352222122079,688.808766456501,-5.22441698383818,-18.4756947453444,8.03074023853116,108.96370568202
9406,19401,5000,"CMPD","Tibet","Tibet F-15",36.3,78.2,3750,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.088646077209049,1769.22986355488,1.08239578150669,-13.5442162666429,14.101847343398,99.4953711702465
9406,19402,5001,"CMPD","Tibet","Tibet F-16",36.2,78.7,4050,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0889004875532934,1507.90101073506,-0.160371991940267,-14.486756090848,12.9269357177465,98.0574701893985
9406,19403,5002,"CMPD","Tibet","Tibet F-17",37.2,77.1,2500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0669707158288708,3071.84486307017,6.37450951206507,-9.54175354021845,19.528794046292,79.32216963176
9406,19404,5003,"CMPD","Tibet","Tibet F-18",37.7,77.4,1500,"not applicable","terrestrial","dust flux","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0463020581978697,4308.60229280985,10.6858444858054,-6.47475099212615,24.1922829570093,56.5425798437961
9407,19405,4960,"CMPD","Tibet East","Tibet East Annaercuo",32.33614,101.4243,4237,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.535876930416492,1139.99086647387,-0.0250717317433779,-10.5414200448069,8.97690171910668,540.194849818458
9407,19406,4961,"CMPD","Tibet East","Tibet East Anning1",31.30316667,102.2510528,4457,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.546690768164868,1582.88868752875,2.70745019338272,-6.80539604847655,10.7416213362393,594.610479101932
9407,19407,4962,"CMPD","Tibet East","Tibet East Anning2",31.30036111,102.2549972,4378,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.556127983330469,1652.422460508,3.00191220522695,-6.52222119389199,11.0523717296966,604.586728332098
9407,19408,4963,"CMPD","Tibet East","Tibet East Bajiaohai",31.0155,102.93633,4490,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.56186300855215,1803.3982497787,3.7813830738114,-5.41238403094323,11.6143031910035,625.101927015259
9407,19409,4964,"CMPD","Tibet East","Tibet East Bawanghai",29.46902778,101.8417139,2848,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.784816895790037,3280.27239212051,8.98443155016186,0.0605822660099663,16.6669949703307,875.904906556064
9407,19410,4965,"CMPD","Tibet East","Tibet East Bigutianchi",27.62286111,99.64172222,3809,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.697042652962695,1537.26266908649,3.02888108133981,-4.95408275840995,10.0029619871267,759.779675011885
9407,19411,4966,"CMPD","Tibet East","Tibet East Cibihu",26.16558333,99.94108333,2033,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.825680174745541,5580.9758743956,15.2903448613578,8.30859368994642,20.4154482042764,1096.44341570197
9407,19412,4967,"CMPD","Tibet East","Tibet East Dahaizi",31.03817222,102.9289306,3820,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.636146925522164,2391.39929117091,5.96502279931067,-3.42198268859226,13.9988551958425,699.553118889324
9407,19413,4968,"CMPD","Tibet East","Tibet East Erhai",25.91058333,100.1378333,1954,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.821963475637392,5856.84492918922,16.0461504909294,9.05357122780179,21.1023322178684,1106.2034227779
9407,19414,4969,"CMPD","Tibet East","Tibet East Haixihai",26.27991667,99.96427778,2128,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819188055451204,5309.77987509868,14.547342123558,7.61758384890976,19.7805566623993,1076.23178424771
9407,19415,4970,"CMPD","Tibet East","Tibet East Jianhu",26.48655556,99.92919444,2201,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.817896299112249,5060.65546965916,13.8648095059155,6.92841900667758,19.1653667457806,1061.13398000351
9407,19416,4971,"CMPD","Tibet East","Tibet East Jiucaihai",31.3236222,102.2557611,4262,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.569663300664422,1751.7058769666,3.41126916155988,-6.1361507845066,11.4907079450229,618.39866547579
9407,19417,4972,"CMPD","Tibet East","Tibet East Lalongcuo",31.11047222,99.75213889,4205,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.548716009070186,1518.20172222871,2.21316617830987,-7.4624935108218,10.4840174811597,593.564278469978
9407,19418,4973,"CMPD","Tibet East","Tibet East Lashihai",26.88166667,100.1402,2436,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.799017389109946,4332.38806608363,11.8695563454346,4.90165964027605,17.4002003340968,1001.22783794795
9407,19419,4974,"CMPD","Tibet East","Tibet East Mohai",28.52504167,103.3469778,3922,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.659734129098185,2277.45853554433,6.10362964616147,-1.1569505575734,12.1987684713198,794.006812620368
9407,19420,4975,"CMPD","Tibet East","Tibet East Mugecuo",30.14599722,101.8601306,3728,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.676723178342509,2307.59001254127,5.73562132766319,-3.37039729759503,13.4660428748425,748.461613507792
9407,19421,4976,"CMPD","Tibet East","Tibet East Nianbaoyuze",33.2359,100.99722,4059,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499029267718505,1238.01147373443,0.272747380016698,-10.7832054679604,9.62571096541639,503.170609744825
9407,19422,4977,"CMPD","Tibet East","Tibet East Qingrenhai",31.46905556,101.70025,4237,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.561789944191531,1498.17622854006,2.09696426655163,-7.78417022828423,10.4395829367909,594.642200609576
9407,19423,4978,"CMPD","Tibet East","Tibet East Qisehai",30.18305278,101.8725583,3437,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.711201933532175,2582.04211437415,6.70234078594511,-2.45863333887196,14.5289334911474,783.372590470058
9407,19424,4979,"CMPD","Tibet East","Tibet East Shuduhu",27.91261111,99.95177778,3611,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.711927203229104,1955.15852485504,4.75949983061766,-3.22254331000259,11.539189941452,799.321920610253
9407,19425,4980,"CMPD","Tibet East","Tibet East Unknown",31.24788889,99.86613889,4467,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.520494000257439,1318.54376838456,1.24274239849225,-8.38136601040651,9.58467167476804,564.252072124884
9407,19426,4981,"CMPD","Tibet East","Tibet East Wenbihai",26.82353333,100.20815,2374,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.800064529013589,4513.18785928896,12.3648982446273,5.42894965278571,17.8372396789524,1010.70123403001
9407,19427,4982,"CMPD","Tibet East","Tibet East Xiaoxianglin",28.52558056,103.3491444,3916,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.660398193762202,2282.85331499471,6.12012462364476,-1.14661334952481,12.2215901510881,794.59004837012
9407,19428,4983,"CMPD","Tibet East","Tibet East Xihu",26.01736111,100.0504167,1979,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.823930983317122,5767.11618633388,15.800318318723,8.81226070736648,20.8780219495782,1103.78508737957
9407,19429,4984,"CMPD","Tibet East","Tibet East Xiniuhai",31.08043,102.96456,4282,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.584170043034428,1983.21779672463,4.47011062915285,-4.79066449145929,12.370970677198,647.386935623645
9407,19430,4985,"CMPD","Tibet East","Tibet East Yuhaizi",31.30453,102.22068,4244,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.567711748131098,1672.32511452624,3.02216220136597,-6.6174042346871,11.1698858648501,610.771241526263
9408,19431,5004,"CMPD","Tibet Jilong","Tibet Jilong S01",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19432,5005,"CMPD","Tibet Jilong","Tibet Jilong S02",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19433,5006,"CMPD","Tibet Jilong","Tibet Jilong S03",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19434,5007,"CMPD","Tibet Jilong","Tibet Jilong S04",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19435,5008,"CMPD","Tibet Jilong","Tibet Jilong S05",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19436,5009,"CMPD","Tibet Jilong","Tibet Jilong S06",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19437,5010,"CMPD","Tibet Jilong","Tibet Jilong S07",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19438,5011,"CMPD","Tibet Jilong","Tibet Jilong S08",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19439,5012,"CMPD","Tibet Jilong","Tibet Jilong S09",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19440,5013,"CMPD","Tibet Jilong","Tibet Jilong S10",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9408,19441,5014,"CMPD","Tibet Jilong","Tibet Jilong S11",28.83,85.33,4590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",20,"xerophytic woods/scrub",0.881479369105094,897.050364359521,-1.12000842536064,-10.5091628425593,7.86160420540314,965.455965835274
9409,19442,10271,"Herzschuh et al., 2019","Tibet S","Tibet S01",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19443,10272,"Herzschuh et al., 2019","Tibet S","Tibet S02",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19444,10273,"Herzschuh et al., 2019","Tibet S","Tibet S03",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19445,10274,"Herzschuh et al., 2019","Tibet S","Tibet S04",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19446,10275,"Herzschuh et al., 2019","Tibet S","Tibet S05",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19447,10276,"Herzschuh et al., 2019","Tibet S","Tibet S06",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19448,10277,"Herzschuh et al., 2019","Tibet S","Tibet S07",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19449,10278,"Herzschuh et al., 2019","Tibet S","Tibet S08",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19450,10279,"Herzschuh et al., 2019","Tibet S","Tibet S09",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19451,10280,"Herzschuh et al., 2019","Tibet S","Tibet S10",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9409,19452,10281,"Herzschuh et al., 2019","Tibet S","Tibet S11",28.835,85.335,4590,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",20,"xerophytic woods/scrub",0.881507964261309,897.787616038624,-1.11628652362939,-10.5067165851099,7.86619895898066,965.551343921737
9410,19453,5015,"CMPD","Tibetan Plateau","Tibetan Plateau 02-154",34.92,98.52,4276,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294754601640914,830.03702291169,-3.07041109657501,-15.455666618173,7.91448180492493,296.222191823175
9410,19454,5016,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-02",34.92,98.52,4276,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294754601640914,830.03702291169,-3.07041109657501,-15.455666618173,7.91448180492493,296.222191823175
9410,19455,5017,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-03",30.23,90.63,4607,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.565194078828556,1411.77082924239,1.38845521264223,-8.71141490614353,10.3138873992913,664.916043723421
9410,19456,5018,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-04",31.09,91.69,4745,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.406671209326565,1083.52656325611,-0.97808354682834,-12.0955155821452,8.95836442506863,453.569251612878
9410,19457,5019,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-05",31.17,91.76,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.399228889236809,1118.14423100648,-0.84135814587865,-12.0939564848196,9.17441442784292,444.295854295438
9410,19458,5020,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-06",31.53,91.44,4570,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372616793470603,1152.92724405027,-0.901545436713793,-12.5972478083208,9.4968129165758,412.430266939635
9410,19459,5021,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-07",31.53,91.44,4575,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372787925327027,1148.68575113087,-0.922423137519918,-12.6104925481412,9.472459759535,412.482662610915
9410,19460,5022,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-08",32.19,91.71,4898,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.346615825565946,781.592566363364,-3.18708224871703,-14.6700758541771,7.33607081755185,364.548762422897
9410,19461,5023,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-09",32.15,91.44,4616,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.392758507010473,1139.10256238456,-0.877610218782022,-12.3991469568288,9.36750846822305,431.677787023883
9410,19462,5024,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-11",32.11,91.28,4671,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.386928361454509,1073.5956146678,-1.26582212673844,-12.7550187066675,9.02325290062141,422.738036044023
9410,19463,5025,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-12",31.97,90.79,4646,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.409325205739723,1109.94493227543,-1.00419701520988,-12.3616004250815,9.24665320524801,450.324715224436
9410,19464,5026,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-13",31.99,90.72,4726,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.407209935031615,986.477258249739,-1.74934963907133,-13.0311673285275,8.59040781857238,441.316971248596
9410,19465,5027,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-14",32.03,90.51,4681,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.419076465873939,1039.10226585797,-1.40868848049906,-12.6664195966883,8.89718295768887,456.857882959258
9410,19466,5028,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-15",31.99,90.35,4637,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.429887909961052,1096.82755108478,-1.04540551971885,-12.2823128794374,9.22103062049443,472.113638295617
9410,19467,5029,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-16",31.47,90.04,4673,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.418036684491162,1034.78323282929,-1.45482809918484,-12.6949438020565,8.92919900393614,458.966565821145
9410,19468,5030,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-17",31.5,90.02,4685,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.420760781754486,1022.7836347756,-1.51693843287729,-12.7346783543539,8.857192931382,461.168015777176
9410,19469,5031,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-19",31.83,87.56,4478,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.579664335339793,1119.65503164001,-0.871035844360094,-11.8790091615814,9.61656449246571,630.726622127286
9410,19470,5032,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-20",32.1,89.53,4724,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.454977346748241,953.160934503819,-1.89856002799577,-12.9725729399526,8.48370660150032,490.393495552519
9410,19471,5033,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-21",31.37,90.42,4626,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.386615836815445,1089.93416967127,-1.20071712297446,-12.6375252346604,9.2198083065841,427.365177425299
9410,19472,5034,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-25",32.57,91.86,5133,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.285462485138108,476.253153158311,-5.64321510491743,-17.1856932242372,5.27839474038524,283.721997068687
9410,19473,5035,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-26",33.77,92.24,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207195484477602,593.518893646685,-4.95874457705214,-16.7829588676679,6.37741771708597,204.580115821026
9410,19474,5036,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-27",34.4,92.69,4560,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.188610433291791,619.818303099319,-4.65091949170484,-16.404856542123,6.61129439444826,186.569337335991
9410,19475,5037,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-28",35.38,93.48,4497,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.158132394533498,641.228373572766,-4.56290886585897,-16.4653575386289,6.85455855157422,156.022213942494
9410,19476,5038,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-29",35.5,93.68,4529,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.159529491695457,619.464982865214,-4.69410929677041,-16.5571479249233,6.6964609892436,156.863760790516
9410,19477,5039,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-30",35.38,93.93,4500,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.166838803645113,660.282965087932,-4.39667776796313,-16.3260755427413,6.992615849097,165.607119086915
9410,19478,5040,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-31",35.06,94.08,4497,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.178802674376633,649.552617393159,-4.44886547144487,-16.3618516181089,6.89899734297119,177.20451082541
9410,19479,5041,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-32",35.06,94.09,4540,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.182406651865088,619.229034561621,-4.63731699281273,-16.4926759397508,6.6731266196274,180.003466469834
9410,19480,5042,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-33",35.03,94.39,4369,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177940574088499,753.42097858529,-3.8045625008192,-15.9264724565759,7.64294894286841,179.069712841922
9410,19481,5043,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-34",35.03,94.39,4367,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.177774551362278,755.033838514922,-3.79511947388117,-15.9198761491225,7.65420410426223,178.941939838121
9410,19482,5044,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-35",34.16,95.98,4701,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.283914446022499,341.476521010281,-6.33753805357346,-17.6175913182094,4.37319727420503,263.138063226385
9410,19483,5045,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-36",33.75,97.04,4552,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.322938506143039,477.480482772993,-5.00464384244844,-16.264720135798,5.41232535538019,308.557799088091
9410,19484,5046,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-37",34.04,97.22,4544,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.309432987992582,496.929485746412,-4.9847964669083,-16.4466243778558,5.59256081782266,296.75006291211
9410,19485,5047,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-38",34.04,97.22,4544,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.309432987992582,496.929485746412,-4.9847964669083,-16.4466243778558,5.59256081782266,296.75006291211
9410,19486,5048,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-39",34.04,97.22,4545,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.309306735835788,495.333027994278,-4.99739135246521,-16.4584685808769,5.58099304922414,296.534401020466
9410,19487,5049,"CMPD","Tibetan Plateau","Tibetan Plateau CTP-40",34.04,97.22,4537,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.310314825982726,508.104690011347,-4.89663226800988,-16.3637149567078,5.67353519801228,298.259696153619
9410,19488,5050,"CMPD","Tibetan Plateau","Tibetan Plateau DC-U-6",35.28,98.64,4095,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.266592743020575,972.369112723041,-2.37096240261001,-15.0516038348418,8.86714466481447,272.499281837336
9410,19489,5051,"CMPD","Tibetan Plateau","Tibetan Plateau ER-U-1",34.93,97.27,4303,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.260183050068499,805.138973722475,-3.29952011431638,-15.6011091976489,7.8446643555156,263.147040877926
9410,19490,5052,"CMPD","Tibetan Plateau","Tibetan Plateau GA",34.24,102.33,3485,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504402686854069,1723.58237516347,2.48866742475414,-9.05530110766968,12.05652509831,510.230434575768
9410,19491,5053,"CMPD","Tibetan Plateau","Tibetan Plateau KU-U-5",35.31,99.18,4150,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.293257397175699,905.537478531364,-2.67571788914399,-15.2771928085646,8.39447819802742,294.347261005592
9410,19492,5054,"CMPD","Tibetan Plateau","Tibetan Plateau MD-U-1",34.88,98.16,4244,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.276679769799752,864.530256155561,-2.91114292259579,-15.3156841657613,8.17303084800695,281.021416941433
9410,19493,5055,"CMPD","Tibetan Plateau","Tibetan Plateau MIHA-2",39.36,95.28,2930,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0493669193679657,1935.2461116023,1.21825336570245,-14.0564089354778,14.9983536370809,52.7195929274834
9410,19494,5056,"CMPD","Tibetan Plateau","Tibetan Plateau MIHA-4",38.77,96.38,3350,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0712143933942666,1268.77117475831,-1.9927215939817,-16.4810097040928,11.294535072715,71.3488879510799
9410,19495,5057,"CMPD","Tibetan Plateau","Tibetan Plateau MIHA-8",38.5,97.12,4300,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.107015572117446,401.578955842587,-7.29257680810149,-20.4894529251611,5.2732311534987,95.6592218766575
9410,19496,5058,"CMPD","Tibetan Plateau","Tibetan Plateau MIQ-01",36.97,96.255,2734,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.140296574324854,2784.85798197143,5.60797550013692,-9.02098193905582,18.2004324452987,167.329291576359
9410,19497,5059,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-01",36.87,101.5,2961,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278923837270667,1778.72047464496,1.79951902186706,-11.3320598561915,13.0816321966179,283.903291042126
9410,19498,5060,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-02",36.87,101.03,2965,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.278981004990527,1808.25844107832,1.91821784060241,-11.3106559766035,13.178478029775,285.312573684333
9410,19499,5061,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-03",36.58,100.75,3165,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.291416218388891,1638.9815861911,1.19603905743011,-11.9403446290147,12.2445841926347,296.704920703024
9410,19500,5062,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-09",34.92,98.52,4277,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294854721876848,829.0429819347,-3.07610083359571,-15.4603629020965,7.90804584920968,296.278713036198
9410,19501,5063,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-10",34.92,98.52,4269,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.294054597577015,836.995309750619,-3.03058293743013,-15.422792630709,7.95953349493165,295.826543332016
9410,19502,5064,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-11",34.92,98.51,4262,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.293181475631932,844.160955109197,-2.98999462404105,-15.3891789131398,8.00624740994282,295.285885976007
9410,19503,5065,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-12",34.97,97.61,4285,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263372254360949,831.911276281285,-3.13670989344617,-15.4840637850861,8.00479836543781,267.225793234483
9410,19504,5066,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-13",34.87,97.51,4290,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263978992457963,822.052879252666,-3.1865177525041,-15.5060754130864,7.93990508792249,267.62200459006
9410,19505,5067,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-14",34.9,97.56,4283,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263650230298376,831.602719284893,-3.13243461574324,-15.4680629758247,8.0011873530121,267.615558651248
9410,19506,5068,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-15",34.9,97.56,4286,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.263901740280914,828.164637828066,-3.15250115969923,-15.4844803115886,7.9789440929437,267.728194909311
9410,19507,5069,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-16",34.91,97.57,4295,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.26463827467821,818.335023705924,-3.21101744321811,-15.5342635172492,7.91506355484534,268.044899910644
9410,19508,5070,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-17",34.92,97.57,4282,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263372066595974,833.422253035351,-3.12365590714076,-15.4642825820405,8.01362175759774,267.376820860333
9410,19509,5071,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-18",34.96,97.62,4282,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263454084606068,835.182482587544,-3.11632448215699,-15.4660957741679,8.02488044567985,267.449148889986
9410,19510,5072,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-19",35.02,97.35,4302,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.259776501134227,810.461099012254,-3.27511718027935,-15.5972632323786,7.88063051934349,262.804081676295
9410,19511,5073,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-20",35.02,97.35,4310,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.26042088250276,801.466123014599,-3.32852565406327,-15.6410224055497,7.8216229674019,263.085170491416
9410,19512,5074,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-21",35.04,97.39,4332,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.262482256866864,778.242755834765,-3.46830851013155,-15.7601370568795,7.66751345524488,264.151043038891
9410,19513,5075,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-22",35.04,97.39,4341,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263214674863052,768.301727067111,-3.52821733208523,-15.8093133323211,7.60134839660701,264.468052196207
9410,19514,5076,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-23",35.04,97.39,4333,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.262563520100875,777.138197082803,-3.47496504590418,-15.7656010874841,7.6601617820629,264.186266278593
9410,19515,5077,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-25",35,97.51,4311,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.263410762764488,802.118850336197,-3.31816688906208,-15.6344805881532,7.81693849607519,266.056933338792
9410,19516,5078,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-27",35.04,97.9,4260,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.271817971741288,853.180199032602,-2.99762485438797,-15.4021338390355,8.11711266084074,275.71639858347
9410,19517,5079,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-29",34.99,98.08,4256,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.274858211628437,853.79950324421,-2.98586181999814,-15.3924064135824,8.11283561360203,278.655087409549
9410,19518,5080,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-30",34.97,98.1,4247,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.274616618352413,863.192048416512,-2.92927883858916,-15.3428100102543,8.17150948150495,278.816807522494
9410,19519,5081,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-31",34.94,98.12,4242,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.274917389362207,868.088481436993,-2.89770285402766,-15.3125129369151,8.20056125789734,279.350359672436
9410,19520,5082,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-35",34.74,98.11,4241,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.286779039222948,958.247417209946,-2.32771241609262,-14.7706949423324,8.69768117323446,296.459810588329
9410,19521,5083,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-36",34.8,98.21,4230,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.277341904222766,878.813498038112,-2.82040583772806,-15.2296287291026,8.25818492594388,282.369965265674
9410,19522,5084,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-37",34.8,98.21,4240,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.27834367674211,867.485571700568,-2.88501125683909,-15.2830499666236,8.18564493454023,282.891856846652
9410,19523,5085,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-38",34.87,98.17,4240,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.276594433640213,868.759123680619,-2.88576891382029,-15.2934179429222,8.19921141697873,281.119763819525
9410,19524,5086,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-39",33.99,97.45,4581,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311108856821248,429.325458743044,-5.50808886636443,-16.9480569431539,5.06965143977807,293.964749683429
9410,19525,5087,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-40",33.99,97.47,4581,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.311305487580683,429.414682026626,-5.50682995600926,-16.9474372096803,5.06999900681718,294.145581261612
9410,19526,5088,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-41",34.02,97.54,4620,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.306387154547817,373.808616721423,-5.98757775647631,-17.4016933994283,4.62712396088911,285.898701361052
9410,19527,5089,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-42",34.02,97.54,4617,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.306778324312466,378.001103231503,-5.95057797405022,-17.3674883810053,4.66150746759051,286.536430410724
9410,19528,5090,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-43",34.24,97.84,4754,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.309752989537845,222.353839863663,-7.37867925399222,-18.6994342596744,3.22896337350333,276.806930037068
9410,19529,5091,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-44",34.25,97.84,4740,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.307763027603134,243.784364600502,-7.19705013883429,-18.5980786645673,3.44905448370503,276.925271932302
9410,19530,5092,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-46",34.67,98.06,4233,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.2881113313224,975.613633474981,-2.21584947749363,-14.652467994376,8.79331484039984,298.757642618063
9410,19531,5093,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-48",34.82,98.36,4228,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.288951857490107,882.98771802813,-2.76374457012287,-15.1817651010038,8.25353060014436,293.201988461674
9410,19532,5094,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-49",34.83,98.39,4230,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.289490934734494,880.117863905549,-2.77993593854531,-15.197446178787,8.23498418963469,293.542834692348
9410,19533,5095,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-50",34.83,98.39,4231,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.289590529208802,879.080500589554,-2.78576784605058,-15.202250242650999,8.22838906547323,293.598878448444
9410,19534,5096,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-51",34.92,98.52,4263,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.293455758547284,842.959555612558,-2.99644451530594,-15.394614927168501,7.99814922922314,295.48741605388
9410,19535,5097,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-52",34.92,98.52,4266,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.293755043882111,839.977432681588,-3.01351372636803,-15.4087037789387,7.97884136207739,295.656979692948
9410,19536,5098,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-53",34.92,98.52,4267,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.293854865279974,838.983391704598,-3.01920346338873,-15.4134000628622,7.97240540636215,295.713500905971
9410,19537,5099,"CMPD","Tibetan Plateau","Tibetan Plateau MIY-54",34.88,99.47,4592,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.344364642274987,647.658587818477,-3.98491662269646,-15.9932762156298,6.62652245653325,337.520196787009
9410,19538,5100,"CMPD","Tibetan Plateau","Tibetan Plateau NB",33.38,101.1,4030,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.48187837778366,1234.78000052435,0.168124902744577,-11.0888865407218,9.66379219527903,486.001927974989
9410,19539,5101,"CMPD","Tibetan Plateau","Tibetan Plateau NE1",38.015,100.242,2804,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.178960074253501,1553.60209415844,0.0829548428269977,-14.0815809734512,12.4393045285312,177.53760547113
9410,19540,5102,"CMPD","Tibetan Plateau","Tibetan Plateau NE2",37.46,100.912,3314,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238952841521594,1212.96413710712,-1.05126922201797,-14.102078435411,10.3125069322263,232.626295183033
9410,19541,5103,"CMPD","Tibetan Plateau","Tibetan Plateau NE3",37.46,100.912,3314,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238952841521594,1212.96413710712,-1.05126922201797,-14.102078435411,10.3125069322263,232.626295183033
9410,19542,5104,"CMPD","Tibetan Plateau","Tibetan Plateau NE4",37.61,101.28,3196,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245012912711114,1362.32478539323,-0.260379766542681,-13.2967625352931,11.1154765185957,240.578375527999
9410,19543,5105,"CMPD","Tibetan Plateau","Tibetan Plateau NE5",37.61,101.28,3196,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245012912711114,1362.32478539323,-0.260379766542681,-13.2967625352931,11.1154765185957,240.578375527999
9410,19544,5106,"CMPD","Tibetan Plateau","Tibetan Plateau NE6",37.14,101.57,2811,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.268778425665227,1909.77364726694,2.30677035079339,-11.0048332030226,13.8005250880838,274.62136430784
9410,19545,5107,"CMPD","Tibetan Plateau","Tibetan Plateau S-01",34.01,102.28,3430,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.511146281471362,1795.36518336857,2.81269732586184,-8.73316286322415,12.3748408447815,519.124890682992
9410,19546,5108,"CMPD","Tibetan Plateau","Tibetan Plateau S-02",33.98,102.55,3437,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.516372839423028,1804.26391976903,2.86706442112688,-8.64139562615843,12.4057516833571,524.500431555045
9410,19547,5109,"CMPD","Tibetan Plateau","Tibetan Plateau S-03",33.39,101.15,4323,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.455598907832138,1017.6067222945,-1.16713913502618,-12.5569787709526,8.56865069482842,458.509001509632
9410,19548,5110,"CMPD","Tibetan Plateau","Tibetan Plateau S-04",33.38,101.16,4256,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.462029922911026,1064.03916593317,-0.866931068730726,-12.2221800175993,8.81072123551781,465.118474823718
9410,19549,5111,"CMPD","Tibetan Plateau","Tibetan Plateau S-05",33.41,101.17,4150,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.4708376053528,1143.52975419682,-0.378348526500342,-11.6932010982774,9.21739665802786,474.424227336298
9410,19550,5112,"CMPD","Tibetan Plateau","Tibetan Plateau S-06",33.35,101.1,4030,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482857440019897,1233.79732378447,0.168061195694729,-11.078588915314,9.65637548669259,486.925827691148
9410,19551,5113,"CMPD","Tibetan Plateau","Tibetan Plateau S-07",33.34,101.11,4030,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.483285954048568,1233.36590252443,0.168044346000887,-11.0742559420189,9.65315472962955,487.314195109627
9410,19552,5114,"CMPD","Tibetan Plateau","Tibetan Plateau S-08",33.4,101.92,4028,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.513303957043319,1207.24710986317,0.209144718439793,-10.7332816856229,9.45050704027546,510.68859813858
9410,19553,5115,"CMPD","Tibetan Plateau","Tibetan Plateau S-09",33.22,101.12,4100,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.495087903810138,1200.03245752762,0.0537699091203869,-11.0218667533709,9.44105719657809,498.740159204501
9410,19554,5116,"CMPD","Tibetan Plateau","Tibetan Plateau S-10",33.22,101.12,4100,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.495087903810138,1200.03245752762,0.0537699091203869,-11.0218667533709,9.44105719657809,498.740159204501
9410,19555,5117,"CMPD","Tibetan Plateau","Tibetan Plateau S-11",33.22,101.12,4200,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.482610110631509,1114.63102354137,-0.471476515778544,-11.6243344353977,9.0224831226245,485.623364075417
9410,19556,5118,"CMPD","Tibetan Plateau","Tibetan Plateau S-12",33.22,101.12,4300,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.470176578367698,1032.5318135181,-0.996722940677476,-12.2268021174244,8.6039090486709,472.506568946333
9410,19557,5119,"CMPD","Tibetan Plateau","Tibetan Plateau S-13",33.22,101.12,4307,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.469307739009674,1026.91105488766,-1.0334901904204,-12.2689748551663,8.57460886349415,471.588393287297
9410,19558,5120,"CMPD","Tibetan Plateau","Tibetan Plateau S-14",32.51,100.37,4527,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.444285460876815,952.902995912237,-1.43228954610739,-12.4195604776437,8.1169515896769,457.593165880157
9410,19559,5121,"CMPD","Tibetan Plateau","Tibetan Plateau S-15",31.66,100.26,3534,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.643003476672728,1717.47234669911,3.02732181888244,-7.10007525871983,11.4512316169352,643.682541494027
9410,19560,5122,"CMPD","Tibetan Plateau","Tibetan Plateau S-16",31.11,99.76,4220,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.547331908012574,1506.67305143187,2.16014183957141,-7.51062430170032,10.4327936642837,592.180198208166
9410,19561,5123,"CMPD","Tibetan Plateau","Tibetan Plateau S-17",31.25,99.86,4533,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504175927536027,1284.83001990131,1.04202266473147,-8.62690980467016,9.46514172345452,549.04931546704
9410,19562,5124,"CMPD","Tibetan Plateau","Tibetan Plateau S-19",31.86,99.12,4055,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.505931709649286,1591.37917780241,2.29863733396208,-7.91587215385547,11.0361741562752,548.333881528833
9410,19563,5125,"CMPD","Tibetan Plateau","Tibetan Plateau S-20",32,99.06,4024,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.505035954189588,1614.25198059639,2.37267161496587,-7.9171811748684,11.1565681423889,546.931943802434
9410,19564,5126,"CMPD","Tibetan Plateau","Tibetan Plateau S-21",33.21,96.55,4244,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.392945661186377,946.013690494676,-1.29526027046856,-11.8089859088159,8.16578116952325,403.538986712791
9410,19565,5127,"CMPD","Tibetan Plateau","Tibetan Plateau S-22",33.35,96.75,4610,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.31981299629143,426.518656256098,-5.37960167734589,-16.5245801567374,5.0184679544431,304.099857823661
9410,19566,5128,"CMPD","Tibetan Plateau","Tibetan Plateau S-24",34.83,99.09,4667,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.342055786398364,543.282022985967,-4.73341549596501,-16.7031474747789,5.89941830887488,329.710600533036
9410,19567,5129,"CMPD","Tibetan Plateau","Tibetan Plateau S-25",34.83,99.1,4679,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.342873767417788,535.585796836734,-4.78329863791543,-16.740819282123,5.84244537461247,330.175152142818
9410,19568,5130,"CMPD","Tibetan Plateau","Tibetan Plateau S-26",36.18,100.11,2668,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.275671522657681,2069.39319271885,3.00886985749069,-10.69076869594,14.2655186378524,288.281955410389
9410,19569,5131,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-01",31.5,91.2,4596,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373662758277906,1125.38791545572,-1.04808946369357,-12.6646819926277,9.3702978722772,413.088863826205
9410,19570,5132,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-02",31.5,91.1,4586,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372453623956021,1133.12426029047,-1.01133558515679,-12.6380362058577,9.42193579650373,412.09132416414
9410,19571,5133,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-03",31.4,90.1,4708,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.421571039148091,1011.20684550551,-1.56417155363833,-12.7454037138119,8.77128296157799,462.267993697081
9410,19572,5134,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-04",31.4,90.2,4654,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.40895173591256,1057.04973321615,-1.34316283996505,-12.6364252674977,9.05427547974947,450.534581683125
9410,19573,5135,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-05",31.4,90.4,4623,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.38691725208487,1090.30422522724,-1.20162607729804,-12.6420380364075,9.22578414224992,427.506427470031
9410,19574,5136,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-06",31.4,90.5,4605,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.381951294900875,1105.95832735277,-1.13028984704128,-12.6167479829117,9.3156479445545,422.579322546979
9410,19575,5137,"CMPD","Tibetan Plateau","Tibetan Plateau TS01-07",31.3,90.3,4620,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.387455121006432,1097.71616802153,-1.15350430684827,-12.5841380909991,9.26847602750544,429.134363690388
9410,19576,5138,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-01",34.9,102.8,3150,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.463362584682558,1959.10871963761,3.25906078417281,-8.84773205672415,13.3026239179219,471.881646631171
9410,19577,5139,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-02",34.8,102.6,3090,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.444688936575063,1999.24877587664,3.3509487716357,-8.92638585058591,13.522258574241,455.8769628395
9410,19578,5140,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-03",34.7,102.6,3200,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.470217362988763,1930.92324696308,3.16814439734656,-8.87593206842845,13.1355877681498,479.210117983661
9410,19579,5141,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-04",34.7,102.5,3160,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.466762197832205,1962.52849796533,3.2802015573981,-8.81907645589818,13.291587500006,476.417086014057
9410,19580,5142,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-06",34.2,102.4,3400,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.507198027004173,1815.39092397495,2.87010164887635,-8.74261538466872,12.4874984400677,514.75198261938
9410,19581,5143,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-07",34,102.7,3230,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.515773002771408,2014.63334707641,3.68335512481362,-8.05228320191585,13.3933466600226,527.497367857121
9410,19582,5144,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-08",33.9,102.9,3370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.537745947436412,1902.17414865355,3.34194425966597,-8.0401831521596,12.8163198915471,545.989213127204
9410,19583,5145,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-09",33.7,103,3370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.56525905836626,2031.37655496511,3.99141174390155,-7.12680757003206,13.2773012916241,577.794715741291
9410,19584,5146,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-10",34,102.6,3350,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.51591836924314,1891.8680043412,3.2101837594144502,-8.3947384235268,12.8205873779866,525.542783599178
9410,19585,5147,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-11",33.9,102.5,3340,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.51750305263544,1907.3395874359,3.28242465669182,-8.3163171423814,12.8827295369696,527.883886059345
9410,19586,5148,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-12",33.8,102.6,3340,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.521593384245351,1920.7379382158001,3.3524554816008,-8.21760284849192,12.9318776045836,532.620816133006
9410,19587,5149,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-13",33.7,102.5,3380,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.543826920706046,1995.14677403236,3.76416299500673,-7.5931393783116,13.1618162893453,558.011500354289
9410,19588,5150,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-14",33.3,102.5,3350,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.55485751497855,2108.24517187774,4.27395684470853,-6.98672875003499,13.5916156057804,574.642872367446
9410,19589,5151,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-16",32.7,102.4,3410,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.621092247387634,2360.46371867255,5.54909602992175,-4.85747480911756,14.2973148842152,652.302774056159
9410,19590,5152,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-17",32.5,102.4,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.62399627770413,2365.87722672594,5.59940978014984,-4.70210271021388,14.2805150655352,657.8104942785
9410,19591,5153,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-18",32.5,102.4,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.62399627770413,2365.87722672594,5.59940978014984,-4.70210271021388,14.2805150655352,657.8104942785
9410,19592,5154,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-19",32.6,102.3,3610,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.604126238460536,2079.33417978624,4.47795450151046,-5.82916533855919,13.1572053609057,631.508505263182
9410,19593,5155,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-21",32.7,102.1,3720,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.58300468091053,1813.50969133401,3.34486786833275,-7.05755364399919,12.0760176123037,601.889005673919
9410,19594,5156,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-22",32.7,102.1,3750,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580957390289205,1771.3891559937,3.16223491670444,-7.2335404641928,11.8972656252337,598.849672535181
9410,19595,5157,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-23",32.7,102.1,3720,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.58300468091053,1813.50969133401,3.34486786833275,-7.05755364399919,12.0760176123037,601.889005673919
9410,19596,5158,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-24",32.7,102.1,3740,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.581639378689914,1785.38788265391,3.22311256724721,-7.17487819079493,11.9568496209237,599.862783581427
9410,19597,5159,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-25",32.8,102.1,3410,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.585438452911801,2156.97466537662,4.6903425492423,-6.02799676101832,13.5455243426042,609.453482270995
9410,19598,5160,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-26",32.8,102,3340,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.589742990645118,2274.94598953483,5.16080344568173,-5.56154659190356,13.9881549078976,616.607011156923
9410,19599,5161,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-27",33.2,101.5,3580,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.558620127883629,1738.83996578525,2.90150808982303,-7.89509040055115,11.8356676064088,567.35226027264
9410,19600,5162,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-28",33.4,101.3,3990,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.494780506414545,1259.88439302522,0.352097379280593,-10.8368733634116,9.77112723519923,496.972302736626
9410,19601,5163,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-29",33.4,101.1,4030,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.481224352099716,1235.43593076184,0.16816792806778,-11.095748750423,9.66873956698833,485.384787064704
9410,19602,5164,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-30",33.3,100.4,4060,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.472061274238687,1174.35839028325,-0.192074108188261,-11.4907874638127,9.37095681931611,474.910843592674
9410,19603,5165,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-31",33.9,99.7,4330,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.393113005155306,906.068878985475,-2.079634658727,-13.8152926440105,8.08993837364698,394.432877029876
9410,19604,5166,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-32",34.7,100.6,3240,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.365772543366711,1752.22808306388,2.00417740653107,-10.749641555894,12.479022104616,378.741854310073
9410,19605,5167,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-33",34.7,100.6,3330,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.368811763015049,1682.91346289037,1.70716831515897,-10.9659970659045,12.1508883718092,380.976287350059
9410,19606,5168,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-34",34.7,100.6,3380,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.370510410826066,1644.78247119174,1.5421632643967,-11.0861945714659,11.9685918535832,382.217639038941
9410,19607,5169,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-35",34.6,100.6,3410,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373794885162665,1626.82064871553,1.48204110484499,-11.095948686815,11.871332021326,385.643769500972
9410,19608,5170,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-36",34.5,100.4,3770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.384376761374529,1367.04320023332,0.302988875779418,-11.9767294622668,10.5910514489401,393.557499820754
9410,19609,5171,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-37",34.5,100.3,4200,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.395129522373933,1056.32665127704,-1.23375332270059,-13.1582315995734,8.94995769256501,399.030975311879
9410,19610,5172,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-38",34.6,99.8,3950,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.364159497296325,1189.57839218708,-0.734485709124723,-13.0839879745978,9.75344983367133,370.798858775896
9410,19611,5173,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-39",34.6,99.9,3770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.361986761574551,1345.93284772211,0.0399653318890078,-12.4676664291104,10.5627303419958,371.800526738689
9410,19612,5174,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-40",34.5,100,3810,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.366605507571387,1321.54308291539,-0.0493477958569863,-12.4869177701421,10.4221354983997,376.296386905731
9410,19613,5175,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-41",34.4,100.3,3850,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.387051649802884,1312.90058240343,0.0504022003748175,-12.1585217091829,10.3120788096367,395.958377133408
9410,19614,5176,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-42",34.4,100.3,3820,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.386188944087894,1335.25063041183,0.156462841789827,-12.0785318068919,10.4266247813548,395.458370995378
9410,19615,5177,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-43",34.4,100.3,3820,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.386188944087894,1335.25063041183,0.156462841789827,-12.0785318068919,10.4266247813548,395.458370995378
9410,19616,5178,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-44",34.6,99.6,4300,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.35781250241977,888.571096629664,-2.41126830396697,-14.5117764449445,8.09584522386112,358.009722913087
9410,19617,5179,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-45",34.6,99.5,4760,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.367709184723684,539.911994570124,-4.53497618128347,-16.1602591342201,5.82598513158235,356.237003974838
9410,19618,5180,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-46",34.6,99.3,4440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.355240785964799,756.682733840919,-3.20943020968819,-15.1905602034906,7.29714178273512,351.334777251991
9410,19619,5181,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-47",34.7,99.1,4450,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.341284922705727,720.214935511395,-3.51178337984954,-15.5394489586254,7.09487384839915,336.448050315871
9410,19620,5182,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-48",34.7,99.1,4450,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.341284922705727,720.214935511395,-3.51178337984954,-15.5394489586254,7.09487384839915,336.448050315871
9410,19621,5183,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-49",34.7,99.1,4430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.340483430732632,737.147233601794,-3.41097169289325,-15.4624959024512,7.20591863728717,336.297622105231
9410,19622,5184,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-50",35.1,98.8,4220,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.303488720371819,877.793998557161,-2.7690518652279,-15.2224301156102,8.19101858478238,304.770164307295
9410,19623,5185,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-51",35,98.6,4310,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.298104692605739,794.919518448935,-3.28007022498407,-15.6453224390868,7.68739766377743,297.699918008489
9410,19624,5186,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-52",35,98.6,4210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.288254192168371,892.69651406539106,-2.72063685957883,-15.1824746058294,8.31986158866049,292.055846242466
9410,19625,5187,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-53",34.9,98.2,4190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.271609685797026,925.046289335554,-2.56951638862486,-15.0365390956172,8.5574364199018,278.350019920616
9410,19626,5188,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-54",35.1,97.7,4250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.25966757079814,876.118278409155,-2.89063877241005,-15.3036079564509,8.29233663079153,265.026567836454
9410,19627,5189,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-55",35,97.7,4260,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.262170543428903,862.218879331873,-2.96111053880946,-15.3471257098376,8.19768295227498,267.146942392542
9410,19628,5190,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-57",34.9,98.1,4210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.272235669666604,904.281773991075,-2.68791513122514,-15.130826662811,8.42896275814212,278.245740050617
9410,19629,5191,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-58",34.8,98.1,4300,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.28277428087025003,802.336063051195,-3.2637404208544,-15.5911919553235,7.76596032169668,284.607239025195
9410,19630,5192,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-59",35.5,99.5,4400,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.313368332286897,734.734082045718,-3.61770866696299,-15.982300260424,7.28206471578415,308.173487203159
9410,19631,5193,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-61",35.8,99.9,3920,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.295700568985214,1003.83835839773,-2.08406330399771,-14.8288735516268,8.96696427221585,293.947603315058
9410,19632,5194,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-62",35.8,99.9,3910,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.295551660233775,1011.23663126712,-2.04309120874059,-14.7954014720689,9.0095535484087,293.941940759704
9410,19633,5195,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-64",36.1,100.4,2960,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.288900816101313,1838.50765469492,2.06956020043718,-11.2812779267937,13.1834930146663,298.98011330092
9410,19634,5196,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-65",36.5,100.8,3200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.295446393076271,1608.04109738169,1.08920909867356,-11.9364105791867,12.0957955111072,300.260769014241
9410,19635,5197,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-66",36.7,99.6,3660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.242972150889847,1060.34788854276,-1.97904724683297,-15.0551922284995,9.45412377333722,240.489764725695
9410,19636,5198,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-67",36.7,99.2,3110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.219714517404688,1668.65730963633,1.07641040791129,-12.4283143754554,12.7292544087737,231.577636577235
9410,19637,5199,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-68",36.8,99,3040,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.217661234589862,1829.76156212469,1.8507097554885,-11.685115333798,13.505956965834,233.612664733957
9410,19638,5200,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-69",36.1,98.2,3440,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.193571983481396,1626.29128936278,0.817060225043453,-12.5870339730846,12.6940132393969,212.380223808166
9410,19639,5201,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-70",36,97.6,3080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.169388324852218,2171.96793843688,3.25420007622155,-10.5949340208979,15.3913973938586,196.133319507375
9410,19640,5202,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-71",36.1,97.3,2930,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.160839767082235,2377.70193487013,4.09769175895076,-9.96262482838316,16.3497804710091,188.916280766606
9410,19641,5203,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-72",36.4,96.3,2870,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.138019267080622,2551.27290108073,4.67292653491816,-9.78771158585255,17.2233900050816,163.368186413499
9410,19642,5204,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-74",35.9,94.4,3640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.130436922327498,1513.17685459714,0.123814502083149,-13.1515893000044,12.2685014547133,141.77951430244
9410,19643,5205,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-75",35.9,94.7,3460,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.126636834557632,1735.46448469407,1.14304720597269,-12.4268620984825,13.4372258207695,140.448038139914
9410,19644,5206,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-76",36.1,94.8,3230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.122837298839806,2034.14072082093,2.44997890971091,-11.4975327906199,14.9247749859036,139.406189267709
9410,19645,5207,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-78",37.7,95.3,3140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0945993221720958,2172.86705172365,2.83113450160769,-11.7153204332615,15.8297915101038,107.331829627145
9410,19646,5208,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-79",38.5,94.5,3140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0523988489709257,2016.53146083235,1.85254649794091,-12.9572092949192,15.3642384241173,57.8905654343788
9410,19647,5209,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-80",39.3,94.3,3230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0380869719081028,1808.91194162072,0.760547677183904,-14.0226295108184,14.4096956919276,40.8469334074981
9410,19648,5210,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-81",39.6,94.3,1880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0437112406247812,3348.31610720877,6.96819551470338,-9.92060413466981,21.4659989037221,50.7188309895575
9410,19649,5211,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-82",40.3,95.3,1100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0508575434788433,4241.3413210247,10.0359867605623,-8.07278202137354,25.1216654542653,60.6771975734375
9410,19650,5212,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-83",35.7,104,3490,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.534925644745814,1708.87680774682,2.48943650251287,-8.96266904267198,11.8528591441225,528.567118156519
9410,19651,5213,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-84",35.8,104,3290,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.48146391728207,1744.10018146071,2.45842485742856,-9.24442662223848,12.2286898198837,477.723856536717
9410,19652,5214,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-85",35.8,103.9,3120,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.463110778662439,1887.12089804176,2.95995162823848,-9.01052734218298,13.0102486431644,463.309579580439
9410,19653,5215,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-86",35.8,104.1,2360,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.407495534745621,2531.04700553055,5.18983076424129,-7.86586740044671,16.3841993003591,418.778924187786
9410,19654,5216,"CMPD","Tibetan Plateau","Tibetan Plateau TS93-87",35.8,104.1,2280,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.401023351228941,2601.06381182364,5.42530560730276,-7.74856698819033,16.7441701860129,413.379553258339
9410,19655,5217,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-01",31,101.9,3030,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.739238827102112,2939.14276404196,7.82507261895391,-1.73254025868759,16.0450026191293,796.840732825177
9410,19656,5218,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-02",30.1,102,2640,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.810411363967945,3409.12472977444,9.33751317415496,0.0636829454896364,17.3971379011898,883.047826313285
9410,19657,5219,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-03",30.2,101.9,3355,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.721051874868747,2662.0634332147,6.97534796081108,-2.20247884582689,14.8311475381829,793.12298184142
9410,19658,5220,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-04",30.2,101.9,3360,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.720445113180469,2657.19414059424,6.95877389120362,-2.21826807995396,14.8130799489729,792.508017170036
9410,19659,5221,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-05",30.2,101.9,3640,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.686671999530686,2390.76539587349,6.03062599318545,-3.10246519106984,13.8012949532161,758.069995572545
9410,19660,5222,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-06",30.2,101.9,3740,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.674705355681776,2298.56781743783,5.6991446010361,-3.41824987361123,13.4399431690172,745.77070214487
9410,19661,5223,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-07",30.2,101.9,3810,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.666357542394915,2234.96031322558,5.46710762653156,-3.6392991513902,13.186996920078,737.161196745497
9410,19662,5224,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-08",30.1,101.9,3840,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.664186520493097,2204.981369738,5.36584344114086,-3.70760594690847,13.0519529515354,735.8589464316
9410,19663,5225,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-09",30.1,101.9,3810,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.667737333291419,2232.07424093208,5.46529425961754,-3.61303101425215,13.1605739063244,739.534322436598
9410,19664,5226,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-11",30.1,101.8,4200,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.621657920893273,1889.25734071512,4.16271229068368,-4.86040100436136,11.7379161985282,691.675527584689
9410,19665,5227,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-12",30.1,101.8,4180,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.623987867660151,1906.2214940059,4.22922323147106,-4.79696206651743,11.8104619383932,694.124229798542
9410,19666,5228,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-13",30.1,101.4,3845,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.662093602090081,2100.06766669205,4.95433123746174,-4.13890745492807,12.6447730291611,729.484217996566
9410,19667,5229,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-14",30.1,101.4,4045,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.640234151194717,1903.84367360015,4.18134033409106,-4.91217547946176,11.8365678449881,704.831092436317
9410,19668,5230,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-15",30.1,101.4,4200,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.623358690943946,1758.08570395385,3.58227238397878,-5.51145819847537,11.210208827254,685.724920127125
9410,19669,5231,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-16",30.1,101.4,4280,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.614669252206737,1685.04505609619,3.27307602263051,-5.82076540828885,10.8869267535848,675.863669903025
9410,19670,5232,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-17",31,100.9,4320,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.5622059388041,1429.44359911407,1.82919771299331,-7.82862861387405,9.99316416923632,601.932494525431
9410,19671,5233,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-18",30.1,100.7,4140,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.616999527347386,1773.66614581417,3.62434870556317,-5.48011971104926,11.2794328137726,682.224835977092
9410,19672,5234,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-19",30.2,100.7,4120,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.616983288223744,1808.96678525083,3.76541130246314,-5.36069204051783,11.4307318859729,682.751580598967
9410,19673,5235,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-20",31,100.3,4150,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.570777529864948,1601.35658768062,2.61751358360099,-7.06671472675506,10.8208040614902,615.635047514552
9410,19674,5236,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-21",30.2,100,4110,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.601699082508569,1830.52658486101,3.86167257064325,-5.20341149864133,11.525282203479,673.986217873723
9410,19675,5237,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-23",30.3,99.6,4500,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.538068389811954,1337.20491063875,1.49389079976236,-7.78623764823621,9.55027426958832,591.185086145506
9410,19676,5238,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-24",30.3,99.6,4470,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.54069652549435,1374.21334881683,1.67994106509805,-7.59310446927093,9.71953896261395,595.493075877313
9410,19677,5239,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-25",30.2,99.2,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.650968237904338,3347.38013779829,9.17090448711861,0.92220105085873,16.2423673405652,801.220561575736
9410,19678,5240,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-26",29.7,98.9,2660,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.847927102700931,3886.94308561773,10.6491591386787,3.75464618695307,16.6690808275587,1009.81856280651
9410,19679,5241,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-27",29.7,98.8,3080,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.784202592548201,3131.51687647645,8.57949829171629,1.21512300678915,15.0196290629367,920.19538840374
9410,19680,5242,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-28",29.7,98.8,3280,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.750609452278193,2796.90312935928,7.66039020640695,0.0651754224651035,14.3090375019032,876.265053993291
9410,19681,5243,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-29",29.7,98.6,4000,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.623013554335829,1825.16297197564,4.05374265421136,-4.35004938728641,11.5067523519452,710.18749309228
9410,19682,5244,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-30",29.7,98.5,4350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.559104484684789,1598.35000445292,2.92821352707049,-5.82892471302524,10.7176376871463,639.236788466224
9410,19683,5245,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-31",29.6,98.4,2800,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.853086560161631,2664.34798760993,7.29839877202166,0.153424840234454,13.6211871210022,950.033236138286
9410,19684,5246,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-32",29.6,98.3,3360,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.746635558664267,2157.91980039553,5.56322927179726,-2.15235542836481,12.4223169101842,836.834259158112
9410,19685,5247,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-33",29.6,98.3,3430,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.733315238294109,2110.80253592467,5.37332854955485,-2.41227908406843,12.297181894525,823.076989680919
9410,19686,5248,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-34",29.5,98.3,3740,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.676884611952425,1910.95936188137,4.51821188171469,-3.56122337179685,11.7151202452246,764.859001719318
9410,19687,5249,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-35",29.6,98.3,3890,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.64668348078391,1828.68712560192,4.12540951767617,-4.12034882154941,11.4748660773362,732.672075973653
9410,19688,5250,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-36",29.6,98.3,3900,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.644817367465949,1822.99835714192,4.09828084307011,-4.15748077236421,11.4569896465277,730.706751762625
9410,19689,5251,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-37",29.5,98.3,3600,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.703293804344422,1994.65181065844,4.89157246636255,-3.04877897250402,11.9594287549285,792.310541015251
9410,19690,5252,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-38",29.6,98.2,4230,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.590389105283426,1584.08633419353,2.97279465101847,-5.50588850121492,10.6162454409663,671.037903376498
9410,19691,5253,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-39",29.7,98.1,4770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.509841418129728,1219.88043585899,1.04059411692864,-7.78198540949653,9.10382797725108,577.091504497859
9410,19692,5254,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-40",29.7,98,4630,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.533131040498692,1285.89484052731,1.43250400977412,-7.28188041284038,9.38357525530142,602.222068880576
9410,19693,5255,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-41",29.9,97.6,3960,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.606279957467865,1515.83199596339,2.65566615966229,-5.82511902783669,10.3552167724988,669.380276084763
9410,19694,5256,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-42",30.3,97.3,4140,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.5389235637832,1206.69291982805,0.934713152193986,-7.96459885112352,9.08377365600334,576.313487849207
9410,19695,5257,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-43",30.7,96.7,4450,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.511071736659729,843.906273521196,-1.19163234985029,-10.2741159009637,7.2421405676388,529.752315815612
9410,19696,5258,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-44",29.7,97.8,3885,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.642731823677796,1750.10894952191,3.78816839679015,-4.47552888018646,11.2098729396586,724.554680892398
9410,19697,5259,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-45",29.7,98,5008,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.478395050716348,1065.58340308852,0.150299813810419,-8.78813372007456,8.37541186887625,539.730739147143
9410,19698,5260,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-46",29.7,98.6,4045,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.614754525242256,1795.61349931684,3.91258104976292,-4.53866716761143,11.4087319978526,701.065490316964
9410,19699,5261,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-47",29.8,98.8,3515,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.661428971118304,3154.38605045084,8.64215356287902,0.473987807164114,15.660674178349,809.27639978742
9410,19700,5262,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-48",29.8,99,2490,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.767851838815655,5908.69542725364,16.18820665001,8.90665385863709,22.2544161766278,1022.7698626992
9410,19701,5263,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-49",30.2,99.2,2920,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.701743830366298,4749.01411251119,13.0109975685238,5.20962063009479,19.6135718914885,904.637188487355
9410,19702,5264,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-50",30.3,99.4,3495,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.623155786728137,2997.46553088174,8.12445064128322,-0.804545417417098,15.5520308696958,743.341491799119
9410,19703,5265,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-51",30.3,99.5,4460,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.539673090327884,1385.8302788921,1.73649554415814,-7.5329862159995304,9.78007492804589,595.199765576765
9410,19704,5266,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-52",30.3,99.5,4390,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.545913800486992,1477.16316495201,2.18551050268716,-7.06340266348847,10.1868369533678,605.65911140197
9410,19705,5267,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-53",30.3,99.6,4470,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.54069652549435,1374.21334881683,1.67994106509805,-7.59310446927093,9.71953896261395,595.493075877313
9410,19706,5268,"CMPD","Tibetan Plateau","Tibetan Plateau TS94-54",30.7,96.7,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.511071736659729,843.906273521196,-1.19163234985029,-10.2741159009637,7.2421405676388,529.752315815612
9410,19707,5269,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-01",29.8,91.5,3740,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.66428824825072,2519.47343424276,6.4757833635902,-2.82291439035629,14.2920721622395,835.655362886431
9410,19708,5270,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-02",29.7,92,4080,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.688624516805763,1970.50815496176,4.40019516003169,-4.79196064541846,12.3500217744593,838.090074924101
9410,19709,5271,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-03",29.7,92.1,4180,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.67453160831524706,1836.12500637467,3.80179254986385,-5.45998083664963,11.8579401577468,814.154103797076
9410,19710,5272,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-04",29.8,92.3,4655,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.540364635966919,1284.20791615347,0.890658853596512,-8.92749151487995,9.62482150961355,626.381616965921
9410,19711,5273,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-05",29.8,92.3,4920,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.481957586019898,1030.16392116922,-0.710703243402602,-10.8678199931517,8.40790610374998,546.66339968974
9410,19712,5274,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-06",29.9,92.5,4180,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.6428795590445,1819.19350724388,3.76744442525544,-5.39649996186207,11.7820797104973,770.95046181026
9410,19713,5275,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-07",29.9,92.7,3905,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.707428043199372,2189.59709649942,5.43804051339863,-3.26600401693305,12.981540612252,862.823029373487
9410,19714,5276,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-08",30,92.9,3720,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.716335663598978,2301.08207410698,5.92504791082899,-2.51314869222432,13.2233228777648,867.811888257656
9410,19715,5277,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-09",30,92.9,3725,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.715347002176304,2293.7835056677,5.89701488581111,-2.54826601879989,13.2028392310964,866.391226030745
9410,19716,5278,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-10",30,93.1,3525,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.74934287980792,2582.8524120552,6.94283055096867,-1.22835989533464,13.9560897387875,915.175015212844
9410,19717,5279,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-11",29.9,93.3,3425,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.727715387620088,2638.92166232012,7.06990057571112,-1.39710670582593,14.2824616228312,891.336953771707
9410,19718,5280,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-12",29.9,93.5,3365,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.732330354838592,2724.67526040629,7.34897331568685,-1.10423349392158,14.5257527615573,899.53686028915
9410,19719,5281,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-13",29.8,93.8,3250,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.726552897809995,2920.89602685224,7.95604526797348,-0.520422584750227,15.1079646218557,900.462509508354
9410,19720,5282,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-14",29.8,94,3170,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.734250127746755,3054.18316920437,8.35647535283424,-0.082788823670963907,15.4475118606177,913.510087957716
9410,19721,5283,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-15",29.8,94.4,3625,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.652496274337397,2308.27977612565,5.83957959464328,-2.9605367078218,13.4215691496068,790.379544156531
9410,19722,5284,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-16",29.7,94.4,3485,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.702956622003811,2492.42504146859,6.51217529993444,-2.22737080527118,13.9741280050958,858.077519293052
9410,19723,5285,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-17",29.7,94.4,3375,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.72307280609526,2653.86285429536,7.07443552289133,-1.60093661451144,14.4389901544702,887.626823822238
9410,19724,5286,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-18",29.7,94.4,3245,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.74665008837663,2855.88203686475,7.73892487729493,-0.860605298159024,14.98837269464,922.548729174912
9410,19725,5287,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-19",29.6,94.5,3095,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.772647890115257,3102.36102175691,8.49180235609205,-0.0213038405564762,15.6108283984153,962.332479662429
9410,19726,5288,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-20",29.6,94.6,3370,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.720498665178966,2652.33784740788,7.07130509416168,-1.5935474538929,14.4309011810702,884.777863822905
9410,19727,5289,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-21",29.6,94.6,3525,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.692006549570784,2426.06330265278,6.27654851067242,-2.47458699604496,13.7707569528952,842.911959864902
9410,19728,5290,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-22",29.6,94.6,3890,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.623521425820817,1949.94518954881,4.40502494310092,-4.54929301466111,12.2162237704187,744.324508608959
9410,19729,5291,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-23",29.6,94.6,4065,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.589911994686773,1746.67330169684,3.50771912303239,-5.54401507838118,11.470899641834,697.056552527342
9410,19730,5292,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-24",29.6,94.6,4270,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.549825081446372,1526.51228984558,2.45658944809498,-6.70926092445327,10.5978056626348,641.685518260306
9410,19731,5293,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-25",29.6,94.7,4500,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.501459000945889,1290.86739688906,1.23844567864566,-8.04349463934571,9.57578262647102,576.017746857422
9410,19732,5294,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-26",29.6,94.7,4540,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.493332059877473,1253.32297493965,1.03256289458224,-8.27135774077284,9.40449502976764,565.202563726197
9410,19733,5295,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-27",29.9,93.1,3580,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.739498369864906,2481.78495325372,6.59499516474234,-1.6573458336341,13.6967330715042,900.88143817897
9410,19734,5296,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-28",29.9,92.7,4015,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.683440841833753,2030.27881471315,4.76510304619266,-4.09673714409381,12.4799806405317,827.449699872782
9410,19735,5297,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-29",29.8,92.4,4880,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.490212852056305,1064.20488368838,-0.476891239927252,-10.5748345479201,8.57846155691042,557.666246328669
9410,19736,5298,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-30",29.7,90.8,3840,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.610114102399969,2445.16420161097,6.13017263985891,-3.41866634321971,14.0948696499817,769.882939046072
9410,19737,5299,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-31",30,90.7,4100,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.616049599690109,2124.88825289153,4.79966793943456,-5.02290710545894,13.0618050616699,765.231405166551
9410,19738,5300,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-32",30.1,90.6,4290,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.599503773368034,1842.49300907882,3.54442770803194,-6.39543902712829,12.0597949569519,730.645142558886
9410,19739,5301,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-33",30.3,90.7,4570,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.527636720772776,1415.52803192853,1.29168983622427,-9.02388926555489,10.4134380652534,619.228009900685
9410,19740,5302,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-34",30.5,91.1,4255,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.530541142349033,1754.08649273599,2.97419224475238,-7.32569232271876,11.8648103055313,635.845020866318
9410,19741,5303,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-35",30.6,91.5,4610,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.487486835554151,1322.80105656478,0.72468954166828,-9.76624808459004,9.99590175797055,563.184696739434
9410,19742,5304,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-36",31.4,92,4510,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.36848610853841,1155.55276361756,-0.923578416566459,-12.7494485844665,9.50863995708507,405.999400270423
9410,19743,5305,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-37",31.6,91.7,4490,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.373670356820443,1225.66580855302,-0.531894307666038,-12.3513417162768,9.89422747929758,415.487820149738
9410,19744,5306,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-38",31.6,91.6,4590,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.374832824850495,1136.07620666603,-0.980064412147132,-12.6498353657935,9.39357106866025,413.874235238941
9410,19745,5307,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-39",31.6,91.5,4560,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.374125076324799,1162.44361053634,-0.848226739593921,-12.5547854004008,9.54692118145656,414.043622328292
9410,19746,5308,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-40",31.4,92,4440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.366690953164853,1210.2882445845,-0.669062573355723,-12.6131402262075,9.82451846600399,405.459160327078
9410,19747,5309,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-41",31.1,92.3,4640,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.397374011577769,1100.8913660197,-0.854209894947984,-12.0145797153478,9.05731466995056,440.906891510335
9410,19748,5310,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-42",31,92.5,5040,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.409755323513915,841.138339636713,-2.15789391541918,-12.815802114569,7.46047480788619,446.981667678931
9410,19749,5311,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-43",30.9,92.6,4735,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.408203510622217,1050.26346298701,-0.994907660408748,-11.8960932333578,8.72150658035657,453.181208102715
9410,19750,5312,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-44",30.8,92.7,4860,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.412813938413396,969.501284197374,-1.38529851175764,-12.1210446261379,8.23109781816767,456.417115908692
9410,19751,5313,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-45",30.8,92.7,4860,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.412813938413396,969.501284197374,-1.38529851175764,-12.1210446261379,8.23109781816767,456.417115908692
9410,19752,5314,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-46",30.8,92.8,4880,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.412765206526726,941.889655948938,-1.48450224088745,-12.1232251319761,8.06001793848943,454.888011735433
9410,19753,5315,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-48",30.7,93.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499905694212251,1370.79883118348,1.33242853311293,-8.57446831736362,10.1004035634425,572.873188156834
9410,19754,5316,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-49",30.7,93.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499905694212251,1370.79883118348,1.33242853311293,-8.57446831736362,10.1004035634425,572.873188156834
9410,19755,5317,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-50",30.7,93.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499905694212251,1370.79883118348,1.33242853311293,-8.57446831736362,10.1004035634425,572.873188156834
9410,19756,5318,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-51",30.7,93.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.499905694212251,1370.79883118348,1.33242853311293,-8.57446831736362,10.1004035634425,572.873188156834
9410,19757,5319,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-52",30.7,92.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504332269434523,1468.68406067826,1.51787429037536,-8.92370364680142,10.6693945851396,587.129138708028
9410,19758,5320,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-53",30.7,92.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504332269434523,1468.68406067826,1.51787429037536,-8.92370364680142,10.6693945851396,587.129138708028
9410,19759,5321,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-54",30.7,92.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504332269434523,1468.68406067826,1.51787429037536,-8.92370364680142,10.6693945851396,587.129138708028
9410,19760,5322,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-55",30.7,92.2,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.504332269434523,1468.68406067826,1.51787429037536,-8.92370364680142,10.6693945851396,587.129138708028
9410,19761,5323,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-56",30.7,93.1,4640,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.470109665341194,1190.80285367279,0.247827043767592,-9.90401467813853,9.28319752507348,531.743336582011
9410,19762,5324,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-57",30.7,93,4745,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.453791248650071,1099.29763437429,-0.344054992124832,-10.6329803262413,8.83959493393647,509.598058064903
9410,19763,5325,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-58",30.8,92.9,4830,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.414225749110089,971.671881013025,-1.28450739454695,-11.904627347201,8.23111014058475,457.391741555621
9410,19764,5326,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-59",30.8,92.6,4745,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.413236259948829,1057.98582161238,-0.91106161580441,-11.7456189727778,8.7455101572591,460.272168596902
9410,19765,5327,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-60",31.2,92.1,4545,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.38585378118076,1168.8516723592,-0.672195835700529,-12.1584639948802,9.502453147993,429.603092023714
9410,19766,5328,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-61",29.3,90.6,3710,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.615799070321932,2695.50261503945,6.97350145826473,-2.75970626720317,14.9596618827104,790.946660457022
9410,19767,5329,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-62",29.2,90.6,4794,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.716207251639496,1243.57039431115,0.821237231593908,-8.70593774481032,9.32101344407222,841.84821151771
9410,19768,5330,"CMPD","Tibetan Plateau","Tibetan Plateau TS95-63",29.2,90.5,4455,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.795660572441026,1615.15370964833,2.77710469877097,-6.59502064592015,10.9040031537194,962.190062443701
9410,19769,5331,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-01",31.5,91.4,4510,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.369376293693581,1203.28203859151,-0.659989718790999,-12.4499929364446,9.78697659473724,410.595369913791
9410,19770,5332,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-02",31.6,92,4521,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372894931466113,1151.12159149443,-0.91872229239511,-12.6962821102655,9.47058747399965,409.920040546915
9410,19771,5333,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-03",31.6,92.1,4410,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.372078276600438,1244.2535800446,-0.462465853630645,-12.406666419107,9.9902864846888,411.653928029881
9410,19772,5334,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-04",32,90.6,4500,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.446687872329224,1291.85615942711,0.0827039517729617,-11.1892910560043,10.2189970718131,500.626222291865
9410,19773,5335,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-05",32,90.7,4570,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.433275560035187,1193.47805197472,-0.484697357069328,-11.7688014190465,9.71285183624088,480.624617611775
9410,19774,5336,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-06",32,90.7,4570,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.433275560035187,1193.47805197472,-0.484697357069328,-11.7688014190465,9.71285183624088,480.624617611775
9410,19775,5337,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-07",32,90.7,4585,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.430845695682411,1172.64362640934,-0.60680061424778,-11.8905059298677,9.60456920797013,476.871021959681
9410,19776,5338,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-09",32,90.5,4500,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.448830739399169,1290.28072504851,0.077892772989153,-11.1808625231368,10.2180953120442,503.03021637851
9410,19777,5339,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-10",32,90.5,4520,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.44564394480112,1261.421494834,-0.0850001479100969,-11.3433242195683,10.0731536437356,498.002985507297
9410,19778,5340,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-11",32.6,91.9,5220,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.273533742607525,405.723192741984,-6.2697246790317704,-17.7906914210911,4.72342096647962,268.359425003003
9410,19779,5341,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-12",31.9,91.3,4600,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.397778359250792,1178.78462763382,-0.635904777232476,-12.1381581935931,9.57237766299767,440.827578813686
9410,19780,5342,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-13",34.5,92.7,4430,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.178978142021936,702.623341727269,-4.03934548716613,-15.8300810529598,7.21551850294222,179.254618537533
9410,19781,5343,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-14",35.4,93.6,4300,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.150069679782227,801.114358874201,-3.58047437791457,-15.7574320806217,7.98760683359309,151.219039544438
9410,19782,5344,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-15",37.3,95.5,3140,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.103226898058929,2171.17355868517,2.87604166108256,-11.5880927559238,15.757541130264901,117.591776423597
9410,19783,5345,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-16",37.3,97.9,3100,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.174538428210893,1967.23635359905,2.31204789574379,-11.5157035191573,14.4480346934259,193.851463773306
9410,19784,5346,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-17",37.2,99.2,3260,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.220126275634445,1491.82735315532,0.22915657466501,-13.1639524082538,11.8403729087442,227.438964828608
9410,19785,5347,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-18",37.2,99.8,3110,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.257325643645765,1594.2660658624,0.857127441027048,-12.5205228586593,12.1468608109017,261.182022011917
9410,19786,5348,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-19",31,91.6,4650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.406266711324549,1168.73679388291,-0.515118578920992,-11.6939316646284,9.428423526211,457.285442054316
9410,19787,5349,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-20",31.3,91.8,4510,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.36821164616734,1157.81239155633,-0.922593063990666,-12.7501350596562,9.52929012831933,406.39142613861
9410,19788,5350,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-21",32,90.9,4556,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.42169408647524,1233.0099992089,-0.287091303063416,-11.669131705239,9.88132807483127,469.735794674405
9410,19789,5351,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-22",32.9,91.9,5231,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.276819428628699,395.44534293278,-6.36174342568053,-17.8769439681973,4.63328630784482,270.036455607162
9410,19790,5352,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-23",33.6,92.1,4700,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.238614201623537,621.013773135149,-4.70568389378819,-16.5190593922491,6.50981705036149,237.190763847435
9410,19791,5353,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-24",34.2,92.4,4570,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.19647778832529,614.470246955243,-4.74137076331787,-16.5316085971456,6.56137252358885,193.92229382282
9410,19792,5354,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-25",35.7,94,4690,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.171361762121603,513.943285438462,-5.36313410569393,-17.0376929428262,5.8952671396089,166.124765756953
9410,19793,5355,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-8a",32,90.6,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.454598675646993,1365.390631069,0.489891888104858,-10.7832488376565,10.5806709567859,513.174740028533
9410,19794,5356,"CMPD","Tibetan Plateau","Tibetan Plateau TS99-8b",32,90.6,4450,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.454598675646993,1365.390631069,0.489891888104858,-10.7832488376565,10.5806709567859,513.174740028533
9410,19795,5357,"CMPD","Tibetan Plateau","Tibetan Plateau WHA-25",38.48,99.67,4500,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.205598229700454,130.912786145611,-9.13921491110593,-21.3822828253734,2.27023205494287,169.170169823999
9410,19796,5358,"CMPD","Tibetan Plateau","Tibetan Plateau XX-U-1",34.86,98.1,4227,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.274533789973699,884.671361647805,-2.79495132277633,-15.2134689190179,8.30222337545823,279.819686878586
9410,19797,5359,"CMPD","Tibetan Plateau","Tibetan Plateau ZL-U-1",35.02,97.63,4284,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.262728707698197,834.705532298256,-3.12511720663543,-15.4829860531977,8.02478124360943,266.613144189042
9411,19798,1442,"Australian pollen","Tidal River","Tidal River",-39.0333,146.3167,2,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-24","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.79567056833782,5047.24350923159,13.8280644088537,9.130861589495,18.7517661832434,803.875086109395
9412,19799,22995,"SMPDSv1","Tiefer Cloewen","Tiefer Cloewen_ss",53.2333,13.5311,82,"0.085","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.796592173730691,3328.55854572098,9.05115576413632,-0.686745144646369,18.0990950424437,555.766609429709
9413,19800,22996,"SMPDSv1","Tiefer See","Tiefer See_ss",53.23517,13.3631,32,"0.172","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.811206002518374,3204.09035956236,8.70346409857587,-0.661729885257099,17.6828972919154,570.849810686562
9414,19801,22997,"SMPDSv1","Tierra de Pinares","Lopez_a49",40.5429444444444,-4.43366666666666,1195,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.469773742145126,3513.76796389482,9.62676154491732,2.04544380012969,19.1127347132059,551.306958321162
9415,19802,22999,"SMPDSv1","Tigalmamine","Barboni_a1444",32.9,-5.35,1626,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.337982736259374,5049.43611607867,13.8340715509005,5.24613398389634,24.4733127975387,483.068249400172
9415,19803,22998,"SMPDSv1","Tigalmamine","EPDcoretop_E1390",32.9,-5.35,1626,"0.06","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",20,"xerophytic woods/scrub",0.337982736259374,5049.43611607867,13.8340715509005,5.24613398389634,24.4733127975387,483.068249400172
9415,19804,10644,"Neotoma","Tigalmamine","Tigalmamine core",32.9,-5.35,1626,"not recorded","lake","core top","-4","Cheddadi, R., Lamb, H.F., Guiot, J. and van der Kaars, S., 1998. Holocene climatic change in Morocco: a quantitative reconstruction from pollen data. Climate dynamics, 14(12), pp.883-890.; 
El Hamouti, N., Lamb, H., Fontes, J.-C., Gasse, F., 1991. Changements hydroclimatiques abrupts dans le Moyen Atlas marocain depuis le dernier maximum glaciaire. Comptes-Rendus de l'Académie des Sciences, Paris, 313(2),pp.259-265.; 
Lamb, H.F. and van der Kaars, S., 1995. Vegetational response to Holocene climatic change: pollen and palaeolimnological data from the Middle Atlas, Morocco. The Holocene, 5(4), pp.400-408.","10.1007/s003820050262;
;
10.1177/095968369500500402",20,"xerophytic woods/scrub",0.337982736259374,5049.43611607867,13.8340715509005,5.24613398389634,24.4733127975387,483.068249400172
9416,19805,6191,"EMPDv2","Tigrigra, Ifrane","AlbaSanchez_a120",33.407958,-5.184415,1819,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.335145725674585,4836.05739887843,13.2494723256943,4.40246920589065,24.4694789924298,479.010069457058
9416,19806,6192,"EMPDv2","Tigrigra, Ifrane","AlbaSanchez_a121",33.401479,-5.208466,1761,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.337092902482932,4894.1914337234,13.4087436540367,4.65795031224595,24.4764362672155,480.921302931872
9416,19807,6193,"EMPDv2","Tigrigra, Ifrane","AlbaSanchez_a122",33.381264,-5.224375,1794,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.336473625798689,4859.70708308686,13.3142659810599,4.50928734485802,24.4602738353185,480.542545259604
9417,19808,6150,"EMPDv2","Tiguelmamine, Khenifra","AlbaSanchez_a78",32.897139,-5.331323,1786,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.33756187430883,4870.68965362665,13.3443552154155,4.51797258765592,24.3631611160226,483.764868292024
9418,19809,23000,"SMPDSv1","Tihvinskoe boloto","Tihvinskoe boloto_SS",54.1119,37.6226,250,"not known","terrestrial, bog/fen/swamp","surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.845233951993141,2794.68009322443,5.19817323540665,-9.77752697273076,18.5066483361747,610.058539373513
9419,19810,13371,"Neotoma","Tiinkdhul Lake","TIINKDHU",66.583333,-143.15,189,"not known","lake","core","48","Anderson, P.M., R.E. Reanier, and L.B. Brubaker. 1988. Late Quaternary vegetational history of the Black River region in northeastern Alaska. Canadian Journal of Earth Sciences 25:84-94.",,15,"cold evergreen needleleaf forest",0.45144057414507,1295.37380628634,-6.30030032041152,-24.3715587618976,13.0767915903119,175.946521197042
9420,19811,8277,"EMPDv2","Tilly","Montanari_a3",45.7074027777778,7.73358055555556,954,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.50612039740574,2999.25808067907,8.15722216200838,-0.628200735867691,17.186153864044,1346.36013544406
9421,19812,6189,"EMPDv2","Timahdite, Ifrane","AlbaSanchez_a118",33.377907,-5.128402,1920,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.331276733416248,4736.47136567079,12.9766338785501,3.9581751543071,24.4592943184982,475.281049685868
9421,19813,6190,"EMPDv2","Timahdite, Ifrane","AlbaSanchez_a119",33.36205,-5.139706,1905,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.331858955325832,4751.3147011018,13.0173005509638,4.02305803669953,24.4581921979391,475.944692383571
9422,19814,11619,"Neotoma","Timber Lake","TIM-1C",43.818565,-95.214875,477,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.75197047676753,3441.62455035131,7.04853501734418,-10.6891354902939,22.5700372661727,682.025795469661
9422,19815,11620,"Neotoma","Timber Lake","TIM-1M",43.818565,-95.214875,477,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.75197047676753,3441.62455035131,7.04853501734418,-10.6891354902939,22.5700372661727,682.025795469661
9423,19816,11993,"Neotoma","Timberline Lake","SM-TMB",39.298395,-106.47574,3275,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.547013300864286,1108.23967430888,-1.45973056658908,-12.8644782581739,10.2079640483913,509.149027021663
9424,19817,23001,"SMPDSv1","Timlitjern","Bjune_a142",58.4456618,6.71270969,422.5,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.86593027269196,2096.04620788531,5.22969029864952,-2.72391267614827,13.3582724236619,1621.0594955599
9425,19818,1443,"Australian pollen","Tinaroo Range","Tinaroo Range",-17.117,145.567,1160,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.444294255468606,7218.91748623869,19.7778561266813,14.476144905797801,23.5497971004679,833.472546874606
9426,19819,1444,"Australian pollen","Tinaroo Road","Tinaroo Road",-17.117,145.517,1070,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.495096807692396,7366.43922134296,20.1820252639533,14.989292587167,23.8722526739471,921.844343642883
9427,19820,13970,"Neotoma","Tiny Lake","TINY",51.1943799999999,-127.38188,6,"not known","coastal, lacustrine","core","-52","Galloway, J.M. 2006. Post-glacial climate and vegetation change in the Seymour-Belize Inlet complex, central coastal British Columbia, Canada. Doctoral dissertation. Carleton University, Ottawa, Ontario, Canada.",,8,"cool evergreen needleleaf forest",4.59585125792705,3137.81628090553,8.59675693398774,3.47647820123484,14.6687791396701,3056.2388780123
9428,19821,13372,"Neotoma","Tioga Pass Pond","TIOGA",37.908333,-119.258333,3018,"not known","lake","core","18","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Anderson, R.S. 1990. Holocene forest development and paleoclimates within the central Sierra Nevada, California. Journal of Ecology 78:470-489.",,17,"temperate evergreen needleleaf open woodland",0.697592892628578,1762.10469977637,3.51298561743631,-4.28930921452972,14.3878587842259,796.282763358863
9429,19822,1445,"Australian pollen","Tipoeka estuary","Tipoeka-2",-4.7856,136.8542,1,"not applicable","coastal, estuarine","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",2.42173123527137,9885.99659044288,27.0849221655969,26.3632366293631,27.5683184281425,3429.22416472669
9430,19823,13889,"Neotoma","Titaluk River Exposure 1","TITALUK1",69.7109833333333,-155.211533333333,80,"not known","palaeolake","excavation","-29","Nelson, R.E. 1982. Late Quaternary environments of the western Arctic Slope, Alaska. Doctoral dissertation. University of Washington, Seattle, Washington, USA.",,31,"tundra",0.54406845615156,640.094390703694,-10.5287131824063,-26.6838849094762,7.78392418469422,153.83589778915
9431,19824,11300,"Bush et al., 2020","Titicaca","Titicaca",-15.72,-69.567,3815,"not known","lake","lake surface sample","-51","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",,"not applicable",0.513264756114618,3304.92225112617,9.0545815099347209,6.48767059508165,10.6966781151857,759.198996601725
9432,19825,13373,"Neotoma","Titicut Swamp","TITICUT1",41.95,-71.033333,20,"not known","lake","core","-19","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Nelson, S. 1984. Upland and wetland vegetational changes southeastern Massachusetts: a 12,000 year record. Northeastern Geology 6:181-191.","10.1017/S0033822200037504",13,"temperate deciduous broadleaf forest",1.34490662142359,3834.47977514402,10.1370611475213,-2.49143821509223,22.2593568324671,1202.94441489707
9432,19825,13374,"Neotoma","Titicut Swamp","TITICUT1",41.95,-71.033333,20,"not known","lake","core","0","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Nelson, S. 1984. Upland and wetland vegetational changes southeastern Massachusetts: a 12,000 year record. Northeastern Geology 6:181-191.","10.1017/S0033822200037504",13,"temperate deciduous broadleaf forest",1.34490662142359,3834.47977514402,10.1370611475213,-2.49143821509223,22.2593568324671,1202.94441489707
9432,19825,13375,"Neotoma","Titicut Swamp","TITICUT1",41.95,-71.033333,20,"not known","lake","core","19","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Nelson, S. 1984. Upland and wetland vegetational changes southeastern Massachusetts: a 12,000 year record. Northeastern Geology 6:181-191.","10.1017/S0033822200037504",13,"temperate deciduous broadleaf forest",1.34490662142359,3834.47977514402,10.1370611475213,-2.49143821509223,22.2593568324671,1202.94441489707
9433,19826,23002,"SMPDSv1","Tjernfjelltjern","Bjune_a29",66.80847666,15.44601317,349,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",3.27443274329235,1310.88705470746,1.007415150385,-7.85992066152696,11.3237635710087,1287.82489199601
9434,19827,23003,"SMPDSv1","Tjornastjern","Bjune_a48",62.83406001,10.50776181,609,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.96901867928599,1448.0610437871,1.77605616843143,-7.45982955126986,11.3481426489746,900.476245778111
9435,19828,23004,"SMPDSv1","Tjornbutjern","Bjune_a85",58.76045916,7.38886222,610,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.42544558240294,1841.97475611165,3.8361715218091,-5.0592217794695,12.8202696967202,1371.92519509266
9436,19829,23005,"SMPDSv1","Tjorndalstjern","Bjune_a49",62.88158682,11.84784997,790,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.62586525659429,1275.12314192799,0.120701382237644,-10.2980196925166,10.7536519020546,730.917771308047
9437,19830,23006,"SMPDSv1","Tjovetjonn","Bjune_a215",58.7633333333333,7.81499999999999,274,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.27575265343643,2172.66070352596,5.09558876190418,-4.08924489150614,14.2888088014511,1324.08296800996
9438,19831,9691,"Gaillard et al., 1992","Tjusby","Tjusby",56.796298,16.737514,17,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.861022247116348,2668.5175534052,7.01372764510219,-1.73809175928523,16.3379027790282,561.228443733222
9439,19832,7034,"EMPDv2","Tlsta hora","EPDcoretop_E1610",48.89,17.89,460,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.05850851351274,2871.71212405866,7.2383605791088,-3.92824500969327,16.7081516275997,810.872146097125
9440,19833,13376,"Neotoma","Toboggan Lake","TOBOGGAN",50.815305,-114.59946,1480,"not known","lake","core","-35","MacDonald, G.M. 1989. Postglacial palaeoecology of the subalpine forest–grassland ecotone of southwestern Alberta: new insights on vegetation and climate change in the Canadian Rocky Mountains and adjacent foothills. Palaeogeography, Palaeoclimatology, Palaeoecology 73(3-4):155-173. MacDonald, G.M., R.P. Beukens, and W.E. Kieser. 1991. Radiocarbon dating of limnic sediments: a comparative analysis and discussion. Ecology 72(3):1150-1155. MacDonald, G.M., R.P. Beukens, W.E. Kieser, and D.H. Vitt. 1987. Comparative radiocarbon dating of terrestrial plant macrofossils and aquatic moss from the ""ice-free corridor"" of western Canada. Geology 15(9):837-840.","10.1016/0031-0182(89)90001-1;
10.2307/1940612;
10.1130/0091-7613(1987)​15<837:CRDOTP>​2.0.CO;2",15,"cold evergreen needleleaf forest",0.85295635003443,1680.78608640237,1.2530310485657,-11.3950081271884,13.0916708809204,615.673142267146
9441,19834,13377,"Neotoma","Toenjes Lake","TOENJES",45.40895,-93.981715,295,"not known","lake","core","-13","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85195375118916306,3435.92670335652,6.86270792808923,-11.5922020399748,22.443648424356,727.296608077171
9441,19834,13378,"Neotoma","Toenjes Lake","TOENJES",45.40895,-93.981715,295,"not known","lake","core","8","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85195375118916306,3435.92670335652,6.86270792808923,-11.5922020399748,22.443648424356,727.296608077171
9441,19834,13379,"Neotoma","Toenjes Lake","TOENJES",45.40895,-93.981715,295,"not known","lake","core","32","Unpublished data",,13,"temperate deciduous broadleaf forest",0.85195375118916306,3435.92670335652,6.86270792808923,-11.5922020399748,22.443648424356,727.296608077171
9442,19835,9692,"Gaillard et al., 1992","Tofrarod","Tofrarod A",56.013008,13.642521,100,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02445423380865,2713.81397598933,7.10366255680305,-1.86504391976809,16.1909102465111,674.145554226798
9443,19836,9693,"Gaillard et al., 1992","Toftarod","Toftarod B",56.013008,13.642521,100,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02445423380865,2713.81397598933,7.10366255680305,-1.86504391976809,16.1909102465111,674.145554226798
9444,19837,23007,"SMPDSv1","Tohela","Seppa_b115",58.42,24,18,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.02294463284761,2495.0869804649,5.57658078976882,-5.37987728909809,16.5782061696998,621.515399910753
9445,19838,23008,"SMPDSv1","Toivonlampi","Seppa_b36",64.02,30.08,223,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15273488638281,1789.80357415693,0.844272080309471,-13.4701818332639,15.4501377812355,548.361632445291
9446,19839,10609,"BIOME6000 Japan","Tojuro","TjroC0",37.77,140.17,1800,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.31910438244233,2218.16891154668,3.64048119907298,-9.07342515951447,16.783146034861,1717.88487693827
9447,19840,9694,"Gaillard et al., 1992","Tolanga","Tolanga",55.639055,13.774779,60,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.9663789945434,2836.47791057927,7.5296237774752,-1.48730552030278,16.5995533846633,646.775114480363
9448,19841,10282,"Herzschuh et al., 2019","Tolbo Nuur. 34A","Tolbo Nuur. 34A",48.58181,90.03044,2076,"84","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.250274529052472,1449.71933233145,-4.6803855523522,-25.3215706936907,12.7254868137293,216.345070492175
9449,19842,23193,"SMPDSv1","Tolga Municipality","Bjune_a55",62.21835293,11.49265408,800,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.45508713777639,1318.36192597822,0.244963435475119,-10.4727107761984,11.0131124058648,678.194231981
9450,19843,23009,"SMPDSv1","Tollari","Meltsov_a5",57.75211,26.34273,98,"0.058","lake","lacustrine core top","-55","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00680122204587,2474.91119956557,5.08062935326518,-7.09064516787861,16.5923010507921,622.71843931558
9451,19844,7963,"EMPDv2","Tolstyi","Mikishin-Gvozdeva_a23",52.2288888888889,143.043333333333,12,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.22084173562616,1855.80229224926,-0.692366092443282,-18.9865648933619,15.3605502707512,651.54131784018
9452,19845,11301,"Bush et al., 2020","Toluca_sol","Toluca_sol",19.11,-99.76,4206,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.589066314480235,1320.30947690827,3.60061635493795,-0.190650427143782,6.25583157838787,756.385017619989
9453,19846,11302,"Bush et al., 2020","Tolucaluna","Tolucaluna",19.11,-99.75,4266,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.586068770350428,1207.6531750754,3.24712419590569,-0.537659823257131,5.96713580371039,748.918115453615
9454,19847,1446,"Australian pollen","Tom Burns","Tom Burns, D",-37.3856,145.8181,1075,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.24190987434135,3053.34879037844,8.36533915172175,1.1553778073544,16.0702202455771,1430.6388162661
9455,19848,1447,"Australian pollen","Tom Gregory Swamp","Tom Gregory Swamp",-35.38,148.49,1024,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.906870021989188,3476.86601560925,9.52566031673766,2.50395142693891,16.3599971751713,1080.07593837806
9455,19848,1448,"Australian pollen","Tom Gregory Swamp","Tom Gregory Swamp",-35.38,148.49,1024,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core","17","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.906870021989188,3476.86601560925,9.52566031673766,2.50395142693891,16.3599971751713,1080.07593837806
9456,19849,7083,"EMPDv2","Tom River","EPDcoretop_E1920",56.17,84,100,"not known","fluvial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.823931883626831,2315.84303466774,0.610731826206171,-18.0249521046644,19.2354620972253,492.059766482608
9457,19850,15557,"Neotoma","Tom Swamp","DCG09",42.516667,-72.2125,231,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.32348082506675,3366.2815038249,8.1152853846671,-5.77646977557147,20.9650846169368,1118.12028642386
9458,19851,17315,"Neotoma","Tomahawk","TW020",45.8,-89.7,483,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.02628141222202,2663.72577568816,4.05588064633313,-12.7566038791478,18.9863661233801,793.827527906071
9459,19852,23010,"SMPDSv1","Tomies wood, Killarney","Mitchell_a2",52.0458333333333,-9.58333333333333,50,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.78723310529779,3631.40043979347,9.94904230080403,5.61589648124635,15.1042673706036,1142.21036409882
9459,19853,23011,"SMPDSv1","Tomies wood, Killarney","Mitchell_a5",52.0458333333333,-9.58333333333333,50,"not applicable","terrestrial","moss polster or moss","-35","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.78723310529779,3631.40043979347,9.94904230080403,5.61589648124635,15.1042673706036,1142.21036409882
9460,19854,16526,"Neotoma","Tomlinson Lake","KG023",46.72,-67.77,237,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.5094442438553,2452.87246205194,3.61062865280939,-12.1968488276715,18.023671450469,1095.37983911759
9461,19855,6222,"EMPDv2","Tomsk region","Antipina_a14",57.0444,79.3429,140,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.743418122654976,2300.48100650921,0.270326821554056,-18.7872948515723,19.2725221875115,432.32951642457
9462,19856,13380,"Neotoma","Tonawa Lake","TONAWA",44.85,-77.175,274,"not known","lake","core","-30","McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.09872990300357,2816.65099511253,5.02792730725688,-11.2672529104516,19.3198469778236,890.044563757486
9463,19857,5360,"CMPD","Tongguan Mt","Tongguan Mt 6",31.35,119.82,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10097888319252,5610.18361531383,15.370366069353,2.81467563809043,27.5567354354615,1211.93283545663
9463,19858,5361,"CMPD","Tongguan Mt","Tongguan Mt 7",31.35,119.82,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.10097888319252,5610.18361531383,15.370366069353,2.81467563809043,27.5567354354615,1211.93283545663
9464,19859,5362,"CMPD","Tongguanshan","Tongguanshan",31.7,119.5,400,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33333966363207,5281.86047426141,14.4708506144148,2.17916857766487,26.2922606242652,1428.56341290372
9465,19860,5363,"CMPD","Tongzha","Tongzha",18.9,110,800,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.54486705547757,7976.99920773153,21.8547923499494,17.7378365571673,24.8350626400854,2105.281495632
9466,19861,1449,"Australian pollen","Tooperoopna","Tooperoopna_ss",-34.0014,141.6369,46,"not applicable","lacustrine, drained lake","surface sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.195797685332398,6364.83606203318,17.437907019269,10.2668417166352,24.6825511375497,276.110502612009
9467,19862,16543,"Neotoma","Toothaker Pond","KG037",44.87,-70.2,244,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.52964048787553,2695.72258018142,5.07681684906182,-9.76603492112074,18.7307191926625,1161.71673068631
9468,19863,1450,"Australian pollen","Top Swamp","Top Swamp",-32,151.4667,1500,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","not known","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.424814918946036,4035.00774885051,11.0548157502754,2.51887053861471,18.9595926772562,644.229359769567
9468,19864,1451,"Australian pollen","Top Swamp","Top Swamp core",-32,151.4667,1500,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.424814918946036,4035.00774885051,11.0548157502754,2.51887053861471,18.9595926772562,644.229359769567
9469,19865,17398,"Neotoma","Topico Marsh","TW105",43.47,-84.83,248,"not known","terrestrial, marsh","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.950637696204117,3360.01603020805,7.87498210911052,-6.47828774905077,21.1987795462238,812.05167282136
9470,19866,23012,"SMPDSv1","Torbiera del Biecai","Ortu_a10",44.2,7.7,1920,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49878313647757,1921.41857413656,4.71829181278731,-2.54969500679867,13.124805960722,1404.10635567934
9471,19867,23013,"SMPDSv1","Toresjon","Seppa_b138",57.23,12.7,169,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.13239612989084,2539.23791602008,6.3961963923528,-2.74724356426616,15.7184765062621,714.590478470261
9472,19868,23014,"SMPDSv1","Torfyanik-gancevichi","Torfyanik-gancevichi_SS",52.7270861111111,26.4517111111111,175,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.832144615946583,2922.04102088817,6.78968060979261,-6.10416359760437,17.8030210389207,599.248356250038
9473,19869,23015,"SMPDSv1","Toriltjern","Bjune_a36",64.91534365,13.65124978,605,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.61971563217101,1258.59199413366,0.216456981211799,-10.0846483881172,10.8981835698528,1104.28775155416
9474,19870,23016,"SMPDSv1","Torreblanca","Barboni_a1451",40.1653,0.18167,10,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.364459027746037,6409.99300058367,17.5616246591333,10.6571758199258,25.6524926169043,452.301531391844
9475,19871,23017,"SMPDSv1","Torrecilla en Cameros","Barboni_a787",42.25,-2.62,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.698474988632484,3946.55220000755,10.8124717808426,3.46869631318345,19.3714508034494,728.300715084689
9476,19872,14181,"Neotoma","Torren's Bog","TORNSBOG",40.3563,-82.46925,302,"not known","terrestrial, bog/fen/swamp","core","16","Ogden, J.G., III, and R.J. Hay. 1967. Ohio Wesleyan University natural radiocarbon measurements III. Radiocarbon 9:316-332..",,13,"temperate deciduous broadleaf forest",1.05556944932804,3912.58356301524,10.1289134318623,-3.84058281475204,22.3628120565161,968.496087313344
9477,19873,1452,"Australian pollen","Torres Strait coastal","Argan_ss",-10.0833,142.1,5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23100086226677,9821.26809391646,26.9075838189492,25.3065024366095,28.1563609247814,1881.04387739289
9477,19874,1453,"Australian pollen","Torres Strait coastal","Talita Kupai_ss1",-10.0167,142.2,1.5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23280233119838,9823.17573282936,26.9128102269298,25.3178400690346,28.156931075195,1882.88423493036
9477,19875,1454,"Australian pollen","Torres Strait coastal","Talita Kupai_ss2",-10.0167,142.2,1.5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23280233119838,9823.17573282936,26.9128102269298,25.3178400690346,28.156931075195,1882.88423493036
9477,19876,1455,"Australian pollen","Torres Strait coastal","Talita Kupai_ss3",-10.0167,142.2,1.5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23280233119838,9823.17573282936,26.9128102269298,25.3178400690346,28.156931075195,1882.88423493036
9477,19877,1456,"Australian pollen","Torres Strait coastal","Waruid_ss1",-10.0667,142.15,4,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23151847595261,9821.40901812993,26.9079699126847,25.307640284222,28.1564525838906,1881.68868299558
9477,19878,1457,"Australian pollen","Torres Strait coastal","Waruid_ss2",-10.0667,142.15,4,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23151847595261,9821.40901812993,26.9079699126847,25.307640284222,28.1564525838906,1881.68868299558
9477,19879,1458,"Australian pollen","Torres Strait coastal","Waruid_ss3",-10.0667,142.15,4,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23151847595261,9821.40901812993,26.9079699126847,25.307640284222,28.1564525838906,1881.68868299558
9477,19880,1459,"Australian pollen","Torres Strait coastal","Waruid_ss4",-10.0667,142.15,4,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23151847595261,9821.40901812993,26.9079699126847,25.307640284222,28.1564525838906,1881.68868299558
9477,19881,1460,"Australian pollen","Torres Strait coastal","Waruid_ss5",-10.0667,142.15,4,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23151847595261,9821.40901812993,26.9079699126847,25.307640284222,28.1564525838906,1881.68868299558
9478,19882,1461,"Australian pollen","Torres Strait lowland","Argan_woodland_ss1",-10.0833,142.1,5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23100086226677,9821.26809391646,26.9075838189492,25.3065024366095,28.1563609247814,1881.04387739289
9478,19883,1462,"Australian pollen","Torres Strait lowland","Argan_woodland_ss2",-10.0833,142.1,5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23100086226677,9821.26809391646,26.9075838189492,25.3065024366095,28.1563609247814,1881.04387739289
9478,19884,1463,"Australian pollen","Torres Strait lowland","Argan_woodland_ss3",-10.0833,142.1,5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23100086226677,9821.26809391646,26.9075838189492,25.3065024366095,28.1563609247814,1881.04387739289
9478,19885,1464,"Australian pollen","Torres Strait lowland","Argan_woodland_ss4",-10.0833,142.1,5,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23100086226677,9821.26809391646,26.9075838189492,25.3065024366095,28.1563609247814,1881.04387739289
9478,19886,1465,"Australian pollen","Torres Strait lowland","Tiam Point_ss1",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19887,1466,"Australian pollen","Torres Strait lowland","Tiam Point_ss2",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19888,1467,"Australian pollen","Torres Strait lowland","Tiam Point_ss3",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19889,1468,"Australian pollen","Torres Strait lowland","Tiam Point_ss4",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19890,1469,"Australian pollen","Torres Strait lowland","Tiam Point_ss5",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19891,1470,"Australian pollen","Torres Strait lowland","Tiam Point_ss6",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19892,1471,"Australian pollen","Torres Strait lowland","Tiam Point_ss7",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19893,1472,"Australian pollen","Torres Strait lowland","Tiam Point_ss8",-10.2,142.3,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23654746137336,9811.51181842086,26.8808542970435,25.2567037560901,28.1608474469803,1892.01292781671
9478,19894,1473,"Australian pollen","Torres Strait lowland","Zurath_ss1",-10.2667,142.1,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.26013076448127,9821.36668576911,26.907853933614,25.3110550255543,28.1620496526161,1920.76730827378
9478,19895,1474,"Australian pollen","Torres Strait lowland","Zurath_ss2",-10.2667,142.1,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.26013076448127,9821.36668576911,26.907853933614,25.3110550255543,28.1620496526161,1920.76730827378
9478,19896,1475,"Australian pollen","Torres Strait lowland","Zurath_ss3",-10.2667,142.1,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.26013076448127,9821.36668576911,26.907853933614,25.3110550255543,28.1620496526161,1920.76730827378
9478,19897,1476,"Australian pollen","Torres Strait lowland","Zurath_ss4",-10.2667,142.1,3,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.26013076448127,9821.36668576911,26.907853933614,25.3110550255543,28.1620496526161,1920.76730827378
9479,19898,1477,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss1",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19899,1478,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss2",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19900,1479,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss3",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19901,1480,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss4",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19902,1481,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss5",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19903,1482,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss6",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19904,1483,"Australian pollen","Torres Strait rainforest","Mua Hillside_ss7",-10.1333,142.1167,25,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23252440467734,9809.05117747401,26.8741128149973,25.2538534051688,28.1242789614295,1885.15956807073
9479,19905,1484,"Australian pollen","Torres Strait rainforest","Mulgrave Peak_ss1",-10.2,142.2333,120,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.24946194811019,9759.53939153182,26.7384640863886,25.0485605656919,27.971235941575,1919.58665735881
9479,19906,1485,"Australian pollen","Torres Strait rainforest","Mulgrave Peak_ss2",-10.2,142.2333,120,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.24946194811019,9759.53939153182,26.7384640863886,25.0485605656919,27.971235941575,1919.58665735881
9479,19907,1486,"Australian pollen","Torres Strait rainforest","Mulgrave Peak_ss3",-10.2,142.2333,120,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.24946194811019,9759.53939153182,26.7384640863886,25.0485605656919,27.971235941575,1919.58665735881
9479,19908,1487,"Australian pollen","Torres Strait rainforest","Mulgrave Peak_ss4",-10.2,142.2333,120,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.24946194811019,9759.53939153182,26.7384640863886,25.0485605656919,27.971235941575,1919.58665735881
9479,19909,1488,"Australian pollen","Torres Strait rainforest","Mulgrave Peak_ss5",-10.2,142.2333,120,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.24946194811019,9759.53939153182,26.7384640863886,25.0485605656919,27.971235941575,1919.58665735881
9480,19910,1489,"Australian pollen","Torres Strait sclerophyll","Badu Roadside_ss",-10.1167,142.15,40,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23713058544032,9802.03450240516,26.8548890476854,25.2282179435057,28.0964169737256,1892.03190516759
9480,19911,1490,"Australian pollen","Torres Strait sclerophyll","Bar20_ss1",-10.1333,142.2333,18,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
9480,19912,1491,"Australian pollen","Torres Strait sclerophyll","Bar20_ss2",-10.1333,142.2333,18,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
9480,19913,1492,"Australian pollen","Torres Strait sclerophyll","Bar20_ss3",-10.1333,142.2333,18,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
9480,19914,1493,"Australian pollen","Torres Strait sclerophyll","Bar20_ss4",-10.1333,142.2333,18,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23309251153244,9811.48792646632,26.8807888396337,25.2623620586391,28.1359276285939,1886.12366271566
9480,19915,1494,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss1",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19916,1495,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss2",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19917,1496,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss3",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19918,1497,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss4",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19919,1498,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss5",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19920,1499,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss6",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19921,1500,"Australian pollen","Torres Strait sclerophyll","Boigu Gawat_ss7",-10.0167,142.2333,10,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.2359676647916,9819.02567246251,26.9014401985274,25.3023556093394,28.1412598308582,1887.48894349792
9480,19922,1501,"Australian pollen","Torres Strait sclerophyll","Grize_ss",-10.15,142.1167,21,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23101973110725,9810.4977171536,26.8780759374071,25.2578074104889,28.1326737111993,1883.2433361544
9481,19923,17531,"Neotoma","Torreya State Park stand H","WAW007",30.55558,-84.9465649999999,76,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.07803306868175,6866.28562944166,18.8117414505251,8.86193252456404,27.166762877717,1411.56953086658
9482,19924,17532,"Neotoma","Torreya State Park stand I","WAW008",30.56989,-84.95768,46,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.08370204695405,7068.90382692944,19.3668597998067,9.85623648546203,27.3180350674744,1436.68492857243
9483,19925,17533,"Neotoma","Torreya State Park stand J","WAW009",30.54367,-84.9012099999999,69,"not known","terrestrial","surface sample","Modern","Watts, W.A., 1969. A pollen diagram from Mud Lake, Marion County, north-central Florida. Geological Society of America Bulletin 80(4):631-642.","10.1130/0016-7606(1969)80[631:APDFML]2.0.CO;2",4,"warm-temperate evergreen and mixed forest",1.07801282137274,6913.15938250578,18.9401626917966,9.09353948466458,27.2000391092692,1415.76385352018
9484,19926,8287,"EMPDv2","Torriglia","Montanari_b1",44.5173416666667,9.15944722222222,758,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.24647967279653,3483.0529164082,9.54261072988548,0.78164460483782,18.5733089547101,1195.09692446011
9484,19927,8288,"EMPDv2","Torriglia","Montanari_b2",44.5206861111111,9.15981666666667,785,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.25945260229269,3427.32247473508,9.38992458831529,0.659119849064023,18.4006904696258,1203.32397548028
9485,19928,1502,"Australian pollen","Tortoise Lagoon","Tortoise Lagoon_TOR",-27.52,153.47,39,"small (0.01-1 km2)","lake","core top","-26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.978879742037493,7286.70105847865,19.9635645437771,14.5656829983178,24.2861138613872,1441.63409883863
9486,19929,11303,"Bush et al., 2020","Tortuguero","Tortuguero",10.39,-83.48,18,"not known","terrestrial","soil sample","-67","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.13738759342803,9492.43662099662,26.0066756739633,24.9709678422723,27.3658454861406,3545.07406322859
9487,19930,23018,"SMPDSv1","Torup So","Odgaard_a5",56.019249,9.431705,50,"0.18","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.1865493042545,2783.87358302571,7.56766588558859,-0.387570453926334,15.5699586418635,749.011575528789
9488,19931,7219,"EMPDv2","Toskaljarvi","EPDcoretop_E2588",69.2,21.47,704,"1.004","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.78822078687693,880.926752206172,-4.29757469843098,-17.0635729717152,9.90916341641177,652.807585841369
9489,19932,6179,"EMPDv2","Tounfite, Khenifra","AlbaSanchez_a107",32.464617,-5.315588,2069,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.33167828101417,4576.99912932037,12.5397236419736,3.26682514172745,24.2039086971496,479.755151075364
9490,19933,6181,"EMPDv2","Tounfite/Midelt, Khenifra","AlbaSanchez_a110",32.531557,-4.989956,2031,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.334538742399611,4586.63945224027,12.5661354855898,3.42109655690008,24.0930567482273,482.279249045761
9490,19934,6182,"EMPDv2","Tounfite/Midelt, Khenifra","AlbaSanchez_a111",32.534187,-4.972351,2039,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.335198568721128,4573.51575999935,12.5301801643818,3.38319709666603,24.0666667982609,483.067636530433
9491,19935,23019,"SMPDSv1","Tourbiera di Cerrato","Barboni_a843",44.303,10.2333,1350,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.44575840733585,1929.09619800774,4.66315116028191,-2.96792708646121,13.083358639536,1195.09489100601
9492,19936,15418,"Neotoma","Tourbière Caribou","PJHR034",47.639722,-71.235833,790,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.98298707120366,1949.72832475948,0.72508748017931,-15.8729500754403,15.6546639025763,1349.71138225103
9493,19937,7074,"EMPDv2","Tourbiere de Censeau","EPDcoretop_E1868",46.81,6.06,840,"0.165","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.45608743222923,2805.17158595513,7.59414005820624,-0.839267753401846,16.276760718924,1190.41567353247
9494,19938,23020,"SMPDSv1","Tourbiere de Champlong","EPDcoretop_E905",45.820833,7.8075,2320,"0.056","terrestrial, bog/fen/swamp","core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.74244632999708,950.397609286662,0.322087813375731,-6.54777255991453,8.03805144068846,2020.35170824256
9495,19939,23021,"SMPDSv1","Tourbiere de Champlong 2","Barboni_a827",45.783,7.65,2320,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.58214413729197,1012.0138697868,0.615943459955493,-6.30386231241597,8.44397125387204,1952.98243554729
9496,19940,23022,"SMPDSv1","Tourbiere de Chanleve","Barboni_a831",45.783,7.65,1841,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19030097607197,1570.70404452612,3.1484415190776,-4.43645420972389,11.3865127636268,1745.04241793199
9497,19941,12552,"Neotoma","Tourbière de Farnham","FARN1",45.282778,-72.982778,53,"not known","terrestrial, bog/fen/swamp","core","0","Unpublished data",,9,"cool mixed forest",1.39065024463707,2874.05892622639,5.15130869930787,-11.378137728957,19.7536426649213,1077.83559235411
9498,19942,23023,"SMPDSv1","Tourbiere de la Lande","EPDcoretop_E1267",43.566667,2.966667,1040,"0.107","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.00501828072091,3151.8166117261,8.63511400472904,1.04207495223601,17.4120195053577,963.590181598466
9499,19943,23024,"SMPDSv1","Tourbiere de la Peyroutarie","EPDcoretop_E1272",44.466667,3.6,1050,"0.025","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.18471456361639,2707.52129284467,7.37463354515098,-0.408862242430384,16.1160215225345,1060.82605243088
9500,19944,13162,"Neotoma","Tourbière de la Rivière-aux-Feuilles","RAFT",58.232778,-72.066944,200,"not known","terrestrial, bog/fen/swamp","core","0","Richard, P.J.H. 1981. Paléophytogéographie postglaciaire en Ungava par l'analyse pollinique. Collection Paléo-Québec, no. 13, 154 pages.",,15,"cold evergreen needleleaf forest",1.30120625283459,779.525871031916,-7.11402419558462,-24.3652691842244,8.75892343666907,503.268000852211
9501,19945,7129,"EMPDv2","Tourbiere de Landemarais","EPDcoretop_E2119",48.44,-1.18,145,"0.16","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.956776011497073,3852.58998805623,10.555041063167801,4.18304117182267,17.4741932121346,756.412602917314
9502,19946,15860,"Neotoma","Tourbière de Lanoraie HENRI","PJHR054",45.988889,-73.3,18,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.42262276805655,2889.34550916848,5.23581913297938,-11.2510194644076,19.8205169171112,1092.46232805059
9503,19947,12776,"Neotoma","Tourbière de Lanoraie JOSEPH","JOS",45.991944,-73.302778,18,"not known","terrestrial, bog/fen/swamp","core","0","Comtois, P.G. 1979. Histoire holocène du climat et de la végétation à Lanoraie. Mémoire de M.Sc., département de Géographie, Université de Montréal, 322 pages.; Comtois, P.G. 1982. Histoire holocène du climat et de la végétation à Lanoraie (Québec). Canadian Journal of Earth Science 19:1938-1952.",,9,"cool mixed forest",1.42273045801055,2889.27355765995,5.23547163952617,-11.2515450573732,19.8202848197748,1092.49887076603
9504,19948,12838,"Neotoma","Tourbière de Lanoraie STJEAN","LANSTJE",46,-73.216944,20,"not known","terrestrial, bog/fen/swamp","core","0","Comtois, P.G. 1979. Histoire holocène du climat et de la végétation à Lanoraie. Mémoire de M.Sc., département de Géographie, Université de Montréal, 322 pages.; Comtois, P.G. 1982. Histoire holocène du climat et de la végétation à Lanoraie (Québec). Canadian Journal of Earth Science 19:1938-1952.",,9,"cool mixed forest",1.4362502340494,2865.14743519818,5.11256205906441,-11.4259122979274,19.7260671102343,1098.51987170034
9505,19949,23025,"SMPDSv1","Tourbiere de lo Cret","Barboni_a832",45.883,7.617,1869,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.22948325037689,1525.83209649655,2.95928454945013,-4.58303266156711,11.16359759736,1763.16029750999
9506,19950,23026,"SMPDSv1","Tourbiere de Lotidor","Barboni_a836",45.917,7.583,1962,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.30415431782283,1410.83823558711,2.46507573970306,-4.94960404154621,10.5911153049439,1803.78103284942
9507,19951,23027,"SMPDSv1","Tourbiere de Mathon","EPDcoretop_E1349",49.218889,-1.5,20,"not known","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.14508138093151,4085.26645471282,11.1925108348296,5.57795231194525,17.3846291218429,888.812619551142
9508,19952,23032,"SMPDSv1","Tourbiere de Mont Sec","EPDcoretop_E1265",45.068889,5.806667,1130,"0.006","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26160006749325,2797.38509758375,7.64072122506933,-0.268627215954715,16.4085981351824,1186.45776311467
9509,19953,7091,"EMPDv2","Tourbiere de Nay","EPDcoretop_E1991",47.31,-1.53,5,"0.2","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.908024751986217,4434.80526280765,12.1501514049525,5.89086433229641,18.9543408509896,789.874524369458
9510,19954,23029,"SMPDSv1","Tourbiere de Pilaz","Barboni_a834",45.85,7.617,1900,"not known","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.24582075105863,1491.23221951744,2.81304041710566,-4.68799116823463,10.9955674247419,1773.61913058226
9510,19955,23028,"SMPDSv1","Tourbiere de Pilaz","EPDcoretop_E921",45.816944,7.833333,1460,"0.015","terrestrial, blanket bog","core top","-43","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.99291879259453,2055.9861085978,5.02084800734205,-3.10830054777171,13.5500745073514,1634.03156975471
9511,19956,23030,"SMPDSv1","Tourbiere de Santa Anna","Barboni_a823",45.858333,7.654167,2304,"0.137","terrestrial, bog/fen/swamp","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.59093910281605,1021.58220155816,0.661679959960513,-6.28030856437776,8.49429120165781,1955.73782921106
9511,19957,23031,"SMPDSv1","Tourbiere de Santa Anna","EPDcoretop_E982",45.858333,7.654167,2304,"0.137","terrestrial, blanket bog","peat core top","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.59093910281605,1021.58220155816,0.661679959960513,-6.28030856437776,8.49429120165781,1955.73782921106
9512,19958,16682,"Neotoma","Tourbière de Weedon","PJHR039",45.691944,-71.428889,245,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.60317411747494,2565.38171357924,3.96794577667415,-12.1527658228223,18.3079188306607,1185.43679873372
9513,19959,23033,"SMPDSv1","Tourbiere des Narses Mortes","EPDcoretop_E1268",44.433333,3.6,1400,"0.21","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.41406866130597,2054.7709299009,5.08828855759301,-2.63551544768943,13.7539198295607,1179.70952054941
9514,19960,16593,"Neotoma","Tourbière du lac Malbaie","PJHR047",47.597222,-70.976389,818,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.99727550702925,1932.71569564011,0.626010918617581,-15.9953195900333,15.5750282371914,1357.77178639159
9515,19961,7077,"EMPDv2","Tourbiere du Mou de Pleure","EPDcoretop_E1897",46.91,5.45,214,"0.009","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.952992344456301,3884.68125857643,10.6429623522642,1.92022819874774,19.490880890374,817.589398733212
9516,19962,23034,"SMPDSv1","Tourbiere du Peschio","EPDcoretop_E1273",44.45,3.6,1370,"0.045","terrestrial, bog/fen/swamp","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.3936362073787,2105.407496094,5.28410313321356,-2.44349546576981,13.9539023932958,1169.45890919183
9517,19963,7051,"EMPDv2","Tourbieres des Granges des Chavants","EPDcoretop_E1730",45.89,6.77,1225,"0.005","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63202823078569,2432.11580041627,6.3778605425651,-1.88157766109976,15.0772893813067,1378.75660914425
9518,19964,23151,"SMPDSv1","Tovetjonn","Bjune_a120",58.3018718,7.74933571,290,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.36621283998815,2209.55836929474,5.35984568553382,-3.45420026613811,14.2516890079988,1390.08557021462
9519,19965,23035,"SMPDSv1","Tovetjonna","Bjune_a217",58.3,7.74833333333333,295,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.36579019173452,2202.80839480439,5.33326645026934,-3.48368102479243,14.2278779343495,1389.20642578879
9520,19966,1503,"Australian pollen","Tower Hill","Tower Hill Main",-38.3167,142.3667,20,"medium (1.1-50 km2)","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.776692790777054,5101.762589014,13.9774317507233,9.82837465933368,18.4056957936936,782.201755902914
9520,19967,1504,"Australian pollen","Tower Hill","Tower Hill NW Crater",-38.32,142.37,20,"medium (1.1-50 km2)","terrestrial, bog/fen/swamp","core top","26","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.776918767609752,5101.35077826263,13.9763035020894,9.82724761923335,18.4044771138205,782.390444371325
9521,19968,13701,"Neotoma","Tower Lake","TOWER4",46.542635,-86.037795,261,"not known","lake","core","-15","Jackson, S.T., R.K. Booth, K. Reeves, J.J. Andersen, T.A. Minckley, and R.A. Jones. 2014. Inferring local to regional changes in forest composition from Holocene macrofossils and pollen of a small lake in central Upper Michigan. Quaternary Science Reviews 98:60-73. http://www.sciencedirect.com/science/article/pii/S027737911400211X.","10.1016/j.quascirev.2014.05.030",9,"cool mixed forest",1.1688817066402,2636.30384441693,4.53649884801562,-10.8560413062208,18.2562493447489,880.981610220405
9522,19969,10610,"BIOME6000 Japan","Tozugawa","TozgwC0",38.06,138.35,12,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",1.75665215297273,4612.2734677979,12.6363656651997,0.438551210474282,26.0780086740239,1579.82229257628
9523,19970,7005,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1510",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9523,19971,7006,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1511",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9523,19972,7007,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1523",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9523,19973,7008,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1524",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9523,19974,7009,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1525",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9523,19975,7010,"EMPDv2","Tpske raseliniste Mire","EPDcoretop_E1611",50.74,15.71,1425,"0.1","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.85998473268578,1834.91710300927,3.12183021607313,-7.46051873543465,12.5683796991559,1243.29047008805
9524,19976,23036,"SMPDSv1","Tracoscan","Barboni_a1460",46.25,15.8833,150,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.964753534749676,3940.35407575941,10.7397106884942,-0.601020614835727,20.4802685673158,893.699876323937
9525,19977,23037,"SMPDSv1","Tranesvg","N/CJ/TR1",68.981944,15.598611,26,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.12305998405847,1424.29340436797,2.55021299935317,-4.44643896408192,11.4478240385276,1161.23045941633
9525,19978,23038,"SMPDSv1","Tranesvg","N/CJ/TR2",68.981944,15.6,30,"not applicable","terrestrial","pollen trap","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.12617215077009,1421.46495682122,2.52742334577419,-4.48663382166952,11.4419758977007,1162.25740897669
9526,19979,16554,"Neotoma","Travel Pond","KG048",44.25,-69.53,62,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.46839582255439,3035.81660586732,6.77797967205611,-7.2795344847032,19.8752969734812,1165.15589538477
9527,19980,6538,"EMPDv2","Tre Druig Lake","Binney2017_E3190",71.2,-178.75,120,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",28,"tundra",0.827045494929878,136.074173053427,-13.0229514270121,-27.6049533828028,2.31160255444392,184.107881594284
9528,19981,23039,"SMPDSv1","Tremoal de Ganidoira","Barboni_a1446",43.55,-7.62,700,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1873260633752,3871.81268857661,10.6077059961003,4.46039585825244,17.5638637433513,1127.10615793598
9529,19982,23040,"SMPDSv1","Tremoal de Pena Veira","Barboni_a1445",43.4,-7.43,620,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1988020071498,4012.34291868215,10.9927203251566,5.07104229507556,17.6720856663059,1136.78114152173
9530,19983,23041,"SMPDSv1","Tremoal de Schwejk","Barboni_a1447",43.42,-7.45,625,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.19869130310175,4003.50521810862,10.9685074468729,5.03396203865726,17.6615354766363,1136.51362005888
9531,19984,23042,"SMPDSv1","Tremoal de Sever","Barboni_a1448",43.372639,-7.527639,620,"0.04","not known","core top","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20559567660244,4015.6971877732,11.0019101034882,5.07690414786877,17.6850732747407,1144.30672895206
9532,19985,23043,"SMPDSv1","Tremoal do rio das Furnas","Barboni_a1449",43.53,-7.55,750,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.1665679026585,3784.55497217628,10.3686437593871,4.07549960677557,17.5081851071966,1111.25563939193
9533,19986,23044,"SMPDSv1","Tremoal do rio das Furnas 2","Barboni_a1450",43.53,-7.55,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.15073218417726,3697.57009420888,10.1303290252298,3.69015698746071,17.4532552570618,1099.3664576629
9534,19987,23045,"SMPDSv1","Tremsaille","Barboni_a171",45.38,2.68,680,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.02922325089095,3383.85501919825,9.2708356690363,1.57048179327095,17.7477059553913,917.63480715249
9535,19988,23046,"SMPDSv1","Trettetjorn","EPDcoretop_E987",60.716667,7,810,"not known","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",3.07762113933447,1653.89148497563,3.27553988469718,-4.91150750692247,11.8428690083703,1603.11828577515
9536,19989,23047,"SMPDSv1","Trialeti wetland","Connor_a32 (Trialeti-2)",41.5333333333333,44.1166666666666,1520,"0.06","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.691306773329813,2848.83190040465,6.08625156726203,-8.14770874429634,18.5463308306062,712.941178277841
9536,19990,23048,"SMPDSv1","Trialeti wetland","Connor_a33 (Trialeti-3)",41.5333333333333,44.1166666666666,1520,"0.06","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.691306773329813,2848.83190040465,6.08625156726203,-8.14770874429634,18.5463308306062,712.941178277841
9536,19991,23049,"SMPDSv1","Trialeti wetland","Connor_a34 (Trialeti-4)",41.5333333333333,44.1166666666666,1520,"0.06","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.691306773329813,2848.83190040465,6.08625156726203,-8.14770874429634,18.5463308306062,712.941178277841
9537,19992,6060,"EMBSeCBIO","Trikhonis 5","Trikhonis 5 Bottema Core",38.6,21.5,20,"97","lake","core","-51","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",4,"warm-temperate evergreen and mixed forest",0.496669421337998,6270.10861699524,17.1783797725897,9.54905395704267,25.5459533390371,683.348833760293
9538,19993,23050,"SMPDSv1","Tristetjern","Bjune_a130",60.5771508,9.15510025,513,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.51258967778465,1807.67315367163,2.84252630099197,-7.97182530351102,13.3884619685221,823.841316595237
9539,19994,9084,"EMPDv2","Tristolicnik, Sumava","Svobodova_a2",48.781075,13.8040944444444,1311,"not known","terrestrial","moss polster or moss","-23","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.19146100589876,1823.70729272065,3.79779335225042,-4.81171613209,12.1002693135669,1599.74197121585
9540,19995,7279,"EMPDv2","Tro-3","Fall_b52",34.9149,32.8703999999999,1592,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.569232051122927,3800.27310524461,10.4117071376565,0.908170075381278,20.2193750128323,788.852888925582
9541,19996,7277,"EMPDv2","Tro-4","Fall_b50",34.90921,32.86063,1452,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.541590172456082,4108.91098381916,11.2572903666278,1.86294271470488,20.9352934941037,759.018004202619
9542,19997,7266,"EMPDv2","Tro-5","Fall_b39",34.8714599999999,32.93003,809,"5e-04","terrestrial","moss polster or moss","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.418895768746146,5525.9251126375,15.1395208565411,6.2225447025358704,24.2511212117582,616.810521693206
9543,19998,23051,"SMPDSv1","Troarn Saint-Samson","EPDcoretop_E1369",49.183611,-0.168056,2,"not known","terrestrial, marsh","not known","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.945074358225558,4072.80162934989,11.1583606283559,5.13703810989869,17.6777989775218,735.641889547701
9544,19999,23052,"SMPDSv1","Trogenmoos","EPDcoretop_E1166",46.760722,7.862744,1470,"0.101","terrestrial, bog/fen/swamp","peat core top","-41","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.23378079735153,1859.4996958481,4.28481509934772,-3.69271898779463,12.5820395499198,1699.79369581185
9545,20000,23053,"SMPDSv1","Troia 1","Connor_b11",38.43053,-8.82375,10,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.71977186310761,6190.58377974908,16.9605035061619,11.7656256063813,22.9139434589461,806.784923008066
9546,20001,23054,"SMPDSv1","Troia 2","Connor_b12",38.42972,-8.831389,10,"not applicable","terrestrial","moss polster or moss","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.720085138048728,6190.43211656644,16.960087990593,11.7655427073269,22.9127854368592,807.106837776991
9547,20002,23055,"SMPDSv1","Trolletjonn","Bjune_a208",59.6816666666666,8.055,720,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.92302013216372,1709.90811081462,2.90865787235392,-6.65953352725675,12.5148768901915,1069.67539582944
9548,20003,23056,"SMPDSv1","Trolltjarnen","Bjune_a157",68.2333333333333,19.7166666666666,363,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.40511483752707,1236.65822187262,-1.7660865298438,-14.7874379370041,11.9866861672532,551.118180811379
9548,20004,23057,"SMPDSv1","Trolltjarnen","Bjune_a171",68.2333333333333,19.7166666666666,363,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.40511483752707,1236.65822187262,-1.7660865298438,-14.7874379370041,11.9866861672532,551.118180811379
9549,20005,23058,"SMPDSv1","Trolltjarnen 2","Bjune_a172",68.2333333333333,19.7,357,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.40241915588219,1242.08068412097,-1.73217981795463,-14.7546761264868,12.0176955762829,550.647010054862
9550,20006,23059,"SMPDSv1","Trona","Bjune_a132",60.4626249,10.16373881,382,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.43678714625002,1975.61966732128,3.55090087583145,-7.32195652776977,14.2336221485184,800.641025619933
9551,20007,23060,"SMPDSv1","Tronetjern","Bjune_a35",64.86424763,13.08399196,421,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.14974021059633,1415.03483006955,1.64690931883386,-7.50900287031401,11.3560948565097,1340.7281989615
9552,20008,8069,"EMPDv2","Tropin_1","Mikishin-Gvozdeva_a131",52.8347222222222,140.838333333333,400,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18507712235124,1663.37523899463,-3.39289847588887,-24.1767983156357,14.6693179780827,629.146577054462
9553,20009,8070,"EMPDv2","Tropin_2","Mikishin-Gvozdeva_a133",52.8686111111111,140.866388888889,150,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16835851034078,1827.07905894755,-1.95259801217121,-22.0348288280589,15.2820779523782,625.127469347994
9554,20010,8114,"EMPDv2","Tropto","Mikishin-Gvozdeva_a177",53.8622222222222,142.827222222222,4,"0.42","coastal, other","moss polster or moss","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2665710629071,1807.19931268934,-1.08341893224628,-19.4760692806577,15.1393140179205,648.16566875018
9555,20011,7348,"EMPDv2","Trote","Finsinger_a71",46.2621761101444,11.6257702230682,2100,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.66628183091845,788.057197878357,-0.765056508275249,-8.0292355368029,6.82401950571343,1754.16695659706
9556,20012,17316,"Neotoma","Trout","TW021A",46.043056,-89.670556,492,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03149962390042,2647.72607789977,3.99067398316382,-12.7975591274966,18.9138544099134,793.866172452352
9557,20013,11887,"Neotoma","Trout Lake","BU408",46.8586849999999,-87.89461,252,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.04453627681263,2624.5441146737,4.09432429272022,-12.3140961647709,18.5836320767736,783.333797169205
9557,20014,14377,"Neotoma","Trout Lake","TROUTYUK",68.829105,-138.744489999999,163,"not known","lake","core","-59","Fritz, M., U. Herzschuh, S. Wetterich, H. Lantuit, G.P. De Pascale, W.H. Pollard, and L. Schirrmeister. 2012. Late glacial and Holocene sedimentation, vegetation, and climate history from easternmost Beringia (northern Yukon Territory, Canada). Quaternary Research 78:549-560.",,31,"tundra",0.533318941218009,752.737744585737,-10.8789557272132,-27.6512724291294,9.54012011314322,171.478525138003
9558,20015,23061,"SMPDSv1","Trumer Moos","EPDcoretop_E663",47.933333,13.066667,500,"0.1","terrestrial, blanket bog","peat core top","-21","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14820061403358,3047.44970184722,8.04381070382239,-2.16364690298289,17.3074430106801,903.707787464929
9559,20016,1505,"Australian pollen","Truwana East Coast Lagoon","TEC",-40.3421,148.36452,1,"not known","coastal, lagoon","core top","34","Adeleye, M., S. Haberle, S. Harris, F. Hopf, S. Connor, and J. Stevenson. 2021. Holocene heathland development in temperate oceanic Southern Hemisphere: Key drivers in a global context. Journal of Biogeography 48(5):1048-1062. https://doi.org/10.1111/jbi.14057. [DOI: 10.1111/jbi.14057]","10.21233/YGCC-VC43",16,"temperate sclerophyll woodland and shrubland",0.807677065320841,4791.37878462234,13.1270651633489,8.61264054132863,17.7761774299017,787.738236126465
9560,20017,10283,"Herzschuh et al., 2019","Tsagaan Nuur.16A","Tsagaan Nuur.16A",48.94199,95.27212,1475,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.297858315240653,1997.33763536108,-3.45410554125417,-27.6468359688038,16.1558562472605,253.243933753241
9561,20018,10284,"Herzschuh et al., 2019","Tsagaan Nuur.18A","Tsagaan Nuur.18A",48.91095,94.8671,1399,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.276164325542819,2126.7637848657,-2.80280339972047,-27.2208790087186,16.8734151109821,238.736425686016
9562,20019,10285,"Herzschuh et al., 2019","Tsagaan-P S","Tsagaan-P S-1",47.106667,92.802222,1142,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.08115481312921,3062.44293493528,2.67951398089542,-21.0517720214295,21.4881190312996,84.6664352574545
9563,20020,23062,"SMPDSv1","Tsavkisi wetland","Connor_a15",41.68675,44.7215666666666,1100,"0.03","lake","lacustrine core top","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.63075154333323,3460.74518816638,8.65475102746432,-4.85402444045264,20.9877381813119,657.8212599677
9563,20021,23063,"SMPDSv1","Tsavkisi wetland","Connor_a24 (Tsavkisi-1)",41.6862833333333,44.7218833333333,1100,"0.03","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.630711703813851,3460.8000652464402,8.65494684295656,-4.85384742072459,20.9880218012905,657.790991161275
9563,20022,23064,"SMPDSv1","Tsavkisi wetland","Connor_a25 (Tsavkisi-2)",41.6863,44.7214666666666,1100,"0.03","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.630712805154155,3460.79259628171,8.65490825917968,-4.85395178559965,20.9879294108329,657.791665743685
9563,20023,23065,"SMPDSv1","Tsavkisi wetland","Connor_a26 (Tsavkisi-3)",41.6864166666666,44.7210166666666,1100,"0.03","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.630722474762766,3460.77382700747,8.65483036831505,-4.85408577155889,20.9877831969498,657.798864319531
9563,20024,23066,"SMPDSv1","Tsavkisi wetland","Connor_a27 (Tsavkisi-4)",41.6864666666666,44.7205833333333,1100,"0.03","terrestrial, bog/fen/swamp","sediment sample","-52","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.630726433549761,3460.76249965927,8.65477818910593,-4.85420141996724,20.9876716550852,657.801712650785
9564,20025,10286,"Herzschuh et al., 2019","Tsegtsegt Nuur.5A","Tsegtsegt Nuur.5A",49.10261,97.1833,2077,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.361972430185513,1317.04127435755,-6.62029700182048,-29.0753999269977,12.127225318241,291.326861496579
9565,20026,7750,"EMPDv2","Tso Moriri","Leipe_a1",33.016,78.272,4529,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.358833534018777,1407.43971068601,1.00647545830472,-9.85767924304687,11.606686991789,442.377670749802
9565,20027,7759,"EMPDv2","Tso Moriri","Leipe_a10",32.844,78.287,4535,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.365813818747092,1411.45716885531,1.05791867593641,-9.73807000558784,11.5886523963444,452.682324132565
9565,20028,7760,"EMPDv2","Tso Moriri","Leipe_a11",32.795,78.309,4529,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.368767490713029,1420.61356604385,1.11502591026432,-9.65807320783389,11.6174389832341,457.112351820588
9565,20029,7761,"EMPDv2","Tso Moriri","Leipe_a12",32.963,78.269,4528,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.361555370889045,1411.11505535049,1.0380039021823,-9.80090918446864,11.6079617169101,446.381891640694
9565,20030,7762,"EMPDv2","Tso Moriri","Leipe_a13",33.066,78.276,4635,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.339700822571036,1306.63852024002,0.39801741371566,-10.5854761393019,11.2369585633427,414.173561581023
9565,20031,7763,"EMPDv2","Tso Moriri","Leipe_a14",33.123,78.302,4693,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.327453851909496,1253.22177617122,0.0498789094216656,-11.0162910269957,11.0426124605361,396.457524436426
9565,20032,7764,"EMPDv2","Tso Moriri","Leipe_a15",33.212,78.376,4462,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.358828540880963,1466.27550181915,1.28853642627044,-9.61890086588319,11.8931640097772,442.789685847766
9565,20033,7765,"EMPDv2","Tso Moriri","Leipe_a16",33.24,78.222,4746,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.317624483430541,1205.0765933554,-0.200250597834476,-11.2974995838931,10.7902531174254,383.639486989825
9565,20034,7751,"EMPDv2","Tso Moriri","Leipe_a2",33.021,78.283,4532,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.358075490591523,1404.68289490692,0.987739076776968,-9.8828024062366,11.6000857020141,441.247499188782
9565,20035,7752,"EMPDv2","Tso Moriri","Leipe_a3",33.012,78.286,4546,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.356309384735437,1391.93172515197,0.914924832863785,-9.96464510087059,11.5516459499924,438.600009906248
9565,20036,7753,"EMPDv2","Tso Moriri","Leipe_a4",33.011,78.289,4530,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.358851587678366,1407.31670631054,1.00382300406802,-9.86109377236705,11.6089137255204,442.388161036862
9565,20037,7754,"EMPDv2","Tso Moriri","Leipe_a5",32.992,78.311,4527,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.360151213962512,1411.92505316283,1.03025386841543,-9.82609467044959,11.6266583845728,444.291989124191
9565,20038,7755,"EMPDv2","Tso Moriri","Leipe_a6",32.992,78.312,4527,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.360147197800395,1411.95916373887,1.03028034727941,-9.82619424401398,11.6270104810479,444.285417032155
9565,20039,7756,"EMPDv2","Tso Moriri","Leipe_a7",32.954,78.267,4535,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.36089632858895,1404.86327757696,1.00381064592456,-9.83718905256089,11.5825829744768,445.387185695009
9565,20040,7757,"EMPDv2","Tso Moriri","Leipe_a8",32.895,78.358,4533,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.363506744021506,1412.85407511799,1.04479221750152,-9.78074818440082,11.6203178887573,449.196226915999
9565,20041,7758,"EMPDv2","Tso Moriri","Leipe_a9",32.873,78.282,4535,"not applicable","terrestrial, soil","soil sample","-61","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.364550028969282,1409.71446163866,1.04371102707342,-9.76392751868156,11.5869503668655,450.796421440114
9566,20042,9582,"EMPDv2","Tubilla del Lago","Morales_a7",41.808333,-3.572778,900,"0.05","terrestrial, bog/fen/swamp","peat","-57","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.596814338783249,3942.32388313385,10.8008873510516,3.45763233728747,19.5554558562148,651.623090463148
9566,20043,10544,"IBERIA","Tubilla del Lago","TUB",41.8084,-3.5727,900,"not known","terrestrial, bog/fen/swamp","core top","31","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.596823473152202,3942.3110781427,10.8008522688841,3.45761045570538,19.5553976307232,651.629971026762
9567,20044,8590,"EMPDv2","Tuftbreen","Pardoe_c38",61.39,7.09,820,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",2.99754561498353,1555.59188202207,2.82623674485776,-5.31835238806117,11.4310902114206,1493.07759974357
9567,20045,8591,"EMPDv2","Tuftbreen","Pardoe_c39",61.39,7.09,760,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.13440213835447,1598.68215299867,3.08973560219891,-4.90823261086029,11.5795112981982,1556.62493067054
9567,20046,8592,"EMPDv2","Tuftbreen","Pardoe_c40",61.39,7.09,600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.5035572097897,1721.3413432737,3.79239922177533,-3.81457987165795,11.9753008629384,1726.08447980913
9567,20047,8593,"EMPDv2","Tuftbreen","Pardoe_c41",61.39,7.09,500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.73747084411441,1805.19849716195,4.2315639840106,-3.13104690965649,12.222669340901,1831.99669802075
9567,20048,8594,"EMPDv2","Tuftbreen","Pardoe_c42",61.39,7.09,480,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.78455504538657,1822.72970211787,4.31939693645765,-2.9943403172562,12.2721430364935,1853.17914166307
9568,20049,1506,"Australian pollen","Tugupugua","Tugupugua (Core 1)",-5.7,142.5833,2300,"not known","terrestrial, bog/fen/swamp","core top","50","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",3,"tropical deciduous broadleaf forest and woodland",2.47857330714427,7231.8505300537,19.8132891234348,18.8665493649611,20.3534635846487,3432.97611842005
9569,20050,11971,"Neotoma","Tuhare Lakes East","SM-TLE",39.448825,-106.470315,3691,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.605920856434067,685.568422517651,-3.97726532626225,-15.024771877925,7.3744411675873,531.643260664382
9570,20051,11965,"Neotoma","Tuhare Lakes West","SM-TLW",39.45049,-106.478415,3775,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.619209110544783,607.644581146964,-4.48783463532667,-15.4669570303373,6.79926141861208,536.802924884
9571,20052,24373,"Neotoma","Tukou marsh","TUKOU2_12",-27.604014,-144.351975,113,"not known","terrestrial, marsh","core","-13","Kennett, D., A. Anderson, M. Prebble, E. Conte, and J. Southon. 2006. Prehistoric human impacts on Rapa, French Polynesia. Antiquity 80(308):340-354.;
Prebble, M., A. Anderson, and D.J. Kennett. 2013. Forest clearance and agricultural expansion on Rapa, Austral Archipelago, French Polynesia. The Holocene 23(2):179-196.;
Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1017/S0003598X00093662;
10.1177/0959683612455551;
10.1073/pnas.1821732116",,"not applicable",,,,,,
9571,20053,24374,"Neotoma","Tukou marsh","TUKOU2_22",-27.604014,-144.351975,113,"not known","terrestrial, marsh","core","20","Kennett, D., A. Anderson, M. Prebble, E. Conte, and J. Southon. 2006. Prehistoric human impacts on Rapa, French Polynesia. Antiquity 80(308):340-354.;
Prebble, M., A. Anderson, and D.J. Kennett. 2013. Forest clearance and agricultural expansion on Rapa, Austral Archipelago, French Polynesia. The Holocene 23(2):179-196.;
Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1017/S0003598X00093662;
10.1177/0959683612455551;
10.1073/pnas.1821732116",,"not applicable",,,,,,
9571,20054,24372,"Neotoma","Tukou marsh","TUKOU2_6",-27.604014,-144.351975,113,"not known","terrestrial, marsh","core","-32","Kennett, D., A. Anderson, M. Prebble, E. Conte, and J. Southon. 2006. Prehistoric human impacts on Rapa, French Polynesia. Antiquity 80(308):340-354.;
Prebble, M., A. Anderson, and D.J. Kennett. 2013. Forest clearance and agricultural expansion on Rapa, Austral Archipelago, French Polynesia. The Holocene 23(2):179-196.;
Prebble, M., A.J. Anderson, P. Augustinus, J. Emmitt, S.J. Fallon, L.L. Furey, S.J. Holdaway, A. Jorgensen, T.N. Ladefoged, P.J. Matthews, J.-Y. Meyer, R. Phillipps, R. Wallace, and N. Porch. 2019. Early tropical crop production in marginal subtropical and temperate Polynesia. Proceedings of the National Academy of Sciences of the United States of America 116(18):8824-8833.","10.1017/S0003598X00093662;
10.1177/0959683612455551;
10.1073/pnas.1821732116",,"not applicable",,,,,,
9572,20055,13382,"Neotoma","Tuktoyaktuk 5","TUK5",69.05,-133.45,60,"not known","lake","core","-18","Ritchie, J.C., and F.K. Hare. 1971. Late-Quaternary vegetation and climate near the arctic tree line of northwestern North America. Quaternary Research 1:331-342.",,31,"tundra",0.580699914613402,1038.21833587968,-10.1196456643139,-28.5019754831236,12.367198812704,202.767909146478
9573,20056,14224,"Neotoma","Tukuto Lake","TUKUTO",68.4987999999999,-157.0301,505,"not known","lake","core","18","Oswald, W.W., L.B. Brubaker, and P.M. Anderson. 1999. Late Quaternary vegetational history of the Howard Pass Area, northwestern Alaska. Canadian Journal of Botany 77:570-581.",,31,"tundra",0.592089296621391,545.620388290767,-10.7540107297427,-26.0212983162282,7.0439681432868,168.393880891652
9574,20057,14190,"Neotoma","Tule Lake","TULE",39.4896333333333,-123.03548,1340,"not known","lake","core","-26","West, G.J. 1982. Pollen analysis of sediments from Tule Lake : A record of Holocene vegetation/climatic changes in the Mendocino National Forest.Proceedings of the Symposium of Climate and Archeology of California's Coast and Desert. San Diego, California, USA.; West, G.J. 1993. The late Pleistocene-Holocene pollen record and prehistory of California's North Coast Ranges. Pages 219 -235 in G. White, P. Mikkelsen, W.R. Hildebrandt, and M.E. Basgall, editors. There Grows a Green Tree: Papers in Honor of David A Fredrickson. Center for Archaeological Research, Davis, California, USA.",,4,"warm-temperate evergreen and mixed forest",1.22731535263131,3489.73583028054,9.56092008296038,2.90734582946343,18.2593778422065,1325.18140682923
9575,20058,1507,"Australian pollen","Tullabardine Dam","Tullabardine core",-41.6667,145.6667,230,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41927407146689,4015.64343470201,11.0017628348,6.99864629394151,15.4650524889033,1313.30919107998
9575,20059,1508,"Australian pollen","Tullabardine Dam","Tullabardine Dam trench",-41.6667,145.6667,230,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","not known","-36","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.41927407146689,4015.64343470201,11.0017628348,6.99864629394151,15.4650524889033,1313.30919107998
9576,20060,23067,"SMPDSv1","Tullerinsuo","EPDcoretop_E666",61.333333,21.95,29,"0.1","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01818077367991,2226.10807621097,4.3847024955895,-6.68705481065426,15.9298198108908,555.046535956173
9577,20061,8359,"EMPDv2","Tuloma river, Murmansk","Naidina_a5",68.8183333333333,32.6877777777778,0,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3759162910006,1293.72428514226,0.100605413739065,-10.0878196084572,12.2405342984296,494.608994177185
9578,20062,9489,"EMPDv2","Tulukskoe boloto","Novenko_c171",54.5,58.9667,1000,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.805660641398337,1900.97268550441,-1.12898401748988,-19.4588420362781,15.8981786273474,514.235518045902
9578,20063,23068,"SMPDSv1","Tulukskoe boloto","Tulukskoe boloto_SS",54.6667,59.05,900,"0.01","terrestrial, bog/fen/swamp","surface sample","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.800162667712459,1986.1909875477,-0.647004157021268,-18.9821404509267,16.3877613512749,513.113578705931
9579,20064,8243,"EMPDv2","Tumannaya","Mikishin-Gvozdeva_b74",42.3091666666667,130.679444444444,1,"not known","fluvial","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.839578999571322,3310.26135276226,6.47834141417523,-11.4977550189807,21.9494782806686,698.038772430615
9580,20065,8952,"EMPDv2","Tumbulovaty","Salonen_a30",67.119,59.553,110,"0.42","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30644115748972,1159.63921944765,-5.03081342231507,-21.767639602497,13.7837117204592,469.199087858387
9581,20066,1509,"Australian pollen","Tumoulin Swamp","Tumoulin Swamp",-17.55,145.45,1000,"not applicable","terrestrial, soil","soil sample","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",3,"tropical deciduous broadleaf forest and woodland",0.437908918418163,7540.31849609531,20.6584068386173,15.4092778507874,24.4180607473292,814.726291473881
9582,20067,8020,"EMPDv2","Tunaicha_1","Mikishin-Gvozdeva_a81",46.8366666666667,143.116666666667,-15,"178","lake","sediment sample","-46","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63829986828117,2265.89038639235,3.18436668041558,-11.546718265079,17.1417867904118,1015.87586953713
9583,20068,8022,"EMPDv2","Tunaicha_2","Mikishin-Gvozdeva_a83",46.8166666666667,143.15,-18,"178","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.63804118421208,2272.24887802663,3.22065833505706,-11.4941059049294,17.1678554772673,1016.66745696386
9584,20069,8082,"EMPDv2","Tunaicha_3","Mikishin-Gvozdeva_a145",46.6872222222222,143.35,-6,"178","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.61020592776439,2301.1833491042,3.5880489939263,-10.4605743372132,17.2412043269551,1013.94436595063
9585,20070,13387,"Neotoma","Tunturi Lake","TUNTURI",55.016667,-67.5,610,"not known","lake","core","0","Stravers, L.K.S. 1981. Palynology and deglaciation history of the central Labrador-Ungava Peninsula. Master's thesis. University of Colorado, Boulder, Colorado, USA.",,15,"cold evergreen needleleaf forest",1.69866688416558,1197.79281329023,-4.95244876248823,-23.5430763528498,12.4531373575782,814.167003107419
9586,20071,11304,"Bush et al., 2020","Tunuipiju","Tunuipiju",-15.69795,-70.19755,3838,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.480930849290717,3191.08093080585,8.74268748165986,6.2413331925486,10.2577625976003,711.148060676465
9587,20072,10487,"IBERIA","Turbera de La Panera Cabras","PANERA_0",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-56","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20073,10488,"IBERIA","Turbera de La Panera Cabras","PANERA_0.05",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-47","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20074,10489,"IBERIA","Turbera de La Panera Cabras","PANERA_0.10",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-37","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20075,10490,"IBERIA","Turbera de La Panera Cabras","PANERA_0.15",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-26","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20076,10491,"IBERIA","Turbera de La Panera Cabras","PANERA_0.20",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20077,10492,"IBERIA","Turbera de La Panera Cabras","PANERA_0.25",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","-6","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20078,10493,"IBERIA","Turbera de La Panera Cabras","PANERA_0.30",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20079,10494,"IBERIA","Turbera de La Panera Cabras","PANERA_0.35",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","14","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20080,10495,"IBERIA","Turbera de La Panera Cabras","PANERA_0.40",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","24","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20081,10496,"IBERIA","Turbera de La Panera Cabras","PANERA_0.45",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","34","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9587,20082,10497,"IBERIA","Turbera de La Panera Cabras","PANERA_0.50",40.16583333,-5.758055556,1648,"not known","terrestrial, bog/fen/swamp","core","45","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.404798692535526,2377.23980528281,6.22661361619752,-1.753601447403,15.8963774648642,479.769240897454
9588,20083,23069,"SMPDSv1","Turbera de las Branuelas","Barboni_a1452",42.67,-6.2,1000,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.768036596476264,3635.12827678177,9.95925555282677,2.61554520393024,18.477366900841,820.819520978937
9589,20084,11516,"Neotoma","Turkey 3 Pond","FH-1",39.10711,-96.58687,365,"not known","artificial water body","surface sample","-58","Commerford, J.L., K.K. McLauchlan, and S. Sugita. 2013. Calibrating vegetation cover and grassland pollen assemblages in the Flint Hills of Kansas, USA. American Journal of Plant Sciences 4(7A):1-10. McLauchlan, K.K., J.L. Commerford, and C.J. Morris. 2013. Tallgrass prairie pollen assemblages in mid-continental North America. Vegetation History and Archaeobotany 22(3):171-183. Commerford, J.L. 2010. Calibrating vegetation cover and pollen assemblages in the Flint Hills of Kansas, U.S.A.. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.4236/ajps.2013.47A1001;
10.1007/s00334-012-0369-8",22,"steppe",0.789431377614839,4725.21168456986,12.5952366202631,-2.77514583436738,26.396963972659,873.398368346964
9590,20085,23070,"SMPDSv1","Turkie_EMPD_Barb_a1406","Barboni_a1406",38.63,34.93,1100,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.34050438761171,4163.88074716621,11.4049469978003,0.134064587177497,21.608273640008,455.170836586065
9591,20086,23071,"SMPDSv1","Turkie_EMPD_Barb_a1407","Barboni_a1407",38.59,35.029,1200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.334651281311147,3971.50141915128,10.8336676226895,-0.550602532114455,21.0972849298281,445.158765179129
9592,20087,23072,"SMPDSv1","Turkie_EMPD_Barb_a1408","Barboni_a1408",39.029,35.79,900,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.356737558385047,3985.09819186073,10.8870920897301,-0.34551690652571,20.6457944106022,449.992926464215
9593,20088,23073,"SMPDSv1","Turkie_EMPD_Barb_a1409","Barboni_a1409",39.069,35.83,900,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.357218121926358,3974.06108802296,10.8544034208496,-0.379081146130706,20.6005363988928,449.530735427061
9594,20089,23074,"SMPDSv1","Turkie_EMPD_Barb_a1410","Barboni_a1410",38.279,35.38,1000,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.394168658740827,4564.35719159966,12.5050881961635,1.31228300243798,22.6049743121768,540.202990415992
9595,20090,23075,"SMPDSv1","Turkie_EMPD_Barb_a1411","Barboni_a1411",39.4,36.47,1200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.380384688594711,3431.314938357,9.10754467712763,-2.44677717781745,18.8909818055708,457.274339802712
9596,20091,23076,"SMPDSv1","Turkie_EMPD_Barb_a1412","Barboni_a1412",39.88,37.61,1200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.451278332685036,3562.29839769616,9.51457732844763,-2.09336737296514,19.6129559396412,536.345335981235
9597,20092,23077,"SMPDSv1","Turkie_EMPD_Barb_a1413","Barboni_a1413",39.95,36.529,1400,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.368972914508834,3291.19154345166,8.54700011860463,-3.39332097234842,18.6056324772994,446.256693527015
9598,20093,23078,"SMPDSv1","Turkie_EMPD_Barb_a1414","Barboni_a1414",39.95,36.529,1400,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.368972914508834,3291.19154345166,8.54700011860463,-3.39332097234842,18.6056324772994,446.256693527015
9599,20094,23079,"SMPDSv1","Turkie_EMPD_Barb_a1415","Barboni_a1415",40.02,36.5,1200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.403035195080855,3472.16775247836,9.257912277946,-2.19560068836759,19.0264879546379,478.815678037723
9600,20095,23080,"SMPDSv1","Turkie_EMPD_Barb_a1416","Barboni_a1416",40.27,36.15,500,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.52961193627816,4347.66439870102,11.9114093115096,2.08045135474021,20.8668092959666,596.483074730123
9601,20096,23081,"SMPDSv1","Turkie_EMPD_Barb_a1417","Barboni_a1417",40.419,36.09,450,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.542680160297447,4422.90334377399,12.1175434076,2.39252721979524,21.0360564446408,607.819451927528
9602,20097,23082,"SMPDSv1","Turkie_EMPD_Barb_a1418","Barboni_a1418",40.479,36.15,600,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.511104067369347,4206.59118175511,11.5249073472743,1.44426502890393,20.6051059328724,578.585741407625
9603,20098,23083,"SMPDSv1","Turkie_EMPD_Barb_a1419","Barboni_a1419",40.529,36.159,700,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.490049448856983,4060.02949271581,11.123368473194,0.808526942260431,20.3094918602268,558.492226849793
9604,20099,23084,"SMPDSv1","Turkie_EMPD_Barb_a1420","Barboni_a1420",40.9,36.02,800,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.467742411460861,3888.85066811227,10.6481106876809,0.0589777938875102,19.9460162309742,533.19583567321
9605,20100,23085,"SMPDSv1","Turkie_EMPD_Barb_a1421","Barboni_a1421",40.979,35.72,750,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.46896463664707,3944.95880944961,10.8080827025308,0.262821594884745,20.1439372709771,534.330569291112
9606,20101,23086,"SMPDSv1","Turkie_EMPD_Barb_a1422","Barboni_a1422",41.169,36.13,750,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.482289790477464,3959.179946463,10.847068346474,0.363708401011079,20.099943979415,545.400984125471
9607,20102,23087,"SMPDSv1","Turkie_EMPD_Barb_a1423","Barboni_a1423",41.38,36.209,50,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.626515462068617,5063.86458220972,13.8736015950951,4.42779015521087,22.842310587659,685.143631580897
9608,20103,23088,"SMPDSv1","Turkie_EMPD_Barb_a1424","Barboni_a1424",41.729,35.25,200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.552768429723321,4646.49878717163,12.7301336634839,2.43688128236191,22.1443093720171,605.481152840448
9609,20104,23089,"SMPDSv1","Turkie_EMPD_Barb_a1425","Barboni_a1425",41.819,35.18,75,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.553775041657177,4781.25736004501,13.099335233,2.73273968895334,22.6152768655124,603.741185629802
9610,20105,23090,"SMPDSv1","Turkie_EMPD_Barb_a1426","Barboni_a1426",41.81,35.029,1300,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.47262762854141,3189.58998956488,8.50185755820967,-2.02165943106989,17.8114546355517,530.915140963823
9611,20106,23091,"SMPDSv1","Turkie_EMPD_Barb_a1427","Barboni_a1427",41.63,34.849,1300,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.442227332345,3223.28391207088,8.55449525583782,-2.27771299480686,18.0278998416631,505.678234260841
9612,20107,23092,"SMPDSv1","Turkie_EMPD_Barb_a1428","Barboni_a1428",41.569,34.279,550,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.503424996005672,4032.38733449221,11.0476365328554,0.280954067559966,20.7341796666975,559.389328122104
9613,20108,23093,"SMPDSv1","Turkie_EMPD_Barb_a1429","Barboni_a1429",41.369,33.319,1000,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.534485029587624,3476.96330446061,9.36825446330042,-1.49501592309233,19.1087077219596,605.905613919694
9614,20109,23094,"SMPDSv1","Turkie_EMPD_Barb_a1430","Barboni_a1430",41.25,33.669,800,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.522159927247438,3692.04826773349,10.0408845932573,-0.823272733486963,19.8041855877195,589.252079985553
9615,20110,23095,"SMPDSv1","Turkie_EMPD_Barb_a1431","Barboni_a1431",41.15,33.22,500,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.537022457586747,4114.71976033034,11.2732048228229,0.608373177983691,21.0266507270137,607.649968210985
9616,20111,23096,"SMPDSv1","Turkie_EMPD_Barb_a1432","Barboni_a1432",41.2,32.869,350,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.559867350121609,4332.33362570349,11.8694071937082,1.42172694375695,21.5004233840922,630.818724977282
9617,20112,23097,"SMPDSv1","Turkie_EMPD_Barb_a1433","Barboni_a1433",41.229,32.72,300,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.563843003093559,4475.28524385023,12.2610554626034,2.05895414141272,21.7217503035814,636.945108926024
9618,20113,23098,"SMPDSv1","Turkie_EMPD_Barb_a1434","Barboni_a1434",41.18,32.63,250,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.566160800038358,4562.44611890279,12.4998523805556,2.38500352366481,21.9037603106911,640.090704666866
9619,20114,23099,"SMPDSv1","Turkie_EMPD_Barb_a1435","Barboni_a1435",40.779,32.009,980,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.509568507333768,3658.85935825496,9.95741438772827,-0.752306002768747,19.7035476952375,597.060034348734
9620,20115,23100,"SMPDSv1","Turkie_EMPD_Barb_a1436","Barboni_a1436",40.849,31.62,1200,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.499128882233141,3409.57427067658,9.13266502667979,-1.81541950486624,19.0178344093324,588.960172040321
9621,20116,23101,"SMPDSv1","Turkie_EMPD_Barb_a1437","Barboni_a1437",40.779,31.1,125,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.541434226478307,5025.79203205907,13.769293238518,4.34431478761773,22.5722319970971,622.760690238225
9622,20117,23102,"SMPDSv1","Turkie_EMPD_Barb_a1438","Barboni_a1438",40.869,30.44,50,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.585756324074864,5179.36478584817,14.1900405091731,5.13673940496581,22.8140029851461,671.543809144962
9623,20118,23103,"SMPDSv1","Turkie_EMPD_Barb_a1439","Barboni_a1439",41.029,30.569,50,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.578930722971216,5183.46037311234,14.2012612961982,5.1211606638111,22.8440672476252,663.08665299334
9624,20119,23104,"SMPDSv1","Turkie_EMPD_Barb_a1440","Barboni_a1440",40.58,31.25,1650,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.404317459183088,3049.93528621876,7.70532244289833,-4.00122825615934,18.153793762338,495.71505189877
9625,20120,23105,"SMPDSv1","Turkie_EMPD_Barb_a1441","Barboni_a1441",40.61,31.299,1300,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.440853839199015,3381.41698456281,8.98837392595368,-2.21630098794261,19.1135377497686,531.45589063634
9626,20121,23106,"SMPDSv1","Turkie_EMPD_Barb_a1442","Barboni_a1442",40.61,31.309,1375,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.434958299267755,3299.91165439369,8.68837050012086,-2.62702000178817,18.898511980357,525.768353456412
9627,20122,23107,"SMPDSv1","Turkie_EPMD_Barb_a1405","Barboni_a1405",39.2,34.38,1100,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.307235978062836,3843.56328005745,10.438363509329,-1.01099018410116,20.7892772893281,395.492452388953
9628,20123,23108,"SMPDSv1","Turova Dacha","EPDcoretop_E878",48.9,24.1,8,"medium (1.1-50 km2)","terrestrial, blanket bog","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.748634512839528,3522.52751627842,9.17998298769462,-3.40427056378117,19.5680651130648,601.528918321597
9628,20124,23109,"SMPDSv1","Turova Dacha","Turova dasha_SS",68.85,66.9,8,"not known","terrestrial","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",0.993567869998284,956.446235532648,-7.63377578075026,-24.9466004938309,11.9613600721909,318.797207835983
9629,20125,16746,"Neotoma","Turtle Lake Area","RJM008",53.783333,-108.483333,762,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.571490307352021,2234.40070918651,0.924240952879184,-17.8897575735482,16.2562775997244,403.6106787897
9630,20126,13388,"Neotoma","Tuskegee Pond","TUSKEGEE",35.584722,-84.210556,240,"not known","lake","core","5","Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168. Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.","10.1017/S0033822200005348",4,"warm-temperate evergreen and mixed forest",1.15799057251151,5423.47453139384,14.8588343325859,2.7574484168326,25.4440166232265,1303.11309939381
9630,20126,13389,"Neotoma","Tuskegee Pond","TUSKEGEE",35.584722,-84.210556,240,"not known","lake","core","18","Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168. Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.","10.1017/S0033822200005348",4,"warm-temperate evergreen and mixed forest",1.15799057251151,5423.47453139384,14.8588343325859,2.7574484168326,25.4440166232265,1303.11309939381
9630,20126,13390,"Neotoma","Tuskegee Pond","TUSKEGEE",35.584722,-84.210556,240,"not known","lake","core","42","Steventon, R.L., and J.E. Kutzbach. 1983. University of Wisconsin radiocarbon dates XX. Radiocarbon 25(1):152-168. Cridlebaugh, P.A. 1984. American Indian and Euro-American impact upon Holocene vegetation in the Lower Little Tennessee River Valley, East Tennessee. Dissertation. University of Tennessee, Knoxville, Tennessee, USA.; Delcourt, P.A., H.R. Delcourt, P.A. Cridlebaugh, and J. Chapman. 1986. Holocene ethnobotanical and paleoecological record of human impact on vegetation in the Little Tennessee River Valley, Tennessee. Quaternary Research 25:330-349.","10.1017/S0033822200005348",4,"warm-temperate evergreen and mixed forest",1.15799057251151,5423.47453139384,14.8588343325859,2.7574484168326,25.4440166232265,1303.11309939381
9631,20127,23110,"SMPDSv1","Tussevatn","Bjune_a56",61.56125338,8.01557577,1402,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.5899505387558,1064.97494262097,-0.642142131222885,-10.6125465744816,9.39169892417014,788.595413434395
9632,20128,17352,"Neotoma","Tuttle","TW055",43.930833,-89.291111,248,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.918335465912758,3421.62228939953,7.43484679898597,-9.28758610703326,21.9546761587583,790.128569543454
9633,20129,23111,"SMPDSv1","Tutulampi","Seppa_b22",65.48,27.85,181,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18060677835612,1751.70530579447,0.724029544675792,-13.3435850734984,15.1348442577894,536.626723202055
9634,20130,6807,"EMPDv2","Tuva","Blyakharchuk_a1",50.2694444444444,95.011875,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.489778187340814,1903.44372775306,-4.19570185704061,-28.7247538976315,15.7520778610671,381.833542845159
9634,20131,6816,"EMPDv2","Tuva","Blyakharchuk_a10",50.2239527777778,89.3434527777778,2748,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.435586104206488,762.621254271909,-8.65941421669901,-27.6519993230226,8.28567945175804,329.355045698943
9634,20132,6817,"EMPDv2","Tuva","Blyakharchuk_a11",50.2239527777778,89.3434527777778,2748,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.435586104206488,762.621254271909,-8.65941421669901,-27.6519993230226,8.28567945175804,329.355045698943
9634,20133,6818,"EMPDv2","Tuva","Blyakharchuk_a12",50.269,89.6073694444444,2208,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.478490220995811,1116.72896041415,-6.66973083082538,-26.63118097206,10.8357680763599,362.518813594861
9634,20134,6819,"EMPDv2","Tuva","Blyakharchuk_a13",50.269,89.6073694444444,2208,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.478490220995811,1116.72896041415,-6.66973083082538,-26.63118097206,10.8357680763599,362.518813594861
9634,20135,6820,"EMPDv2","Tuva","Blyakharchuk_a14",50.2239527777778,89.3434527777778,2748,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.435586104206488,762.621254271909,-8.65941421669901,-27.6519993230226,8.28567945175804,329.355045698943
9634,20136,6821,"EMPDv2","Tuva","Blyakharchuk_a15",50.2239527777778,89.3434527777778,2748,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.435586104206488,762.621254271909,-8.65941421669901,-27.6519993230226,8.28567945175804,329.355045698943
9634,20137,6822,"EMPDv2","Tuva","Blyakharchuk_a16",50.2239527777778,89.3434527777778,2748,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.435586104206488,762.621254271909,-8.65941421669901,-27.6519993230226,8.28567945175804,329.355045698943
9634,20138,6808,"EMPDv2","Tuva","Blyakharchuk_a2",50.2694444444444,95.011875,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.489778187340814,1903.44372775306,-4.19570185704061,-28.7247538976315,15.7520778610671,381.833542845159
9634,20139,6809,"EMPDv2","Tuva","Blyakharchuk_a3",50.2694444444444,95.011875,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.489778187340814,1903.44372775306,-4.19570185704061,-28.7247538976315,15.7520778610671,381.833542845159
9634,20140,6810,"EMPDv2","Tuva","Blyakharchuk_a4",50.2694444444444,95.011875,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.489778187340814,1903.44372775306,-4.19570185704061,-28.7247538976315,15.7520778610671,381.833542845159
9634,20141,6811,"EMPDv2","Tuva","Blyakharchuk_a5",50.2694444444444,95.011875,1380,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.489778187340814,1903.44372775306,-4.19570185704061,-28.7247538976315,15.7520778610671,381.833542845159
9634,20142,6812,"EMPDv2","Tuva","Blyakharchuk_a6",51.3213527777778,94.8007361111111,752,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.674936722509674,2394.37628809198,-1.32305319464499,-25.6003539649844,18.5610632813228,507.035093842896
9634,20143,6813,"EMPDv2","Tuva","Blyakharchuk_a7",51.4044083333333,94.7195083333333,812,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.655822858839298,2355.30013776655,-1.52859234432824,-25.8198357120188,18.3176922463081,496.470741808713
9634,20144,6814,"EMPDv2","Tuva","Blyakharchuk_a8",50.25,89.4666666666667,2413,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.461476897599466,977.628325500282,-7.44148110983655,-27.050793378409,9.87020680572779,349.205661442006
9634,20145,6815,"EMPDv2","Tuva","Blyakharchuk_a9",50.25,89.5833333333333,2208,"not known","not known","not known","-62","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.459679966908946,1127.46062093177,-6.61142605137257,-26.6201522860284,10.8945044713776,350.472912733886
9635,20146,23112,"SMPDSv1","Tuzla Golu","Barboni_a1453",39.03333333,35.8275,1188.3,"not applicable","lake","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.350224931367797,3650.63590782546,9.80894852878506,-1.82070999864187,19.8721664923741,443.778761817943
9636,20147,9513,"EMPDv2","Tuzla kosa","Novenko_c132",45.2025,36.6108,23,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.544186190745269,4191.78624772327,11.4278530229826,-0.464496820143295,22.8760143405628,554.178274887314
9636,20148,9514,"EMPDv2","Tuzla kosa","Novenko_c133",45.2025,36.6108,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.545284260280676,4191.65261073911,11.4282716533124,-0.45690470344757,22.8702101176571,555.247937444833
9636,20149,9515,"EMPDv2","Tuzla kosa","Novenko_c134",45.2025,36.6108,24,"0.01","terrestrial, soil","soil sample","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.545284260280676,4191.65261073911,11.4282716533124,-0.45690470344757,22.8702101176571,555.247937444833
9637,20150,8666,"EMPDv2","Tverrabreen","Pardoe_c136",61.36,8.2,1440,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51346374240612,1051.45780944525,-0.771077480943117,-10.831005446231,9.33112824440978,758.299126429088
9637,20151,8667,"EMPDv2","Tverrabreen","Pardoe_c137",61.36,8.2,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56186417899257,1074.33530172052,-0.606218168807034,-10.6117785242051,9.44961063002084,781.854160468999
9637,20152,8668,"EMPDv2","Tverrabreen","Pardoe_c138",61.36,8.2,1320,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.658957210853,1120.9124412548,-0.276499544534868,-10.1733246801532,9.68657540124298,828.964228548821
9637,20153,8669,"EMPDv2","Tverrabreen","Pardoe_c139",61.36,8.2,1200,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.80534480014007,1192.67892555489,0.218078391873381,-9.51564391407545,10.0420225580762,899.629330668553
9637,20154,8670,"EMPDv2","Tverrabreen","Pardoe_c140",61.36,8.2,1140,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.87888444497398,1229.42622925633,0.465367360077505,-9.18680353103656,10.2197461364928,934.96188172842
9638,20155,23160,"SMPDSv1","Tvitjonn","Bjune_a191",58.145,7.9133333333333304,80,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.95157205998229,2540.244874441,6.56272170001963,-2.24476619623828,15.4217855444602,1184.57253476979
9639,20156,16751,"Neotoma","Tweedamuir","RJM013",53.566667,-105.933333,494,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.61864486190633,2238.48300769808,0.426460434520066,-19.5239017230907,17.0501598191423,426.455506055796
9640,20157,13748,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","-24","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13749,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","-12","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13750,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","-1","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13751,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","11","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13752,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","23","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13753,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","34","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9640,20157,13754,"Neotoma","Twelve Mile Coulee","TWELVEML",50.206685,-111.64238,790,"not known","artificial water body","core","46","Strong, W.L. 1977. Pre- and postsettlement palynology of southern Alberta. Review of Palaeobotany and Palynology 23(5):373-387. Strong, W.L. 1991. Postsettlement changes in limnic sediments from southern Alberta, Canada. Agriculture, Ecosystems & Environment 36(1-2):111-117.","10.1016/0034-6667(77)90027-6;
10.1016/0167-8809(91)90040-5",17,"temperate evergreen needleleaf open woodland",0.400082392785827,2708.91963758547,4.44440854125341,-11.9696120705466,18.7305905522973,331.070560592712
9641,20158,17345,"Neotoma","Twin","TW047",44.567222,-88.989444,272,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.938013534971706,3204.43683635885,6.55899325288671,-9.9992694986473,21.1462880262381,778.653391799599
9642,20159,14005,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","-19","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14006,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","-7","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14007,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","5","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14008,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","17","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14009,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","29","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14010,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","39.16667","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9642,20159,14011,"Neotoma","Twin Lake","TWINLKBC",49.322,-119.725,800,"not known","lake","core","47.5","Cawker, K.B. 1978. Historical dynamics of Artemisia Tridentata Nutt. in southern British Columbia. Doctoral dissertation. Simon Fraser University, Burnaby, British Columbia, Canada.; Cawker, K.B. 1983. Fire history and grassland vegetation change: three pollen diagrams from southern British Columbia. Canadian Journal of Botany 61:1126-1139.",,8,"cool evergreen needleleaf forest",0.478819578110051,2687.0513014301,6.13824932513785,-5.8048464683606404,17.6808851009816,383.701393025968
9643,20160,15078,"Neotoma","Twin Lakes","LWRTWIN",47.24152,-113.910924999999,1263,"not known","lake","core","-43","Alt, M., D.B. McWethy, R. Everett, and C. Whitlock. 2018. Millennial scale climate-fire-vegetation interactions in a mid-elevation mixed coniferous forest, Mission Range, northwestern Montana, USA. Quaternary Research 90:66-82.",,8,"cool evergreen needleleaf forest",0.57804913517569,2510.71687590521,5.59370365720814,-5.86887229365495,17.4955656324692,485.837650920801
9643,20160,15079,"Neotoma","Twin Lakes","LWRTWIN",47.24152,-113.910924999999,1263,"not known","lake","core","-19","Alt, M., D.B. McWethy, R. Everett, and C. Whitlock. 2018. Millennial scale climate-fire-vegetation interactions in a mid-elevation mixed coniferous forest, Mission Range, northwestern Montana, USA. Quaternary Research 90:66-82.",,8,"cool evergreen needleleaf forest",0.57804913517569,2510.71687590521,5.59370365720814,-5.86887229365495,17.4955656324692,485.837650920801
9643,20161,13392,"Neotoma","Twin Lakes","TWINLAKE",37.46906,-108.10256,3290,"not known","lake","core","-25","Petersen, K.L., V.L. Clay, M.H. Matthews, and S.W. Neusius. 1985. Dolores Archaeological Program: Studies in Environmental Archaeology. U.S. Department of the Interior, Bureau of Reclamation, Engineering and Research Center, Denver, Colorado, USA.; Petersen, K.L. 1994. A warm and wet Little Climatic Optimum and a cold and dry Little Ice Age in the southern Rocky Mountains, U.S.A. Climatic Change 26(2-3):243-269. Petersen, K.L., and P.J. Mehringer, Jr. 1976. Postglacial timberline fluctuations, La Plata Mountains, Southwestern Colorado. Arctic and Alpine Research 8(3):275-288.","10.1007/BF01092417",17,"temperate evergreen needleleaf open woodland",0.665326266931357,1147.74372368912,-1.26306695040214,-13.0484675395599,10.4389251970911,656.154733867017
9643,20162,13393,"Neotoma","Twin Lakes","TWINMN1",45.848889,-93.167778,305,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.881343623235741,3263.88471579359,6.22344413876771,-12.0666851392287,21.6677126222781,730.326188567998
9643,20162,13394,"Neotoma","Twin Lakes","TWINMN1",45.848889,-93.167778,305,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",0.881343623235741,3263.88471579359,6.22344413876771,-12.0666851392287,21.6677126222781,730.326188567998
9643,20162,13395,"Neotoma","Twin Lakes","TWINMN1",45.848889,-93.167778,305,"not known","lake","core","36","Unpublished data",,9,"cool mixed forest",0.881343623235741,3263.88471579359,6.22344413876771,-12.0666851392287,21.6677126222781,730.326188567998
9644,20163,11514,"Neotoma","Twin Lakes (Be)","NDBETW",47.964595,-99.0989099999999,441,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.586069451913141,2846.22261046432,3.62137454866965,-16.0075530143844,20.2506955781876,475.065077653597
9645,20164,13391,"Neotoma","Twin Lakes (CA:British Columbia)","TWIN",50.7870999999999,-116.36186,1100,"not known","lake","core","-11","Hazell, S. 1979. Late quaternary vegetation and climate of the Dunbar Valley, British Columbia. Master's thesis. University of Toronto, Toronto, Ontario, Canada.",,15,"cold evergreen needleleaf forest",1.40314917219293,2024.20550291135,3.32851942868572,-8.60874119963432,14.8530375662967,1037.38577832988
9646,20165,13796,"Neotoma","Two Frog Lake","TWOFROG",51.106595,-127.534035,4,"not known","lake","core","-52","Galloway, J.M., R.T. Patterson, C.T. Doherty, and H.M. Roe. 2007. Multi-proxy evidence of postglacial climate and environmental change at Two Frog Lake, central mainland coast of British Columbia, Canada. Journal of Paleolimnology 38:569-588.",,8,"cool evergreen needleleaf forest",4.61699180388083,3134.22409379663,8.58691532547022,3.48498672462004,14.646773435724,3069.35094007656
9647,20166,13974,"Neotoma","Two Horsemen Pond","TWOHORSE",60.850205,-135.769085,673,"not known","lake","core","12","Keenan, T.J., and L.C. Cwynar. 1992. Late Quaternary history of black spruce and grasslands in southwest Yukon Territory. Canadian Journal of Botany 70:1336-1345.; Keenan, T.J. 1991. Late-Quaternary history of Black Spruce and grasslands in southwest Yukon Territory. Master's thesis. University of New Brunswick, Fredericton, New Brunsiwck, Canada.",,15,"cold evergreen needleleaf forest",0.144347981143134,1583.1197397151,-3.80633396539506,-25.8910226522891,14.2164456927105,71.6979242777339
9648,20167,15666,"Neotoma","Two Loon Lake","DLEF006",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9648,20168,15662,"Neotoma","Two Loon Lake","DLEF007",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9648,20169,15664,"Neotoma","Two Loon Lake","DLEF008",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9648,20170,15667,"Neotoma","Two Loon Lake","DLEF009",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9648,20171,15665,"Neotoma","Two Loon Lake","DLEF010",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9648,20172,15663,"Neotoma","Two Loon Lake","DLEF011",59.47,-64.18,50,"not known","lake","surface sample","Modern","Elliot-Fisk, D.L., Andrews, J.T., Short, S.K. and Mode, W.N., 1982. Isopoll maps and an analysis of the distribution of the modern pollen rain, eastern and central northern Canada. Géographie physique et Quaternaire, 36(1-2), pp.91-108.","10.7202/032471ar",31,"tundra",1.63558420986102,736.15103858521,-5.88417194672351,-20.8118365455288,8.22049932861505,623.998902047999
9649,20173,1510,"Australian pollen","Two Mile Lake","Two Mile Lake_1.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20174,1511,"Australian pollen","Two Mile Lake","Two Mile Lake_1.3",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20175,1512,"Australian pollen","Two Mile Lake","Two Mile Lake_11.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20176,1513,"Australian pollen","Two Mile Lake","Two Mile Lake_11.3",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20177,1514,"Australian pollen","Two Mile Lake","Two Mile Lake_12.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20178,1515,"Australian pollen","Two Mile Lake","Two Mile Lake_12.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20179,1516,"Australian pollen","Two Mile Lake","Two Mile Lake_14.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20180,1517,"Australian pollen","Two Mile Lake","Two Mile Lake_14.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20181,1518,"Australian pollen","Two Mile Lake","Two Mile Lake_15.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20182,1519,"Australian pollen","Two Mile Lake","Two Mile Lake_15.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20183,1520,"Australian pollen","Two Mile Lake","Two Mile Lake_16.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20184,1521,"Australian pollen","Two Mile Lake","Two Mile Lake_16.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20185,1522,"Australian pollen","Two Mile Lake","Two Mile Lake_18.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20186,1523,"Australian pollen","Two Mile Lake","Two Mile Lake_18.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20187,1524,"Australian pollen","Two Mile Lake","Two Mile Lake_19.3",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20188,1525,"Australian pollen","Two Mile Lake","Two Mile Lake_19.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20189,1526,"Australian pollen","Two Mile Lake","Two Mile Lake_20.3",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20190,1527,"Australian pollen","Two Mile Lake","Two Mile Lake_20.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20191,1528,"Australian pollen","Two Mile Lake","Two Mile Lake_21.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20192,1529,"Australian pollen","Two Mile Lake","Two Mile Lake_21.5",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20193,1530,"Australian pollen","Two Mile Lake","Two Mile Lake_4.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20194,1531,"Australian pollen","Two Mile Lake","Two Mile Lake_4.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20195,1532,"Australian pollen","Two Mile Lake","Two Mile Lake_5.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20196,1533,"Australian pollen","Two Mile Lake","Two Mile Lake_5.4",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20197,1534,"Australian pollen","Two Mile Lake","Two Mile Lake_6.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20198,1535,"Australian pollen","Two Mile Lake","Two Mile Lake_6.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20199,1536,"Australian pollen","Two Mile Lake","Two Mile Lake_7.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20200,1537,"Australian pollen","Two Mile Lake","Two Mile Lake_7.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20201,1538,"Australian pollen","Two Mile Lake","Two Mile Lake_8.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20202,1539,"Australian pollen","Two Mile Lake","Two Mile Lake_8.3",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20203,1540,"Australian pollen","Two Mile Lake","Two Mile Lake_9.1",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9649,20204,1541,"Australian pollen","Two Mile Lake","Two Mile Lake_9.2",-34.5,118.27,140,"medium (1.1-50 km2)","lake","surface sample","-53","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.507702317827614,5698.97520543609,15.6136306998249,10.8995765046661,20.6412543462594,608.344367468472
9650,20205,23113,"SMPDSv1","Tygynskoe boloto","Tygynskoe boloto_SS",54.5,58.9667,1000,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.805660641398337,1900.97268550441,-1.12898401748988,-19.4588420362781,15.8981786273474,514.235518045902
9651,20206,7979,"EMPDv2","Tym_1","Mikishin-Gvozdeva_a39",51.5816666666667,142.883333333333,2,"not known","fluvial","sediment sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19496993696631,1906.19116551772,-0.369120254547567,-18.6825862646107,15.5921516600404,652.304763964782
9652,20207,7998,"EMPDv2","Tym_2 (Tym River)","Mikishin-Gvozdeva_a58",50.7791666666667,142.650555555556,100,"not known","fluvial","sediment sample","-51","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22409352587603,1857.36802598757,-0.400518503846187,-18.4448220345958,15.3023678827305,678.386893646424
9653,20208,8106,"EMPDv2","Tymovskoye","Mikishin-Gvozdeva_a163",50.8355555555556,142.676666666667,110,"not known","fluvial","litter","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23029723877532,1843.9414034659,-0.458928601204335,-18.4795243691505,15.2334502393642,680.073462424283
9654,20209,1542,"Australian pollen","Tyndall Ranges","TR SS 1",-41.93,145.58,1000,"not applicable","terrestrial","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.62754182254245,2331.38446541385,6.38735469976397,1.53391406727841,11.949262142129,1509.78208894758
9654,20210,1543,"Australian pollen","Tyndall Ranges","TR SS 2",-41.93,145.58,1000,"not applicable","terrestrial","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.62754182254245,2331.38446541385,6.38735469976397,1.53391406727841,11.949262142129,1509.78208894758
9654,20211,1544,"Australian pollen","Tyndall Ranges","TR SS 3",-41.93,145.58,1000,"not applicable","terrestrial","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.62754182254245,2331.38446541385,6.38735469976397,1.53391406727841,11.949262142129,1509.78208894758
9654,20212,1545,"Australian pollen","Tyndall Ranges","TR SS 4",-41.93,145.58,1000,"not applicable","terrestrial","surface sample","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.62754182254245,2331.38446541385,6.38735469976397,1.53391406727841,11.949262142129,1509.78208894758
9655,20213,13396,"Neotoma","Tyrrell Lake","TYRRELL",66.05,-135.655556,660,"not known","lake","core","-28","Ritchie, J.C. 1982. The modern and late-Quaternary vegetation of the Doll Creek area, North Yukon, Canada. New Phytologist 90:563-603.",,15,"cold evergreen needleleaf forest",0.598053026680338,1093.65456536,-8.98744137551536,-29.9240217700042,12.4159177259657,237.646983824173
9656,20214,23114,"SMPDSv1","Tytuvenu Tyrelis","EPDcoretop_E668",55.583333,23.3,125,"0.01","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.961321056800213,2735.01723723691,6.43240586507858,-5.16402399806944,16.8918071539181,646.67480763189
9657,20215,8552,"EMPDv2","Tyumen region","Panova_a19",57.02,64.4,80,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.770024182322675,2376.71648541349,1.4419984786871,-17.405076437202,19.2814642566109,464.722230762635
9658,20216,8127,"EMPDv2","Tyvlina","Mikishin-Gvozdeva_a190",53.7772222222222,140.334444444444,20,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1825865670587,1883.00723488444,-1.77433947978238,-22.0279383306231,15.6521038368287,621.642373525652
9659,20217,8126,"EMPDv2","Tyvlina_1","Mikishin-Gvozdeva_a189",53.7480555555556,140.389444444444,15,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17568930765784,1898.47044734931,-1.6431911850358,-21.8460436994594,15.710388916228201,619.892427461146
9660,20218,8128,"EMPDv2","Tyvlina_2","Mikishin-Gvozdeva_a191",53.6972222222222,140.324444444444,50,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17731983993359,1877.95802933537,-1.80173860438562,-22.060595901549,15.6312100855472,620.680534163692
9661,20219,8129,"EMPDv2","Tyvlina_3","Mikishin-Gvozdeva_a192",53.6566666666667,140.343611111111,60,"not applicable","terrestrial","litter","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17721819004971,1872.37116088889,-1.83630669776499,-22.0970243626786,15.6045670896562,620.924700242121
9662,20220,6159,"EMPDv2","Tzi N Ghachou, Khenifra","AlbaSanchez_a87",32.869999,-5.237251,2016,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",20,"xerophytic woods/scrub",0.330103178781182,4628.78701580975,12.6816082624925,3.47624150987724,24.2903040002724,476.209837266921
9663,20221,8074,"EMPDv2","Uarke","Mikishin-Gvozdeva_a137",52.5563888888889,141.233333333333,4,"not applicable","coastal, other","moss polster or moss","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15421730467422,1930.80232108106,-0.963370662400293,-20.4364311157172,15.7616100806709,624.525661180047
9664,20222,10556,"BIOME6000 Japan","Ubuka","UbukC0",34.48,131.58,390,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.88790243787678,4796.94506445006,13.1423152450687,2.27773052565187,24.8453693646248,1882.00859371374
9665,20223,16774,"Neotoma","Uchi Lake","RJM036",51.049315,-92.58798,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.963133964653706,2302.09265110585,0.66051747653969,-19.9887196846999,18.3051413105485,666.15376158775
9666,20224,8137,"EMPDv2","Udyl","Mikishin-Gvozdeva_a200",52.1483333333333,139.971666666667,-1,"345","lake","sediment sample","-30","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10615782858654,2003.73727283633,-1.21085227402617,-21.793194810621,16.3519692083364,610.034278599757
9667,20225,10581,"BIOME6000 Japan","Uenodai archaeological sie","D12006",35.65,140.05,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.59269030384736,5401.72179606279,14.7992377974323,4.51552672568362,26.0458704737487,1562.38639214126
9668,20226,8008,"EMPDv2","Uglegorsk","Mikishin-Gvozdeva_a68",49.0855555555556,142.040555555556,6,"not known","terrestrial, bog/fen/swamp","moss polster or moss","-47","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.53488549055131,1996.33506486853,1.04544663144367,-15.558548997485,15.9787643467674,881.821051349208
9669,20227,23115,"SMPDSv1","Uitbergen","EPDcoretop_E670",51.017778,3.944722,4,"0.01","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.08336497280097,3622.8321474795,9.92556752734108,2.81491076165615,17.2578441757796,765.712113491831
9670,20228,23265,"SMPDSv1","UK/HT/HW1_2_3_4_5","UK/HT/HW1_2_3_4_5",51.25,-2.383,200,"not applicable","terrestrial","pollen trap","-49","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.81880747033714,3286.07045919136,9.00293276490784,3.4132079353725,15.2990026825712,1153.76670304607
9671,20229,10639,"BIOME6000 Japan","Ukishima","UksmC0",43.95,142.93,870,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.70327660058755,1981.87664960366,1.86549365461528,-12.4599188763938,15.8096678822191,1127.34760126024
9672,20230,10550,"BIOME6000 Japan","Ukishima-no-mori","UksmnD0",33.72,136,5,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.60961580127276,5911.72923900499,16.1965184630274,5.87485976002971,27.2510393975915,1690.01212965697
9673,20231,10551,"BIOME6000 Japan","Ukishimanomori","UkismC0",33.72,136,7,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.612409734165,5907.05099054634,16.1837013439626,5.86016258119116,27.239127893678,1692.66116827889
9674,20232,6257,"EMPDv2","Ukta 1","Binney2017_E2247",55.58,109.2,468,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.640841884108535,1865.58519352311,-3.73965097123782,-27.1360627338708,17.2485226169329,356.287966170101
9675,20233,6258,"EMPDv2","Ukta 2","Binney2017_E2248",55.53,109.27,470,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.626430559090461,1879.18321618812,-3.56019977304935,-26.7987526594387,17.2888700661415,353.496621347737
9676,20234,10287,"Herzschuh et al., 2019","Ulaan Nuur.4A","Ulaan Nuur.4A",49.08721,97.18888,2074,"175","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.361317743085739,1319.73430537031,-6.60594784390849,-29.0664232018025,12.14385956428,290.954737588197
9677,20235,5364,"CMPD","Ulanul Lake","Ulanul Lake",34.87,90.5,4854,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.176292449804577,351.17665838906,-7.00569951193999,-18.7224725723846,4.49012508306454,164.592395804168
9678,20236,11305,"Bush et al., 2020","Ululumas","Ululumas",-15.78345,-70.6001,4401,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.412867184014778,2087.85499534583,5.72015067218037,3.01709439263114,7.31786026592786,590.746152744111
9679,20237,11306,"Bush et al., 2020","Umapata","Umapata",-15.536517,-70.04575,3824,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.50750145322925,3250.1930089089,8.90463838057234,6.42357838604218,10.4345530629843,751.307119759098
9680,20238,11307,"Bush et al., 2020","Umayo","Umayo",-15.7196,-70.152383,3842,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.481309847325712,3187.12428477055,8.73184735553574,6.22375672056672,10.2545080867078,711.571407119867
9681,20239,1546,"Australian pollen","Umbamambuno","Umbamambuno (Imbuka)",-5.792,145.053,3550,"not known","not known","not known","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",0.909873681448452,5677.13461390556,15.553793462755,14.3996380999242,16.269127385465,1269.71592342502
9682,20240,1547,"Australian pollen","Umbeara Station","Umbeara A_a",-25.7633,134.1983,356,"not applicable","terrestrial","not known","50","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20241,1548,"Australian pollen","Umbeara Station","Umbeara A_b",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20242,1549,"Australian pollen","Umbeara Station","Umbeara A_c",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20243,1550,"Australian pollen","Umbeara Station","Umbeara A_d",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20244,1551,"Australian pollen","Umbeara Station","Umbeara A_e",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20245,1552,"Australian pollen","Umbeara Station","Umbeara A_f",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20246,1553,"Australian pollen","Umbeara Station","Umbeara A_g",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20247,1554,"Australian pollen","Umbeara Station","Umbeara B",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20248,1555,"Australian pollen","Umbeara Station","Umbeara C",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20249,1556,"Australian pollen","Umbeara Station","Umbeara F",-25.7633,134.1983,356,"not applicable","terrestrial","not known","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20250,1557,"Australian pollen","Umbeara Station","Umbeara G_a",-25.7633,134.1983,356,"not applicable","terrestrial","not known","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20251,1558,"Australian pollen","Umbeara Station","Umbeara G_b",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20252,1559,"Australian pollen","Umbeara Station","Umbeara H",-25.7633,134.1983,356,"not applicable","terrestrial","not known","5","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20253,1560,"Australian pollen","Umbeara Station","Umbeara J_a",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20254,1561,"Australian pollen","Umbeara Station","Umbeara J_b",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20255,1562,"Australian pollen","Umbeara Station","Umbeara K_a",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20256,1563,"Australian pollen","Umbeara Station","Umbeara K_b",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20257,1564,"Australian pollen","Umbeara Station","Umbeara M",-25.7633,134.1983,356,"not applicable","terrestrial","not known","1","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20258,1565,"Australian pollen","Umbeara Station","Umbeara N_a",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20259,1566,"Australian pollen","Umbeara Station","Umbeara N_b",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20260,1567,"Australian pollen","Umbeara Station","Umbeara N_c",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20261,1568,"Australian pollen","Umbeara Station","Umbeara N_d",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9682,20262,1569,"Australian pollen","Umbeara Station","Umbeara N_e",-25.7633,134.1983,356,"not applicable","terrestrial","not known","2","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",0.128089797547739,7726.11520617868,21.1674389210375,12.0480871642836,29.4144662875846,233.872009009545
9683,20263,23116,"SMPDSv1","Umbrail","EPDcoretop_E1167",46.542541,10.433964,2490,"not known","terrestrial, bog/fen/swamp","peat core top","-13","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",3.65969888201005,336.327436243495,-3.1535389080277,-9.65942811326773,3.69091735131962,2189.17061958866
9684,20264,1570,"Australian pollen","Umej","Umej_core",-20.2594,168.8594,-4560,"not known","terrestrial, bog/fen/swamp","core top","-32","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",,"not applicable",,,,,,
9684,20265,1571,"Australian pollen","Umej","Umej_ss",-20.2594,168.8594,-4560,"not known","terrestrial, bog/fen/swamp","surface sample","-32","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",,"not applicable",,,,,,
9685,20266,14943,"Neotoma","Umpawaug Pond","UMPAWAU",41.306,-73.4495,140,"not known","lake","core","-50.218","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.25320571706794,3853.24465494015,10.0416335607816,-3.32412059871852,22.4364673269663,1145.38530173694
9685,20266,14944,"Neotoma","Umpawaug Pond","UMPAWAU",41.306,-73.4495,140,"not known","lake","core","5.945","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",13,"temperate deciduous broadleaf forest",1.25320571706794,3853.24465494015,10.0416335607816,-3.32412059871852,22.4364673269663,1145.38530173694
9686,20267,23117,"SMPDSv1","Un-named lake near Colomers","BSNA",42.6383333,0.924166666666667,1891,"0.0201","lake","lacustrine core top","-62","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.07334875335865,2177.03096383698,5.56560387629307,-2.16601644772123,14.8234426260314,1059.49713993004
9687,20268,14945,"Neotoma","Uncle Seth's Pond","UNCLSTH",41.43305,-70.6646399999999,15,"not known","lake","core","-50.62","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35552168717591,3896.59532302897,10.3845611395571,-2.07821762378094,22.3603420608559,1227.15601440562
9687,20268,14946,"Neotoma","Uncle Seth's Pond","UNCLSTH",41.43305,-70.6646399999999,15,"not known","lake","core","-7.384","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35552168717591,3896.59532302897,10.3845611395571,-2.07821762378094,22.3603420608559,1227.15601440562
9687,20268,14947,"Neotoma","Uncle Seth's Pond","UNCLSTH",41.43305,-70.6646399999999,15,"not known","lake","core","46.662","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35552168717591,3896.59532302897,10.3845611395571,-2.07821762378094,22.3603420608559,1227.15601440562
9688,20269,9695,"Gaillard et al., 1992","Ungskar","Ungskar",56.050956,15.800258,1,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.857450333402298,2817.50694957267,7.50794542429407,-1.26376337537121,16.7078202632141,574.033369887495
9689,20270,13602,"Neotoma","Union Lake","UNION",45.81725,-95.34235,423,"not known","lake","core","-27","Unpublished data",,9,"cool mixed forest",0.773617790647707,3098.26340542601,5.15572382208534,-13.8849465774406,21.1302809753985,644.416863960303
9689,20270,13603,"Neotoma","Union Lake","UNION",45.81725,-95.34235,423,"not known","lake","core","-16","Unpublished data",,9,"cool mixed forest",0.773617790647707,3098.26340542601,5.15572382208534,-13.8849465774406,21.1302809753985,644.416863960303
9689,20270,13604,"Neotoma","Union Lake","UNION",45.81725,-95.34235,423,"not known","lake","core","11","Unpublished data",,9,"cool mixed forest",0.773617790647707,3098.26340542601,5.15572382208534,-13.8849465774406,21.1302809753985,644.416863960303
9689,20270,13605,"Neotoma","Union Lake","UNION",45.81725,-95.34235,423,"not known","lake","core","25","Unpublished data",,9,"cool mixed forest",0.773617790647707,3098.26340542601,5.15572382208534,-13.8849465774406,21.1302809753985,644.416863960303
9690,20271,15027,"Neotoma","Unit Lake","UNITLAKE",59.41115,-97.489955,294,"not known","lake","core","-53","Camill, P., C.E. Umbanhowar, Jr., C. Geiss, W.O. Hobbs, M.B. Edlund, A.C. Shinneman, J.A. Dorale, and J. Lynch. 2012. Holocene climate change and landscape development from a low-Arctic tundra lake in the western Hudson Bay region of Manitoba, Canada. Journal of Paleolimnology 48(1):175-192.","10.1007/s10933-012-9619-0",15,"cold evergreen needleleaf forest",0.896732495262793,1205.2667841615,-7.45312774851938,-28.7981970594723,13.3484455736105,406.042727530705
9690,20271,15028,"Neotoma","Unit Lake","UNITLAKE",59.41115,-97.489955,294,"not known","lake","core","-36","Camill, P., C.E. Umbanhowar, Jr., C. Geiss, W.O. Hobbs, M.B. Edlund, A.C. Shinneman, J.A. Dorale, and J. Lynch. 2012. Holocene climate change and landscape development from a low-Arctic tundra lake in the western Hudson Bay region of Manitoba, Canada. Journal of Paleolimnology 48(1):175-192.","10.1007/s10933-012-9619-0",15,"cold evergreen needleleaf forest",0.896732495262793,1205.2667841615,-7.45312774851938,-28.7981970594723,13.3484455736105,406.042727530705
9690,20271,15029,"Neotoma","Unit Lake","UNITLAKE",59.41115,-97.489955,294,"not known","lake","core","10","Camill, P., C.E. Umbanhowar, Jr., C. Geiss, W.O. Hobbs, M.B. Edlund, A.C. Shinneman, J.A. Dorale, and J. Lynch. 2012. Holocene climate change and landscape development from a low-Arctic tundra lake in the western Hudson Bay region of Manitoba, Canada. Journal of Paleolimnology 48(1):175-192.","10.1007/s10933-012-9619-0",15,"cold evergreen needleleaf forest",0.896732495262793,1205.2667841615,-7.45312774851938,-28.7981970594723,13.3484455736105,406.042727530705
9691,20272,13397,"Neotoma","Unknown Pond","UNKNOWN",45.60459,-70.633335,489,"not known","lake","core","0","Mott, R.J. 1977. Late-Pleistocene and Holocene palynology in southeastern Québec. Géographie physique et Quaternaire 31(1-2):139-149.","10.7202/1000060ar",9,"cool mixed forest",1.59910395330101,2394.56118694646,3.43789738865969,-12.0675388492932,17.4483239773128,1166.03322425701
9692,20273,16783,"Neotoma","Unnamed bog west of Nungesser Lake","RJM045",51.433333,-93.716667,379,"not known","terrestrial","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.902350804434281,2349.01830159926,0.842374603249746,-19.931178692553,18.4883349203627,629.758656077046
9693,20274,16780,"Neotoma","Unnamed Lake","RJM042",50.9242,-93.7696249999999,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,9,"cool mixed forest",0.882087145975169,2409.36936144646,1.22383774094996,-19.435086218604,18.7071567041412,628.487898339687
9694,20275,23179,"SMPDSv1","Unnamed lake 2, Batsfjord Municipality","Bjune_a256",70.5616666666666,29.5466666666666,260,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.88000983369102,1113.97806070141,-1.36259331041947,-11.6686320009246,11.4973755607494,628.910115478228
9695,20276,23183,"SMPDSv1","Unnamed lake 2, Mageroya","Bjune_a303",71.125,25.7183333333333,285,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.92219163284108,1123.73075641497,-2.62598920869578,-15.4115424362067,11.7036512060567,658.82203119313
9696,20277,23199,"SMPDSv1","Unnamed lake 2, Sor Varanger","Bjune_a8",69.59757905,30.75571408,261,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.7288770314652,1192.55510085883,-0.724519043664733,-11.1431593931188,11.905190011501,625.586866452514
9697,20278,6539,"EMPDv2","Unnamed Lake II","Binney2017_E3194",59,151.83,700,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30872766956958,848.5261964856,-8.24399099090475,-25.0226685575606,9.18738937670404,469.195675038677
9698,20279,23174,"SMPDSv1","Unnamed lake, Batsfjord Municipality","Bjune_a243",70.54,29.6916666666666,211,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.73646264494221,1143.59211595183,-1.20892567491751,-11.6477933768584,11.6319857170454,588.042053179615
9699,20280,23176,"SMPDSv1","Unnamed lake, Berlevag Municiplaity","Bjune_a246",70.6133333333333,29.12,125,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.4659540220987,1214.11204927043,-1.05138315160918,-12.1693575696015,12.041067930933,506.913857078634
9700,20281,23178,"SMPDSv1","Unnamed lake, Hammerfest","Bjune_a251",70.245,24.08,305,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",1.86486968419506,1118.83624462314,-2.79857930698352,-15.7039712342007,11.6628719814502,657.524548267939
9701,20282,23194,"SMPDSv1","Unnamed lake, Hoyanger Municipality","Bjune_a60",61.00898888,5.7681274,689,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.66968993212277,1760.31308410741,3.99878223079477,-3.56383304390543,12.0667058175602,1870.59581692852
9702,20283,23191,"SMPDSv1","Unnamed lake, Lebesby Municipality","Bjune_a5",70.36492983,26.68802409,150,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.69556301163005,1196.24991617108,-1.7206280246278,-13.8974666381331,12.0320513966982,576.877348055411
9703,20284,23177,"SMPDSv1","Unnamed lake, Mageroya","Bjune_a249",71.0366666666666,25.7966666666666,267,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.90888458650262,1128.240622827,-2.50765478212526,-15.1814698363512,11.7147299731783,651.526335338706
9704,20285,23172,"SMPDSv1","Unnamed lake, near Vagslivatnet","Bjune_a236",59.77,7.415,813,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.36146882202404,1621.9980498415,2.75119872733033,-6.27214686799355,11.936641979769,1280.75860003994
9705,20286,23198,"SMPDSv1","Unnamed lake, Odda Municipality","Bjune_a73",59.84361784,6.9923275,1144,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.97049462950138,1410.02146230195,1.58881729168894,-7.61955816197935,10.9969927598776,1070.9929256639
9706,20287,23190,"SMPDSv1","Unnamed lake, Oppdal Municipality","Bjune_a47",62.73616653,9.51654573,650,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",2.16181801752768,1391.97611026927,1.61312628641746,-7.4839593890688,10.9848177403177,984.577599665115
9707,20288,23197,"SMPDSv1","Unnamed lake, Sor Varanger","Bjune_a7",69.72344617,29.55515835,126,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.42368826461131,1243.84123392843,-0.871440287377993,-11.9628864792869,12.251173979419,507.523043888835
9708,20289,23164,"SMPDSv1","Unnamed lake, Stroholtet","Bjune_a21",68.89230536,17.94947263,255,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.64557136504664,1195.97874709843,0.338834062580089,-8.46147208897573,11.1849369024803,957.636255527683
9709,20290,23186,"SMPDSv1","Unnamed lake, Tano Municipality","Bjune_a306",70.4766666666666,28.875,320,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.07595994669722,1058.63425574175,-2.12876302294145,-13.0884739483817,11.2999943302737,676.719139170699
9710,20291,23185,"SMPDSv1","Unnamed lake, Vardo","Bjune_a305",70.3183333333333,31.0383333333333,110,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.53822022337541,1187.44319862212,-0.710005753869215,-11.0535729195859,11.6678827661003,528.776004267861
9711,20292,23171,"SMPDSv1","Unnamed lake, Vinje","Bjune_a235",59.795,7.41666666666666,880,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.25807352404761,1578.44648750249,2.51208210643933,-6.55968202245505,11.757185162817,1226.14977083307
9712,20293,11498,"Neotoma","Unnamed Playa","COWA01",39.74158,-103.28101,1505,"not known","lake","surface sample","-54","Unpublished data",,22,"steppe",0.338622174036892,3728.18512596224,9.73538189087335,-3.03055424578926,23.2256325536162,372.29650066652
9713,20294,11486,"Neotoma","Unnamed Stock Dam","MTCA02",45.73753,-104.51315,1002,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.43197666832645,3206.61550505817,7.04352600146486,-8.11000682757022,22.0320903189755,401.351422670513
9713,20295,11512,"Neotoma","Unnamed Stock Dam","MTFA01",46.3140099999999,-104.04863,890,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.434055956505404,3172.60105303477,6.62651038961266,-9.2975638696971,21.9030190262703,394.543327111322
9713,20296,11556,"Neotoma","Unnamed Stock Dam","NDSL01",46.59467,-103.350905,835,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.439278900245756,3126.51569791292,6.27871259585598,-10.0108781377674,21.6933566603109,393.227372109292
9713,20297,11564,"Neotoma","Unnamed Stock Dam","NDSL02",46.584305,-103.45219,780,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.440128610297835,3096.90819680198,5.98084410386628,-10.7420120209467,21.5836979449109,390.720863972232
9713,20298,11559,"Neotoma","Unnamed Stock Dam","SDPE02",45.190535,-102.75903,800,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.431784908717379,3341.06597741453,7.42503049501359,-8.10834769501619,22.54284704783,405.06061915515
9713,20299,11483,"Neotoma","Unnamed Stock Dam","SDZI01",45.38822,-101.584415,713,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.449965209690414,3304.71921317688,6.98987556544455,-9.32743035994889,22.4618553312835,414.069428911354
9714,20300,1572,"Australian pollen","Unnamed Tarn, Tarn Shelf","Unnamed Tarn core 1",-42.679,146.562,1158,"small (0.01-1 km2)","lake","core top","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.44042062798744,2213.16561434365,6.06346743655794,0.757585436827543,12.1152890989791,1364.09940269087
9714,20301,24505,"Southern Hemisphere pollen","Unnamed Tarn, Tarn Shelf","Unnamed Tarn_core",-42.679,146.562,1158,"small (0.01-1 km2)","lake","core top","-25","Macphail, M.K., 1979. Vegetation and climates in southern Tasmania since the last glaciation. Quaternary Research, 11(3), pp.306-341.","10.1016/0033-5894(79)90078-4",7,"cool-temperate rainforest",1.44042062798744,2213.16561434365,6.06346743655794,0.757585436827543,12.1152890989791,1364.09940269087
9715,20302,17431,"Neotoma","Upper Bass Lake","TW140",45.52,-91.2,366,"not known","lake","surface sample","Modern","Unpublished data",,9,"cool mixed forest",0.96069505197912,2978.12640150243,5.28733095803811,-12.1768948147137,20.3555027504796,773.400334591015
9716,20303,7380,"EMPDv2","Upper Brembana Valley","Furlanetto_a1",46.0249113888889,9.7981,1244,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.97733786779568,2077.83421864515,4.97567102443075,-3.56818822435007,13.5456155762539,1585.97268604483
9716,20304,7389,"EMPDv2","Upper Brembana Valley","Furlanetto_a10",46.0385058333333,9.8550025,1941,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.88905896271183,973.160664221989,0.380899894869487,-6.79595305635939,7.93071917836151,1978.35758468968
9716,20305,7390,"EMPDv2","Upper Brembana Valley","Furlanetto_a11",46.024925,9.86298055555556,1950,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.9008154251457,960.586439846171,0.319716932773212,-6.83964251176023,7.85694778548721,1982.63002249274
9716,20306,7391,"EMPDv2","Upper Brembana Valley","Furlanetto_a12",46.0394983333333,9.86195861111111,2009,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.99361141543663,881.499037611615,-0.0671695925902722,-7.11051120886922,7.38322541821367,2016.40279921669
9716,20307,7392,"EMPDv2","Upper Brembana Valley","Furlanetto_a13",46.0238333333333,9.87555555555556,2030,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.02375250495127,853.270764707583,-0.208104451846522,-7.21059311903723,7.21245607178067,2026.90628610745
9716,20308,7393,"EMPDv2","Upper Brembana Valley","Furlanetto_a14",46.0340555555556,9.87323611111111,2100,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.13799770777459,762.499506874489,-0.667488710738431,-7.53190579042868,6.64998209951518,2067.07928825313
9716,20309,7394,"EMPDv2","Upper Brembana Valley","Furlanetto_a15",46.0413527777778,9.86131527777778,2105,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.1487549893066,756.327356109823,-0.698534443004624,-7.55233843252889,6.61069471714457,2071.23892502126
9716,20310,7395,"EMPDv2","Upper Brembana Valley","Furlanetto_a16",46.0384694444444,9.86350861111111,2106,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.14987017798061,754.977355194048,-0.705596582819044,-7.55748416586929,6.60232316323768,2071.57059637729
9716,20311,7396,"EMPDv2","Upper Brembana Valley","Furlanetto_a17",46.0407472222222,9.86845361111111,2169,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.25456835362881,675.677408484834,-1.12032100560388,-7.84834424536157,6.09536889017394,2106.95497452332
9716,20312,7397,"EMPDv2","Upper Brembana Valley","Furlanetto_a18",46.0375955555556,9.86433777777778,2180,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.2739449598643,662.004663289129,-1.19261594051618,-7.89838692144625,6.00657910119779,2113.69468205046
9716,20313,7398,"EMPDv2","Upper Brembana Valley","Furlanetto_a19",46.0387777777778,9.879275,2282,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.44955768023197,539.390283479958,-1.86483390175619,-8.44263205578386,5.18553820015494,2170.1843220605
9716,20314,7381,"EMPDv2","Upper Brembana Valley","Furlanetto_a2",46.0264541666667,9.80833527777778,1360,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.11074484312202,1870.41818384522,4.21036109678682,-4.10645234346563,12.6106166381011,1651.3074867388
9716,20315,7399,"EMPDv2","Upper Brembana Valley","Furlanetto_a20",46.0373891666667,9.86801111111111,2283,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.45350342324737,538.23184728037,-1.87060330184543,-8.44693852346062,5.17744703640891,2172.03651028839
9716,20316,7400,"EMPDv2","Upper Brembana Valley","Furlanetto_a21",46.0404261111111,9.8789775,2341,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.55685515386624,471.760738664039,-2.25272507404646,-8.78868209325618,4.71090028113455,2203.8548499927
9716,20317,7401,"EMPDv2","Upper Brembana Valley","Furlanetto_a22",46.0407338888889,9.87896194444444,2345,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.56424571466186,467.276451328194,-2.27900062549986,-8.81212886829796,4.67874586978224,2206.13638347428
9716,20318,7402,"EMPDv2","Upper Brembana Valley","Furlanetto_a23",46.0414991666667,9.88045861111111,2372,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.61412460258821,437.263234674441,-2.45663130423416,-8.97071403056332,4.46154066589777,2221.35669049527
9716,20319,7403,"EMPDv2","Upper Brembana Valley","Furlanetto_a24",46.0425525,9.87886138888889,2393,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.6539475455521,414.322249217262,-2.59451737953891,-9.09363445888389,4.29267544694964,2233.51027387326
9716,20320,7404,"EMPDv2","Upper Brembana Valley","Furlanetto_a25",46.0431888888889,9.87852777777778,2428,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.72069578194709,376.879981417764,-2.82463631608493,-9.29891157328805,4.01108735292206,2253.50249288638
9716,20321,7405,"EMPDv2","Upper Brembana Valley","Furlanetto_a26",46.0421333333333,9.87683611111111,2435,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",3.73447782975848,369.503834618936,-2.87068198979556,-9.33984245679493,3.95461503679579,2257.69439769236
9716,20322,7382,"EMPDv2","Upper Brembana Valley","Furlanetto_a3",46.0258997222222,9.81344472222222,1422,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.1847106993781,1763.58142102579,3.80139114953455,-4.39393624303126,12.1109379705879,1686.23770853222
9716,20323,7383,"EMPDv2","Upper Brembana Valley","Furlanetto_a4",46.0267252777778,9.82164138888889,1552,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.3467344998889,1548.70502803181,2.94443589585039,-4.9956854105534,11.0635358292688,1759.70493497248
9716,20324,7384,"EMPDv2","Upper Brembana Valley","Furlanetto_a5",46.0269816666667,9.82922388888889,1672,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.5045237602029,1360.96764077585,2.15351208892333,-5.55088799108236,10.0968101591624,1827.4825455709
9716,20325,7385,"EMPDv2","Upper Brembana Valley","Furlanetto_a6",46.0310333333333,9.85033055555555,1692,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.52875010060008,1330.4147508893,2.01940484288515,-5.64825902647436,9.93494586059906,1836.73674365593
9716,20326,7386,"EMPDv2","Upper Brembana Valley","Furlanetto_a7",46.0327619444444,9.83931527777778,1776,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.64785396351161,1205.97118944623,1.46808789055755,-6.03249370891779,9.25925611180417,1885.83810400949
9716,20327,7387,"EMPDv2","Upper Brembana Valley","Furlanetto_a8",46.0248638888889,9.84566944444444,1788,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.6635270783433,1188.29730859394,1.38781182239178,-6.08958145876522,9.1618883778469,1892.00914564008
9716,20328,7388,"EMPDv2","Upper Brembana Valley","Furlanetto_a9",46.0234333333333,9.85486666666667,1875,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",2.78876584289561,1064.18409770807,0.814058641521025,-6.49252765093657,8.46094355633322,1940.69719206838
9717,20329,14225,"Neotoma","Upper Capsule Lake","UPPERCAP",68.6314444444444,-149.416925,805,"not known","lake","core","-47","Oswald, W.W., L.B. Brubaker, F.S. Hu, and G.W. Kling. 2003. Holocene pollen records from the central Arctic Foothills, northern Alaska: testing the role of substrate in the response of tundra to climate change. Journal of Ecology 91:1034-1048.",,31,"tundra",0.478730642125138,830.250452554812,-10.4426046325889,-27.8284922741647,9.76214520585391,153.844898887151
9718,20330,17550,"Neotoma","Upper Carters Pond","MTFEUC",47.153965,-109.42636,1235,"not known","lake","surface sample","Modern","Unpublished data",,22,"steppe",0.442847626771807,2883.07338232629,6.04271867760595,-8.40546212237926,20.2157457336844,391.951640122831
9719,20331,14519,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-50","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14520,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-46","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14521,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-42","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14522,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-39","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14523,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-35","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14524,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-31","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14525,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-25","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14526,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","-18","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9719,20331,14527,"Neotoma","Upper Fly Lake","UPPERFLY",61.0195,-138.088,1326,"not known","lake","core","2","Bunbury, J., and K. Gajewski. 2009. Postglacial climates inferred from a lake at treeline, southwest Yukon Territory, Canada. Quaternary Science Reviews 28:354-369.",,15,"cold evergreen needleleaf forest",1.03442087673335,889.772844564775,-5.39504612521188,-21.5384841617682,9.34298306176697,459.428214445609
9720,20332,12619,"Neotoma","Upper Gillies Lake","GILLIES",46.066667,-60.391667,81,"not known","lake","core","0","Livingstone, D.A. 1968. Some interstadial and postglacial pollen diagrams from eastern Canada. Ecological Monographs 38:87-125.",,9,"cool mixed forest",2.00492442036526,2493.84806074603,5.52569945828947,-6.09447254111209,17.2737618226929,1415.34659372166
9721,20333,13398,"Neotoma","Upper Graven Lake","UPGRAVEN",46.184444,-95.306944,446,"not known","lake","core","-1","Almquist-Jacobson, H., J.E. Almendinger, and S.E. Hobbie. 1992. Influence of terrestrial vegetation on sediment-forming processes in kettle lakes of west-central Minnesota. Quaternary Research 38(1):103-116.; Almendinger, J.E. 1988. Lake and groundwater paleohydrology: a groundwater model to explain past lake levels in west-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.792267683923877,3029.34369376017,4.83321257666238,-14.3051594806594,20.7930637019314,651.600339717492
9722,20334,6218,"EMPDv2","Upper Konda lowland","Antipina_a10",60,64,75,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.962731743197471,2056.9585906338,-0.0205476947383514,-18.8015518286692,18.2897549658068,510.724077491938
9722,20335,6219,"EMPDv2","Upper Konda lowland","Antipina_a11",60.55204,64.02649,829,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",3.20419961273953,367.744165273192,-16.139754465845,-37.4380078550481,8.0545521911645,747.491832723578
9722,20336,6220,"EMPDv2","Upper Konda lowland","Antipina_a12",60.5567,63.35539,50,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.962655663827973,2113.2797978555,0.325234707053425,-18.4174764809039,18.4691353847187,509.299927866534
9722,20337,6216,"EMPDv2","Upper Konda lowland","Antipina_a8",60.53937,63.35305,49,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.96080179391761,2117.38273141419,0.348577659973284,-18.3901664955571,18.484393592135,509.011115954142
9722,20338,6217,"EMPDv2","Upper Konda lowland","Antipina_a9",60.55,64.02,75,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.995908261334286,2007.60812134158,-0.310690528958189,-19.1299409774087,18.1283333567975,515.774135990541
9723,20339,1573,"Australian pollen","Upper Lake Wurrawina","Upper Lake Wurrawina cirque",-42.53,146.25,400,"very small (<0.01 km2)","terrestrial, bog/fen/swamp","core top","-30","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.39542889374646,3550.02519787444,9.7260964325327,5.45872549625793,14.3518616575766,1260.86003037145
9724,20340,13399,"Neotoma","Upper Mallot Lake","UPMALLOT",47.308333,-84.258333,422,"not known","lake","core","0","McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.4386873925178,2236.99647912033,2.11130398914665,-14.6723974132418,16.5242687959547,1031.3741614273
9724,20340,13400,"Neotoma","Upper Mallot Lake","UPMALLOT",47.308333,-84.258333,422,"not known","lake","core","39","McAndrews, J.H., and I.D. Campbell. 1993. 6 ka mean July temperature in eastern Canada from Bartlein and Webb's (1985) pollen transfer functions: comments and illustrations. Pages 22-25 in A. Telka, editor. Proxy climate data and models of the six thousand years before present time interval: the Canadian perspective. Canadian Global Change Program Incidental Report Series IR93-3. The Royal Society of Canada, Ottawa, Ontario, Canada.",,9,"cool mixed forest",1.4386873925178,2236.99647912033,2.11130398914665,-14.6723974132418,16.5242687959547,1031.3741614273
9725,20341,15484,"Neotoma","Upper Moclips River 1","CJH063",47.25,-124.02,91,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.81532128969715,3567.86596623199,9.77497524995066,4.33627980841966,15.8626177858713,2139.60470025587
9726,20342,15485,"Neotoma","Upper Moclips River 2","CJH064",47.3,-123.95,122,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.78580074312593,3533.1045409582,9.67973846837864,4.11029632751944,15.9221962054022,2122.30261902176
9727,20343,15486,"Neotoma","Upper Moclips River 3","CJH065",47.35,-123.8,610,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.83626930693752,3159.94975901663,8.65739660004557,3.02840152127799,15.1822276655491,2206.34383619804
9728,20344,15477,"Neotoma","Upper Satsop Lakes 1","CJH056",47.4297849999999,-123.514555,701,"not known","lake","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.75859268648708,3075.46261477885,8.42592497199686,2.59112640466055,15.2216060819961,2153.30580002494
9729,20345,15478,"Neotoma","Upper Satsop Lakes 2","CJH057",47.423885,-123.510255,671,"not known","lake","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.74334880418908,3102.1929837382,8.4991588595567,2.6606435022575,15.2828204677856,2140.28762567878
9730,20346,13832,"Neotoma","Upper Soper Lake","UPSOPER",62.9147544444444,-69.87914,0,"not known","lake","core","-3","Doner, L.A. 2001. Late Holocene paleolimnology and paleoclimatology from sub-arctic lakes in Nunavut, Canada and Iceland. Doctoral dissertation. University of Colorado, Boulder, Colorado, USA.",,31,"tundra",1.14115344621778,562.842765798572,-8.76857474099826,-25.0190404307621,7.0530498657222,371.574960237985
9731,20347,13401,"Neotoma","Upper South Branch Pond","UPSOBRPD",46.090115,-68.8932849999999,300,"not known","lake","core","0","Anderson, R.S., R.B. Davis, N.G. Miller, and R. Stuckenrath. 1986. History of late- and post-glacial vegetation and disturbance around Upper South Branch Pond, northern Maine. Canadian Journal of Botany 64(9):1977-1986. Anderson, R.S. 1979. A Holocene record of vegetation and fire at Upper South Branch Pond in northern Maine. Master's thesis. University of Maine, Orono, Maine, USA.","10.1139/b86-262",9,"cool mixed forest",1.46207984805716,2472.49061496731,3.67651058771534,-12.1027205164907,18.074229165269,1072.02285403828
9731,20347,13402,"Neotoma","Upper South Branch Pond","UPSOBRPD",46.090115,-68.8932849999999,300,"not known","lake","core","28","Anderson, R.S., R.B. Davis, N.G. Miller, and R. Stuckenrath. 1986. History of late- and post-glacial vegetation and disturbance around Upper South Branch Pond, northern Maine. Canadian Journal of Botany 64(9):1977-1986. Anderson, R.S. 1979. A Holocene record of vegetation and fire at Upper South Branch Pond in northern Maine. Master's thesis. University of Maine, Orono, Maine, USA.","10.1139/b86-262",9,"cool mixed forest",1.46207984805716,2472.49061496731,3.67651058771534,-12.1027205164907,18.074229165269,1072.02285403828
9732,20348,14606,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-57","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14607,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-55.2","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14608,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-52.3","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14609,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-49.3","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14610,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-14.9","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14611,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-13.1","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14612,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-13.1","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14613,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-13.1","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14614,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-13.1","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14615,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-12.4","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14616,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-12.4","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14617,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","-1","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14618,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","25.7","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14619,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","26.4","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9732,20348,14620,"Neotoma","Upper Squaw Lake","UPSQUAW",42.0320849999999,-123.014855,930,"not known","lake","core","26.4","Colombaroli, D., and D.G. Gavin. 2010. Highly episodic fire and erosion regime over the past 2,000 y in the Siskiyou Mountains, Oregon. Proceedings of the National Academy of Sciences of the USA 107(44):18909-18914. Morey, A.E., C.E. Goldfinger, C.E. Briles, D.G. Gavin, D. Colombaroli, and J.E. Kusler. 2013. Are great Cascadia earthquakes recorded in the sedimentary records from small forearc lakes?. Natural Hazards and Earth System Sciences 13(10):2441-2463.","10.1073/pnas.1007692107;
10.5194/nhess-13-2441-2013",4,"warm-temperate evergreen and mixed forest",1.000541365693,3505.14053962898,9.6031247661068,2.27508374037013,18.0833277125896,1001.01660706976
9733,20349,1574,"Australian pollen","Upper Timk Lake Mt Anne","Upper Timk Lake Mt Anne",-42.9333,146.45,545,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.35549072823295,3278.97850183934,8.9835027447653,4.46174786547906,13.8779353425828,1226.69364554499
9734,20350,15745,"Neotoma","Upper Wallface Pond","DRW044",44.148295,-74.055675,948,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.53682021617047,2269.55668319963,3.5765749278399,-10.3015448208513,16.1727614434396,1121.62650807175
9735,20351,9128,"EMPDv2","Upske raseliniste, Krkonose","Svobodova_c1",50.7367703,15.7062233,1431.48,"not known","terrestrial, bog/fen/swamp","peat","-14","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.86469141450912,1829.03915532075,3.09433666647784,-7.48911575046241,12.5432036197194,1246.07880438141
9735,20352,9129,"EMPDv2","Upske raseliniste, Krkonose","Svobodova_c2",50.7363031,15.7055006,1431.49,"not known","terrestrial, bog/fen/swamp","peat","-14","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.8644746024359,1829.08706732639,3.09452169655887,-7.48901716615325,12.5434664289776,1245.98959284983
9736,20353,7143,"EMPDv2","Uragh Wood","EPDcoretop_E2154",51.81,-9.7,95,"0.87","terrestrial, soil","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.87760007872264,3572.12023303736,9.78663077544481,5.51479611206363,14.900102219273201,1204.1133211441
9737,20354,23266,"SMPDSv1","Urdevatn","Bjune_a131",60.6772513,9.62233257,640,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.43979438140439,1680.314287304,2.18928750103592,-8.73198490853721,12.822574159718,773.48391368283
9738,20355,10288,"Herzschuh et al., 2019","Ureg Nuur. 49A","Ureg Nuur. 49A",50.19811,91.1209,1426,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.415972725266355,1882.10653380975,-3.11811084123027,-25.7034185950209,15.536098111105,334.552250347607
9739,20356,7339,"EMPDv2","Urio Quattrocchi","Finsinger_a61",37.9011937152954,14.3959466321944,1044,"not known","not known","sediment sample","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.470812077616219,4869.19554081042,13.340261755645,6.65654726109614,21.7750006207183,639.350420919162
9740,20357,5365,"CMPD","Urumqui","Urumqui T-19",43.1,86.75,3740,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.23958705978988,756.133700571435,-4.84170106181235,-18.6988083853556,7.45662098305826,216.085434380292
9740,20358,5366,"CMPD","Urumqui","Urumqui T-21",43.1,86.75,3680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.236341964304558,808.514841032348,-4.55472185990716,-18.5248032221346,7.81366270997194,214.213472816538
9740,20359,5367,"CMPD","Urumqui","Urumqui T-23",43.1,86.75,3706,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.237743308891759,785.687569746703,-4.67907951406607,-18.6002054595304,7.65894462830935,215.024656160831
9740,20360,5368,"CMPD","Urumqui","Urumqui T-27",43.1,86.75,3880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.247316190735015,638.029651834136,-5.51131919959113,-19.1048204328712,6.62352362025966,220.45334469572
9740,20361,5369,"CMPD","Urumqui","Urumqui T-29",43.1,86.75,3850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.245641049261044,662.855118311361,-5.36782959863853,-19.0178178512607,6.8020444837165,219.517363913843
9740,20362,5370,"CMPD","Urumqui","Urumqui T-32",43.1,86.75,3760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.240677620851528,738.913886578786,-4.93736079578074,-18.7568101064292,7.33760707408703,216.709421568211
9740,20363,5371,"CMPD","Urumqui","Urumqui T-33",43.1,86.75,3760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.240677620851528,738.913886578786,-4.93736079578074,-18.7568101064292,7.33760707408703,216.709421568211
9740,20364,5372,"CMPD","Urumqui","Urumqui T-34",43.1,86.75,3700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.237419251522047,790.920026580382,-4.65038159387555,-18.5828049432083,7.69464880100071,214.837460004456
9740,20365,5373,"CMPD","Urumqui","Urumqui T-35",43.1,86.75,3600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.232075951887294,879.851086656751,-4.17208292403357,-18.29279633784,8.28971834585686,211.717524064865
9740,20366,5374,"CMPD","Urumqui","Urumqui T-36",43.1,86.75,3570,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.230493777734167,907.071348835136,-4.02859332308097,-18.2057937562295,8.4682392093137,210.781543282988
9740,20367,5375,"CMPD","Urumqui","Urumqui T-38",43.1,86.75,3520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.227877661202325,952.890212444207,-3.78944398815998,-18.0607894535453,8.76577398174177,209.221575313192
9741,20368,10637,"BIOME6000 Japan","Uryu-Numa","UrynC0",43.7,141.61,850,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.76348584224351,2062.50434775009,2.33314402251013,-11.8366012663351,16.1840117008244,1177.65783814216
9742,20369,8209,"EMPDv2","Usachi","Mikishin-Gvozdeva_b40",45.1102777777778,132.016944444444,73,"not known","fluvial","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828195534969861,3106.43156052199,4.34946786318483,-16.3533839277451,21.4636429540695,627.583219098045
9743,20370,15530,"Neotoma","USGS Gage 15","DAW001",26.387222,-80.380833,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.922557288964683,8661.83061164685,23.7310427716352,18.2152868190072,28.2043756400627,1330.71415677973
9744,20371,15531,"Neotoma","USGS Gage 34","DAW002",25.869167,-80.485,5,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.912547391721359,8767.14745815894,24.0195820771478,18.7283534479322,28.3058660653439,1329.21526549885
9745,20372,15535,"Neotoma","USGS Gage 62","DAW006",26.174444,-80.751389,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,4,"warm-temperate evergreen and mixed forest",0.910743915713592,8704.85755237377,23.848924801024,18.4171223683655,28.2496699787962,1320.22098805751
9746,20373,15533,"Neotoma","USGS Gage 63","DAW004",26.188611,-80.531111,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,22,"steppe",0.919352692643038,8713.48187468129,23.8725530813186,18.4694386203129,28.2479037964706,1331.29615484892
9747,20374,15532,"Neotoma","USGS Gage 65","DAW003",25.814444,-80.72,5,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.906373279470034,8772.48700776077,24.0342109801665,18.7487791142978,28.3166146640542,1322.01687290319
9748,20375,15534,"Neotoma","USGS Gage 76","DAW005",25.0075,-80.482778,14,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",1.67459218047532,8117.30441886571,22.2391901886732,15.3895850408467,27.2493651654031,2177.67381280198
9749,20376,10547,"BIOME6000 Japan","Ushinohira","UsnhrD0",32.4,128.44,-410,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",,"not applicable",0.936544770744772,5898.8929301203,16.1613504934803,2.22654001236561,28.1826076780689,1279.16476285337
9750,20377,9539,"EMPDv2","Ust-Kulom","Novenko_c100",61.6783,53.6997,117,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30051884181995,1940.26857723262,0.333261902596854,-17.3655225177942,17.3466854266313,626.053767959927
9750,20378,9540,"EMPDv2","Ust-Kulom","Novenko_c101",61.6786,53.7022,112,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30219663308907,1939.78893487588,0.329219670674088,-17.3767739596761,17.347658002187,626.749705234235
9750,20379,9541,"EMPDv2","Ust-Kulom","Novenko_c102",61.6781,53.7003,115,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30118349840563,1940.05846072607,0.331564546168898,-17.3700852639602,17.3470140715813,626.327239866107
9750,20380,9542,"EMPDv2","Ust-Kulom","Novenko_c103",61.68,53.69,117,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30050627828309,1940.00458562168,0.332409409615513,-17.3657556930885,17.3458058248802,625.887885824335
9750,20381,9543,"EMPDv2","Ust-Kulom","Novenko_c104",61.6797,53.6944,115,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30118602760582,1939.89702931549,0.331059567752366,-17.3701953056993,17.3464761175668,626.220783197898
9750,20382,9544,"EMPDv2","Ust-Kulom","Novenko_c105",61.6797,53.6969,117,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30053137722829,1940.19898300194,0.333069269111206,-17.3655187264474,17.3464517674127,626.000190954814
9750,20383,9545,"EMPDv2","Ust-Kulom","Novenko_c106",61.6789,53.6961,112,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30217895301992,1939.59460036168,0.328533541644867,-17.3770734911805,17.3470125319768,626.645462367522
9750,20384,9546,"EMPDv2","Ust-Kulom","Novenko_c107",61.6806,53.6869,112,"0.02","terrestrial","moss polster or moss","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30217093298983,1939.31824290369,0.327616586627798,-17.3773745182964,17.3460938541652,626.479246353933
9750,20385,9534,"EMPDv2","Ust-Kulom","Novenko_c95",61.7002,53.7014,120,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29995114345266,1940.71159513854,0.336783114097035,-17.3574913530942,17.3465529535617,625.550825568258
9750,20386,9535,"EMPDv2","Ust-Kulom","Novenko_c96",61.675,53.6983,124,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29811227123263,1941.03990688584,0.339269937275663,-17.3495917209904,17.3456697070467,625.134382925855
9750,20387,9536,"EMPDv2","Ust-Kulom","Novenko_c97",61.688611,53.6869,121,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29932797883087,1940.41203567708,0.33597128196841203,-17.3562429558821,17.3450761970047,625.268766233703
9750,20388,9537,"EMPDv2","Ust-Kulom","Novenko_c98",61.6778,53.6533,126,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29724744755586,1940.30589538048,0.338153839429751,-17.3452689649093,17.3422004067482,624.196743863137
9750,20389,9538,"EMPDv2","Ust-Kulom","Novenko_c99",61.6669,53.7044,120,"0.01","terrestrial, soil","soil sample","-26","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29932225318072,1940.70143376055,0.335909357639944,-17.3591065030399,17.3466164054362,625.803222973661
9751,20390,23267,"SMPDSv1","Ust'Mashevskoe","EPDcoretop_E673",56.316667,57.883333,220,"0.3","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00921086840224,2374.85927498874,2.03806735398937,-15.8065489349654,18.5790070086135,602.318083526121
9752,20391,8173,"EMPDv2","Ustinovka","Mikishin-Gvozdeva_b3",44.2580555555556,135.236944444444,125,"not applicable","terrestrial","litter","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.11186687469094,2727.09313813242,4.09105754204078,-13.3052070601757,19.5383381739172,812.408393919543
9753,20392,8174,"EMPDv2","Ustinovka_5","Mikishin-Gvozdeva_b4",44.2688888888889,135.289444444444,100,"not applicable","terrestrial","soil sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15779121059618,2687.47996688825,4.18006423119008,-12.590415961809,19.3748306315016,840.919893645942
9754,20393,8175,"EMPDv2","Ustinovo_8","Mikishin-Gvozdeva_b5",44.2722222222222,135.298611111111,120,"not applicable","terrestrial","litter","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15762557027303,2665.68401374161,4.06551902864028,-12.7403634301625,19.2759901180219,839.470586140113
9755,20394,6259,"EMPDv2","Utinoye","Binney2017_E2251",44.38,131.75,1,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.840532568754383,3190.44887682162,5.20344053017814,-14.5123822551683,21.4763613651088,650.559139631591
9756,20395,10289,"Herzschuh et al., 2019","Uvs Nuur. 51B","Uvs Nuur. 51B",50.03917,92.88262,759,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.386486271816934,2650.566432905,-0.378466990212433,-25.6524151416569,19.8047812549508,324.263883194777
9757,20396,6260,"EMPDv2","Uzunkol","Binney2017_E2252",50.49,87.62,1985,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.591489262635924,1225.86654940313,-5.49341511438788,-24.1077041574108,11.57239517676,444.753985920234
9758,20397,11961,"Neotoma","V T Lake","VTLAKEP1",36.44728,-112.12773,2688,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.389453804381764,2244.24593859002,5.14897194371062,-4.27871989617771,16.3955044858467,471.326618594734
9759,20398,23268,"SMPDSv1","Vaakkoi","Seppa_b78",60.33,24.6,90,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05116089210731,2244.84617344621,4.10253689741499,-7.92628090905151,16.2099131357599,590.170307687445
9760,20399,23269,"SMPDSv1","Vaara-Uuttulampi","Seppa_b6",67.47,27.35,229,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.12427557738303,1516.07567055326,-0.829829961966447,-14.9415666589109,14.1564779285945,458.417159763592
9761,20400,6900,"EMPDv2","Vacc","Colombaroli_a15",37.8685833333333,13.4003611111111,952,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.437076399448603,5028.78479527682,13.7774925897995,7.26150029114883,21.9598195487043,598.942535717826
9762,20401,23270,"SMPDSv1","Vaggeryd","Barboni_a365",57.5,14.2,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.07396734221459,2336.09000667013,5.53912972727358,-3.85369782384271,15.1491936036873,664.40388747706
9763,20402,23271,"SMPDSv1","Vahaksenjarvi","Seppa_b75",60.68,23.75,126,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04732174510279,2168.69177971767,3.6814659239431,-8.50748820138572,15.966250845633,562.458771450146
9764,20403,24262,"Neotoma","Vaifanaura’amo’ora","VAIFANAU_1",-17.63315,-149.547066666667,580,"not known","terrestrial, bog/fen/swamp","core","-58","Prebble, M., R. Whitau, J.-Y. Meyer, L. Sibley-Punnett, S. Fallon, and N. Porch. 2016. Abrupt late Pleistocene ecological and climate change on Tahiti (French Polynesia). Journal of Biogeography:1-16.","10.1111/jbi.12807",4,"warm-temperate evergreen and mixed forest",1.25915825098919,6151.69731939391,16.8539652586135,15.2390566001023,18.2683741525814,1637.46865540774
9764,20404,24263,"Neotoma","Vaifanaura’amo’ora","VAIFANAU_10",-17.63315,-149.547066666667,580,"not known","terrestrial, bog/fen/swamp","core","-47","Prebble, M., R. Whitau, J.-Y. Meyer, L. Sibley-Punnett, S. Fallon, and N. Porch. 2016. Abrupt late Pleistocene ecological and climate change on Tahiti (French Polynesia). Journal of Biogeography:1-16.","10.1111/jbi.12807",4,"warm-temperate evergreen and mixed forest",1.25915825098919,6151.69731939391,16.8539652586135,15.2390566001023,18.2683741525814,1637.46865540774
9764,20405,24264,"Neotoma","Vaifanaura’amo’ora","VAIFANAU_20",-17.63315,-149.547066666667,580,"not known","terrestrial, bog/fen/swamp","core","-32","Prebble, M., R. Whitau, J.-Y. Meyer, L. Sibley-Punnett, S. Fallon, and N. Porch. 2016. Abrupt late Pleistocene ecological and climate change on Tahiti (French Polynesia). Journal of Biogeography:1-16.","10.1111/jbi.12807",4,"warm-temperate evergreen and mixed forest",1.25915825098919,6151.69731939391,16.8539652586135,15.2390566001023,18.2683741525814,1637.46865540774
9764,20406,24265,"Neotoma","Vaifanaura’amo’ora","VAIFANAU_25",-17.63315,-149.547066666667,580,"not known","terrestrial, bog/fen/swamp","core","29","Prebble, M., R. Whitau, J.-Y. Meyer, L. Sibley-Punnett, S. Fallon, and N. Porch. 2016. Abrupt late Pleistocene ecological and climate change on Tahiti (French Polynesia). Journal of Biogeography:1-16.","10.1111/jbi.12807",4,"warm-temperate evergreen and mixed forest",1.25915825098919,6151.69731939391,16.8539652586135,15.2390566001023,18.2683741525814,1637.46865540774
9765,20407,7216,"EMPDv2","Vaike Juusa","EPDcoretop_E2570",58.06,26.52,122,"0.03","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.01649345669383,2469.94388140055,5.04748903535764,-7.15441604242918,16.5145753217521,626.683096846037
9766,20408,23272,"SMPDSv1","Vaikjarv","Seppa_b123",57.72,27.03,251,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.998313366920791,2527.40711520271,5.21621275549259,-7.1748127595861,16.3374511639286,631.282889969092
9767,20409,23273,"SMPDSv1","Vakladskoe boloto","Vakladskoe boloto_SS (Novenko_c268)",55.0967,40.8925,119,"0.1","terrestrial, bog/fen/swamp","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.834542013226455,2750.01022782986,4.74318357814238,-11.0119896832855,18.9024196370323,582.050248050708
9768,20410,16676,"Neotoma","Val Senneville","PJHR029",48.15,-77.75,303,"not known","terrestrial","surface sample","Modern","Richard, P.J.H., 1976. Relations entre la végétation actuelle et le spectre pollinique au Québec. Le naturaliste canadien, 103(1), pp.53-66.",,9,"cool mixed forest",1.31726701333049,2151.50617827886,0.781471691856389,-18.0359598528714,16.7018966508271,901.389142543413
9769,20411,23274,"SMPDSv1","Val Varaita","Ortu_b34",44.618,7.05,1603,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.4805142938793,2244.79124464521,5.86288775738675,-1.74782251846294,14.3944539181981,1377.14969821946
9769,20412,23275,"SMPDSv1","Val Varaita","Ortu_b35",44.615,7.062,1793,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.59376611057752,1965.6961544855,4.83217621738569,-2.66646064611548,13.3063205155003,1449.75864147298
9769,20413,23276,"SMPDSv1","Val Varaita","Ortu_b36",44.614,7.066,1871,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.64174264752229,1858.30972953115,4.40893820656771,-3.04340906896252,12.8594327428861,1479.50917657286
9769,20414,23277,"SMPDSv1","Val Varaita","Ortu_b37",44.615,7.069,1978,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.70934544968013,1716.91755477503,3.82742606435262,-3.56131309241138,12.2453829700267,1520.40835385142
9769,20415,23278,"SMPDSv1","Val Varaita","Ortu_b38",44.616,7.075,2023,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.73843264726117,1659.55657210935,3.58340070759312,-3.77818249473449,11.987219218187,1537.70016509326
9769,20416,23279,"SMPDSv1","Val Varaita","Ortu_b39",44.616,7.075,2023,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.73843264726117,1659.55657210935,3.58340070759312,-3.77818249473449,11.987219218187,1537.70016509326
9769,20417,23280,"SMPDSv1","Val Varaita","Ortu_b40",44.615,7.069,1978,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.70934544968013,1716.91755477503,3.82742606435262,-3.56131309241138,12.2453829700267,1520.40835385142
9769,20418,23281,"SMPDSv1","Val Varaita","Ortu_b41",44.689,6.978,2738,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.26388146951329,863.16358632129,-0.333045804046021,-7.27306233908899,7.849486898108,1817.48216800974
9769,20419,23282,"SMPDSv1","Val Varaita","Ortu_b42",44.69,6.976,2651,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19595087113645,949.094846543716,0.139056359631233,-6.85311320105731,8.34868701478804,1784.01660208138
9769,20420,23283,"SMPDSv1","Val Varaita","Ortu_b43",44.689,6.975,2684,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.22151248530115,916.214224755896,-0.040251939626798,-7.01335420578612,8.15960756873154,1796.6876324759
9769,20421,23284,"SMPDSv1","Val Varaita","Ortu_b44",44.689,6.976,2697,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.23164339729051,903.33665973224,-0.11068970540336,-7.07575443391663,8.08495172665688,1801.69088859844
9769,20422,23285,"SMPDSv1","Val Varaita","Ortu_b45",44.688,6.978,2633,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.18163093710824,967.318093608542,0.237516524509669,-6.76541640886888,8.45294741763376,1776.8895333916
9769,20423,23286,"SMPDSv1","Val Varaita","Ortu_b46",44.686,6.977,2758,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.27934579317501,843.914949557997,-0.441476904161467,-7.3709247130797,7.73599679076671,1824.97525329249
9769,20424,23287,"SMPDSv1","Val Varaita","Ortu_b47",44.685,6.978,2700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.23323881697996,900.619881899201,-0.126029755806559,-7.08999563631614,8.0695117840239,1802.50256568602
9769,20425,23288,"SMPDSv1","Val Varaita","Ortu_b48",44.685,6.978,2700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.23323881697996,900.619881899201,-0.126029755806559,-7.08999563631614,8.0695117840239,1802.50256568602
9769,20426,23289,"SMPDSv1","Val Varaita","Ortu_b49",44.683,6.984,2570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.13247666566075,1031.91149642144,0.581674003024174,-6.45860089790458,8.81696590573765,1752.13935067423
9769,20427,23290,"SMPDSv1","Val Varaita","Ortu_b50",44.683,6.984,2570,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.13247666566075,1031.91149642144,0.581674003024174,-6.45860089790458,8.81696590573765,1752.13935067423
9769,20428,23291,"SMPDSv1","Val Varaita","Ortu_b51",44.676,6.987,2380,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.99121247431904,1234.34626942391,1.61580903100988,-5.53835546736575,9.91095428297075,1678.36398535607
9769,20429,23292,"SMPDSv1","Val Varaita","Ortu_b52",44.666,6.984,2179,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84915747607211,1463.73804482106,2.70984559658864,-4.56490485556809,11.0685815778,1600.19137059619
9769,20430,23293,"SMPDSv1","Val Varaita","Ortu_b53",44.666,6.984,2179,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.84915747607211,1463.73804482106,2.70984559658864,-4.56490485556809,11.0685815778,1600.19137059619
9770,20431,10498,"IBERIA","Valdeyernos bog","VALDEYER_0.02",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-60","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20432,10499,"IBERIA","Valdeyernos bog","VALDEYER_0.04",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-51","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20433,10500,"IBERIA","Valdeyernos bog","VALDEYER_0.06",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-42","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20434,10501,"IBERIA","Valdeyernos bog","VALDEYER_0.08",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-35","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20435,10502,"IBERIA","Valdeyernos bog","VALDEYER_0.10",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-27","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20436,10503,"IBERIA","Valdeyernos bog","VALDEYER_0.12",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-19","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20437,10504,"IBERIA","Valdeyernos bog","VALDEYER_0.14",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","-8","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20438,10505,"IBERIA","Valdeyernos bog","VALDEYER_0.16",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","4","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20439,10506,"IBERIA","Valdeyernos bog","VALDEYER_0.18",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","25","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9770,20440,10507,"IBERIA","Valdeyernos bog","VALDEYER_0.20",39.44111111,-4.096388889,850,"0.0393","terrestrial, bog/fen/swamp","core","50","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.386867934988869,4727.61337150596,12.9523654013862,4.77670177837801,23.2327018369411,480.459077861206
9771,20441,1575,"Australian pollen","Vale of Belvoir","VoBV1",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20442,1576,"Australian pollen","Vale of Belvoir","VoBV2",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20443,1577,"Australian pollen","Vale of Belvoir","VoBV6",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20444,1578,"Australian pollen","Vale of Belvoir","VoBV7",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20445,1579,"Australian pollen","Vale of Belvoir","VoBV8a",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20446,1580,"Australian pollen","Vale of Belvoir","VoBV8b",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9771,20447,1581,"Australian pollen","Vale of Belvoir","VoBV8c",-41.54,145.89,820,"not applicable","terrestrial","moss polster or moss","-57","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",1.53137688778788,2721.40408037641,7.45590159007235,2.83839056284328,12.7016976040188,1423.52057538798
9772,20448,23294,"SMPDSv1","Valgjarv","Seppa_b131",57.93,27.3,71,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.987478894683772,2471.91213839197,4.93288322718248,-7.62730719438909,16.7604103276777,611.273778217222
9773,20449,13403,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","-44","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13404,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","-32","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13405,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","-21","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13406,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","-9","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13407,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","2","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13408,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","14","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13409,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","25","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9773,20449,13410,"Neotoma","Valhalla Hollow","VALHALLA",44.308611,-74.370833,480,"9e-04","small hollow","core","37","Kearsley, J.B. 1995. Long-term vegetation dynamics of two forest stands in the north-central Adirondack Mountains, New York. Thesis. Northern Arizona University, Flagstaff, Arizona, USA.; Kearsley, J.B., and S.T. Jackson. 1997. History of a Pinus strobus-dominated stand in northern New York. Journal of Vegetation Science 8:425-436.",,9,"cool mixed forest",1.32877365362554,2713.1754591755,5.04436942728667,-9.98426847966741,18.5381655584974,1027.07772526212
9774,20450,23295,"SMPDSv1","Valkeainen","Seppa_b27",65.27,29.2,252,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28358881738657,1576.9773307888,-0.295541394413083,-14.3458990948908,14.338256175418,560.817553666513
9775,20451,23296,"SMPDSv1","Valkia Ruokojärvi","Seppa_b64",61.45,28.43,97,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.03446094407414,2193.35973326528,3.29299787615303,-10.3359191819201,16.8382344415487,566.860938220163
9776,20452,23297,"SMPDSv1","Valkjarvi","Seppa_b92",60.55,25.8,34,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.07417798921981,2349.68943336309,4.49772184536219,-7.72594539858437,16.6647566210243,612.641964599635
9777,20453,7211,"EMPDv2","Vallamae","EPDcoretop_E2565",57.74,27.07,250,"0.0162","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.997611717653011,2526.60911853586,5.21140996991082,-7.18191291698489,16.3391790887039,630.628869005383
9777,20454,7212,"EMPDv2","Vallamae","EPDcoretop_E2566",57.74,27.07,250,"0.0162","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.997611717653011,2526.60911853586,5.21140996991082,-7.18191291698489,16.3391790887039,630.628869005383
9778,20455,23298,"SMPDSv1","Valle Ambles","Lopez_a54",40.6251944444444,-4.40875,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.517089671528727,2938.7426267663,8.05134966237342,0.708335495386662,17.3416945097049,590.653095332876
9778,20456,23299,"SMPDSv1","Valle Ambles","Lopez_a58",40.6119166666666,-4.92747222222222,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.432873469748105,3759.52404225223,10.3000658691842,2.55265928732687,19.8099864352237,517.770418804969
9778,20457,23300,"SMPDSv1","Valle Ambles","Lopez_a59",40.6069722222222,-4.92586111111111,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.423003045017541,4029.59578816837,11.0399884607352,3.22560708124662,20.6052568503079,509.886058616469
9778,20458,23301,"SMPDSv1","Valle Ambles","Lopez_a60",40.6510277777777,-4.93938888888888,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.44325763964948,3489.39819659603,9.5599950591672,1.88108975951721,19.0107486155137,525.745580435603
9779,20459,23302,"SMPDSv1","Valle de Alcudia","Lopez_a204",38.5010833333333,-4.36722222222222,500,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.393529453348586,5686.39624588152,15.5791677969357,7.40669057576983,25.6673310471914,506.810960595023
9779,20460,23303,"SMPDSv1","Valle de Alcudia","Lopez_a205",38.4929722222222,-4.33352777777777,520,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.392282071569717,5653.13831016069,15.4880501648238,7.29885794423249,25.6233909358083,504.707163271092
9780,20461,23436,"SMPDSv1","Valle de Lago","Barboni_a1368",42.01101,-6.1353,1500,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.824058745602887,2655.20659907702,7.24760218340239,-0.27158792353393,16.1927646366461,889.627544150627
9781,20462,23304,"SMPDSv1","Valle del Alberche","Lopez_a104",40.3578611111111,-4.51008333333333,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.445584474011648,3786.59794303266,10.3742409398155,2.66822601111052,19.967894838234,530.921284939159
9781,20463,23305,"SMPDSv1","Valle del Alberche","Lopez_a105",40.3590833333333,-4.50213888888888,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.483530705517786,3216.59309324004,8.81258381709599,1.32174539359562,18.2147708960564,563.456513339577
9781,20464,23306,"SMPDSv1","Valle del Alberche","Lopez_a106",40.3515277777777,-4.51008333333333,1250,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.473429925130972,3359.14057731868,9.20312486936624,1.6569463080895,18.6540086269874,554.975076172324
9781,20465,23307,"SMPDSv1","Valle del Alberche","Lopez_a107",40.3559166666666,-4.50661111111111,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.454845897958847,3644.23756147571,9.98421249719371,2.33177454313763,19.5305015339846,539.034085243458
9781,20466,23308,"SMPDSv1","Valle del Alberche","Lopez_a347",40.2858055555555,-4.34080555555555,420,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.32676491856945,5754.41691092855,15.7655257833659,7.29464589680551,26.0813896738428,416.85692178656
9781,20467,23309,"SMPDSv1","Valle del Alberche","Lopez_a348",40.2684166666666,-4.32352777777777,400,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.323174685562765,5816.55298124925,15.9357615924637,7.43806604031582,26.2816417026454,413.151194768244
9781,20468,23310,"SMPDSv1","Valle del Alberche","Lopez_a50",40.3792777777777,-4.47047222222222,860,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.403196007537889,4471.17849531541,12.2498040967546,4.2869746129009,22.0759169887449,492.283582834396
9782,20469,23311,"SMPDSv1","Valle del Duero","Lopez_a543",41.1951666666666,-4.67011111111111,800,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.402941597272916,4481.68107751722,12.2785782945677,4.37625603463145,21.7607128112252,487.758432950101
9782,20470,23312,"SMPDSv1","Valle del Duero","Lopez_a544",41.1551111111111,-4.79941666666666,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.412661822192024,4469.77569162534,12.2459607989735,4.3709563406868,21.6681698304619,499.178226489278
9782,20471,23313,"SMPDSv1","Valle del Duero","Lopez_a545",41.1909444444444,-4.74188888888888,810,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.405243754682189,4453.9604537666,12.2026313801825,4.31082466648889,21.6729587756811,490.084206592344
9782,20472,23314,"SMPDSv1","Valle del Duero","Lopez_a546",41.3205555555555,-4.93138888888888,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.422741521815622,4382.43472494121,12.006670479291,4.17566704747126,21.2300472309818,508.610741970339
9782,20473,23315,"SMPDSv1","Valle del Duero","Lopez_a547",41.1865277777777,-4.80208333333333,810,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.414700240032802,4441.70342873601,12.1690504896877,4.30372800509839,21.5794023755515,500.89614624551
9782,20474,23316,"SMPDSv1","Valle del Duero","Lopez_a548",41.1875555555555,-4.82127777777777,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.413457856368708,4465.34828608643,12.2338309207847,4.36144628133181,21.6434468947295,499.840215311097
9783,20475,23317,"SMPDSv1","Valle del Guadalquivir","Lopez_a206",37.4833333333333,-4.69013888888888,300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.41573083175565,6126.24010855935,16.7842194755051,9.35084225951628,25.6824019313594,551.256879854679
9784,20476,23318,"SMPDSv1","Valle del Paular","Lopez_a286",40.8352222222222,-3.90672222222222,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.596027346186724,2926.67695529216,8.0182930281977,0.796534346550423,17.1790654624942,654.599096546529
9784,20477,23319,"SMPDSv1","Valle del Paular","Lopez_a287",40.8436666666666,-3.89025,1320,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.567728224846983,3150.16327227424,8.63058430760064,1.30747024298569,17.8764339810939,632.154168476027
9784,20478,23320,"SMPDSv1","Valle del Paular","Lopez_a288",40.8478055555555,-3.88633333333333,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.560817992370807,3206.06185273285,8.78373110337767,1.43523363417461,18.0508747357347,626.564268052944
9784,20479,23321,"SMPDSv1","Valle del Paular","Lopez_a289",40.8585555555555,-3.89097222222222,1325,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.570257540051345,3136.18998374294,8.59230132532314,1.27531854902978,17.8330174650405,634.093610454347
9784,20480,23322,"SMPDSv1","Valle del Paular","Lopez_a290",40.8581111111111,-3.89047222222222,1325,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.570257744322518,3136.16904962134,8.59224397156531,1.27528418593837,17.8329331301221,634.09620356851
9784,20481,23323,"SMPDSv1","Valle del Paular","Lopez_a291",40.8576944444444,-3.89002777777777,1330,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.572091735728619,3122.15402703757,8.55384664941799,1.24325687712342,17.7892016657595,635.56524444836
9784,20482,23324,"SMPDSv1","Valle del Paular","Lopez_a292",40.838,-3.95455555555555,1940,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.814521249326275,1656.02418685991,3.89757757723575,-2.64421194553504,12.4959321019765,808.478854765138
9784,20483,23325,"SMPDSv1","Valle del Paular","Lopez_a293",40.8376666666666,-3.95461111111111,1930,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.809952537309522,1674.21382245099,3.97389922619196,-2.58048261441022,12.5826055903924,805.569396715834
9784,20484,23326,"SMPDSv1","Valle del Paular","Lopez_a294",40.8373888888888,-3.95425,1930,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.809966387547758,1674.13119390628,3.97359960351555,-2.58068896384191,12.582079270978,805.578581177702
9784,20485,23327,"SMPDSv1","Valle del Paular","Lopez_a295",40.8376388888888,-3.95338888888888,1930,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.810093356197354,1674.05503812302,3.97330768813999,-2.58089879268711,12.5816429953556,805.659530865083
9784,20486,23328,"SMPDSv1","Valle del Paular","Lopez_a296",40.8390277777777,-3.95269444444444,1920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.805804765343978,1692.57054708832,4.05007517577704,-2.51688472193056,12.6692911171542,802.916248836351
9784,20487,23329,"SMPDSv1","Valle del Paular","Lopez_a297",40.9490833333333,-3.80280555555555,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.496147586511675,3761.16824800909,10.3045705424907,2.70492313270182,19.7758003539349,571.897765067955
9784,20488,23330,"SMPDSv1","Valle del Paular","Lopez_a298",40.95,-3.76741666666666,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.496999326016501,3761.39306129611,10.3051864693044,2.70527572782825,19.7780739432358,572.616582486325
9784,20489,23331,"SMPDSv1","Valle del Paular","Lopez_a299",40.9450277777777,-3.71297222222222,1020,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.469726578134879,3998.39294440948,10.9545012175602,3.23977285946206,20.5533894545628,548.399938932887
9784,20490,23332,"SMPDSv1","Valle del Paular","Lopez_a300",40.9248888888888,-3.80780555555555,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.567757617746019,3202.70366485535,8.77453058864479,1.42724393112709,18.0388919605939,631.661899360408
9784,20491,23333,"SMPDSv1","Valle del Paular","Lopez_a301",40.9235,-3.80691666666666,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.53079724734931,3482.7005211456,9.54164526341259,2.06772496290549,18.9111562464481,601.440430535442
9784,20492,23334,"SMPDSv1","Valle del Paular","Lopez_a302",40.9239722222222,-3.80747222222222,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.530798945140253,3482.69234722321,9.54162286910469,2.06770342637925,18.9110964696191,601.439068921906
9784,20493,23335,"SMPDSv1","Valle del Paular","Lopez_a303",40.9251944444444,-3.80891666666666,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.477870632572295,3902.56342030386,10.691954576175,3.0281393307277,20.2187903017419,556.133965479475
9784,20494,23336,"SMPDSv1","Valle del Paular","Lopez_a304",40.9237777777777,-3.81911111111111,1050,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.477627303419582,3902.46872538034,10.6916951380283,3.02796606150302,20.2180254101035,555.931696496305
9784,20495,23337,"SMPDSv1","Valle del Paular","Lopez_a323",40.8804722222222,-3.5965,1040,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.475562129159996,3951.6661537855,10.8264826131109,3.12777344396486,20.4238909930491,554.002586754928
9784,20496,23338,"SMPDSv1","Valle del Paular","Lopez_a324",40.8783333333333,-3.585,1030,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.472129522072156,3980.72643660299,10.9060998263096,3.19360795226267,20.5173361794289,550.986056248769
9784,20497,23339,"SMPDSv1","Valle del Paular","Lopez_a325",40.88725,-3.56763888888888,940,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.441985788330785,4236.80078770106,11.6076733909618,3.77742415700645,21.3308477931916,523.836062138984
9784,20498,23340,"SMPDSv1","Valle del Paular","Lopez_a326",40.7769277777777,-3.958275,1874,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.778671949246255,1774.01114114004,4.37885855787964,-2.23867032829808,13.0243298559697,785.431692184413
9784,20499,23341,"SMPDSv1","Valle del Paular","Lopez_a327",40.8078361111111,-3.96999444444444,1879,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.7825423966883,1769.2360561862,4.35799049948782,-2.25876421724882,13.0126170560094,787.908040160182
9784,20500,23342,"SMPDSv1","Valle del Paular","Lopez_a328",40.8241111111111,-3.96005555555555,1840,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.768175248782209,1848.36298552528,4.65890132371838,-2.00811443049465,13.3583360347841,778.426377916297
9784,20501,23343,"SMPDSv1","Valle del Paular","Lopez_a329",40.8238055555555,-3.95627777777777,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.751311630128713,1931.1347404939,4.96339549178355,-1.75377046671372,13.7040465146896,767.169649738574
9784,20502,23344,"SMPDSv1","Valle del Paular","Lopez_a330",40.8276944444444,-3.94444444444444,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.710730388006629,2150.73581457053,5.7260298653846,-1.11698398603687,14.5711304769172,739.335381130578
9784,20503,23345,"SMPDSv1","Valle del Paular","Lopez_a331",40.83425,-3.93458333333333,1600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.671420873004361,2387.70359055842,6.49058137141267,-0.47888787234091,15.4414260146158,711.327426329883
9784,20504,23346,"SMPDSv1","Valle del Paular","Lopez_a332",40.8325,-3.91702777777777,1500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.633243777741081,2647.1868227308,7.25256663761863,0.157536791171728,16.3071200517272,683.130853705032
9784,20505,23347,"SMPDSv1","Valle del Paular","Lopez_a333",40.8369722222222,-3.91127777777777,1400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.595886582481819,2926.97004747554,8.01909602048092,0.79707089359651,17.1803000641861,654.481234178416
9784,20506,23348,"SMPDSv1","Valle del Paular","Lopez_a334",40.8731111111111,-3.88213888888888,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.526323889503593,3485.45367661704,9.54918815511517,2.07384664945829,18.9215882825442,598.047164146183
9784,20507,23349,"SMPDSv1","Valle del Paular","Lopez_a335",40.8860277777777,-3.88575,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.509232073928225,3624.71148357957,9.93071639336869,2.39234847059208,19.3543538696478,583.541662750313
9784,20508,23350,"SMPDSv1","Valle del Paular","Lopez_a336",40.8901944444444,-3.884,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.509435238958519,3624.51473513152,9.93017735652472,2.39192745006827,19.35343149817,583.687644429985
9784,20509,23351,"SMPDSv1","Valle del Paular","Lopez_a337",40.8893333333333,-3.88491666666666,1150,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.509377320256597,3624.55705310487,9.93029329617771,2.3920174850469,19.3536083756615,583.644097305853
9784,20510,23352,"SMPDSv1","Valle del Paular","Lopez_a338",40.8911666666666,-3.88652777777777,1140,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.505933870206561,3652.38692932084,10.0065395323859,2.45568769204694,19.4400062428742,580.696458714652
9784,20511,23353,"SMPDSv1","Valle del Paular","Lopez_a339",40.9069722222222,-3.88666666666666,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.527543138723485,3484.42751418565,9.54637675119357,2.07147152763261,18.9163621007357,598.8564305117
9784,20512,23354,"SMPDSv1","Valle del Paular","Lopez_a340",40.9089444444444,-3.52936111111111,1190,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.530313398105309,3524.2949805338,9.65560268639398,2.14981654536513,19.0664052674384,600.73641019857
9784,20513,23355,"SMPDSv1","Valle del Paular","Lopez_a341",40.9116944444444,-3.86666666666666,1130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.503743069635634,3679.26062094339,10.0801660847764,2.51732903897156,19.5223815975088,578.685715052165
9784,20514,23356,"SMPDSv1","Valle del Paular","Lopez_a342",40.9111388888888,-3.86272222222222,1130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.50382875121105,3679.29417019211,10.0802580005263,2.5173984290492,19.5226994257914,578.761386911077
9784,20515,23357,"SMPDSv1","Valle del Paular","Lopez_a343",40.903,-3.86144444444444,1140,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.507055634179846,3651.78664781089,10.0048949255093,2.45440959951716,19.4379445672192,581.570997790551
9784,20516,23358,"SMPDSv1","Valle del Paular","Lopez_a344",40.9001388888888,-3.86175,1140,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.506943759158301,3651.92823003361,10.0052828220099,2.45471429759367,19.4386458968595,581.493829135598
9784,20517,23359,"SMPDSv1","Valle del Paular","Lopez_a345",40.9111666666666,-3.86466666666666,1180,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.521327729110902,3539.77243084906,9.69800665986043,2.19817951611111,19.0886163631979,593.61117427543
9784,20518,23360,"SMPDSv1","Valle del Paular","Lopez_a346",40.9115833333333,-3.86344444444444,1180,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.521381865543636,3539.74399361257,9.69792874962348,2.19811775042175,19.0885257044871,593.653661229426
9784,20519,23361,"SMPDSv1","Valle del Paular","Lopez_a352",40.8367222222222,-3.95466666666666,1920,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.805340646392162,1692.51707696486,4.04994686461344,-2.51693625279841,12.6687482486247,802.621115309819
9785,20520,23362,"SMPDSv1","Valle del Tajo","Lopez_a451",39.9982222222222,-4.76819444444444,390,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.372986521060165,5831.92235002104,15.9778694521124,7.69920088894893,26.1099477557474,471.698118462997
9785,20521,23363,"SMPDSv1","Valle del Tajo","Lopez_a452",39.859,-5.08730555555555,377,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.382946495529095,5853.42594150786,16.0367834013914,7.83537405537189,26.0717084650464,484.269312711909
9785,20522,23364,"SMPDSv1","Valle del Tajo","Lopez_a453",39.9901944444444,-4.77724999999999,374,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.372370883399592,5876.89849302756,16.1010917617193,7.81506879334241,26.2392213631945,471.336606003044
9785,20523,23365,"SMPDSv1","Valle del Tajo","Lopez_a458",39.9938611111111,-3.60508333333333,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.34005376219991,5413.15442895467,14.8305600793279,6.31803558559011,25.4167437471631,430.250966928919
9785,20524,23366,"SMPDSv1","Valle del Tajo","Lopez_a459",40.0083333333333,-3.58291666666666,576,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.334688683838924,5484.06148384002,15.0248259831234,6.47561205515218,25.6464568684776,424.601995079793
9785,20525,23367,"SMPDSv1","Valle del Tajo","Lopez_a460",40.0033055555555,-3.57261111111111,609,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3415157400499,5388.28444966912,14.7624231497784,6.26234923914568,25.3377941181673,431.71298063348
9785,20526,23368,"SMPDSv1","Valle del Tajo","Lopez_a461",39.9971388888888,-3.60269444444444,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.340000855848303,5413.1456813609,14.8305361133175,6.31810358344216,25.4166469556322,430.180394834969
9785,20527,23369,"SMPDSv1","Valle del Tajo","Lopez_a462",39.9660555555555,-3.98925,518,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338239259816176,5611.54066931805,15.3740840255289,6.84526185822385,25.9085822733835,429.762470430959
9785,20528,23370,"SMPDSv1","Valle del Tajo","Lopez_a463",39.9580277777777,-3.97452777777777,515,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.337568232157745,5621.74465575486,15.402040152753,6.8670210486796,25.9436012112045,429.099338571464
9785,20529,23379,"SMPDSv1","Valle del Tajo","Lopez_a464",40.0385833333333,-3.93313888888888,574,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.345867658143348,5447.19941417147,14.9238340114287,6.46612331880807,25.3943985975682,437.118676660853
9785,20530,23380,"SMPDSv1","Valle del Tajo","Lopez_a465",40.0361666666666,-3.91316666666666,533,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.338242398148168,5569.19459121174,15.2580673731829,6.74196104679748,25.7838388594607,429.27454086554
9785,20531,23371,"SMPDSv1","Valle del Tajo","Lopez_a466",40.1213333333333,-3.87105555555555,593,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347377745990955,5390.87864524136,14.7695305349078,6.33489707686612,25.2199901078855,438.149305393141
9785,20532,23372,"SMPDSv1","Valle del Tajo","Lopez_a467",40.1012222222222,-3.82619444444444,565,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.341623137982211,5477.62815626305,15.0072004281179,6.52751682441602,25.5033881345452,432.316677306235
9785,20533,23373,"SMPDSv1","Valle del Tajo","Lopez_a468",39.9739722222222,-3.9595,491,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.332925479819158,5692.42024064591,15.5956718921806,7.02688926095167,26.1687116845736,424.177869382963
9785,20534,23381,"SMPDSv1","Valle del Tajo","Lopez_a469",40.1633611111111,-3.85094444444444,630,"not applicable","terrestrial, soil","soil sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.353739398458642,5280.81170529733,14.4679772747872,6.08505417110433,24.8705371684591,444.385517365949
9785,20535,23374,"SMPDSv1","Valle del Tajo","Lopez_a470",40.1631388888888,-3.81097222222222,601,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347558158560964,5369.0277639472,14.7096651067047,6.28196680761454,25.156489251742,438.060744770174
9785,20536,23375,"SMPDSv1","Valle del Tajo","Lopez_a471",40.1058888888888,-3.88283333333333,586,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.346426389522744,5411.56450019794,14.8262041101313,6.38239218386647,25.2848904912364,437.270733111496
9785,20537,23376,"SMPDSv1","Valle del Tajo","Lopez_a472",39.9420555555555,-3.99022222222222,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.352431035855153,5372.27802908897,14.7185699427095,6.29815822389725,25.1544999041594,444.396813407609
9785,20538,23377,"SMPDSv1","Valle del Tajo","Lopez_a473",39.9012777777777,-4.03741666666666,583,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.350800179741384,5421.08224389631,14.8522801202639,6.41328389874886,25.3031465666825,443.035787665356
9785,20539,23378,"SMPDSv1","Valle del Tajo","Lopez_a474",39.9283333333333,-4.03783333333333,594,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.352298785911435,5387.43826777099,14.7601048432082,6.33666466152664,25.1956180650471,444.395917557085
9786,20540,23382,"SMPDSv1","Valle del Tietar","Lopez_a100",40.6722777777777,-4.50375,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.58163385282621,2178.46317878963,5.77816074775417,-1.24918616734316,14.8076882104477,640.262724033439
9786,20541,23383,"SMPDSv1","Valle del Tietar","Lopez_a101",40.1826388888888,-5.33963888888888,680,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417310262056891,4935.069001337,13.5207369899644,5.59116368569351,23.1798202852409,513.8526195264
9786,20542,23384,"SMPDSv1","Valle del Tietar","Lopez_a102",40.1826666666666,-5.34227777777777,720,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417299708771119,4825.48997960949,13.2205204920808,5.29854677300834,22.8739010302233,513.046320061116
9786,20543,23385,"SMPDSv1","Valle del Tietar","Lopez_a103",40.1854166666666,-5.35238888888888,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.417661447108328,4879.42585601946,13.3682900164917,5.44409392318463,23.021484087282,513.826227902545
9786,20544,23386,"SMPDSv1","Valle del Tietar","Lopez_a23",40.3235277777777,-4.56261111111111,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443875862608089,3786.34757841742,10.3735550093628,2.6614483843541,19.9679958740355,529.518943368159
9786,20545,23387,"SMPDSv1","Valle del Tietar","Lopez_a24",40.3180555555555,-4.5785,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.426162795639042,4071.06457582669,11.1536015776074,3.33614079855622,20.8413560541797,513.770145427347
9786,20546,23388,"SMPDSv1","Valle del Tietar","Lopez_a25",40.3156944444444,-4.55786111111111,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.40937893212838,4357.37816656525,11.9380223741514,4.01603625682532,21.7230979304868,498.443951406393
9786,20547,23389,"SMPDSv1","Valle del Tietar","Lopez_a26",40.2770833333333,-4.96733333333333,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.447218424162804,3219.72583731435,8.8211666775735509,1.1620931388827,18.2676322710481,529.369144236025
9786,20548,23390,"SMPDSv1","Valle del Tietar","Lopez_a448",40.0205277777777,-5.16430555555555,358,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383398678390798,5889.62584122994,16.1359612088492,7.94368593038738,26.1464073219001,484.119000969635
9786,20549,23391,"SMPDSv1","Valle del Tietar","Lopez_a449",40.0794444444444,-5.17269444444444,385,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384592504663028,5808.76570853048,15.9144265987136,7.73667920434014,25.9061161695459,484.606788335802
9786,20550,23392,"SMPDSv1","Valle del Tietar","Lopez_a450",39.9645833333333,-5.16202777777777,341,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38288046736851,5941.67054954374,16.2785494508048,8.07839468943957,26.3000834781687,484.204125970806
9786,20551,23393,"SMPDSv1","Valle del Tietar","Lopez_a454",40.1702499999999,-4.88188888888889,406,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.376046274243791,5764.27937081941,15.792546221423,7.55262316792369,25.863870488039,473.899446642565
9786,20552,23394,"SMPDSv1","Valle del Tietar","Lopez_a455",40.2026111111111,-4.83787222222222,417,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37501738602549,5734.09174413093,15.7098403948793,7.46529453420052,25.7874900562799,472.342161754527
9786,20553,23395,"SMPDSv1","Valle del Tietar","Lopez_a456",40.1996388888888,-4.86897222222222,391,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374407392932161,5804.83764540482,15.903664781931,7.65090864700838,25.9856620550853,472.134015281005
9786,20554,23396,"SMPDSv1","Valle del Tietar","Lopez_a457",40.1838611111111,-4.8475,411,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.375112947651719,5751.79174820443,15.7583335567245,7.51251326684388,25.8377313317206,472.667393844686
9786,20555,23397,"SMPDSv1","Valle del Tietar","Lopez_a61",40.2104722222222,-4.93252777777777,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.383153796822505,5493.54916079893,15.0508196186272,6.88015552127608,25.0488117554993,479.969238138978
9786,20556,23398,"SMPDSv1","Valle del Tietar","Lopez_a62",40.2141666666666,-4.92908333333333,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386180751865078,5353.45595304046,14.6670026110698,6.52566444667437,24.637822930581,482.380872965859
9786,20557,23399,"SMPDSv1","Valle del Tietar","Lopez_a63",40.2274166666666,-4.92797222222222,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.395840688707279,4932.5106018027,13.5137276761718,5.4629868508858,23.3993753526797,489.985726589221
9786,20558,23400,"SMPDSv1","Valle del Tietar","Lopez_a64",40.2283888888888,-4.9375,700,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.396008260111075,4931.85748414837,13.5119383127353,5.46244413935743,23.3951197575265,490.171663603109
9786,20559,23401,"SMPDSv1","Valle del Tietar","Lopez_a65",40.2155833333333,-4.93980555555555,600,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.38960567371584,5212.59062808819,14.2810702139403,6.17161820829003,24.2208687991428,485.212086981914
9786,20560,23402,"SMPDSv1","Valle del Tietar","Lopez_a66",40.2081388888888,-4.93544444444444,400,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.377127454215846,5773.61987848227,15.8181366533761,7.588446943414,25.8708519848042,475.017448261372
9786,20561,23403,"SMPDSv1","Valle del Tietar","Lopez_a67",40.2138333333333,-4.93472222222222,425,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.37857806032028,5703.15585653751,15.6250845384589,7.41013322578029,25.6636604560695,476.177997004632
9786,20562,23404,"SMPDSv1","Valle del Tietar","Lopez_a68",40.2159166666666,-4.93388888888888,430,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.378841690087768,5689.03523370055,15.5863979005494,7.37423566042183,25.62228010189,476.373287623523
9786,20563,23405,"SMPDSv1","Valle del Tietar","Lopez_a69",40.2034722222222,-4.94213888888888,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.377386627254543,5773.51349453526,15.8178451905075,7.5899072570383,25.8686524455205,475.339829340927
9786,20564,23406,"SMPDSv1","Valle del Tietar","Lopez_a70",40.2056388888888,-4.94905555555555,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386721095868165,5352.72968304997,14.6650128302739,6.52730202491458,24.6309166536085,483.042602971304
9786,20565,23407,"SMPDSv1","Valle del Tietar","Lopez_a71",40.2080555555555,-4.9681388888888796,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.402976455397707,4651.41752328227,12.7436096528281,4.75499578587001,22.5679527113069,495.767746229103
9786,20566,23408,"SMPDSv1","Valle del Tietar","Lopez_a72",40.1968055555555,-4.93244444444444,350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374123997170542,5914.94828098407,16.2053377561207,7.94512485707239,26.2877470796009,472.549691335936
9786,20567,23409,"SMPDSv1","Valle del Tietar","Lopez_a73",40.1802777777777,-4.93911111111111,350,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374515797168604,5915.9111598129,16.2079757803093,7.94984545769517,26.2892335729752,473.09528980231
9786,20568,23410,"SMPDSv1","Valle del Tietar","Lopez_a74",40.1890833333333,-4.91647222222222,330,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.372429433273601,5973.00490222259,16.3643969923907,8.08772999043127,26.4643925679747,471.008034503633
9786,20569,23411,"SMPDSv1","Valle del Tietar","Lopez_a75",40.1688333333333,-4.92927777777777,320,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.372515771432548,6001.84270037573,16.4434046585636,8.16490298014554,26.5455600263203,471.399100407927
9786,20570,23412,"SMPDSv1","Valle del Tietar","Lopez_a76",40.1969722222222,-4.97552777777777,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.384420034043783,5491.5493610542,15.045340715217,6.88366107962089,25.0313869669218,481.485450278574
9786,20571,23413,"SMPDSv1","Valle del Tietar","Lopez_a77",40.1984166666666,-4.98477777777777,550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387647956018651,5350.81853257819,14.6597768015841,6.52870543035504,24.6160413312504,484.136824906477
9786,20572,23414,"SMPDSv1","Valle del Tietar","Lopez_a78",40.2111111111111,-5.00238888888888,650,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39407112584349,5068.89729739785,13.8873898558845,5.8166925770016,23.783872914601,489.214865365518
9786,20573,23415,"SMPDSv1","Valle del Tietar","Lopez_a79",40.213,-5.01136111111111,725,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3988439292847,4858.44418143436,13.3108059765325,5.28374514395061,23.1650444002284,492.896734898053
9786,20574,23416,"SMPDSv1","Valle del Tietar","Lopez_a80",40.2403888888888,-5.00888888888888,750,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.400414489245453,4786.93804077703,13.1148987418549,5.1033737934017,22.9523406952983,493.929958282224
9786,20575,23417,"SMPDSv1","Valle del Tietar","Lopez_a81",40.2256111111111,-4.87175,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.374837992102719,5777.06105400341,15.8275645315162,7.5810734762641,25.9010943488884,472.31255871208
9786,20576,23418,"SMPDSv1","Valle del Tietar","Lopez_a82",40.2275,-4.83761111111111,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.373654856386384,5779.61300366039,15.834556174412,7.57895723483736,25.9201002280357,470.957684838152
9786,20577,23419,"SMPDSv1","Valle del Tietar","Lopez_a83",40.3139722222222,-4.71138888888888,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.349127555975129,5484.49990344301,15.0260271327206,6.71206729882945,25.1450169261335,440.60019953236
9786,20578,23420,"SMPDSv1","Valle del Tietar","Lopez_a84",40.3148055555555,-4.68611111111111,475,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.344900007067879,5557.65956276695,15.2264645555259,6.88320718135376,25.3750583021588,436.251958605451
9786,20579,23421,"SMPDSv1","Valle del Tietar","Lopez_a85",40.3180277777777,-4.66772222222222,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.351658029201307,5416.81223340914,14.8405814613949,6.54423487028239,24.9486025500294,443.003338056818
9786,20580,23422,"SMPDSv1","Valle del Tietar","Lopez_a86",40.2841944444444,-4.67672222222222,375,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.330850555301212,5847.69181270835,16.0210734594749,7.57575410557792,26.2696930588639,421.998184709299
9786,20581,23423,"SMPDSv1","Valle del Tietar","Lopez_a87",40.2361944444444,-4.67136111111111,420,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.347549363079615,5791.06968896724,15.8659443533349,7.4430835844987,26.1717659636441,440.857294270235
9786,20582,23424,"SMPDSv1","Valle del Tietar","Lopez_a88",40.3345555555555,-5.00711111111111,375,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.370800183820633,5759.16728858764,15.7785405166785,7.57027136011304,25.725038367373,466.96224644704
9786,20583,23425,"SMPDSv1","Valle del Tietar","Lopez_a89",40.1193611111111,-4.99966666666666,520,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386557374718483,5439.86442222569,14.9037381430841,6.75678863968083,24.8800635779109,483.965550061225
9786,20584,23426,"SMPDSv1","Valle del Tietar","Lopez_a90",40.1783333333333,-4.997,400,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.3793646249351,5771.49872586755,15.8123252763494,7.59854956697185,25.8465079059253,477.741978041065
9786,20585,23427,"SMPDSv1","Valle del Tietar","Lopez_a91",40.1838888888888,-5.08827777777777,500,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.387547093393987,5484.66434242015,15.0264776504662,6.88813438519203,24.9797059676843,485.11967496863
9786,20586,23428,"SMPDSv1","Valle del Tietar","Lopez_a92",40.1744166666666,-5.10058333333333,525,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.389241101637419,5414.68845775983,14.8347628979722,6.71170677492615,24.773001321244,486.601247323098
9786,20587,23429,"SMPDSv1","Valle del Tietar","Lopez_a93",40.1804999999999,-5.29511111111111,1100,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.416546112299655,3787.99195569314,10.3780601525839,2.52676325582409,19.9866546378614,503.787825139382
9786,20588,23430,"SMPDSv1","Valle del Tietar","Lopez_a94",40.3361388888888,-4.50802777777777,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.427280494386771,4073.04583825142,11.1590296938395,3.3443177294528,20.8520795503352,514.689409382983
9786,20589,23431,"SMPDSv1","Valle del Tietar","Lopez_a95",40.3189444444444,-4.49955555555555,800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.39260493445277,4646.10474624911,12.7290540993126,4.69904095772278,22.619000229346,482.636241221204
9786,20590,23432,"SMPDSv1","Valle del Tietar","Lopez_a96",40.3483055555555,-4.70047222222222,1200,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.458409546405964,3497.21340950727,9.58140660138978,1.96300989569467,19.0716969589705,541.851350543974
9786,20591,23433,"SMPDSv1","Valle del Tietar","Lopez_a97",40.3357777777777,-4.69086111111111,1000,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.425045176043924,4065.00644462063,11.1370039578647,3.3187697703983,20.8087927693028,512.704833716227
9786,20592,23434,"SMPDSv1","Valle del Tietar","Lopez_a98",40.2829444444444,-4.87266666666666,900,"not applicable","fluvial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.410822035646635,4326.36985382787,11.8530680926791,3.95063863542903,21.5401704938401,501.056883862923
9786,20593,23435,"SMPDSv1","Valle del Tietar","Lopez_a99",40.1116944444444,-5.22722222222222,400,"not applicable","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.386736214468396,5760.34885623331,15.7817776883104,7.62402020890877,25.7471133614328,486.575251130734
9787,20594,23437,"SMPDSv1","Valle devera","Lopez_a10",37.1594722222222,-1.83580555555555,30,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.254156663389163,6518.69655307556,17.8594426111659,11.2320455735951,25.8095488276833,325.589431016561
9787,20595,23438,"SMPDSv1","Valle devera","Lopez_a11",37.1578888888888,-1.93202777777777,40,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.254150306985089,6507.60562710991,17.8290565126299,11.1952151172575,25.7994399667304,325.868947639922
9787,20596,23439,"SMPDSv1","Valle devera","Lopez_a9",37.2083333333333,-1.82313888888888,25,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.253871514996765,6520.86366509464,17.8653799043689,11.2393074193577,25.8097001470808,324.808236144186
9788,20597,10407,"IBERIA","Valle do Lobo Ribeira de Carcavai","VdL PB2",37.057965,-8.074734,2.3,"not applicable","coastal, estuarine","core","16","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.578495966143774,6331.32890552339,17.346106590475,11.9665839014086,23.5626363426847,695.792452408441
9789,20598,24201,"Neotoma","Valle Laguna Negra","VALAGNEG",8.791667,-70.766667,3450,"not known","not known","core","0","Unpublished data",,22,"steppe",0.572592176903171,3335.87190130682,9.13937507207348,7.7842398908769,9.98963917365921,651.609422243086
9790,20599,24202,"Neotoma","Valle Laguna Victoria","VALAVICT",8.808333,-70.791667,3250,"not known","not known","core","0","Unpublished data",,22,"steppe",0.610826937602379,3741.92656301623,10.2518535973047,8.9539761495573,11.0594647599968,710.152747895977
9791,20600,23440,"SMPDSv1","Vallee 3 Ponts","Barboni_a359",50.3,5.9,300,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.26120684230082,3313.75947119621,9.07879307177045,0.86559480142758,17.2198412395932,915.320106505713
9792,20601,23441,"SMPDSv1","Valsjon","Seppa_b146",57.98,12.35,143,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15524693661862,2499.77498693065,6.16898023813738,-3.21258803498172,15.7781099762909,720.082266955354
9793,20602,23442,"SMPDSv1","Valtonen","Seppa_b62",61.75,27.43,123,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.04845414613614,2155.17471269842,3.1579965198416,-10.2460106394802,16.6156714999955,562.090298597019
9794,20603,9699,"Gaillard et al., 1992","Vambasa","Vambasa",56.180773,15.470552,21,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.866730277398824,2795.42126861715,7.42596425701425,-1.36511903904671,16.6159247998471,579.462647275766
9795,20604,13411,"Neotoma","Van Nostrand Lake","VANNOSTR",44,-79.38,297,"not known","lake","core","0","McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,9,"cool mixed forest",1.1052292036295,3000.15648380586,6.31879358473625,-8.40457763594856,19.7700515798804,934.338302293372
9795,20604,13412,"Neotoma","Van Nostrand Lake","VANNOSTR",44,-79.38,297,"not known","lake","core","30","McAndrews, J.H. 1973. Pollen analysis of the sediments of the Great Lakes of North America. Pages 76-80 in Palynology: Holocene and Marine Palynology, Proceeding of the III International Palynological Conference. Nauka, Moscow, Russia.",,9,"cool mixed forest",1.1052292036295,3000.15648380586,6.31879358473625,-8.40457763594856,19.7700515798804,934.338302293372
9796,20605,11885,"Neotoma","Van Riper Lake","BU426",46.60091,-87.9953099999999,512,"not known","lake","surface sample","-21","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06256340904527,2580.59966396122,3.85520847909343,-12.4347366415819,18.5672021999292,801.378538119308
9797,20606,23443,"SMPDSv1","Van So","Odgaard_a16",56.484082,9.50718,50,"0.15","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19100551635797,2774.62123275215,7.53539437848149,-0.436595092416412,15.5459693089579,744.596956605072
9798,20607,17427,"Neotoma","Vandercook Lake","TW135",41.8,-84.98,300,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.984179262234671,3725.36350749739,9.18132469041837,-5.58576522355858,22.2378987488608,886.396327679955
9799,20608,8941,"EMPDv2","Vankavad","Salonen_a19",65.9833,60.0167,59,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27610829684666,1262.40805389122,-4.36620643660884,-21.4349116542952,14.503012287184,481.906272271459
9799,20609,8946,"EMPDv2","Vankavad","Salonen_a24",65.9833,60.0167,59,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27610829684666,1262.40805389122,-4.36620643660884,-21.4349116542952,14.503012287184,481.906272271459
9800,20610,23444,"SMPDSv1","Vanoise Park","Ortu_b24",45.33,6.828,2316,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.17125480416772,1195.8443235335901,1.52191946668037,-5.43836344352714,9.57429510904002,1778.13038532409
9800,20611,23445,"SMPDSv1","Vanoise Park","Ortu_b25",45.33,6.824,2364,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.20450956713441,1146.3378487326,1.28478497383278,-5.61990142190942,9.30525847965661,1798.01948516722
9800,20612,23446,"SMPDSv1","Vanoise Park","Ortu_b26",45.325,6.819,2352,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.19371002917463,1159.78951459767,1.3496685528999,-5.56894961982276,9.37937662851895,1791.96445915189
9800,20613,23447,"SMPDSv1","Vanoise Park","Ortu_b27",45.322,6.816,2311,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.16351585291323,1203.10328076126,1.55659242751514,-5.40969248567594,9.61465339388913,1774.16922345898
9800,20614,23448,"SMPDSv1","Vanoise Park","Ortu_b28",45.324,6.831,2243,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.11903173485583,1273.6756212042,1.88773963914969,-5.15689832099551,9.98960182693626,1746.88408023569
9800,20615,23449,"SMPDSv1","Vanoise Park","Ortu_b29",45.319,6.828,2071,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.00014425786177,1464.59559216927,2.7479838514417,-4.49696281010155,10.9671179552242,1673.96978080782
9800,20616,23450,"SMPDSv1","Vanoise Park","Ortu_b30",45.313,6.834,1986,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.94292916372644,1563.39426223653,3.17321001390221,-4.17034285806232,11.4498450157411,1638.0403093446
9800,20617,23451,"SMPDSv1","Vanoise Park","Ortu_b31",45.305,6.824,1751,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.78874329393305,1854.12951942717,4.34981538687966,-3.26701237967325,12.7868745986028,1538.22865893575
9800,20618,23452,"SMPDSv1","Vanoise Park","Ortu_b32",45.311,6.818,1480,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.62319988513156,2220.52736744282,5.69444283654195,-2.23801093143693,14.3144219438963,1425.06203886294
9800,20619,23453,"SMPDSv1","Vanoise Park","Ortu_b33",45.256,6.795,1284,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49630392699448,2518.36229011059,6.7006629668825,-1.45250545691483,15.4556938127803,1337.6228459841
9801,20620,23454,"SMPDSv1","Vardrunstjern","Bjune_a291",60.2683333333333,11.2716666666666,216,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.32546111381316,2194.41517212872,4.46920248161849,-6.22693712464809,15.214260580018,767.703897863613
9802,20621,8298,"EMPDv2","Varese Ligure","Montanari_b12",44.3762,9.59322222222222,353,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",1.03554619546196,4246.51814700141,11.6342962931545,2.44092701171056,20.9654439235333,1038.75680586963
9803,20622,9696,"Gaillard et al., 1992","Varo","Varo",57.227282,12.175138,10,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.03824202406636,2786.85696069168,7.31679874208374,-1.81892929406885,16.5800653442907,669.951111319303
9804,20623,23455,"SMPDSv1","Vasikkasuo","EPDcoretop_E535",64.666667,27.866667,270,"not known","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.22890707233896,1622.39875551614,-0.153555218761457,-14.5786831795208,14.5609141879974,539.578361096603
9805,20624,23456,"SMPDSv1","Vassauga","Bjune_a321",77.7583333333333,13.9555,15,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",1.88761201691108,354.102599029232,-5.44146435301348,-13.3745880924761,4.9507663736224,443.037364550809
9806,20625,23457,"SMPDSv1","Vassbua","Bjune_a139",60.4127856,9.19788925,402,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.55266425553447,1914.39154986807,3.33666687173036,-7.46097338323672,13.8827865609357,854.814828266293
9807,20626,23458,"SMPDSv1","Vassendkilen","Bjune_a211",58.6666666666666,7.82,203,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.21064948491737,2304.30985918671,5.62274727552862,-3.50210061287264,14.761915380133,1304.67597940449
9808,20627,7443,"EMPDv2","Vatnedalsvatnet","Hjelle_a32",59.5453081,5.6687713,45,"0.092","lake","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",3.6355134880362,2686.74944252136,7.36095737677084,0.803554865637677,14.3901129725288,1972.16752409508
9809,20628,23459,"SMPDSv1","Vatthulta sjo","Seppa_b142",57.73,12.75,238,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16291397919361,2426.91393571731,5.93790957993956,-3.27102986060535,15.3513273952229,720.096731695238
9810,20629,8094,"EMPDv2","Vavaiskoye","Mikishin-Gvozdeva_a151",46.5788888888889,143.270833333333,4,"3.7","terrestrial, bog/fen/swamp","peat","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.60481164913832,2308.00843613016,3.63105839767172,-10.3767144850181,17.2721897844449,1014.83805467559
9811,20630,6903,"EMPDv2","Vd","Colombaroli_a18",37.12125,15.0072222222222,348,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.414973321881243,6085.36732612022,16.6722392496444,10.1227406880363,24.7084937079001,564.709674499591
9812,20631,23460,"SMPDSv1","Vechernii River","VECHER_core top",63.2833333333333,147.75,800,"not known","terrestrial","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",31,"tundra",0.879664176782812,795.638433316299,-13.8583897898203,-36.5708040393536,9.56418930551705,310.185590092534
9813,20632,6540,"EMPDv2","Vechernii Section","Binney2017_E3199",63.28,146.25,800,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",14,"cold deciduous forest",0.876242949479239,848.164327460058,-13.9732338856495,-37.7297617596718,9.98646017101849,307.733548258109
9814,20633,23461,"SMPDSv1","Vedbol So","Odgaard_a14",55.192156,9.398258,50,"0.15","lake","lacustrine core top","-46","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16481954960105,2821.44869490507,7.68499167397096,-0.284637836719329,15.709968670379,749.63230438545
9815,20634,23462,"SMPDSv1","Vehkalampi","Seppa_b44",62.6,30.27,142,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15791518258859,1992.6109440843,2.11006243011536,-12.0435090935667,16.116655399779,599.323797835135
9816,20635,23463,"SMPDSv1","Veiga de Samarugo","Barboni_a1455",43.42,-7.57,800,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.14832960996059,3701.68671879456,10.1416074487522,3.68805387316316,17.4803032994544,1100.41444056369
9817,20636,23464,"SMPDSv1","Veiklampi","Seppa_b96",60.67,27.13,51,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0556929271751,2319.40378018025,4.21930268654853,-8.42096277767912,16.764593490984,594.651084811526
9818,20637,17336,"Neotoma","Vejo","TW039",45.043889,-88.521389,271,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.956102363096763,3076.04793452486,6.10295946929602,-10.1574720961521,20.5979998282035,775.651682261292
9819,20638,23465,"SMPDSv1","Velikoye raised bog","Velikoye_core top",54.9516666666666,22.3411111111111,34,"20","terrestrial, bog/fen/swamp","peat core top","-57","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03969002530782,2795.8517561705,6.81125568664102,-4.37593113830787,16.9584239155876,713.668219068633
9820,20639,7012,"EMPDv2","Velka niva","EPDcoretop_E1528",48.92,13.82,765,"1.5","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.34214052112442,2611.13680352726,6.59155459721098,-3.20229786333478,15.5996397488548,1010.91179207018
9821,20640,23466,"SMPDSv1","Velky Ded","EPDcoretop_E785",50.083333,17.216667,1380,"0.02","terrestrial, blanket bog","peat core top","-28","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.02143077566637,1630.99484248681,2.26403078950994,-8.13997586673531,11.4421200067019,1277.53098625406
9822,20641,23467,"SMPDSv1","Velky Maj","EPDcoretop_E835",50.05,17.216667,1365,"0.03","terrestrial, blanket bog","peat core top","-28","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.00299395441006,1645.17648053696,2.33341100185325,-8.06705232987671,11.5052727159559,1269.1130719877
9823,20642,23468,"SMPDSv1","Venta del Carrero (East)","Barboni_a1456",41.380972,-0.109444,363,"1.1","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.412170664630179,5261.30887911868,14.4145448742977,6.35730565639497,23.6777111896721,505.275124995926
9824,20643,23469,"SMPDSv1","Venta del Carrero (West)","Barboni_a1457",41.381111,-0.116528,362,"1.1","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.411780719923003,5263.07159213548,14.4193742250287,6.3608412570586,23.683676168356,504.850500904407
9825,20644,7968,"EMPDv2","Veny","Mikishin-Gvozdeva_a28",51.9438888888889,143.101666666667,4,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.2118123084699,1873.2022942258,-0.575702681877715,-18.8556846347945,15.4451894243219,651.855795685591
9826,20645,8691,"EMPDv2","Veobreen","Pardoe_c161",61.36,8.33,1540,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51009633867946,969.189552367407,-1.20255302518028,-11.1380949696183,8.82608026391737,749.808686131227
9826,20646,8692,"EMPDv2","Veobreen","Pardoe_c162",61.36,8.33,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.53565583657409,992.204324028656,-1.05808690783859,-10.9884718629626,8.95966652065425,762.437089818359
9826,20647,8693,"EMPDv2","Veobreen","Pardoe_c163",61.36,8.33,1480,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.54844131429401,1003.8091809497,-0.985853849167741,-10.9136603096347,9.02645964902269,768.751291661925
9826,20648,8694,"EMPDv2","Veobreen","Pardoe_c164",61.36,8.33,1440,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.57402311744839,1027.14374797459,-0.84138773182605,-10.764037202979,9.16004590575958,781.379695349057
9826,20649,8695,"EMPDv2","Veobreen","Pardoe_c165",61.36,8.33,1420,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5868199998968,1038.90817389543,-0.769154673155204,-10.6892256496511,9.22683903412802,787.693897192624
9827,20650,24203,"Neotoma","Veranada Pelan","VERNADAP",-36.883333,-70.383333,1860,"not known","terrestrial, bog/fen/swamp","core","5","Schäbitz, F. 1989. Untersuchungen zum aktuellen Pollenniederschlag und zur holozänen Klima- und Vegetationsentwicklung in den Anden Nord-Neuquéns, Argentinien. Bamberger Geographische Schriften 8. Bamberg, Germany.",,22,"steppe",0.317118665660186,3162.94097921764,8.66559172388395,1.94556979460313,15.6771617822461,427.793954711913
9828,20651,24204,"Neotoma","Veranada Vulkanpickel","VERNADAV",-36.683333,-70.416667,2800,"not known","terrestrial, bog/fen/swamp","core","39","Schäbitz, F. 1989. Untersuchungen zum aktuellen Pollenniederschlag und zur holozänen Klima- und Vegetationsentwicklung in den Anden Nord-Neuquéns, Argentinien. Bamberger Geographische Schriften 8. Bamberg, Germany.",,22,"steppe",0.250517723539415,2217.42511098082,5.96638930228611,-0.815071507181201,12.7708077141321,336.427680024782
9829,20652,23470,"SMPDSv1","Verchi boloto","Verchi boloto_SS",51.8023666666666,28.8016361111111,131,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.798460917902745,3032.78742279275,7.06259634643408,-6.36741234807525,18.3843935367109,611.138433714452
9830,20653,11308,"Bush et al., 2020","Verde0cm","Verde0cm",0.286,-66.68,298,"not known","lake","lake surface sample","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.05344853338513,8969.16993741286,24.5730683216791,23.6602452263189,25.1015227031937,2890.07807111297
9831,20654,10508,"IBERIA","Verdeospesoa mire","VERDEOSPESOA",43.055,-2.8614,1015,"not known","terrestrial, bog/fen/swamp","core top","0","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",13,"temperate deciduous broadleaf forest",0.633924286404247,3582.32346947303,9.81458484787131,2.27046760596925,18.6910934963155,665.399490729414
9832,20655,23471,"SMPDSv1","Verdorolo","Barboni_a840",44.359028,10.123194,1396,"not known","lake","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.49189295627125,1849.51191476264,4.36822119703646,-3.19901587939501,12.7313255948989,1220.96044982785
9833,20656,15262,"Neotoma","Vermnt18","AMD029",43.08,-89.83,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892738895618855,3244.78982738931,6.5397883871635,-10.6969289206921,21.2930531108789,771.412477056232
9834,20657,15261,"Neotoma","Vermnt29","AMD028",43.03,-89.8,335,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.892595159133681,3243.17588320995,6.53700403915367,-10.6888700481922,21.286844161641,771.593794218069
9835,20658,23472,"SMPDSv1","Vernerovice","EPDcoretop_E684",50.1,16.25,450,"0.015","terrestrial, blanket bog","peat core top","-24","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.964826383301109,2906.82270543686,7.47355942335371,-3.18158477834104,16.8867794481197,709.692518429842
9836,20659,8275,"EMPDv2","Verres","Montanari_a1",45.6690055555556,7.69174166666667,400,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.17274732714973,4079.67806020216,11.1772001649374,1.63331811546285,20.6888835191217,1108.96726828946
9837,20660,23473,"SMPDSv1","Vershozimskoe boloto","Vershozimskoe boloto_SS",52.9925,46.4492,310,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.743616156239931,2803.4937429303,4.27693857169308,-12.5224565962982,19.6993833315228,553.475667655112
9838,20661,7105,"EMPDv2","Vertonne","EPDcoretop_E2024",46.55,-1.76,3,"not known","terrestrial","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.936077164064607,4541.73602506919,12.4431123974498,6.26353949575619,19.08479562002,837.378883628357
9839,20662,7986,"EMPDv2","Verzily","Mikishin-Gvozdeva_a46",51.4830555555556,142.7825,23,"not known","fluvial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19893375124884,1889.75606742699,-0.430094986836361,-18.7170427770658,15.5025259949072,655.176158774213
9840,20663,23474,"SMPDSv1","Veslafstjorna","Bjune_a310",61.6533333333333,9.865,991,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.50012982488775,1184.31369234848,-0.29107578556962,-10.9979313611887,10.2133233005287,713.547333184196
9841,20664,7430,"EMPDv2","Veslavatnet","Hjelle_a19",60.3225072,5.6178571,25,"0.038","lake","sediment sample","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",8,"cool evergreen needleleaf forest",4.25768424809994,2678.03924029568,7.33709380902927,1.14517203136486,14.1573269098633,2232.1187378931
9842,20665,23475,"SMPDSv1","Veslekulpen","Bjune_a318",78.265833,12.9238333333333,20,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.06639707874213,276.342376528786,-6.32707815959428,-14.0135051308928,4.18262782321251,469.047881515842
9843,20666,13413,"Neotoma","Vestaburg Bog","VESTABRG",43.416667,-84.883333,255,"not known","terrestrial, bog/fen/swamp","core","0","Gilliam, J.A., R.O. Kapp, and R.D. Bogue. 1967. A post-Wisconsin pollen sequence from Vestaburg Bog, Montcalm County, Michigan. Papers of the Michigan Academy of Science, Arts, and Letters 52(1):3-17.",,9,"cool mixed forest",0.953142267195873,3349.08940862436,7.8313416830901,-6.51978583930368,21.1549777512036,813.720574622375
9843,20666,13414,"Neotoma","Vestaburg Bog","VESTABRG",43.416667,-84.883333,255,"not known","terrestrial, bog/fen/swamp","core","12","Gilliam, J.A., R.O. Kapp, and R.D. Bogue. 1967. A post-Wisconsin pollen sequence from Vestaburg Bog, Montcalm County, Michigan. Papers of the Michigan Academy of Science, Arts, and Letters 52(1):3-17.",,9,"cool mixed forest",0.953142267195873,3349.08940862436,7.8313416830901,-6.51978583930368,21.1549777512036,813.720574622375
9843,20666,13415,"Neotoma","Vestaburg Bog","VESTABRG",43.416667,-84.883333,255,"not known","terrestrial, bog/fen/swamp","core","25","Gilliam, J.A., R.O. Kapp, and R.D. Bogue. 1967. A post-Wisconsin pollen sequence from Vestaburg Bog, Montcalm County, Michigan. Papers of the Michigan Academy of Science, Arts, and Letters 52(1):3-17.",,9,"cool mixed forest",0.953142267195873,3349.08940862436,7.8313416830901,-6.51978583930368,21.1549777512036,813.720574622375
9843,20666,13416,"Neotoma","Vestaburg Bog","VESTABRG",43.416667,-84.883333,255,"not known","terrestrial, bog/fen/swamp","core","37","Gilliam, J.A., R.O. Kapp, and R.D. Bogue. 1967. A post-Wisconsin pollen sequence from Vestaburg Bog, Montcalm County, Michigan. Papers of the Michigan Academy of Science, Arts, and Letters 52(1):3-17.",,9,"cool mixed forest",0.953142267195873,3349.08940862436,7.8313416830901,-6.51978583930368,21.1549777512036,813.720574622375
9843,20666,13417,"Neotoma","Vestaburg Bog","VESTABRG",43.416667,-84.883333,255,"not known","terrestrial, bog/fen/swamp","core","50","Gilliam, J.A., R.O. Kapp, and R.D. Bogue. 1967. A post-Wisconsin pollen sequence from Vestaburg Bog, Montcalm County, Michigan. Papers of the Michigan Academy of Science, Arts, and Letters 52(1):3-17.",,9,"cool mixed forest",0.953142267195873,3349.08940862436,7.8313416830901,-6.51978583930368,21.1549777512036,813.720574622375
9844,20667,8018,"EMPDv2","Vestochka","Mikishin-Gvozdeva_a79",46.8558333333333,142.879166666667,190,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.48216453513272,2008.59551279961,2.02910414272366,-12.367811353556,15.9648289940042,926.530315289958
9845,20668,8681,"EMPDv2","Vestre Memurubreen","Pardoe_c151",61.32,8.3,1660,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.43762314984244,909.033233907993,-1.57703417327199,-11.5059600204365,8.46692716408462,716.401825110373
9845,20669,8682,"EMPDv2","Vestre Memurubreen","Pardoe_c152",61.32,8.3,1620,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.46236169297913,931.454011167585,-1.43371393115548,-11.3587380929486,8.60024704369972,728.675869506565
9845,20670,8683,"EMPDv2","Vestre Memurubreen","Pardoe_c153",61.32,8.3,1600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.47473594823349,942.732833078006,-1.36205381009722,-11.2851271292046,8.66690698350726,734.812891704661
9845,20671,8684,"EMPDv2","Vestre Memurubreen","Pardoe_c154",61.32,8.3,1600,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.47473594823349,942.732833078006,-1.36205381009722,-11.2851271292046,8.66690698350726,734.812891704661
9845,20672,8685,"EMPDv2","Vestre Memurubreen","Pardoe_c155",61.32,8.3,1560,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.49949491232178,965.461703564789,-1.21873356798071,-11.1379052017167,8.80022686312236,747.086936100853
9845,20673,8686,"EMPDv2","Vestre Memurubreen","Pardoe_c156",61.32,8.3,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.53666014876481,999.913724572494,-1.00375320480594,-10.9170723104849,9.000206682545,765.498002695141
9845,20674,8687,"EMPDv2","Vestre Memurubreen","Pardoe_c157",61.32,8.3,1450,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.56765676837684,1028.96214377044,-0.824602902160303,-10.733044901125,9.16685653206387,780.840558190381
9845,20675,8688,"EMPDv2","Vestre Memurubreen","Pardoe_c158",61.32,8.3,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5986780424035,1058.3620805384,-0.645452599514664,-10.5490174917652,9.33350638158274,796.183113685621
9845,20676,8689,"EMPDv2","Vestre Memurubreen","Pardoe_c159",61.32,8.3,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5986780424035,1058.3620805384,-0.645452599514664,-10.5490174917652,9.33350638158274,796.183113685621
9845,20677,8690,"EMPDv2","Vestre Memurubreen","Pardoe_c160",61.32,8.3,1380,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.6110935431545,1070.20704989313,-0.573792478456408,-10.4754065280212,9.40016632139028,802.320135883716
9846,20678,23476,"SMPDSv1","Vestre Oykjamyrtjonn","Bjune_a299",59.816667,6,570,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.50159220159869,1919.62147769337,4.65668805101138,-2.94523436108629,12.6443665784147,1871.68685294574
9847,20679,23477,"SMPDSv1","Vestre Oykjamyrtorn","EPDcoretop_E986",59.816667,6,570,"not known","lake","lacustrine core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.50159220159869,1919.62147769337,4.65668805101138,-2.94523436108629,12.6443665784147,1871.68685294574
9848,20680,9574,"EMPDv2","Vetka","Mikishin-Gvozdeva_b10",43.767778,135.130278,30,"not applicable","terrestrial","litter","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.1526632172216,2851.77647048828,5.06110094282096,-11.3757820188628,20.1023461780972,858.888725443756
9848,20681,23478,"SMPDSv1","Vetka","Vetka_SS",52.583103,31.125775,130,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.789088325825281,3049.26081683197,6.94455762245417,-6.94445247689358,18.7595947769166,597.110348768228
9849,20682,7984,"EMPDv2","Vezly","Mikishin-Gvozdeva_a44",51.5008333333333,142.804722222222,40,"not applicable","terrestrial","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20815952604932,1871.39441335512,-0.497515584018207,-18.7368825772369,15.4054786985794,658.775798213089
9850,20683,7980,"EMPDv2","Viakhtu_1","Mikishin-Gvozdeva_a40",51.6130555555556,141.9175,-1,"10","coastal, lagoon","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15612279811098,1949.60338345205,-0.486922744023807,-19.4025365862967,15.8245544527193,637.220249099134
9851,20684,7981,"EMPDv2","Viakhtu_2","Mikishin-Gvozdeva_a41",51.6,141.900833333333,-1,"10","coastal, lagoon","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15555765705715,1950.53624081436,-0.485872928736624,-19.4092209221338,15.8292418153344,637.181333277941
9852,20685,7982,"EMPDv2","Viakhtu_3","Mikishin-Gvozdeva_a42",51.5880555555556,141.905833333333,0,"10","coastal, lagoon","sediment sample","-37","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.15578587305144,1949.80763658278,-0.487838365064049,-19.4089199022388,15.825158902503,637.419173821332
9853,20686,23479,"SMPDSv1","Vichnevskoe lake","Vichnevskoe lake_SS",56.3167,57.8833,15,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.08309826117518,2468.61160177374,2.74029067620459,-14.9216973162443,19.0653139797805,625.94193923295
9854,20687,10699,"Neotoma","Vici rokle","Vici rokle core top",50.604115,16.127155,546,"0.02","terrestrial, bog/fen/swamp","core top","-40","Kuneš, P., Pokorný, P., Jankovská, V., 2007. Post-glacial vegetation development in sandstone areas of the Czech Republic, in: Härtel, H., Cıĺek, V., Herben, T., Jackson, A., Williams, R. (Eds.), Sandstone Landscapes. Academia, Praha, Czech Republic, pp. 244–257.",,9,"cool mixed forest",1.09473897425892,2752.64489907419,6.93477242842067,-3.62316677758631,16.2786298398666,785.188016135933
9855,20688,9697,"Gaillard et al., 1992","Vieskar","Vieskar",56.066059,15.798949,0,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.856911565832056,2818.16205008797,7.51133606622818,-1.25477339999406,16.7092788438935,573.539524636248
9856,20689,23480,"SMPDSv1","Viggetjarnen","Seppa_b155",62.32,16.65,141,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16779499377611,1873.36006699746,2.63198714191066,-9.0180579541555,14.3731334297728,604.513666798684
9857,20690,23481,"SMPDSv1","Vihtosenjarvi","Seppa_b65",61,28.33,75,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02871351187704,2269.56827945016,3.75280535042126,-9.64655488114252,16.9866385611009,576.165085430265
9858,20691,7214,"EMPDv2","Viitna Linajarv","EPDcoretop_E2568",59.45,26.01,75,"0.038","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.07709288005627,2388.51003855804,4.79188564613837,-7.07860072191068,16.5225466085205,636.332562336706
9859,20692,7215,"EMPDv2","Viitna Pikkjarv","EPDcoretop_E2569",59.44,26.01,75,"0.163","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.07689527054033,2388.93312333487,4.79413770491855,-7.07525977152843,16.522755172392,636.374759629073
9860,20693,7226,"EMPDv2","Viki Mire","EPDcoretop_E2599",56.52,22.91,119,"1.1728","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.04429699521791,2680.08300250192,6.34553519773955,-4.7520414464585,16.642951470459,694.272520705353
9861,20694,8324,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a10 (Vilaboa J5)",42.356717,-8.630017,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60008740937852,5329.20174024814,14.6005527130086,10.447079738085,19.2551226113767,1545.01671423417
9861,20695,8325,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a11 (Vilaboa H1)",42.356717,-8.629933,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60008399085182,5329.19685005854,14.6005393152289,10.4470659233827,19.2551114517196,1545.01251777771
9861,20696,8326,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a12 (Vilaboa H2)",42.355633,-8.629817,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.6000200620822,5329.28104282299,14.600769980337,10.4468623774939,19.2555343523302,1544.98911494552
9861,20697,8327,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a13 (Vilaboa H3)",42.35555,-8.629933,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60002024167458,5329.29475705604,14.6008075535782,10.446867325743,19.2555833126676,1544.99355281375
9861,20698,8328,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a14 (Vilaboa H4)",42.35525,-8.629817,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59999911604613,5329.31318035547,14.6008580283712,10.4467971731709,19.2556892486525,1544.98286329659
9861,20699,8329,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a15 (Vilaboa H5)",42.355117,-8.63,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59999927935658,5329.3349871209,14.600917772934,10.4468046220089,19.2557673165363,1544.98982220876
9861,20700,8330,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a16 (Vilaboa P1)",42.352367,-8.635217,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.6000598047412,5329.86844033617,14.6023792885922,10.4471924112084,19.2575693779089,1545.2038295126
9861,20701,8331,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a17 (Vilaboa P2)",42.352317,-8.635317,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60006109340552,5329.8784229311505,14.6024066381675,10.4472002710988,19.2576027818005,1545.20795081292
9861,20702,8332,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a18 (Vilaboa P3)",42.352383,-8.635367,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60006675402935,5329.87578739937,14.6023994175325,10.4472197254048,19.257582713847,1545.21154298024
9861,20703,8333,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a19 (Vilaboa P4)",42.3525,-8.635367,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.6000732027534,5329.86598193367,14.6023725532429,10.4472396847222,19.2575354403546,1545.21351120558
9861,20704,8334,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a20 (Vilaboa P5)",42.352567,-8.635267,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60007284970381,5329.85457448407,14.6023412999564,10.4472347241436,19.2574951669126,1545.20967431246
9861,20705,8335,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a21 (Vilaboa B1)",42.350433,-8.634783,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59993548771693,5330.00544280877,14.6027546378322,10.4467911503413,19.2582938753203,1545.14956747568
9861,20706,8336,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a22 (Vilaboa B4)",42.35015,-8.633683,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59987537526229,5329.96548752648,14.6026451713054,10.4465624314142,19.2582633546584,1545.09018806267
9861,20707,8337,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a23 (Vilaboa B3)",42.350067,-8.633667,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59987013883717,5329.97152357558,14.6026617084262,10.4465456295313,19.2582948211852,1545.08798119994
9861,20708,8338,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a24 (Vilaboa B2)",42.350367,-8.634117,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59990491919443,5329.97241899567,14.602664161632,10.4466706780723,19.2582327881109,1545.11541240133
9861,20709,8339,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a25 (Vilaboa B5)",42.35035,-8.634717,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59992823096356,5330.00858230237,14.6027632391846,10.446766154984,19.2583187390946,1545.14488157072
9861,20710,8340,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a26 (Vilaboa SW1)",42.350967,-8.63555,5,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59760450575524,5322.224058925,14.5814357778767,10.4117791264253,19.2525330952801,1543.02914719544
9861,20711,8341,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a27 (Vilaboa SW2)",42.350967,-8.635667,5,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59760923238768,5322.23078158922,14.5814541961348,10.4117981825464,19.2525483880531,1543.03493748465
9861,20712,8342,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a28 (Vilaboa SW3)",42.350933,-8.6356667,5,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59760734310048,5322.23360872701,14.5814619417178,10.4117923747752,19.2525620671117,1543.0343454118
9861,20713,8343,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a29 (Vilaboa SW4)",42.354717,-8.634567,5,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59777104617269,5321.85383750786,14.5804214726243,10.412253407387,19.2508917837096,1543.04324835322
9861,20714,8344,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a30 (Vilaboa SW5)",42.354783,-8.634633,5,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.59777733897077,5321.8521191086,14.5804167646811,10.4122753192213,19.2508738348941,1543.04761594376
9861,20715,8320,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a6 (Vilaboa S3)",42.35635,-8.63,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60006668293935,5329.2315376267,14.6006343496622,10.4470145015162,19.255268724885,1545.00991607221
9861,20716,8321,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a7 (Vilaboa S4)",42.356133,-8.630217,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60006365801346,5329.26237099619,14.6007188246471,10.4470132591531,19.2553852726606,1545.01722752595
9861,20717,8322,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a8 (Vilaboa J4)",42.356717,-8.630183,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60009416450603,5329.2114034891,14.6005791876414,10.4471070365077,19.2551446638625,1545.02500647097
9861,20718,8323,"EMPDv2","Vilaboa saltmarsh (Ria de Vigo)","MunozSobrino_a9 (Vilaboa S5)",42.356717,-8.630183,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60009416450603,5329.2114034891,14.6005791876414,10.4471070365077,19.2551446638625,1545.02500647097
9862,20719,8315,"EMPDv2","Vilaboa saltmarsh (Ría de Vigo)","MunozSobrino_a1 (Vilaboa J1)",42.356717,-8.629817,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60007926973156,5329.19009654533,14.600520812453,10.4470468447849,19.2550960401372,1545.006722246
9862,20720,8316,"EMPDv2","Vilaboa saltmarsh (Ría de Vigo)","MunozSobrino_a2 (Vilaboa S1)",42.356867,-8.629928,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60009197192629,5329.18397601525,14.6005040438774,10.4470906178353,19.2550501478936,1545.01469484802
9862,20721,8317,"EMPDv2","Vilaboa saltmarsh (Ría de Vigo)","MunozSobrino_a3 (Vilaboa J2)",42.35685,-8.629833,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60008717770243,5329.17987085136,14.600492796853,10.4470721012773,19.2550443970933,1545.00967321029
9862,20722,8318,"EMPDv2","Vilaboa saltmarsh (Ría de Vigo)","MunozSobrino_a4 (Vilaboa S2)",42.3567,-8.630017,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60008648162047,5329.20316629748,14.6005566199931,10.4470768460281,19.2551294838228,1545.01643898725
9862,20723,8319,"EMPDv2","Vilaboa saltmarsh (Ría de Vigo)","MunozSobrino_a5 (Vilaboa J3)",42.356483,-8.63005,1,"not known","not known","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",1.60007597938979,5329.22329066109,14.6006117552358,10.4470453541729,19.2552215944696,1545.01457107039
9863,20724,23482,"SMPDSv1","Villanueva de Cameros","Barboni_a786",42.17,-2.65,900,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.625371781146869,3878.87478444059,10.6270542039468,3.1402145109097,19.5280371593105,670.45503334908
9864,20725,23483,"SMPDSv1","Villarquemado","TPV-1",40.5445833333333,-1.20319444444444,1152,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.453703025811617,3784.54814801079,10.3686250630433,2.46751062566122,20.1739427559742,530.405306280906
9864,20726,23492,"SMPDSv1","Villarquemado","TPV-10",40.4124722222222,-1.38675,1144,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.449302527639372,3837.64867244939,10.5141059519161,2.59900685593755,20.3633119621322,528.339179668873
9864,20727,23493,"SMPDSv1","Villarquemado","TPV-11",40.4188333333333,-1.37272222222222,1132,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.448064369864187,3861.11479433951,10.5783966968206,2.66603755873696,20.4155947188462,527.071651516322
9864,20728,23494,"SMPDSv1","Villarquemado","TPV-12",40.4313611111111,-1.39675,1088,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.442948264442034,3951.80523676128,10.8268636623597,2.92285305238796,20.6252994245892,522.099261666734
9864,20729,23484,"SMPDSv1","Villarquemado","TPV-2",40.5289444444444,-1.20319444444444,1124,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.450448615627217,3843.55379952018,10.5302843822471,2.63298659762876,20.3116486277789,527.59123303515
9864,20730,23485,"SMPDSv1","Villarquemado","TPV-3",40.5112222222222,-1.28358333333333,986,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.433328919252338,4145.49342983379,11.35751624612,3.47366350627499,21.053927972884,512.17125499559
9864,20731,23486,"SMPDSv1","Villarquemado","TPV-4",40.5075833333333,-1.29408333333333,990,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.433646905554263,4138.32037395483,11.3378640382324,3.45313492046537,21.0387445351978,512.510772845414
9864,20732,23487,"SMPDSv1","Villarquemado","TPV-5",40.5029166666666,-1.34919444444444,1178,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.455229220736662,3759.17871293813,10.2991197614743,2.39012541638746,20.1590122038564,533.259390269919
9864,20733,23488,"SMPDSv1","Villarquemado","TPV-6",40.5011944444444,-1.33747222222222,1098,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.445824049843306,3921.43231367712,10.7436501744579,2.84406450978967,20.5377948382212,524.308584932045
9864,20734,23489,"SMPDSv1","Villarquemado","TPV-7",40.4424722222222,-1.37577777777778,1184,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.45470053768515,3752.50087030201,10.2808243021973,2.36294008297867,20.1583687683846,533.270181916136
9864,20735,23490,"SMPDSv1","Villarquemado","TPV-8",40.4270833333333,-1.38013888888889,1091,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443312409862377,3945.19724265188,10.8087595689093,2.90410275616318,20.6094787765929,522.445128142682
9864,20736,23491,"SMPDSv1","Villarquemado","TPV-9",40.4018611111111,-1.37125,1093,"not applicable","terrestrial","pollen trap","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",4,"warm-temperate evergreen and mixed forest",0.443104126439315,3943.09905553661,10.8030111110592,2.89609538427787,20.6086041589988,522.386146406141
9865,20737,10408,"IBERIA","Villaverde","VILLAVERDE",38.8,-2.3667,870,"not known","terrestrial, bog/fen/swamp","core top","0","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.357155424807439,4929.68488440139,13.5059859846614,5.28265672046669,23.894834899165,446.887269292128
9866,20738,23495,"SMPDSv1","Villedieu","Ortu_d1",43.833,5.857,385,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.752242003601663,4549.95948675889,12.4656424294764,4.86675794483849,21.1620058086429,833.261003624058
9866,20739,23496,"SMPDSv1","Villedieu","Ortu_d2",43.833,5.857,385,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.752242003601663,4549.95948675889,12.4656424294764,4.86675794483849,21.1620058086429,833.261003624058
9866,20740,23497,"SMPDSv1","Villedieu","Ortu_d3",43.833,5.857,385,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.752242003601663,4549.95948675889,12.4656424294764,4.86675794483849,21.1620058086429,833.261003624058
9866,20741,23498,"SMPDSv1","Villedieu","Ortu_d4",43.833,5.857,385,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.752242003601663,4549.95948675889,12.4656424294764,4.86675794483849,21.1620058086429,833.261003624058
9867,20742,23499,"SMPDSv1","Vilm","Dambach_a422",54.3167,13.5167,7,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.859102308559854,3067.60491222392,8.28273643593467,-0.897334180626601,17.3215347526593,595.071204892067
9867,20743,23500,"SMPDSv1","Vilm","Dambach_a423",54.3167,13.5167,7,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.859102308559854,3067.60491222392,8.28273643593467,-0.897334180626601,17.3215347526593,595.071204892067
9867,20744,23501,"SMPDSv1","Vilm","Dambach_a424",54.3333,13.5167,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.858742267279819,3068.29853851672,8.28430113107428,-0.898296126670675,17.3269557141894,594.803257728824
9867,20745,23502,"SMPDSv1","Vilm","Dambach_a425",54.3333,13.5167,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.858742267279819,3068.29853851672,8.28430113107428,-0.898296126670675,17.3269557141894,594.803257728824
9867,20746,23503,"SMPDSv1","Vilm","Dambach_a426",54.3333,13.5167,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.858742267279819,3068.29853851672,8.28430113107428,-0.898296126670675,17.3269557141894,594.803257728824
9867,20747,23504,"SMPDSv1","Vilm","Dambach_a427",54.3333,13.5167,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.858742267279819,3068.29853851672,8.28430113107428,-0.898296126670675,17.3269557141894,594.803257728824
9867,20748,23505,"SMPDSv1","Vilm","Dambach_a428",54.3333,13.5167,5,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.858742267279819,3068.29853851672,8.28430113107428,-0.898296126670675,17.3269557141894,594.803257728824
9867,20749,23506,"SMPDSv1","Vilm","Dambach_a429",54.3333,13.5333,20,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.865010074298606,3059.52014329878,8.26088217866268,-0.901642287255357,17.2765730971078,597.803756819066
9867,20750,23507,"SMPDSv1","Vilm","Dambach_a430",54.3333,13.5333,20,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.865010074298606,3059.52014329878,8.26088217866268,-0.901642287255357,17.2765730971078,597.803756819066
9867,20751,23508,"SMPDSv1","Vilm","Dambach_a431",54.3333,13.5333,10,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.860811618156649,3065.60396231462,8.27682674472491,-0.90189908159326,17.3119210118634,595.805785592177
9867,20752,23509,"SMPDSv1","Vilm","Dambach_a432",54.3333,13.5333,10,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.860811618156649,3065.60396231462,8.27682674472491,-0.90189908159326,17.3119210118634,595.805785592177
9867,20753,23510,"SMPDSv1","Vilm","Dambach_a433",54.3333,13.5333,30,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.86922221187512,3053.44131959535,8.24493761260044,-0.901385492917453,17.2412251823522,599.801728045955
9867,20754,23511,"SMPDSv1","Vilm","Dambach_a434",54.3333,13.5333,20,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.865010074298606,3059.52014329878,8.26088217866268,-0.901642287255357,17.2765730971078,597.803756819066
9868,20755,23512,"SMPDSv1","Vinadio Valley","Ortu_b58",44.309,7.22,856,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06228108215511,3669.08521252536,10.0522882534941,2.09801474021488,18.7427042687422,1085.53242725824
9868,20756,23513,"SMPDSv1","Vinadio Valley","Ortu_b59",44.31,7.282,755,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06079497064738,3846.10619223315,10.5372772389949,2.37667489691539,19.3051818272585,1084.62424991845
9868,20757,23514,"SMPDSv1","Vinadio Valley","Ortu_b60",44.303,7.328,756,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.06418063062476,3842.05364580971,10.5261743720814,2.3532382534518,19.2996062329308,1087.28810435989
9868,20758,23515,"SMPDSv1","Vinadio Valley","Ortu_b61",44.301,7.154,951,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10257934045748,3480.82365842773,9.53650317377461,1.65294942378229,18.1968259506358,1117.00729769197
9868,20759,23516,"SMPDSv1","Vinadio Valley","Ortu_b62",44.293,7.151,1082,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.16599315116987,3220.64834216254,8.82369408811655,1.0072572729193,17.4536938242168,1165.21988394275
9868,20760,23517,"SMPDSv1","Vinadio Valley","Ortu_b63",44.273,7.128,1415,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.33535487385613,2583.38304882164,7.0087970640647,-0.640514899409998,15.5649714356262,1287.30504033924
9868,20761,23518,"SMPDSv1","Vinadio Valley","Ortu_b64",44.292,7.146,1170,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.20995470011151,3045.18284266788,8.34296669224077,0.57011003817304,16.9535867826642,1197.72520853085
9868,20762,23519,"SMPDSv1","Vinadio Valley","Ortu_b65",44.292,7.147,1149,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19934426119613,3087.08815100466,8.45777575617715,0.674677734858464,17.072949616837,1189.94428383247
9868,20763,23520,"SMPDSv1","Vinadio Valley","Ortu_b66",44.28,7.137,1300,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.27536787727148,2789.87592214697,7.63602258253039,-0.0699530632696342,16.2169944511873,1245.14183604395
9868,20764,23521,"SMPDSv1","Vinadio Valley","Ortu_b67",44.265,7.125,1550,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40827723927996,2358.97142619654,6.27263312299707,-1.31261476787363,14.8007334647269,1337.07318771775
9868,20765,23522,"SMPDSv1","Vinadio Valley","Ortu_b68",44.261,7.118,1680,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.48117534054759,2157.05035222119,5.56176296171641,-1.96319806103588,14.0637130217029,1385.15008509867
9868,20766,23523,"SMPDSv1","Vinadio Valley","Ortu_b69",44.243,7.109,1800,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.47421807019872,2029.76372663429,5.10337475640817,-2.31023348272046,13.6025487411129,1381.78550168364
9868,20767,23524,"SMPDSv1","Vinadio Valley","Ortu_b70",44.231,7.113,1915,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53450861855017,1872.71317323196,4.48818054065306,-2.87338868310422,12.9695541689536,1420.27823551107
9868,20768,23525,"SMPDSv1","Vinadio Valley","Ortu_b71",44.242,7.116,2003,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.58336817204849,1757.5083636204,4.01455493248033,-3.30599465771737,12.4810763231237,1450.4182222104
9868,20769,23526,"SMPDSv1","Vinadio Valley","Ortu_b72",44.024,7.131,2192,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.67113844465411,1534.89480799016,3.02904098767808,-4.23997405064386,11.4927804149243,1506.38719434774
9868,20770,23527,"SMPDSv1","Vinadio Valley","Ortu_b73",44.226,7.126,2130,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.65266756928619,1600.76867927783,3.3372478934497,-3.92589685509297,11.7843236373985,1492.60169276344
9868,20771,23528,"SMPDSv1","Vinadio Valley","Ortu_b74",44.211,7.145,2310,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.75443919321807,1392.57634737973,2.37838670492378,-4.80196948138041,10.7971259361612,1552.26932244637
9868,20772,23529,"SMPDSv1","Vinadio Valley","Ortu_b75",44.205,7.148,2360,"not applicable","terrestrial","moss polster or moss","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.78343283324495,1337.26162810701,2.11154854541262,-5.04682824595533,10.5231581671384,1568.80452483444
9869,20773,11309,"Bush et al., 2020","vine_swamp","vine_swamp",-11.9714,-71.2945,342,"not known","terrestrial","soil sample","-52","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.08064418990117,8994.3612353719709,24.6420855763616,22.8492765871403,25.56658583729,3010.46379139627
9870,20774,9698,"Gaillard et al., 1992","Vinno","Vinno",56.055516,14.087287,11,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.93449213222808,2940.70544818344,7.90162115088023,-1.04670398031178,16.8846915048413,626.267583830172
9871,20775,8656,"EMPDv2","Visbreen","Pardoe_c126",61.32,8.2,1500,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.44000405968016,1022.23407515044,-0.987599126560073,-11.1224672071017,9.17840348301023,724.255747818705
9871,20776,8657,"EMPDv2","Visbreen","Pardoe_c127",61.32,8.2,1470,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.47542290826894,1039.16198152364,-0.864338096307761,-10.9595346215636,9.26763075174762,741.601588470653
9871,20777,8658,"EMPDv2","Visbreen","Pardoe_c128",61.32,8.2,1430,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.52272670104744,1061.96646979687,-0.699990055971345,-10.7422911741794,9.38660044339747,764.729376006584
9871,20778,8659,"EMPDv2","Visbreen","Pardoe_c129",61.32,8.2,1400,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.55826399500363,1079.21946496569,-0.576729025719033,-10.5793585886412,9.47582771213486,782.075216658532
9871,20779,8660,"EMPDv2","Visbreen","Pardoe_c130",61.32,8.2,1390,"not known","terrestrial","moss polster or moss","-35","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.57012123812077,1085.01756304211,-0.535642015634929,-10.5250477267952,9.50557013504732,787.857163542515
9872,20780,23530,"SMPDSv1","Vishnevskoe Lake","EPDcoretop_E686",60.502222,29.516944,15,"10.2","lake","lacustrine core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.0687866887984,2352.56188666541,4.11936499592656,-9.3269086316365,17.1855668870695,604.125254885141
9873,20781,23531,"SMPDSv1","Visimsky reserve","Visimsky reserve_SS (Novenko_c174)",57.3667,59.5167,480,"0.01","terrestrial","moss polster or moss","-26","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1264569556923,2124.28606789797,0.99187141520284,-16.3072490180352,17.3949784281524,655.905696099584
9874,20782,23532,"SMPDSv1","Vitosha Mountains Peat Bog","EPDcoretop_E436",42.833333,23.833333,2000,"2","terrestrial, blanket bog","peat core top","-11","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.90825419281043,2054.12273010028,4.47880078348781,-4.93219858935932,13.8234196605189,803.603366993841
9875,20783,6907,"EMPDv2","VMor-o vm-1o","Colombaroli_a22",37.88625,13.4084166666667,731,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.420611372245545,5390.51097767043,14.7685232264943,8.26052207212359,22.909171864878,572.003459649271
9875,20784,6909,"EMPDv2","VMor-o vm-1o","Colombaroli_a24",37.8868888888889,13.4081111111111,742,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.421437272517497,5372.53946884886,14.7192862160243,8.21089586438369,22.86197823764,573.33871138144
9876,20785,6272,"EMPDv2","Vodopadnoye Lake","Binney2017_E2512",59.67,150.7,309,"not known","lake","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.29606827641728,1164.88158991282,-4.96656794071928,-20.6223064008384,11.2726249794591,480.565867650131
9877,20786,11468,"Neotoma","Vogel Reservoir","MTPEVO",47.099850000000004,-108.341685,874,"not known","artificial water body","surface sample","-47","Unpublished data",,17,"temperate evergreen needleleaf open woodland",0.373228139438393,3136.52592775187,6.52428693577065,-9.30143434498448,21.5390230573091,335.071162780547
9878,20787,23533,"SMPDSv1","Vol river","Vol river_SS (Novenko_c206)",62.6281,53.8952,160,"not applicable","terrestrial, soil","surface sample","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.35065158512334,1809.11235573901,-0.360370253328057,-18.0081305574177,16.8463518742696,614.335232554832
9879,20788,11310,"Bush et al., 2020","VolcanBaru1780mtrapD","VolcanBaru1780mtrapD",8.78457,-82.492371,1908,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34737504620148,6134.40994113082,16.8066025784406,15.6682251460678,17.5247578504933,3853.21748373008
9880,20789,11311,"Bush et al., 2020","VolcanBaru1780mtrapE","VolcanBaru1780mtrapE",8.78457,-82.492371,1908,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34737504620148,6134.40994113082,16.8066025784406,15.6682251460678,17.5247578504933,3853.21748373008
9881,20790,11312,"Bush et al., 2020","VolcanBaru1780mTrapF","VolcanBaru1780mTrapF",8.78457,-82.492371,1908,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34737504620148,6134.40994113082,16.8066025784406,15.6682251460678,17.5247578504933,3853.21748373008
9882,20791,11313,"Bush et al., 2020","VolcanBaru1780mtrapG","VolcanBaru1780mtrapG",8.78457,-82.492371,1908,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.34737504620148,6134.40994113082,16.8066025784406,15.6682251460678,17.5247578504933,3853.21748373008
9883,20792,11314,"Bush et al., 2020","VolcanBaru2240m.2","VolcanBaru2240m.2",8.797874,-82.502546,2242,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48826049645613,5525.9360452283,15.1395508088447,13.793694700424,15.9566760451572,4052.54150299899
9884,20793,11315,"Bush et al., 2020","VolcanBaru2240m.3","VolcanBaru2240m.3",8.797874,-82.502546,2242,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48826049645613,5525.9360452283,15.1395508088447,13.793694700424,15.9566760451572,4052.54150299899
9885,20794,11316,"Bush et al., 2020","VolcanBaru2240m.4","VolcanBaru2240m.4",8.797874,-82.502546,2242,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48826049645613,5525.9360452283,15.1395508088447,13.793694700424,15.9566760451572,4052.54150299899
9886,20795,11317,"Bush et al., 2020","VolcanBaru2380m.4","VolcanBaru2380m.4",8.799148,-82.508034,2242,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48850998912839,5526.78655970293,15.1418809854875,13.7961924737163,15.9588604247297,4053.14263035177
9887,20796,11318,"Bush et al., 2020","VolcanBaru2380m.5","VolcanBaru2380m.5",8.799148,-82.508034,2242,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.48850998912839,5526.78655970293,15.1418809854875,13.7961924737163,15.9588604247297,4053.14263035177
9888,20797,11319,"Bush et al., 2020","VolcanBaru2810.1","VolcanBaru2810.1",8.802533,-82.520238,2840,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.75199703339075,4436.41667397813,12.1545662300771,10.4360204576947,13.1948795641962,4409.77477751076
9889,20798,11320,"Bush et al., 2020","VolcanBaru2810m.2","VolcanBaru2810m.2",8.802533,-82.520238,2840,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.75199703339075,4436.41667397813,12.1545662300771,10.4360204576947,13.1948795641962,4409.77477751076
9890,20799,11321,"Bush et al., 2020","VolcanBaru2810m.3","VolcanBaru2810m.3",8.802533,-82.520238,2840,"not known","terrestrial","pollen trap","-44","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",2.75199703339075,4436.41667397813,12.1545662300771,10.4360204576947,13.1948795641962,4409.77477751076
9891,20800,8281,"EMPDv2","Vollon","Montanari_a7",45.76665,7.71384166666667,1295,"0.01","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.7976146118811,2342.0857028855,6.03675832837168,-2.31199104963699,14.7440634871377,1512.72432958131
9892,20801,13418,"Neotoma","Volo Bog","VOLOBOG",42.35154,-88.18475,229,"not known","terrestrial, bog/fen/swamp","core","0","King, J.E. 1981. Late Quaternary vegetational history of Illinois. Ecological Monographs 51(1):43-62. http://www.jstor.org/stable/2937306.",,13,"temperate deciduous broadleaf forest",0.95473511012934,3653.75215898612,8.60829373386707,-7.36308325019933,22.4689713395489,859.235882520773
9893,20802,6261,"EMPDv2","Voloscha","Binney2017_E2254",49.57,23.67,265,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.874294978419024,3102.71534549506,7.79367934251665,-4.38143922446147,17.9137825494609,673.410600936327
9894,20803,17653,"Phelps et al., 2020","Voordrag","VOORDRAG_0",-27.741667,31.325,940,"not applicable","terrestrial, soil","soil sample","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",22,"steppe",0.579980257750446,6664.54161231935,18.2590181159434,13.2339618972168,22.1416210129292,848.728817471466
9895,20804,23534,"SMPDSv1","Vorstimae","Seppa_b124",57.65,27.08,237,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.993590150434992,2527.19764118891,5.21073545872987,-7.19584596368236,16.3831291926651,628.353967429553
9896,20805,8009,"EMPDv2","Vostok","Mikishin-Gvozdeva_a69",49.0375,142.911944444444,90,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.4679275558527,1904.23225921286,0.720458264882938,-15.6820125343053,15.4615972656735,837.888911028927
9897,20806,8028,"EMPDv2","Vozrojzdeniye","Mikishin-Gvozdeva_a90",48.0666666666667,142.193055555556,2,"not applicable","coastal, other","moss polster or moss","-53","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.64025003548295,2017.44244724553,1.66177832372862,-13.8199781213991,16.0517473662221,963.872915871576
9898,20807,15399,"Neotoma","Vreeland Pond","AS001",41.05,-74.25,194,"not known","lake","surface sample","Modern","Unpublished data",,13,"temperate deciduous broadleaf forest",1.24631395911573,3846.91508951745,10.0114599860977,-3.38765053075058,22.4148053603531,1148.76254625211
9899,20808,23535,"SMPDSv1","Vschodu","Vschodu_SS (Novenko_c213)",54.6764,34.0925,180,"0.01","terrestrial, soil","surface sample","-61","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.920573377292648,2752.29167923082,5.43797949194258,-8.95898225557727,18.076215908113902,641.342474907208
9900,20809,8216,"EMPDv2","Vtoraya Protoka","Mikishin-Gvozdeva_b47",42.3752777777778,130.751944444444,1,"0.52","lake","sediment sample","-45","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.909049289903781,3333.43198433322,6.6827636409415,-11.0759621631441,22.0323796968427,751.739368414141
9901,20810,1582,"Australian pollen","Vunimoli Swamp","Vunimoli Swamp core",-18.2167,177.8833,1,"4.6","terrestrial, bog/fen/swamp","core top","40","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.78411070860399,8979.06330691162,24.6001734435935,22.5633293560177,26.4878628064055,2462.44471446004
9901,20811,1583,"Australian pollen","Vunimoli Swamp","Vunimoli Swamp_a",-18.2167,177.8833,1,"4.6","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.78411070860399,8979.06330691162,24.6001734435935,22.5633293560177,26.4878628064055,2462.44471446004
9901,20812,1584,"Australian pollen","Vunimoli Swamp","Vunimoli Swamp_b",-18.2167,177.8833,1,"4.6","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",1.78411070860399,8979.06330691162,24.6001734435935,22.5633293560177,26.4878628064055,2462.44471446004
9902,20813,7192,"EMPDv2","Vuolep Allasasjaure","EPDcoretop_E2381",68.17,18.17,995,"0.3","lake","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",2.41340772707732,691.832877622427,-5.06635503129717,-17.045929430289,8.25401092835874,810.102788044204
9903,20814,23536,"SMPDSv1","Vuomajaure","Bjune_a152",68.4666666666666,21.0833333333333,554,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.55870946095143,1014.10748244565,-3.33264271217581,-16.2157444132065,10.7632197330128,588.552240262538
9904,20815,23537,"SMPDSv1","Vuorinen","Seppa_b93",60.97,27.07,109,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.05462631575011,2193.70444700314,3.46949674384291,-9.60779203851378,16.6052032417107,581.355416562375
9905,20816,23538,"SMPDSv1","Vuoskojaurasj","Bjune_a159",68.3333333333333,19.1666666666666,375,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.07438751857404,1124.73524671872,-1.23957805820851,-11.8306230199869,11.2067752017369,768.98893332141
9905,20817,23539,"SMPDSv1","Vuoskojaurasj","Bjune_a174",68.3333333333333,19.15,390,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.08133103787453,1112.81962284496,-1.33096432367744,-11.9535730120383,11.1358715479245,769.588080135949
9906,20818,23540,"SMPDSv1","Vuoskojaure","Bjune_a160",68.35,19.1,348,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",2.09841992498635,1142.75318007167,-1.04305862944754,-11.4840783769311,11.3013233997597,779.586352150806
9907,20819,23541,"SMPDSv1","Vuoskuluobbal","Bjune_a23",68.97734722,22.96854664,358,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.3776173283055,1196.46565580606,-2.84190296807269,-16.7702380791077,12.151460850789,521.032332059835
9908,20820,23542,"SMPDSv1","Vychegda river","Vychegda river_SS (Novenko_c198)",61.7666,51.7,93,"not applicable","terrestrial, soil","surface sample","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.28361715885936,1881.84674501843,0.199218686518195,-17.3909888973507,17.0530656621482,573.381912679646
9909,20821,23543,"SMPDSv1","Vygonovskoe lake","Vygonovskoe lake_SS",52.6880416666666,25.9482361111111,148,"not known","lake","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813063058615968,2978.71699116247,7.04893979791691,-5.79845450351565,17.9230229817329,587.875114940458
9910,20822,23544,"SMPDSv1","Vym river","Vym river_SS (Novenko_c197)",64.0958,57.5164,88,"not applicable","terrestrial, soil","surface sample","-47","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.45598367658099,1606.36071401863,-1.87566173463302,-19.8494515994189,16.3764628980807,607.13379322959
9911,20823,8012,"EMPDv2","Vzmorje_1","Mikishin-Gvozdeva_a72",47.8541666666667,142.511111111111,30,"not applicable","terrestrial, soil","litter","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.58935636413368,2003.72995379918,1.63702015167691,-13.749074234749,15.964986592994,941.226150227678
9912,20824,14790,"Neotoma","Waccamaw River, Butler Island, Moderately Salt Impacted","WACMAW2",33.422823,-79.207996,0,"not known","coastal, other","core","-61","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.05596191123721,6574.88813592998,18.0133921532328,7.81228562179852,27.160916113467,1286.32701602601
9912,20824,14791,"Neotoma","Waccamaw River, Butler Island, Moderately Salt Impacted","WACMAW2",33.422823,-79.207996,0,"not known","coastal, other","core","-12","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.05596191123721,6574.88813592998,18.0133921532328,7.81228562179852,27.160916113467,1286.32701602601
9912,20824,14792,"Neotoma","Waccamaw River, Butler Island, Moderately Salt Impacted","WACMAW2",33.422823,-79.207996,0,"not known","coastal, other","core","20","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.05596191123721,6574.88813592998,18.0133921532328,7.81228562179852,27.160916113467,1286.32701602601
9913,20825,14786,"Neotoma","Waccamaw River, Turkey Creek Oligohaline Marsh","WACMAW4",33.35003,-79.3447,0,"not known","terrestrial, marsh","core","-61","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.04766315565615,6599.58789395868,18.0810627231745,7.88709862665671,27.1970670384435,1278.36180185322
9913,20825,14787,"Neotoma","Waccamaw River, Turkey Creek Oligohaline Marsh","WACMAW4",33.35003,-79.3447,0,"not known","terrestrial, marsh","core","-12","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.04766315565615,6599.58789395868,18.0810627231745,7.88709862665671,27.1970670384435,1278.36180185322
9913,20825,14788,"Neotoma","Waccamaw River, Turkey Creek Oligohaline Marsh","WACMAW4",33.35003,-79.3447,0,"not known","terrestrial, marsh","core","20","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.04766315565615,6599.58789395868,18.0810627231745,7.88709862665671,27.1970670384435,1278.36180185322
9914,20826,14789,"Neotoma","Waccamaw River, Turkey Creek, Heavily Salt Impacted Swamp","WACMAW3",33.34001,-79.34166,0,"not known","coastal, other","core","0","Jones, M.C., C.E. Bernhardt, K.W. Krauss, and G.B. Noe. 2017. The impact of late Holocene land use change, climate variability, and sea level rise on carbon storage in tidal freshwater wetlands on the southeastern United States coastal plain. Journal of Geophysical Research: Biogeosciences 122(12):3126-3141.","10.1002/2017JG004015",4,"warm-temperate evergreen and mixed forest",1.04758431109338,6600.64358598575,18.083955030098,7.89151811336775,27.1980777256562,1278.47418435134
9915,20827,23545,"SMPDSv1","Wachel 3","EPDcoretop_E749",53.438889,8.868889,17,"not known","not known","core top","-30","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.19069183145169,3179.02436971264,8.7096558074319,0.612260521631957,16.6494031015283,774.247523468268
9916,20828,23546,"SMPDSv1","Wachseldorn Untermoos","EPDcoretop_E1176",46.820556,7.733889,980,"not known","terrestrial, bog/fen/swamp","peat core top","-14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.76351941853086,2548.05101005482,6.7297875557203,-1.7601175614712,15.3410466046372,1377.63531848953
9917,20829,23547,"SMPDSv1","Wadi Aqraba","Jordan-5",32.72,35.8,219,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.269184175839852,7019.50120195857,19.2315101423523,11.1256289493396,26.4234045312022,446.800730639548
9918,20830,23548,"SMPDSv1","Wadi Rum","Barboni_a850",29.5,35.5,350,"not applicable","terrestrial","surface sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0235548185020151,7785.36693464452,21.3297724236836,12.4833446716993,28.755336587049,45.0825920984568
9918,20831,23549,"SMPDSv1","Wadi Rum","Jordan-12",29.56,35.41,1042,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0380037426257007,6722.42238062386,18.417595563353,8.53788223341185,26.5874457108301,74.04887983313
9918,20832,23550,"SMPDSv1","Wadi Rum","Jordan-13",29.55,35.42,960,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0363461175300901,6847.75248765135,18.7609657195927,9.00546500015916,26.8416823470385,70.6724083714857
9918,20833,23551,"SMPDSv1","Wadi Rum","Jordan-16",29.56,35.41,982,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",27,"desert",0.0368365294189208,6812.97711822108,18.6656907348523,8.8780580576535,26.7693749776439,71.6540180787361
9919,20834,23552,"SMPDSv1","Wadi Shallalah","Jordan-6",32.59,35.94,376,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.238835373399944,6761.7833676195,18.525433883889,10.0477277175323,26.0129329764417,400.025561074903
9920,20835,23553,"SMPDSv1","Wadi Thamad","Jordan-1",31.56,35.74,428,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.163999760780982,6885.81325808445,18.8652418029711,10.3989653670358,26.1853991899112,287.052488108065
9920,20836,23554,"SMPDSv1","Wadi Thamad","Jordan-2",31.56,35.74,428,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.163999760780982,6885.81325808445,18.8652418029711,10.3989653670358,26.1853991899112,287.052488108065
9920,20837,23555,"SMPDSv1","Wadi Thamad","Jordan-3",31.58,35.9,597,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.127112274312573,6690.04424369061,18.3288883388784,9.31071609285567,26.032640579148,226.597281648552
9920,20838,23556,"SMPDSv1","Wadi Thamad","Jordan-4",31.58,35.9,597,"not applicable","terrestrial, soil","soil sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.127112274312573,6690.04424369061,18.3288883388784,9.31071609285567,26.032640579148,226.597281648552
9921,20839,11587,"Neotoma","Waggoner","WAG-1C",44.078185,-101.655895,738,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.442036445036669,3544.61947650017,8.19573423078128,-7.38249633516959,23.442282594797,431.295682573185
9921,20840,11588,"Neotoma","Waggoner","WAG-1M",44.078185,-101.655895,738,"not known","not known","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.442036445036669,3544.61947650017,8.19573423078128,-7.38249633516959,23.442282594797,431.295682573185
9922,20841,11660,"Neotoma","Wahl 2002 Surface Sample Site 1","ERW2002-01",34.20277778,-116.7819444,2774,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.585080643698046,2653.73218127182,6.42705370405332,-3.28453693417649,20.6733026844421,797.617320652401
9923,20842,11668,"Neotoma","Wahl 2002 Surface Sample Site 10","ERW2002-10",34.17222222,-116.7177778,2438,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.587382523636929,2681.06439941597,7.17871322912262,-0.997031583897587,19.2682620815394,774.035831440581
9924,20843,11669,"Neotoma","Wahl 2002 Surface Sample Site 11","ERW2002-11",33.80055556,-116.6725,2926,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.721339101215865,2021.00725927793,4.23755955900059,-3.87424525246012,17.0916107823964,910.806843993102
9925,20844,11670,"Neotoma","Wahl 2002 Surface Sample Site 12","ERW2002-12",34.22194444,-116.8994444,2402,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.508910363234762,3131.97946157361,8.38756690501603,-1.14635921416492,21.9144631020402,707.023918441566
9926,20845,11671,"Neotoma","Wahl 2002 Surface Sample Site 13","ERW2002-13",34.28138889,-116.9141667,2286,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.472811386933779,3283.65030709065,8.93030372289085,-0.337423057781055,21.7261281116184,656.084571410558
9927,20846,11672,"Neotoma","Wahl 2002 Surface Sample Site 14","ERW2002-14",33.80666667,-116.6533333,2682,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.660044908428339,2288.05262399112,5.58702152800137,-2.46763142979329,18.026965000062,848.50188055129
9928,20847,11673,"Neotoma","Wahl 2002 Surface Sample Site 15","ERW2002-15",34.14833333,-116.7997222,2170,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.479673821369988,3416.48182327856,9.35126805543999,0.227565617477907,22.147799575288,667.159753575592
9929,20848,11674,"Neotoma","Wahl 2002 Surface Sample Site 16","ERW2002-16",34.14833333,-116.7997222,2170,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.479673821369988,3416.48182327856,9.35126805543999,0.227565617477907,22.147799575288,667.159753575592
9930,20849,11675,"Neotoma","Wahl 2002 Surface Sample Site 17","ERW2002-17",32.94888889,-116.6044444,1890,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.450445540382711,3475.30947691742,9.52139582717102,2.28190352824197,20.0130196466118,599.43924385685
9931,20850,11661,"Neotoma","Wahl 2002 Surface Sample Site 2","ERW2002-02",34.2,-116.7647222,2746,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.582473819598243,2669.00325816273,6.52985536545983,-3.11279645077283,20.6656606943099,793.64332939886
9932,20851,11676,"Neotoma","Wahl 2002 Surface Sample Site 21","ERW2002-21",32.94388889,-116.4911111,1692,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.412021230129006,3847.21083521196,10.5403036581149,3.42244397494422,20.595934253632,554.338883520081
9933,20852,11677,"Neotoma","Wahl 2002 Surface Sample Site 22","ERW2002-22",32.8375,-116.4233333,1829,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.432573434644987,3547.01766398763,9.71785661366475,2.73449098811792,19.7925683357925,573.748937763922
9934,20853,11678,"Neotoma","Wahl 2002 Surface Sample Site 23","ERW2002-23",34.13472222,-116.9822222,1682,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.39536641683003,4294.3654867671,11.7653848952523,3.06420125858879,23.4263095997532,558.872780686702
9935,20854,11679,"Neotoma","Wahl 2002 Surface Sample Site 24","ERW2002-24",32.95416667,-116.5877778,1573,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.388156105272177,4114.59120526776,11.2728526171719,4.05088442563927,21.2778020787009,529.092064018689
9936,20855,11680,"Neotoma","Wahl 2002 Surface Sample Site 25","ERW2002-25",32.8525,-116.4822222,1554,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.377598668108591,4138.05425899179,11.3371349561419,4.2218455790352,21.1651873022869,514.287707189576
9937,20856,11681,"Neotoma","Wahl 2002 Surface Sample Site 28","ERW2002-28",32.97083333,-116.5738889,1439,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.363371418332573,4385.17712028738,12.0141838911983,4.79490895300814,21.8206590289505,500.167410495043
9938,20857,11682,"Neotoma","Wahl 2002 Surface Sample Site 29","ERW2002-29",33.08944444,-116.5944444,1228,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.329609537796946,4816.22995202071,13.1951505534814,5.93586591670325,22.7537561192382,460.614562342533
9939,20858,11662,"Neotoma","Wahl 2002 Surface Sample Site 3","ERW2002-03",34.20111111,-116.7658333,2707,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.575377258932374,2707.95948572791,6.72075937599697,-2.8851082207112,20.7626060291841,785.065923808147
9940,20859,11683,"Neotoma","Wahl 2002 Surface Sample Site 30","ERW2002-30",33.33694444,-116.9075,1573,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.39119552379671,4336.15386272856,11.8798735965166,3.65919509439398,23.0726515648575,549.312241031343
9941,20860,11684,"Neotoma","Wahl 2002 Surface Sample Site 33","ERW2002-33",32.94944444,-116.5597222,1384,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.351462192897745,4497.11974895498,12.3208760245342,5.11071414916843,22.0309593500764,485.775565024097
9942,20861,11685,"Neotoma","Wahl 2002 Surface Sample Site 34","ERW2002-34",32.85055556,-116.5213889,1132,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.299313818266685,5013.96587993842,13.7368928217491,6.54168300315929,23.0400742866966,421.849255064355
9943,20862,11686,"Neotoma","Wahl 2002 Surface Sample Site 35","ERW2002-35",32.85138889,-116.5227778,1125,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.298135085401847,5028.33752763931,13.7762671990118,6.57991667308735,23.0707469276807,420.407773056356
9944,20863,11687,"Neotoma","Wahl 2002 Surface Sample Site 36","ERW2002-36",33.29111111,-116.8338889,1414,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.365383641047125,4601.85806101568,12.6078303041525,4.62367882045106,23.2978153720613,514.692148582777
9945,20864,11688,"Neotoma","Wahl 2002 Surface Sample Site 37","ERW2002-37",32.81916667,-116.6186111,1073,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.290160287645958,5129.18601375211,14.0525644212387,6.86230890437253,23.2677632291048,410.672317418461
9946,20865,11689,"Neotoma","Wahl 2002 Surface Sample Site 38","ERW2002-38",32.86916667,-116.6080556,1091,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.295057622464019,5094.51434085387,13.9575735365859,6.75199953774412,23.222741608732,416.984848997426
9947,20866,11690,"Neotoma","Wahl 2002 Surface Sample Site 39","ERW2002-39",32.8225,-116.6213889,1061,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.288341021191125,5153.07299399402,14.1180082027233,6.92770175957078,23.3165685047873,408.41531435022
9948,20867,11663,"Neotoma","Wahl 2002 Surface Sample Site 4","ERW2002-04",34.20833333,-116.8552778,2597,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.545331780917897,2875.87663822425,7.40295674509941,-2.28020898730704,21.3668458263825,751.793782782163
9949,20868,11691,"Neotoma","Wahl 2002 Surface Sample Site 40","ERW2002-40",32.85583333,-116.7416667,817,"not known","terrestrial","surface sample","-47","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.253508661960925,5619.24266446407,15.3951853820933,8.2696701310036,24.1816744832843,363.910947527829
9950,20869,11692,"Neotoma","Wahl 2002 Surface Sample Site 41","ERW2002-41",33.03027778,-117.0927778,244,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.213501964389789,6387.67821783309,17.5004882680359,11.5750684042617,24.4351484713002,302.808422992715
9951,20870,11664,"Neotoma","Wahl 2002 Surface Sample Site 5","ERW2002-05",34.1225,-116.7808333,2499,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.53703518786608,2939.83832907555,7.74601926510517,-1.70118417777699,21.3578331481184,739.240653318009
9952,20871,11665,"Neotoma","Wahl 2002 Surface Sample Site 6","ERW2002-06",34.12472222,-116.7822222,2481,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.533796638622764,2963.38234305163,7.83477632642465,-1.59562406492807,21.4025553593189,735.234594277363
9953,20872,11666,"Neotoma","Wahl 2002 Surface Sample Site 8","ERW2002-08",34.26611111,-117.0058333,2228,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.455682523759824,3415.22081645477,9.32567298880611,-0.0249864527054071,22.1295563562495,636.609414481469
9954,20873,11667,"Neotoma","Wahl 2002 Surface Sample Site 9","ERW2002-09",34.26805556,-117.0061111,2228,"not known","terrestrial","surface sample","-48","Wahl, E.R. 2002. Paleoecology and testing of paleoclimate hypotheses in southern California during the Holocene. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Wahl, E.R. 2003. surface samples for paleoenvironmental reconstruction from the Coast and Transverse Ranges of southern California. Madroño 50(4):286-299.; Wahl, E.R. 2004. A general framework for determining cutoff values to select pollen analogs with dissimilarity metrics in the modern analog technique. Review of Palaeobotany and Palynology 128(3-4):263-280.","10.1016/S0034-6667(03)00137-4",20,"xerophytic woods/scrub",0.455613133796302,3415.48567105117,9.32646534928529,-0.0242751878210639,22.1294468682258,636.511126294227
9955,20874,1585,"Australian pollen","Waikaremoana","Waikaremoana core",-38.75,177.0333,482,"54","lake","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",16,"temperate sclerophyll woodland and shrubland",1.79056954231466,4192.35823635861,11.485912976325,6.32775800833567,16.5681314538398,1724.45157797128
9956,20875,24483,"Southern Hemisphere pollen","Wairau Valley","Wairau_mod",-41.5656,173.5134,120,"small (0.01-1 km2)","terrestrial","surface sample","-36","Norton, D.A., McGlone, M.S. and Wigley, T.M.L., 1986. Quantitative analyses of modern pollen-climate relationships in New Zealand indigenous forests. New Zealand journal of botany, 24(2), pp.331-342.","10.1080/0028825X.1986.10412681",16,"temperate sclerophyll woodland and shrubland",1.55184929374715,4370.32826465401,11.9735020949425,7.03580594456801,16.6337149345112,1447.96818916527
9957,20876,16741,"Neotoma","Wakaw Lake","RJM003",52.695833,-105.5625,544,"not known","lake","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.53027747943332,2422.34493702538,1.45493939812843,-18.128401358425,17.9172839801219,387.87300701742
9958,20877,16610,"Neotoma","Walden Pond","MGW014",42.439265,-71.339725,47,"not known","lake","surface sample","Modern","Winkler, M.G., 1985. A 12,000-year history of vegetation and climate for Cape Cod, Massachusetts. Quaternary Research, 23(3), pp.301-312.","10.1016/0033-5894(85)90037-7",9,"cool mixed forest",1.32755629225673,3711.81072792876,9.62520873747914,-3.3656496496867,22.0141467354762,1166.26795785068
9959,20878,23557,"SMPDSv1","Waldviertel","Dambach_a1",48.3167,15.45,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.920716841350744,3083.65368310483,8.06974122239714,-2.64890227208303,17.5950677110507,738.663648620521
9959,20879,23558,"SMPDSv1","Waldviertel","Dambach_a10",48.3167,15.45,511,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932418910405118,3065.72695694819,8.01141720465444,-2.68824961565803,17.5260677849925,747.358986378071
9959,20880,23559,"SMPDSv1","Waldviertel","Dambach_a11",48.3167,15.45,511,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932418910405118,3065.72695694819,8.01141720465444,-2.68824961565803,17.5260677849925,747.358986378071
9959,20881,23560,"SMPDSv1","Waldviertel","Dambach_a12",48.3167,15.45,511,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932418910405118,3065.72695694819,8.01141720465444,-2.68824961565803,17.5260677849925,747.358986378071
9959,20882,23561,"SMPDSv1","Waldviertel","Dambach_a13",48.3167,15.45,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2371164862763,2625.26248134381,6.53210802736211,-3.6862413299696,15.7759787513343,967.904371319568
9959,20883,23562,"SMPDSv1","Waldviertel","Dambach_a14",48.3167,15.45,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2371164862763,2625.26248134381,6.53210802736211,-3.6862413299696,15.7759787513343,967.904371319568
9959,20884,23563,"SMPDSv1","Waldviertel","Dambach_a15",48.3167,15.45,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2371164862763,2625.26248134381,6.53210802736211,-3.6862413299696,15.7759787513343,967.904371319568
9959,20885,23564,"SMPDSv1","Waldviertel","Dambach_a16",48.3167,15.45,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2371164862763,2625.26248134381,6.53210802736211,-3.6862413299696,15.7759787513343,967.904371319568
9959,20886,23565,"SMPDSv1","Waldviertel","Dambach_a162",48.5333,15.1667,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15843860402987,2746.73917198061,6.9755177977959,-3.27601981579462,16.2441352965859,904.314938643378
9959,20887,23566,"SMPDSv1","Waldviertel","Dambach_a163",48.5333,15.1667,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15843860402987,2746.73917198061,6.9755177977959,-3.27601981579462,16.2441352965859,904.314938643378
9959,20888,23567,"SMPDSv1","Waldviertel","Dambach_a164",48.5333,15.1667,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15843860402987,2746.73917198061,6.9755177977959,-3.27601981579462,16.2441352965859,904.314938643378
9959,20889,23568,"SMPDSv1","Waldviertel","Dambach_a165",48.5333,15.1667,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15843860402987,2746.73917198061,6.9755177977959,-3.27601981579462,16.2441352965859,904.314938643378
9959,20890,23569,"SMPDSv1","Waldviertel","Dambach_a166",48.5333,15.1667,710,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.15843860402987,2746.73917198061,6.9755177977959,-3.27601981579462,16.2441352965859,904.314938643378
9959,20891,23570,"SMPDSv1","Waldviertel","Dambach_a17",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20892,23571,"SMPDSv1","Waldviertel","Dambach_a18",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20893,23572,"SMPDSv1","Waldviertel","Dambach_a182",48.55,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08420833597732,2840.40498637962,7.28719470545926,-3.08206787286706,16.6217263106606,850.158907947435
9959,20894,23573,"SMPDSv1","Waldviertel","Dambach_a183",48.55,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08420833597732,2840.40498637962,7.28719470545926,-3.08206787286706,16.6217263106606,850.158907947435
9959,20895,23574,"SMPDSv1","Waldviertel","Dambach_a184",48.55,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08420833597732,2840.40498637962,7.28719470545926,-3.08206787286706,16.6217263106606,850.158907947435
9959,20896,23575,"SMPDSv1","Waldviertel","Dambach_a185",48.55,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08420833597732,2840.40498637962,7.28719470545926,-3.08206787286706,16.6217263106606,850.158907947435
9959,20897,23576,"SMPDSv1","Waldviertel","Dambach_a186",48.55,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08420833597732,2840.40498637962,7.28719470545926,-3.08206787286706,16.6217263106606,850.158907947435
9959,20898,23577,"SMPDSv1","Waldviertel","Dambach_a187",48.55,15.5167,580,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.999514882355829,2945.29151247594,7.61534251657408,-2.95955047264826,17.0580196330367,790.601810709436
9959,20899,23578,"SMPDSv1","Waldviertel","Dambach_a188",48.55,15.5167,580,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.999514882355829,2945.29151247594,7.61534251657408,-2.95955047264826,17.0580196330367,790.601810709436
9959,20900,23579,"SMPDSv1","Waldviertel","Dambach_a189",48.55,15.5167,580,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.999514882355829,2945.29151247594,7.61534251657408,-2.95955047264826,17.0580196330367,790.601810709436
9959,20901,23580,"SMPDSv1","Waldviertel","Dambach_a19",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20902,23581,"SMPDSv1","Waldviertel","Dambach_a190",48.55,15.5167,580,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.999514882355829,2945.29151247594,7.61534251657408,-2.95955047264826,17.0580196330367,790.601810709436
9959,20903,23582,"SMPDSv1","Waldviertel","Dambach_a191",48.55,15.5167,600,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0208826980237,2913.80875753099,7.51074791965843,-3.03033472459111,16.9343965186577,806.165401124663
9959,20904,23583,"SMPDSv1","Waldviertel","Dambach_a192",48.55,15.5167,600,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0208826980237,2913.80875753099,7.51074791965843,-3.03033472459111,16.9343965186577,806.165401124663
9959,20905,23584,"SMPDSv1","Waldviertel","Dambach_a193",48.55,15.5167,600,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0208826980237,2913.80875753099,7.51074791965843,-3.03033472459111,16.9343965186577,806.165401124663
9959,20906,23585,"SMPDSv1","Waldviertel","Dambach_a194",48.55,15.5167,600,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.0208826980237,2913.80875753099,7.51074791965843,-3.03033472459111,16.9343965186577,806.165401124663
9959,20907,23586,"SMPDSv1","Waldviertel","Dambach_a2",48.3167,15.45,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.920716841350744,3083.65368310483,8.06974122239714,-2.64890227208303,17.5950677110507,738.663648620521
9959,20908,23587,"SMPDSv1","Waldviertel","Dambach_a20",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20909,23588,"SMPDSv1","Waldviertel","Dambach_a206",48.5667,15.15,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14594985459546,2761.41140742506,7.02534371205676,-3.2419433500313,16.3028112245811,894.320199269555
9959,20910,23589,"SMPDSv1","Waldviertel","Dambach_a207",48.5667,15.15,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14594985459546,2761.41140742506,7.02534371205676,-3.2419433500313,16.3028112245811,894.320199269555
9959,20911,23590,"SMPDSv1","Waldviertel","Dambach_a208",48.5667,15.15,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14594985459546,2761.41140742506,7.02534371205676,-3.2419433500313,16.3028112245811,894.320199269555
9959,20912,23591,"SMPDSv1","Waldviertel","Dambach_a209",48.5667,15.15,700,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14594985459546,2761.41140742506,7.02534371205676,-3.2419433500313,16.3028112245811,894.320199269555
9959,20913,23592,"SMPDSv1","Waldviertel","Dambach_a21",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20914,23593,"SMPDSv1","Waldviertel","Dambach_a210",48.5667,15.1667,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10887194299748,2808.35243554041,7.18159483337476,-3.1450827769825,16.4922850548265,867.514507944949
9959,20915,23594,"SMPDSv1","Waldviertel","Dambach_a211",48.5667,15.1667,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10887194299748,2808.35243554041,7.18159483337476,-3.1450827769825,16.4922850548265,867.514507944949
9959,20916,23595,"SMPDSv1","Waldviertel","Dambach_a212",48.5667,15.1667,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10887194299748,2808.35243554041,7.18159483337476,-3.1450827769825,16.4922850548265,867.514507944949
9959,20917,23596,"SMPDSv1","Waldviertel","Dambach_a213",48.5667,15.1667,670,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.10887194299748,2808.35243554041,7.18159483337476,-3.1450827769825,16.4922850548265,867.514507944949
9959,20918,23597,"SMPDSv1","Waldviertel","Dambach_a214",48.5667,15.3667,590,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00958191114825,2930.64537976529,7.56908767569158,-2.9796158337887,16.9978838984584,797.192907145246
9959,20919,23598,"SMPDSv1","Waldviertel","Dambach_a215",48.5667,15.3667,590,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00958191114825,2930.64537976529,7.56908767569158,-2.9796158337887,16.9978838984584,797.192907145246
9959,20920,23599,"SMPDSv1","Waldviertel","Dambach_a216",48.5667,15.3667,590,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00958191114825,2930.64537976529,7.56908767569158,-2.9796158337887,16.9978838984584,797.192907145246
9959,20921,23600,"SMPDSv1","Waldviertel","Dambach_a217",48.5667,15.3667,590,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00958191114825,2930.64537976529,7.56908767569158,-2.9796158337887,16.9978838984584,797.192907145246
9959,20922,23601,"SMPDSv1","Waldviertel","Dambach_a218",48.5667,15.3667,590,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.00958191114825,2930.64537976529,7.56908767569158,-2.9796158337887,16.9978838984584,797.192907145246
9959,20923,23602,"SMPDSv1","Waldviertel","Dambach_a219",48.5667,15.3833,540,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.955373844391976,3009.61027585393,7.82944248985398,-2.80576120243672,17.3066459367324,757.459751412671
9959,20924,23603,"SMPDSv1","Waldviertel","Dambach_a22",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20925,23604,"SMPDSv1","Waldviertel","Dambach_a220",48.5667,15.3833,540,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.955373844391976,3009.61027585393,7.82944248985398,-2.80576120243672,17.3066459367324,757.459751412671
9959,20926,23605,"SMPDSv1","Waldviertel","Dambach_a221",48.5667,15.3833,540,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.955373844391976,3009.61027585393,7.82944248985398,-2.80576120243672,17.3066459367324,757.459751412671
9959,20927,23606,"SMPDSv1","Waldviertel","Dambach_a222",48.5667,15.3833,540,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.955373844391976,3009.61027585393,7.82944248985398,-2.80576120243672,17.3066459367324,757.459751412671
9959,20928,23607,"SMPDSv1","Waldviertel","Dambach_a223",48.5667,15.4167,610,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03135478576942,2898.66960139809,7.4619876766768,-3.05548925927768,16.8729602347476,813.163047877951
9959,20929,23608,"SMPDSv1","Waldviertel","Dambach_a224",48.5667,15.4167,610,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03135478576942,2898.66960139809,7.4619876766768,-3.05548925927768,16.8729602347476,813.163047877951
9959,20930,23609,"SMPDSv1","Waldviertel","Dambach_a225",48.5667,15.4167,610,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03135478576942,2898.66960139809,7.4619876766768,-3.05548925927768,16.8729602347476,813.163047877951
9959,20931,23610,"SMPDSv1","Waldviertel","Dambach_a226",48.5667,15.4167,610,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.03135478576942,2898.66960139809,7.4619876766768,-3.05548925927768,16.8729602347476,813.163047877951
9959,20932,23611,"SMPDSv1","Waldviertel","Dambach_a227",48.5667,15.5167,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04181548555198,2881.90293649873,7.4042805161133,-3.10239233667163,16.8084480314083,820.88229920936
9959,20933,23612,"SMPDSv1","Waldviertel","Dambach_a228",48.5667,15.5167,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04181548555198,2881.90293649873,7.4042805161133,-3.10239233667163,16.8084480314083,820.88229920936
9959,20934,23613,"SMPDSv1","Waldviertel","Dambach_a229",48.5667,15.5167,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04181548555198,2881.90293649873,7.4042805161133,-3.10239233667163,16.8084480314083,820.88229920936
9959,20935,23614,"SMPDSv1","Waldviertel","Dambach_a23",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20936,23615,"SMPDSv1","Waldviertel","Dambach_a230",48.5667,15.5167,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04181548555198,2881.90293649873,7.4042805161133,-3.10239233667163,16.8084480314083,820.88229920936
9959,20937,23616,"SMPDSv1","Waldviertel","Dambach_a231",48.5667,15.5167,620,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.04181548555198,2881.90293649873,7.4042805161133,-3.10239233667163,16.8084480314083,820.88229920936
9959,20938,23617,"SMPDSv1","Waldviertel","Dambach_a24",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20939,23618,"SMPDSv1","Waldviertel","Dambach_a247",48.5833,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08354456049118,2839.33641456021,7.28375566200528,-3.08392017638127,16.6174044692397,848.793502328291
9959,20940,23619,"SMPDSv1","Waldviertel","Dambach_a248",48.5833,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08354456049118,2839.33641456021,7.28375566200528,-3.08392017638127,16.6174044692397,848.793502328291
9959,20941,23620,"SMPDSv1","Waldviertel","Dambach_a249",48.5833,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08354456049118,2839.33641456021,7.28375566200528,-3.08392017638127,16.6174044692397,848.793502328291
9959,20942,23621,"SMPDSv1","Waldviertel","Dambach_a25",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20943,23622,"SMPDSv1","Waldviertel","Dambach_a250",48.5833,15.2,650,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.08354456049118,2839.33641456021,7.28375566200528,-3.08392017638127,16.6174044692397,848.793502328291
9959,20944,23623,"SMPDSv1","Waldviertel","Dambach_a26",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20945,23624,"SMPDSv1","Waldviertel","Dambach_a27",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20946,23625,"SMPDSv1","Waldviertel","Dambach_a28",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20947,23626,"SMPDSv1","Waldviertel","Dambach_a29",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20948,23627,"SMPDSv1","Waldviertel","Dambach_a3",48.3167,15.45,500,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.920716841350744,3083.65368310483,8.06974122239714,-2.64890227208303,17.5950677110507,738.663648620521
9959,20949,23628,"SMPDSv1","Waldviertel","Dambach_a30",48.3833,15.3833,790,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2369577030982,2624.66749692454,6.53193366851325,-3.67907784520311,15.7719952255741,965.881781088837
9959,20950,23629,"SMPDSv1","Waldviertel","Dambach_a31",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20951,23630,"SMPDSv1","Waldviertel","Dambach_a32",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20952,23631,"SMPDSv1","Waldviertel","Dambach_a33",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20953,23632,"SMPDSv1","Waldviertel","Dambach_a34",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20954,23633,"SMPDSv1","Waldviertel","Dambach_a35",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20955,23634,"SMPDSv1","Waldviertel","Dambach_a36",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20956,23635,"SMPDSv1","Waldviertel","Dambach_a37",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20957,23636,"SMPDSv1","Waldviertel","Dambach_a38",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20958,23637,"SMPDSv1","Waldviertel","Dambach_a39",48.3833,15.65,190,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.610229053364056,3596.37898271637,9.68600585923693,-1.55837728512434,19.5078263792482,501.554931955278
9959,20959,23638,"SMPDSv1","Waldviertel","Dambach_a4",48.3167,15.45,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.942010283258557,3051.11258107403,7.96369755377404,-2.72044289676486,17.4696133000358,754.473353634249
9959,20960,23639,"SMPDSv1","Waldviertel","Dambach_a40",48.45,14.7833,840,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.333799399032,2546.88965058729,6.31345789518253,-3.62744744230284,15.4111631230982,1030.19598906549
9959,20961,23640,"SMPDSv1","Waldviertel","Dambach_a41",48.45,14.7833,840,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.333799399032,2546.88965058729,6.31345789518253,-3.62744744230284,15.4111631230982,1030.19598906549
9959,20962,23641,"SMPDSv1","Waldviertel","Dambach_a42",48.45,14.7833,840,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.333799399032,2546.88965058729,6.31345789518253,-3.62744744230284,15.4111631230982,1030.19598906549
9959,20963,23642,"SMPDSv1","Waldviertel","Dambach_a43",48.45,14.7833,840,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.333799399032,2546.88965058729,6.31345789518253,-3.62744744230284,15.4111631230982,1030.19598906549
9959,20964,23643,"SMPDSv1","Waldviertel","Dambach_a44",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20965,23644,"SMPDSv1","Waldviertel","Dambach_a45",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20966,23645,"SMPDSv1","Waldviertel","Dambach_a46",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20967,23646,"SMPDSv1","Waldviertel","Dambach_a47",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20968,23647,"SMPDSv1","Waldviertel","Dambach_a48",48.45,14.7833,860,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.35938780478019,2516.50121569664,6.20944599594262,-3.69059592899416,15.284682614223,1048.27520477934
9959,20969,23648,"SMPDSv1","Waldviertel","Dambach_a49",48.45,14.7833,860,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.35938780478019,2516.50121569664,6.20944599594262,-3.69059592899416,15.284682614223,1048.27520477934
9959,20970,23649,"SMPDSv1","Waldviertel","Dambach_a5",48.3167,15.45,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.942010283258557,3051.11258107403,7.96369755377404,-2.72044289676486,17.4696133000358,754.473353634249
9959,20971,23650,"SMPDSv1","Waldviertel","Dambach_a50",48.45,14.7833,860,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.35938780478019,2516.50121569664,6.20944599594262,-3.69059592899416,15.284682614223,1048.27520477934
9959,20972,23651,"SMPDSv1","Waldviertel","Dambach_a51",48.45,14.7833,860,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.35938780478019,2516.50121569664,6.20944599594262,-3.69059592899416,15.284682614223,1048.27520477934
9959,20973,23652,"SMPDSv1","Waldviertel","Dambach_a52",48.45,14.7833,860,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.35938780478019,2516.50121569664,6.20944599594262,-3.69059592899416,15.284682614223,1048.27520477934
9959,20974,23653,"SMPDSv1","Waldviertel","Dambach_a53",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20975,23654,"SMPDSv1","Waldviertel","Dambach_a54",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20976,23655,"SMPDSv1","Waldviertel","Dambach_a55",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20977,23656,"SMPDSv1","Waldviertel","Dambach_a56",48.45,14.7833,850,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.34658268317856,2531.67849516526,6.26145194556257,-3.6590216856485,15.3479228686606,1039.23559692241
9959,20978,23657,"SMPDSv1","Waldviertel","Dambach_a57",48.45,14.8167,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40963218154713,2456.24269525538,5.99997020224383,-3.82431538487809,15.0333267145871,1083.72895034874
9959,20979,23658,"SMPDSv1","Waldviertel","Dambach_a58",48.45,14.8167,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40963218154713,2456.24269525538,5.99997020224383,-3.82431538487809,15.0333267145871,1083.72895034874
9959,20980,23659,"SMPDSv1","Waldviertel","Dambach_a59",48.45,14.8167,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40963218154713,2456.24269525538,5.99997020224383,-3.82431538487809,15.0333267145871,1083.72895034874
9959,20981,23660,"SMPDSv1","Waldviertel","Dambach_a6",48.3167,15.45,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.942010283258557,3051.11258107403,7.96369755377404,-2.72044289676486,17.4696133000358,754.473353634249
9959,20982,23661,"SMPDSv1","Waldviertel","Dambach_a60",48.45,14.8167,900,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.40963218154713,2456.24269525538,5.99997020224383,-3.82431538487809,15.0333267145871,1083.72895034874
9959,20983,23662,"SMPDSv1","Waldviertel","Dambach_a61",48.45,14.8167,890,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39675538661951,2471.27535916733,6.05202665590432,-3.79260056684626,15.0965820002557,1074.70255107257
9959,20984,23663,"SMPDSv1","Waldviertel","Dambach_a62",48.45,14.8167,890,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39675538661951,2471.27535916733,6.05202665590432,-3.79260056684626,15.0965820002557,1074.70255107257
9959,20985,23664,"SMPDSv1","Waldviertel","Dambach_a63",48.45,14.8167,890,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39675538661951,2471.27535916733,6.05202665590432,-3.79260056684626,15.0965820002557,1074.70255107257
9959,20986,23665,"SMPDSv1","Waldviertel","Dambach_a64",48.45,14.8167,890,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.39675538661951,2471.27535916733,6.05202665590432,-3.79260056684626,15.0965820002557,1074.70255107257
9959,20987,23666,"SMPDSv1","Waldviertel","Dambach_a65",48.45,15.0333,970,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49151782528583,2352.25541668071,5.62335871114375,-4.10221277376613,14.5999686668899,1141.38690816507
9959,20988,23667,"SMPDSv1","Waldviertel","Dambach_a66",48.45,15.0333,970,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49151782528583,2352.25541668071,5.62335871114375,-4.10221277376613,14.5999686668899,1141.38690816507
9959,20989,23668,"SMPDSv1","Waldviertel","Dambach_a67",48.45,15.0333,970,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49151782528583,2352.25541668071,5.62335871114375,-4.10221277376613,14.5999686668899,1141.38690816507
9959,20990,23669,"SMPDSv1","Waldviertel","Dambach_a68",48.45,15.0333,970,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.49151782528583,2352.25541668071,5.62335871114375,-4.10221277376613,14.5999686668899,1141.38690816507
9959,20991,23670,"SMPDSv1","Waldviertel","Dambach_a69",48.45,15.0333,940,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45286505000806,2396.81562648073,5.7804945630863,-4.0042257192736,14.7899606738653,1114.61543866961
9959,20992,23671,"SMPDSv1","Waldviertel","Dambach_a7",48.3167,15.45,520,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.942010283258557,3051.11258107403,7.96369755377404,-2.72044289676486,17.4696133000358,754.473353634249
9959,20993,23672,"SMPDSv1","Waldviertel","Dambach_a70",48.45,15.0333,940,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45286505000806,2396.81562648073,5.7804945630863,-4.0042257192736,14.7899606738653,1114.61543866961
9959,20994,23673,"SMPDSv1","Waldviertel","Dambach_a71",48.45,15.0333,940,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45286505000806,2396.81562648073,5.7804945630863,-4.0042257192736,14.7899606738653,1114.61543866961
9959,20995,23674,"SMPDSv1","Waldviertel","Dambach_a72",48.45,15.0333,940,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45286505000806,2396.81562648073,5.7804945630863,-4.0042257192736,14.7899606738653,1114.61543866961
9959,20996,23675,"SMPDSv1","Waldviertel","Dambach_a73",48.45,15.0333,940,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.45286505000806,2396.81562648073,5.7804945630863,-4.0042257192736,14.7899606738653,1114.61543866961
9959,20997,23676,"SMPDSv1","Waldviertel","Dambach_a74",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,20998,23677,"SMPDSv1","Waldviertel","Dambach_a75",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,20999,23678,"SMPDSv1","Waldviertel","Dambach_a76",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,21000,23679,"SMPDSv1","Waldviertel","Dambach_a77",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,21001,23680,"SMPDSv1","Waldviertel","Dambach_a78",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,21002,23681,"SMPDSv1","Waldviertel","Dambach_a79",48.45,15.0333,950,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.46572620901925,2381.90540431186,5.72811594577212,-4.03688807077111,14.7266300048735,1123.53926183476
9959,21003,23682,"SMPDSv1","Waldviertel","Dambach_a8",48.3167,15.45,511,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932418910405118,3065.72695694819,8.01141720465444,-2.68824961565803,17.5260677849925,747.358986378071
9959,21004,23683,"SMPDSv1","Waldviertel","Dambach_a80",48.45,15.0333,1000,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53037960443128,2308.02716824056,5.46622285920121,-4.20019982825867,14.4099766599146,1168.15837766054
9959,21005,23684,"SMPDSv1","Waldviertel","Dambach_a81",48.45,15.0333,1000,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53037960443128,2308.02716824056,5.46622285920121,-4.20019982825867,14.4099766599146,1168.15837766054
9959,21006,23685,"SMPDSv1","Waldviertel","Dambach_a82",48.45,15.0333,1000,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53037960443128,2308.02716824056,5.46622285920121,-4.20019982825867,14.4099766599146,1168.15837766054
9959,21007,23686,"SMPDSv1","Waldviertel","Dambach_a83",48.45,15.0333,1000,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53037960443128,2308.02716824056,5.46622285920121,-4.20019982825867,14.4099766599146,1168.15837766054
9959,21008,23687,"SMPDSv1","Waldviertel","Dambach_a84",48.45,15.0333,1000,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.53037960443128,2308.02716824056,5.46622285920121,-4.20019982825867,14.4099766599146,1168.15837766054
9959,21009,23688,"SMPDSv1","Waldviertel","Dambach_a85",48.45,15.1667,816,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29097603505749,2584.49535325786,6.42501888333748,-3.62525497967035,15.5811732306145,1001.43345996228
9959,21010,23689,"SMPDSv1","Waldviertel","Dambach_a86",48.45,15.1667,816,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29097603505749,2584.49535325786,6.42501888333748,-3.62525497967035,15.5811732306145,1001.43345996228
9959,21011,23690,"SMPDSv1","Waldviertel","Dambach_a87",48.45,15.1667,816,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29097603505749,2584.49535325786,6.42501888333748,-3.62525497967035,15.5811732306145,1001.43345996228
9959,21012,23691,"SMPDSv1","Waldviertel","Dambach_a88",48.45,15.1667,816,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.29097603505749,2584.49535325786,6.42501888333748,-3.62525497967035,15.5811732306145,1001.43345996228
9959,21013,23692,"SMPDSv1","Waldviertel","Dambach_a89",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21014,23693,"SMPDSv1","Waldviertel","Dambach_a9",48.3167,15.45,511,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.932418910405118,3065.72695694819,8.01141720465444,-2.68824961565803,17.5260677849925,747.358986378071
9959,21015,23694,"SMPDSv1","Waldviertel","Dambach_a90",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21016,23695,"SMPDSv1","Waldviertel","Dambach_a91",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21017,23696,"SMPDSv1","Waldviertel","Dambach_a92",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21018,23697,"SMPDSv1","Waldviertel","Dambach_a93",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21019,23698,"SMPDSv1","Waldviertel","Dambach_a94",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21020,23699,"SMPDSv1","Waldviertel","Dambach_a95",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21021,23700,"SMPDSv1","Waldviertel","Dambach_a96",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21022,23701,"SMPDSv1","Waldviertel","Dambach_a97",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9959,21023,23702,"SMPDSv1","Waldviertel","Dambach_a98",48.45,15.1667,770,"not applicable","terrestrial","moss polster or moss","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.2338252357252,2655.35331859068,6.66684742528454,-3.47220388589603,15.8726233914466,960.738957458404
9960,21024,13419,"Neotoma","Walker Lake","WALKER",48.529167,-124.002222,950,"not known","lake","core","23","Brown, K.J., and R.J. Hebda. 2002. Origin, development, and dynamics of coastal temperate conifer rainforests of southern Vancouver Island, Canada. Canadian Journal of Forest Research 32:353-372.; Brown, K.J., and R.J. Hebda. 2003. Coastal rainforest connections disclosed through a Late Quaternary vegetation, climate, and fire history investigation from the Mountain Hemlock Zone on southern Vancouver Island, British Columbia, Canada. Review of Palaeobotany and Palynology 123: 247-269.",,8,"cool evergreen needleleaf forest",2.97485961111808,2364.63977143041,6.47692009333234,0.144489312247935,14.1189872832767,2242.67949668386
9961,21025,11624,"Neotoma","Wall Lake","WAL-1C",43.53382,-96.9608,520,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.634711862389837,3496.29150722346,7.29673636494102,-10.468562319434,23.0661636029933,589.149730616665
9961,21026,11623,"Neotoma","Wall Lake","WAL-1M",43.53382,-96.9608,520,"not known","lake","surface sample","-60","Parker, N.E., and J.W. Williams. 2011. The influence of climate, cattle density, and lake morphology on Sporomiella abundances in modern lake sediments in the US Great Plains. The Holocene 22(4):475-483. http://hol.sagepub.com/content/early/2011/11/28/0959683611425550.","10.1177/0959683611425550",22,"steppe",0.634711862389837,3496.29150722346,7.29673636494102,-10.468562319434,23.0661636029933,589.149730616665
9962,21027,11808,"Neotoma","Wallace Lake","LMSJ20",37.422625,-107.769955,2550,"not known","lake","surface sample","-10","Maher, L.J., Jr. 1961. Pollen analysis and postglacial vegetation history in the Animas Valley Region, Southern San Juan Mountains, Colorado. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Maher, L.J., Jr. 1963. Pollen analyses of surface materials from the Southern San Juan Mountains, Colorado. Geological Society of America Bulletin 74(12):1485-1503.","10.1130/0016-7606(1963)74[1485:PAOSMF]2.0.CO;2",17,"temperate evergreen needleleaf open woodland",0.409952542667007,2370.0414857834,4.65449385588657,-7.95359901703083,17.084871678139,470.118789339993
9963,21028,23703,"SMPDSv1","Wallbach, Lenk","EPDcoretop_E1170",46.42736111,7.402208333,1885,"not known","terrestrial, bog/fen/swamp","peat core top","-9","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.3681407985021,1450.07349429878,2.62113494732565,-4.9058506743393,10.7618404609797,1821.38247747568
9964,21029,17654,"Phelps et al., 2020","Wandakara Lake","WANDAK_0.5",0.416667,30.266667,1171,"0.04","lake","core","1","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9964,21030,17655,"Phelps et al., 2020","Wandakara Lake","WANDAK_10.5",0.416667,30.266667,1171,"0.04","lake","core","31","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9964,21031,17656,"Phelps et al., 2020","Wandakara Lake","WANDAK_15.5",0.416667,30.266667,1171,"0.04","lake","core","45","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9964,21032,17657,"Phelps et al., 2020","Wandakara Lake","WANDAK_3.5",0.416667,30.266667,1171,"0.04","lake","core","10","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9964,21033,17658,"Phelps et al., 2020","Wandakara Lake","WANDAK_5.5",0.416667,30.266667,1171,"0.04","lake","core","16","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9964,21034,17659,"Phelps et al., 2020","Wandakara Lake","WANDAK_7.5",0.416667,30.266667,1171,"0.04","lake","core","22","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",0.824939385852189,7948.48625436307,21.7766746694879,21.0751889904608,22.513900513809,1203.10702842179
9965,21035,1586,"Australian pollen","Wangil Swamp","Wangil Swamp core",-5.9167,134.2,1,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",1,"tropical evergreen broadleaf forest",1.83443173883959,9754.34949434661,26.7242451899907,25.5879959128959,27.444122631433,2606.20856380914
9966,21036,1587,"Australian pollen","Wanteen","Wanteen",-31.707,128.417,65,"not known","not known","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.177621904357619,6408.89713549016,17.5586222890141,11.7176013894741,22.8155401840071,253.473013270423
9967,21037,1588,"Australian pollen","Wanum","Lake Wanum-Jones",-6.6333,146.7833,35,"3.7","lake","core top","-20","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.29431653920953,9381.25565600206,25.7020702904166,24.8868509591703,26.1655900426308,3218.72901555418
9968,21038,16564,"Neotoma","Ward Pond","KG058",44.42,-69.8,97,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.47638827559406,2984.75461224401,6.49181784447135,-7.80127288543763,19.7736909265257,1162.06547755347
9969,21039,15243,"Neotoma","Wardsg17","AMD010",42.32,-89.93,274,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.937371473957678,3609.73687928954,8.16077509092501,-8.71584971559368,22.4688970939134,854.5031987201
9970,21040,15238,"Neotoma","Wardsg28","AMD005",42.3,-89.93,274,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.937307743558322,3610.41356514148,8.16360109311263,-8.71268962085482,22.4708458439068,854.753763199699
9971,21041,14948,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","-64","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14949,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","-45.554","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14950,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","-26.788","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14951,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","-8.022","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14952,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","10.744","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14953,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","29.51","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9971,21041,14954,"Neotoma","Ware Pond","WAREMA",42.48245,-70.88225,3,"not known","lake","core","48.276","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.35473627298564,3808.8814695314,10.0194670645312,-2.73796598562362,22.25391703269,1199.0295784841
9972,21042,11944,"Neotoma","Warm Springs Lake","WRMSPGP1",36.69023,-112.281975,2353,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.316174649647564,2801.07969716734,7.11654439127408,-3.27131577602949,18.8807981315103,396.308203683588
9973,21043,1589,"Australian pollen","Warrananga Salt Lake","Warrananga core",-33.97,141.56,-4179,"medium (1.1-50 km2)","lacustrine, drained lake","core top","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9973,21044,1590,"Australian pollen","Warrananga Salt Lake","Warrananga ss_2",-33.97,141.56,-4179,"medium (1.1-50 km2)","lacustrine, drained lake","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",,"not applicable",,,,,,
9973,21045,1591,"Australian pollen","Warrananga Salt Lake","Warrananga_ss_1",-33.9672,141.5517,85,"medium (1.1-50 km2)","lacustrine, drained lake","surface sample","-55","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.198205966264459,6297.16986378352,17.2525201747494,10.15021448312,24.4652877547311,278.372376441505
9974,21046,1592,"Australian pollen","Warrimoo Creek Swamp","WO 1",-33.7,150.6,200,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.801803227223352,5963.86709342015,16.3393618997812,10.046994820445,21.8165686914751,1031.95100462552
9974,21047,1593,"Australian pollen","Warrimoo Creek Swamp","WO 2",-33.7,150.6,200,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.801803227223352,5963.86709342015,16.3393618997812,10.046994820445,21.8165686914751,1031.95100462552
9974,21048,1594,"Australian pollen","Warrimoo Creek Swamp","WO 3",-33.7,150.6,200,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.801803227223352,5963.86709342015,16.3393618997812,10.046994820445,21.8165686914751,1031.95100462552
9974,21049,1595,"Australian pollen","Warrimoo Creek Swamp","WO 4",-33.7,150.6,200,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.801803227223352,5963.86709342015,16.3393618997812,10.046994820445,21.8165686914751,1031.95100462552
9974,21050,1596,"Australian pollen","Warrimoo Creek Swamp","WO 5",-33.7,150.6,200,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.801803227223352,5963.86709342015,16.3393618997812,10.046994820445,21.8165686914751,1031.95100462552
9975,21051,1597,"Australian pollen","Warrimoo Oval Swamp","Warrimoo Oval Swamp_JC91",-33.72,150.61,195,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.805316816886068,5972.74746860658,16.3636916948126,10.0868580852338,21.8215880521088,1035.47441347288
9976,21052,1598,"Australian pollen","Waruid","Waruid 1_1",-10.0667,142.15,1,"not known","coastal, other","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23078279800561,9822.83770757014,26.9118841303291,25.3130320178762,28.1618301827126,1880.58893270884
9976,21053,1599,"Australian pollen","Waruid","Waruid 1_16",-10.0667,142.15,1,"not known","coastal, other","core","27","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",1,"tropical evergreen broadleaf forest",1.23078279800561,9822.83770757014,26.9118841303291,25.3130320178762,28.1618301827126,1880.58893270884
9977,21054,23704,"SMPDSv1","Waschhorn","EPDcoretop_E1275",53.615,8.736944,10,"0.002827","terrestrial, marsh","core top","-45","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.21387428595285,3186.40470245701,8.72987589714248,0.727152680170668,16.6084058662424,783.786653365907
9978,21055,23705,"SMPDSv1","Wasenmoos beim Zellhof","EPDcoretop_E713",47.983333,13.1,505,"0.07","terrestrial, bog/fen/swamp","peat core top","-21","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",1.14824668473785,3040.10771756386,8.01989783412336,-2.18255141851652,17.2800752345994,902.473205364282
9979,21056,17553,"Neotoma","Washbowl Pond","WASH_C90",44.04957,-74.948845,515,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.34104284468377,2744.65955299385,5.27030117907159,-9.5203643585391,18.5933408890383,1040.63326649008
9980,21057,16752,"Neotoma","Waskesiu","RJM014",53.833333,-106.066667,524,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.648747807034608,2166.18895130072,0.123049340855335,-19.8636800921312,16.7057798184436,439.119655347313
9981,21058,14841,"Neotoma","Watcha Pond","WATCHA",41.358695,-70.612455,1,"not known","lake","core","-41","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36286726913998,3942.23191695849,10.559609359202,-1.79389348120014,22.4391436084217,1239.46036810794
9981,21058,14842,"Neotoma","Watcha Pond","WATCHA",41.358695,-70.612455,1,"not known","lake","core","20","Stevens, A. 1996. The paleoecology of coastal sandplain grasslands on Martha's Vineyard, Massachusetts. Doctoral dissertation. University of Massachusetts, Amherst, Massachusetts, USA.",,9,"cool mixed forest",1.36286726913998,3942.23191695849,10.559609359202,-1.79389348120014,22.4391436084217,1239.46036810794
9982,21059,17400,"Neotoma","Watcheer Pond","TW107",43.05,-83.82,181,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.905643562456684,3477.68378417321,8.36641466398909,-5.92332578876555,21.5481817240322,799.283810700579
9983,21060,13420,"Neotoma","Watchtower Basin","WATCHTWR",52.783333,-117.083333,2225,"not known","terrestrial, bog/fen/swamp","core","0","Kearney, M.S. 1981. Late Quaternary vegetational and environmental history of Jasper National Park, Alberta. Dissertation. University of Western Ontario, London, Ontario, Canada.; Kearney, M.S., and B.H. Luckman. 1983. Holocene timberline fluctuations in Jasper National Park, Alberta. Science 221:261-263.; Luckman, B.H., and M.S. Kearney. 1986. Reconstruction of Holocene changes in alpine vegetation and climate in the Maligne Range, Jasper National Park, Alberta. Quaternary Research 26:244-261.",,15,"cold evergreen needleleaf forest",1.80693558414467,846.958404950925,-2.41786885097283,-12.6558828830831,8.13123258398105,1095.49089568649
9984,21061,13423,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","-41","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13424,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","-32","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13425,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","-23","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13426,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","-15","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13427,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","-6","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13428,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","2","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13429,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","11","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13430,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","20","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13431,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","28","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13432,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","37","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9984,21061,13433,"Neotoma","Water Conservation Area 2A, Site 2 (Site F1)","WCA2AF1",26.359722,-80.370556,5,"not known","terrestrial, marsh","core","46","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.925602518517804,8718.05092054707,23.8850710151975,18.4855538638538,28.2654701674352,1338.59911513047
9985,21062,13434,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","-37","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9985,21062,13435,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","-21","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9985,21062,13436,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","-5","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9985,21062,13437,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","11","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9985,21062,13438,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","27","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9985,21062,13439,"Neotoma","Water Conservation Area 2A, Site 3 (Site U3)","WCA2AU3",26.2875,-80.411389,5,"not known","terrestrial, marsh","core","49","Willard, D.A. 1997. Pollen census data from Southern Florida: sites along a nutrient gradient in Water Conservation Area 2A. U.S. Geological Survey Open-File Report 97-497.; Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,4,"warm-temperate evergreen and mixed forest",0.923891890258947,8724.14274130109,23.9017609350715,18.5148755553001,28.2715990483307,1337.50112015037
9986,21063,15536,"Neotoma","Water Conservation Area 3A, Site 3-4-1","DAW007",26.166944,-80.469444,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.920237915992172,8713.40097521228,23.8723314389378,18.4703149075934,28.2464530089672,1332.67112230308
9987,21064,15537,"Neotoma","Water Conservation Area 3A, Site 3-4-2","DAW008",26.19,-80.523056,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,22,"steppe",0.919530815358364,8713.31859822424,23.8721057485595,18.4688015453619,28.2475891568754,1331.50197161283
9988,21065,15538,"Neotoma","Water Conservation Area 3A, Site 3-4-3","DAW009",26.170278,-80.608611,7,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,22,"steppe",0.919140568208544,8675.10223411713,23.7674033811428,18.2864590427774,28.2033340446605,1328.80953894188
9989,21066,15539,"Neotoma","Water Conservation Area 3A, Site 3-4-4","DAW010",26.035833,-80.469444,6,"not known","terrestrial, marsh","surface sample","Modern","Willard, D.A. and Weimer, L.M., 1997. Palynological census data from surface samples in south Florida. US Geological Survey Open-File Report, 97, p.867.",,17,"temperate evergreen needleleaf open woodland",0.918422598053144,8717.95682790849,23.8848132271465,18.4927127281378,28.2500888951844,1331.99771452111
9990,21067,13440,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","-38","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13441,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","-24","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13442,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","-11","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13443,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","2","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13444,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","15","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13445,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","29","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9990,21067,13446,"Neotoma","Water Conservation Area 3A, Site 4 (CA315 (AAS))","WCA3A15",25.974,-80.6688,5,"not known","terrestrial, marsh","core","44","Willard, D.A., and L.M. Weimer. 1997. Palynological census data from surface samples in south Florida. U.S. Geological Survey Open-File Report 97-867.; Willard, D.A., C.W. Holmes, and L.M. Weimer. 2001. The Florida Everglades ecosystem: climatic and anthropogenic impacts over the last two millennia. Bulletins of American Paleontology 361:41-55.",,17,"temperate evergreen needleleaf open woodland",0.910635302630833,8765.03045559384,24.0137820701201,18.7130248759599,28.3088397148154,1325.45744779159
9991,21068,12668,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Dry Head","GUMLIMDH",25.773889,-80.505556,5,"not known","coastal, other","core","-37","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910397628200479,8771.22541170204,24.0307545526083,18.7480485892425,28.3098185573688,1327.65405210053
9991,21068,12669,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Dry Head","GUMLIMDH",25.773889,-80.505556,5,"not known","coastal, other","core","50","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910397628200479,8771.22541170204,24.0307545526083,18.7480485892425,28.3098185573688,1327.65405210053
9992,21069,12670,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Far Tail","GUMLIMFT",25.774722,-80.505556,5,"not known","terrestrial, marsh","core","-38","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910412005654227,8771.19305777694,24.0306659117176,18.747888361406,28.3097917376986,1327.66216033149
9993,21070,12671,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Marsh","GUMLIMM",25.778889,-80.511111,5,"not known","terrestrial, marsh","core","-34","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910359635545069,8771.1100090627,24.0304383809937,18.7473362836263,28.3098710979047,1327.54421499421
9993,21070,12672,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Marsh","GUMLIMM",25.778889,-80.511111,5,"not known","terrestrial, marsh","core","-6","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910359635545069,8771.1100090627,24.0304383809937,18.7473362836263,28.3098710979047,1327.54421499421
9993,21070,12673,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Marsh","GUMLIMM",25.778889,-80.511111,5,"not known","terrestrial, marsh","core","22","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910359635545069,8771.1100090627,24.0304383809937,18.7473362836263,28.3098710979047,1327.54421499421
9993,21070,12674,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Marsh","GUMLIMM",25.778889,-80.511111,5,"not known","terrestrial, marsh","core","50","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910359635545069,8771.1100090627,24.0304383809937,18.7473362836263,28.3098710979047,1327.54421499421
9994,21071,12675,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Wet Head","GUMLIMWH",25.773611,-80.506389,5,"not known","coastal, other","core","-43","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910374140508554,8771.24810406749,24.0308167234726,18.748139882018,28.30985961258,1327.62751512455
9994,21071,12676,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Wet Head","GUMLIMWH",25.773611,-80.506389,5,"not known","coastal, other","core","-2","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910374140508554,8771.24810406749,24.0308167234726,18.748139882018,28.30985961258,1327.62751512455
9994,21071,12677,"Neotoma","Water Conservation Area 3B, Gumbo Limbo Wet Head","GUMLIMWH",25.773611,-80.506389,5,"not known","coastal, other","core","50","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.910374140508554,8771.24810406749,24.0308167234726,18.748139882018,28.30985961258,1327.62751512455
9995,21072,13001,"Neotoma","Water Conservation Area 3B, Nuthouse Far Tail","NUTHSFT",25.885556,-80.556667,5,"not known","terrestrial","core","-23","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.911294613836322,8767.43120328587,24.0203594610572,18.7279149756111,28.3079793750449,1327.41379450995
9996,21073,13002,"Neotoma","Water Conservation Area 3B, Nuthouse Head","NUTHSH",25.889167,-80.5125,5,"not known","terrestrial","core","-38","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.912319750255897,8766.69729151975,24.0183487438897,18.7254116674556,28.3062026371759,1328.67530102696
9996,21073,13003,"Neotoma","Water Conservation Area 3B, Nuthouse Head","NUTHSH",25.889167,-80.5125,5,"not known","terrestrial","core","47","Willard, D.A., L.M. Weimer, and W.L. Riegel. 2001. Pollen assemblages as paleoenvironmental proxies in the Florida Everglades. Review of Palaeobotany and Palynology 113(4):213-235. Willard, D.A., C.W. Holmes, M.S. Korvela, D. Mason, J.B. Murray, W.H. Orem, and D.T. Towles. 2002. Paleoecological insights on fixed tree island development in the Florida Everglades:1. Environmental controls. Pages 117-152. F. Sklar and A. van der Valk, editors. Tree Islands of the Everglades. Kluwer Academic Publishers, Dordrecht, The Netherlands.","10.1016/S0034-6667(00)00042-7",17,"temperate evergreen needleleaf open woodland",0.912319750255897,8766.69729151975,24.0183487438897,18.7254116674556,28.3062026371759,1328.67530102696
9997,21074,1600,"Australian pollen","Waterhouse Marsh","Waterhouse Marsh",-40.8667,147.6333,10,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.77661776478682,4746.06801217764,13.0029260607606,8.46795270096135,17.6545784806577,750.355053138597
9998,21075,1601,"Australian pollen","Watheroo NP","Watheroo NP (10)",-30.317,115.85,300,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.246672169118563,6793.90564469863,18.613440122462,12.0048443274194,25.8131500026486,394.678624104454
9998,21076,1602,"Australian pollen","Watheroo NP","Watheroo NP (8)",-30.3,115.75,390,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.199513896990649,6833.93237497022,18.7231023971787,11.5898763900576,26.4747671866701,325.71411883947
9998,21077,1603,"Australian pollen","Watheroo NP","Watheroo NP (9)",-30.283,115.85,240,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.277995047189942,6767.6865506882305,18.5416069881869,12.3281072977969,25.482781934903,440.165092093185
9999,21078,1604,"Australian pollen","Wathumba","Wathumba core B",-24.9812,153.2572,5,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-62","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.807183794156377,7986.72919497712,21.8814498492524,16.9772130391077,25.6700854792632,1253.56762854505
10000,21079,15218,"Neotoma","Wawona Meadow","WAWONA",37.52858,-119.645389999999,1275,"not known","terrestrial","core","-28","Anderson, R.S., and R.D. Stillick, Jr. 2013. 800 years of vegetation change, fire and human settlement in the Sierra Nevada of California, USA. The Holocene 23(6):823-832.","10.1177/0959683612471985",8,"cool evergreen needleleaf forest",0.45549126977594,4182.15595665818,11.4579615250909,2.86600683544666,21.4110688362264,602.470081609429
10000,21079,15219,"Neotoma","Wawona Meadow","WAWONA",37.52858,-119.645389999999,1275,"not known","terrestrial","core","7","Anderson, R.S., and R.D. Stillick, Jr. 2013. 800 years of vegetation change, fire and human settlement in the Sierra Nevada of California, USA. The Holocene 23(6):823-832.","10.1177/0959683612471985",8,"cool evergreen needleleaf forest",0.45549126977594,4182.15595665818,11.4579615250909,2.86600683544666,21.4110688362264,602.470081609429
10000,21079,15220,"Neotoma","Wawona Meadow","WAWONA",37.52858,-119.645389999999,1275,"not known","terrestrial","core","39","Anderson, R.S., and R.D. Stillick, Jr. 2013. 800 years of vegetation change, fire and human settlement in the Sierra Nevada of California, USA. The Holocene 23(6):823-832.","10.1177/0959683612471985",8,"cool evergreen needleleaf forest",0.45549126977594,4182.15595665818,11.4579615250909,2.86600683544666,21.4110688362264,602.470081609429
10001,21080,23706,"SMPDSv1","Waxeckalm","EPDcoretop_E1178",47.024167,11.79875,1875,"not known","terrestrial, bog/fen/swamp","peat core top","-20","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.30791504217513,1150.54481691845,0.989465701148169,-6.7716133755639,8.92055850720065,1600.73810552097
10002,21081,17351,"Neotoma","Wayside Pond","TW054",44.1,-89.3,304,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.942384112059099,3231.47890540808,6.58000235250422,-10.2703942362375,21.2645659276767,794.274917442971
10003,21082,16546,"Neotoma","Webb Lake","KG040",44.7,-70.45,204,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.51945250800924,2825.78444627356,5.7207266706769,-8.89680640078372,19.1812601541967,1170.64691190386
10004,21083,14253,"Neotoma","Webbs Lake","WEBBS",44.1670666666666,-78.1024999999999,234,"not known","lake","core","-28","Unpublished data",,9,"cool mixed forest",1.07417238195476,3069.48387643121,6.54754397731402,-8.38392876084531,20.1456220706945,895.294294485792
10005,21084,17318,"Neotoma","Weber","TW021C",46,-89.7,502,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.03299022565174,2645.19105910772,3.97338512448376,-12.8189409700798,18.9079929032983,795.431135140093
10006,21085,17370,"Neotoma","Weber Lake","TW075",45.28,-83.95,255,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",1.0281232198996,2841.07867199156,5.52623630443023,-9.33245192769068,19.1797418397179,816.953155964903
10006,21086,13447,"Neotoma","Weber Lake","WEBERLK",47.471667,-91.66,559,"not known","lake","core","10","Wright, H.E., Jr., and W.A. Watts. 1969. Glacial and vegetational history of northeastern Minnesota. Special Publications Series 11. Minnesota Geological Survey, University of Minnesota, Minneapolis, Minnesota, USA.; Fries, M. 1962. Pollen profiles of late Pleistocene and recent sediments from Weber Lake, northeastern Minnesota. Ecology 43:295-308.",,9,"cool mixed forest",1.01759588114161,2307.46432732388,1.94344182299879,-16.5120438876254,17.3988770053957,745.79085177245
10006,21086,13448,"Neotoma","Weber Lake","WEBERLK",47.471667,-91.66,559,"not known","lake","core","29","Wright, H.E., Jr., and W.A. Watts. 1969. Glacial and vegetational history of northeastern Minnesota. Special Publications Series 11. Minnesota Geological Survey, University of Minnesota, Minneapolis, Minnesota, USA.; Fries, M. 1962. Pollen profiles of late Pleistocene and recent sediments from Weber Lake, northeastern Minnesota. Ecology 43:295-308.",,9,"cool mixed forest",1.01759588114161,2307.46432732388,1.94344182299879,-16.5120438876254,17.3988770053957,745.79085177245
10006,21086,13449,"Neotoma","Weber Lake","WEBERLK",47.471667,-91.66,559,"not known","lake","core","49","Wright, H.E., Jr., and W.A. Watts. 1969. Glacial and vegetational history of northeastern Minnesota. Special Publications Series 11. Minnesota Geological Survey, University of Minnesota, Minneapolis, Minnesota, USA.; Fries, M. 1962. Pollen profiles of late Pleistocene and recent sediments from Weber Lake, northeastern Minnesota. Ecology 43:295-308.",,9,"cool mixed forest",1.01759588114161,2307.46432732388,1.94344182299879,-16.5120438876254,17.3988770053957,745.79085177245
10007,21087,17359,"Neotoma","Weedy Farm Pond","TW064",43.1,-89.7,298,"not known","lake","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,13,"temperate deciduous broadleaf forest",0.924655023759823,3384.62772598662,7.22706517357733,-9.70102307695672,21.7550988002209,809.511667753266
10008,21088,11870,"Neotoma","Wegerzyn garden forest","KKMFA18",39.81361111,-84.21527778,229,"not known","terrestrial","surface sample","-49","McLauchlan, K. 2003. Plant cultivation and forest clearance by prehistoric North Americans: pollen evidence from Fort Ancient, Ohio, USA. The Holocene 13(4):557-566.","10.1191/0959683603hl646rp",13,"temperate deciduous broadleaf forest",1.02152142052128,4220.8754698680405,11.1314125231496,-3.10112229568832,23.5579974374845,980.8504462796
10009,21089,5376,"CMPD","Weichang","Weichang",41.93,117.75,1540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.392530567633054,2243.5600189267,0.978860468391632,-17.6926856130154,17.4342309067148,374.47022011476
10010,21090,7035,"EMPDv2","Weiherlohe","EPDcoretop_E1614",49.73,12.39,685,"0.01","not known","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.06487416895431,2695.08929177025,6.87564072051772,-3.00796760212963,15.9720169526465,756.681302988624
10011,21091,5377,"CMPD","Weining","Weining",26.96,104.43,2451,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.862312661793894,4221.99251005085,11.5671027672626,3.72797303409422,17.7393606967484,1018.73467502769
10012,21092,16749,"Neotoma","Weirdale","RJM011",53.479167,-105.255556,494,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.631487613810315,2232.91066157083,0.320900320977132,-19.7407992479105,17.0680751198705,434.779580176776
10013,21093,23707,"SMPDSv1","Weissesee","Weissesee_ss",53.13679,13.1089,45,"0.058","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813150394053577,3236.240991629,8.81249387328944,-0.508537325540119,17.723774532561,569.190160810558
10014,21094,1605,"Australian pollen","Weld River Swamp","Weld River Swamp_a",-34.683,116.517,10,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.808042552892077,5698.18939091377,15.6114777833254,11.9730784508244,20.1019808263519,962.308808829422
10014,21095,1606,"Australian pollen","Weld River Swamp","Weld River Swamp_b",-34.683,116.517,10,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.808042552892077,5698.18939091377,15.6114777833254,11.9730784508244,20.1019808263519,962.308808829422
10014,21096,1607,"Australian pollen","Weld River Swamp","Weld River Swamp_c",-34.683,116.517,10,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.808042552892077,5698.18939091377,15.6114777833254,11.9730784508244,20.1019808263519,962.308808829422
10015,21097,12001,"Neotoma","Weller Lake","SM-WLL",39.115295,-106.721065,2894,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.497947732725182,1575.96272956487,0.979238072339536,-10.9123107609713,12.9631587657324,493.143120140671
10016,21098,17389,"Neotoma","Wells Lake","TW096",43.85,-85.83,253,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.971540039214888,3226.26819154537,7.29237260465645,-7.20671943916181,20.7556386487719,814.483022415102
10017,21099,5378,"CMPD","Wenchang","Wenchang",19.6,110.7,45,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.40854973565364,8898.19887755499,24.3786270617945,18.0899287103998,28.7762408425578,1860.65203019529
10018,21100,131,"APD","Wenchi","WENCHI_0",8.75,37.01,2900,"not known","not known","not known","modern","Bonnefille, R. and Buchet, G., 1987. Contribution palynologique à l'histoire récente de la forêt de Wenchi (Ethiopie). Mémoires et Travaux de l'Ecole Pratique des Hautes Etudes, Institut de Montpellier 17, pp.143-158.",,4,"warm-temperate evergreen and mixed forest",0.846537353505068,4586.84408978377,12.5666961363939,11.3617196439632,13.8826348842694,1477.56629558477
10019,21101,8309,"EMPDv2","Wendorfer Holz","Mrotzek_a8",54.1545194444444,13.2435444444444,20,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860185308706554,3088.28025785904,8.36748172009309,-0.720180564503771,17.3105408117022,594.420679189382
10019,21102,8310,"EMPDv2","Wendorfer Holz","Mrotzek_a9",54.1590861111111,13.2455944444444,19,"1e-06","terrestrial, soil","moss polster or moss","-59","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.860156690519777,3086.59314999876,8.36218405972785,-0.722894767544274,17.3071265035576,594.479444640568
10020,21103,15511,"Neotoma","Wentworth Lake","CJH090",48.00985,-124.530695,58,"not known","lake","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",3.22795000002429,3460.49921598468,9.48081976982105,3.87558380592406,15.8849557518832,2376.39136919992
10021,21104,13450,"Neotoma","Wentzel's Pond","WENTZEL",46.95,-94.95,435,"not known","lake","core","-30","Almendinger, J.C. 1992. The late Holocene history of prairie, brush-prairie, and jack pine (Pinus banksiana) forest on outwash plains, north-central Minnesota, USA. The Holocene 2(1):37-50.; Almendinger, J.C. 1985. The late-Holocene development of jack pine forests on outwash plains, north-central Minnesota. Dissertation. University of Minnesota, Minneapolis, Minnesota, USA.","10.1177/095968369200200105",9,"cool mixed forest",0.809209286790849,2974.23705407338,4.55643075274161,-14.706804416717,20.5416553958622,653.708273638214
10022,21105,11322,"Bush et al., 2020","Werth0cm","Werth0cm",-12.177308,-69.09765,270,"not known","lake","lake surface sample","-51","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",1.56323383545168,9173.64835150332,25.1332831548036,23.122128288095,26.1693135479801,2304.49065526947
10023,21106,13451,"Neotoma","Weslemkoon Lake","WESLEM2",45.033333,-77.433333,316,"not known","lake","core","34","Edwards, T.W.D., and J.H. McAndrews. 1989. Paleohydrology of a Canadian Shield lake inferred from 18O in sediment cellulose. Canadian Journal of Earth Sciences 26:1850-1859.",,9,"cool mixed forest",1.1176711312718,2739.68300613352,4.66807552251739,-11.7219967737173,18.9830828856027,901.097583256222
10024,21107,15514,"Neotoma","Wessler","CJH093",47.95,-123.3,1829,"not known","terrestrial, bog/fen/swamp","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",13,"temperate deciduous broadleaf forest",3.43114285297329,2050.68557437619,5.61831664212655,0.439401225346768,12.4104060359362,2701.7372040662
10025,21108,1608,"Australian pollen","West Basin","West Basin",-38.3167,143.45,110,"not known","lake","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.750937688194064,4913.71363821922,13.4622291458061,8.7007544539892,18.5014943585295,770.766455514731
10026,21109,17326,"Neotoma","West Bass","TW029",45.777778,-88.335,395,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",1.021373940921,2689.07359880233,4.33336252258681,-12.0614085363344,18.9992575549767,787.500634716461
10027,21110,11635,"Neotoma","West Brenmenn","GPPS-4",41.496855,-102.1351,1135,"not known","artificial water body","surface sample","-62","Commerford, J.L., E.C. Grimm, C.J. Morris, A. Nurse, I. Stefanova, and K.K. McLauchlan. 2018. Regional variation in Holocene climate quantified from pollen in the Great Plains of North America. International Journal of Climatology 38(4):1794-1807. Morris, C.J. 2011. Analysis of modern pollen data from the prairies of central North America. Master's thesis. Kansas State University, Manhattan, Kansas, USA.","10.1002/joc.5296",22,"steppe",0.422310397532317,3645.37974326825,9.18897826091464,-4.52305171559381,23.4421818013908,446.217967796873
10028,21111,15481,"Neotoma","West Fork Humptulips River","CJH060",47.2,-123.8,122,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.67854174006724,3563.63991842535,9.76339703678179,4.21225126706245,15.9715033808981,2050.42477993079
10029,21112,11952,"Neotoma","West Glenn Lake","GLENNWP1",36.56113,-112.179055,2670,"not known","lake","surface sample","-42","Jackson, S.T., and S.J. Smith. 1994. Pollen dispersal and representation on an isolated, forested plateau. New Phytologist 128(1):181-193.","10.1111/j.1469-8137.1994.tb04001.x",17,"temperate evergreen needleleaf open woodland",0.374056733739563,2290.03498425493,5.29546200720499,-4.28341209138183,16.6392648657512,452.829883164378
10030,21113,1609,"Australian pollen","West Lake Muir Swamp","West Lake Muir Swamp",-34.467,116.6,100,"not known","terrestrial, bog/fen/swamp","core top","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.69791845018874,5653.19903373848,15.4882165307903,11.2904847100639,20.4593343238739,848.26429031768
10031,21114,15087,"Neotoma","West LaSalle","WLS",53.519745,-120.67606,878,"not known","lake","core","-61","White, A.L. 2014. Postglacial vegetation change in the interior temperate rainforest of British Columbia. Master's thesis. University of Oregon, Eugene, OR, USA.",,15,"cold evergreen needleleaf forest",1.10374130181997,1984.80572986249,2.81172968932012,-10.5171526680538,14.1602927405031,737.508331817324
10032,21115,14357,"Neotoma","West Naniskak Lake","NANISKAK",55.4309049999999,-104.938605,418,"not known","lake","core","-29","Wilson, M.A. 1981. The climatic and vegetational history of the postglacial in central Saskatchewan. Doctoral dissertation. University of Saskatchewan, Saskatoon, Saskatchewan, Canada.",,15,"cold evergreen needleleaf forest",0.8038274192719,1980.98572166957,-1.30430407262274,-22.0775300816081,16.3433006970834,495.422960901043
10033,21116,13006,"Neotoma","West Okoboji Lake","OKOBOJI",43.333333,-95.2,426,"not known","lake","core","-18","Van Zant, K.L. 1979. Late glacial and postglacial pollen and plant macrofossils from Lake West Okoboji, northwestern Iowa. Quaternary Research 12(3):358-380.","10.1016/0033-5894(79)90034-6",22,"steppe",0.774423348840235,3513.1388160041,7.35281497260021,-10.3967836551533,22.7588909117454,707.600262472532
10033,21116,13007,"Neotoma","West Okoboji Lake","OKOBOJI",43.333333,-95.2,426,"not known","lake","core","-8","Van Zant, K.L. 1979. Late glacial and postglacial pollen and plant macrofossils from Lake West Okoboji, northwestern Iowa. Quaternary Research 12(3):358-380.","10.1016/0033-5894(79)90034-6",22,"steppe",0.774423348840235,3513.1388160041,7.35281497260021,-10.3967836551533,22.7588909117454,707.600262472532
10033,21116,13008,"Neotoma","West Okoboji Lake","OKOBOJI",43.333333,-95.2,426,"not known","lake","core","10","Van Zant, K.L. 1979. Late glacial and postglacial pollen and plant macrofossils from Lake West Okoboji, northwestern Iowa. Quaternary Research 12(3):358-380.","10.1016/0033-5894(79)90034-6",22,"steppe",0.774423348840235,3513.1388160041,7.35281497260021,-10.3967836551533,22.7588909117454,707.600262472532
10033,21116,13009,"Neotoma","West Okoboji Lake","OKOBOJI",43.333333,-95.2,426,"not known","lake","core","29","Van Zant, K.L. 1979. Late glacial and postglacial pollen and plant macrofossils from Lake West Okoboji, northwestern Iowa. Quaternary Research 12(3):358-380.","10.1016/0033-5894(79)90034-6",22,"steppe",0.774423348840235,3513.1388160041,7.35281497260021,-10.3967836551533,22.7588909117454,707.600262472532
10033,21116,13010,"Neotoma","West Okoboji Lake","OKOBOJI",43.333333,-95.2,426,"not known","lake","core","48","Van Zant, K.L. 1979. Late glacial and postglacial pollen and plant macrofossils from Lake West Okoboji, northwestern Iowa. Quaternary Research 12(3):358-380.","10.1016/0033-5894(79)90034-6",22,"steppe",0.774423348840235,3513.1388160041,7.35281497260021,-10.3967836551533,22.7588909117454,707.600262472532
10034,21117,13628,"Neotoma","West Olaf Lake","WESTOLAF",46.5986,-96.1867499999999,393,"not known","lake","core","-110","Nelson, D.M., and F.S. Hu. 2008. Patterns and drivers of Holocene vegetational change near the prairie-forest ecotone in Minnesota: revisiting McAndrews' transect. New Phytologist 179(2):449-459. Nelson, D.M., F.S. Hu, J. Tian, I. Stefanova, and T.A. Brown. 2004. Response of C3 and C4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proceedings of the National Academy of Sciences of the United States of America 101(2):562-567.","10.1111/j.1469-8137.2008.02482.x",22,"steppe",0.719381374248131,3081.63757879828,4.9653614974667,-14.3021662282075,21.1123507549363,593.940580947035
10034,21117,13629,"Neotoma","West Olaf Lake","WESTOLAF",46.5986,-96.1867499999999,393,"not known","lake","core","-41","Nelson, D.M., and F.S. Hu. 2008. Patterns and drivers of Holocene vegetational change near the prairie-forest ecotone in Minnesota: revisiting McAndrews' transect. New Phytologist 179(2):449-459. Nelson, D.M., F.S. Hu, J. Tian, I. Stefanova, and T.A. Brown. 2004. Response of C3 and C4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proceedings of the National Academy of Sciences of the United States of America 101(2):562-567.","10.1111/j.1469-8137.2008.02482.x",22,"steppe",0.719381374248131,3081.63757879828,4.9653614974667,-14.3021662282075,21.1123507549363,593.940580947035
10034,21117,13630,"Neotoma","West Olaf Lake","WESTOLAF",46.5986,-96.1867499999999,393,"not known","lake","core","26","Nelson, D.M., and F.S. Hu. 2008. Patterns and drivers of Holocene vegetational change near the prairie-forest ecotone in Minnesota: revisiting McAndrews' transect. New Phytologist 179(2):449-459. Nelson, D.M., F.S. Hu, J. Tian, I. Stefanova, and T.A. Brown. 2004. Response of C3 and C4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proceedings of the National Academy of Sciences of the United States of America 101(2):562-567.","10.1111/j.1469-8137.2008.02482.x",22,"steppe",0.719381374248131,3081.63757879828,4.9653614974667,-14.3021662282075,21.1123507549363,593.940580947035
10035,21118,15558,"Neotoma","West Sand Lake Peat Bog","DCG10",42.633333,-73.6,170,"not known","terrestrial","surface sample","Modern","Gaudreau, D.C., 1986. Late-Quaternary vegetational history of the northeast: paleoecological implications of topographic patterns in pollen distributions. Dissertation, Connecticut. Doctoral dissertation. Yale University, New Haven, Connecticut, USA.",,9,"cool mixed forest",1.26041862222867,3603.66587278749,8.93172589154537,-5.22742617491628,21.8414359307276,1085.9005535077
10036,21119,14955,"Neotoma","West Side Pond","WESTSID",41.8545,-73.2565999999999,392,"not known","lake","core","-58.386","Oswald, W.W., D.R. Foster, B.N. Shuman, E.D. Doughty, E.K. Faison, B.R. Hall, B.C.S. Hansen, M. Lindbladh, A. Marroquin, and S.A. Truebe. 2018. Subregional variability in the response of New England vegetation to postglacial climate change. Journal of Biogeography 45(10):2375-2388.","10.1111/jbi.13407",9,"cool mixed forest",1.34045146309503,3216.202387041,7.40721124179221,-6.90093494742629,20.3970039366498,1122.02877801436
10037,21120,11547,"Neotoma","West Stump Lake","NDNEWS",47.911675,-98.432175,427,"not known","lake","surface sample","-35","Unpublished data",,22,"steppe",0.583186477958203,2878.58073096634,3.76361988133636,-15.8746960873151,20.4019933095732,473.44758253277
10038,21121,23708,"SMPDSv1","Western Georgia transect","W1",42.95,43.15,2200,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.08050887396754,1656.21119055792,0.550116098982803,-13.8357482631305,13.0227038615849,966.79257110861
10038,21122,23716,"SMPDSv1","Western Georgia transect","W10",42.8833,43.183,1500,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01479878635405,2456.77384452303,4.63221791556126,-8.84828008509593,16.54403480063,939.776437846925
10038,21123,23717,"SMPDSv1","Western Georgia transect","W11",42.8,43,1100,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01966739099352,2989.52175700154,7.05282486480053,-5.75684943487453,18.4813825840334,961.541160298084
10038,21124,23718,"SMPDSv1","Western Georgia transect","W13",42.8,43,1140,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.02095423396688,2933.73420088555,6.81559817975815,-6.05243178880504,18.2825049415152,961.256184322517
10038,21125,23719,"SMPDSv1","Western Georgia transect","W15",42.7833333333333,42.7333333333333,840,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.12296517635265,3394.55663634553,8.81362795041553,-3.14946341683621,19.5438922385575,1071.1864821487
10038,21126,23720,"SMPDSv1","Western Georgia transect","W16",42.7,42.75,680,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.18777889817619,3778.31631129966,10.2117966174893,-1.27247109783578,20.4313790445034,1149.25412222752
10038,21127,23721,"SMPDSv1","Western Georgia transect","W17",42.7,42.75,580,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20152364831349,3973.72599098461,10.8452345044184,-0.441204316432619,20.9158712353916,1166.30015210024
10038,21128,23722,"SMPDSv1","Western Georgia transect","W18",42.7,42.75,580,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.20152364831349,3973.72599098461,10.8452345044184,-0.441204316432619,20.9158712353916,1166.30015210024
10038,21129,23723,"SMPDSv1","Western Georgia transect","W19",42.6,42.6833333333333,900,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.18956471532981,3406.7636925193,8.92063247263392,-2.81851023137906,19.3249837483953,1146.37031655252
10038,21130,23709,"SMPDSv1","Western Georgia transect","W2",42.95,43.15,2300,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.09048440557099,1554.16382110317,-0.0278421710856349,-14.5438136629181,12.5240088739617,970.734006322142
10038,21131,23724,"SMPDSv1","Western Georgia transect","W20",42.6,42.6833333333333,530,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25323094670598,4119.75796382143,11.2870081200587,0.33322038773838,21.1042065948188,1222.69672456647
10038,21132,23725,"SMPDSv1","Western Georgia transect","W21",42.6,42.6833333333333,520,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.25496120308686,4143.10193980278,11.3509642186378,0.418402296363176,21.1522936987761,1224.75960045874
10038,21133,23726,"SMPDSv1","Western Georgia transect","W22",42.3666666666667,42.7333333333333,500,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.26213183927117,4215.65217668751,11.5497319909247,0.695094373360815,21.2574117753152,1238.9663000275
10038,21134,23727,"SMPDSv1","Western Georgia transect","W23",42.3,42.7,400,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.29316216159953,4461.37848501452,12.2229547534644,1.63873945686024,21.717526128385,1274.72023696759
10038,21135,23728,"SMPDSv1","Western Georgia transect","W24",42.3,42.7,440,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.28468310250942,4368.52836679293,11.9685708679258,1.29488642837459,21.5298541668453,1265.08195983468
10038,21136,23729,"SMPDSv1","Western Georgia transect","W25",42.3,42.7,300,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.31438903163446,4693.5037805685,12.858914467311,2.49837202807438,22.1867060322344,1298.81592979986
10038,21137,23730,"SMPDSv1","Western Georgia transect","W26",42.3,42.7,480,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.27620980975027,4275.67824857134,11.7141869823872,0.951033399888932,21.3421822053055,1255.44368270178
10038,21138,23731,"SMPDSv1","Western Georgia transect","W27",42.2666666666667,42.7,240,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.32991219423818,4836.32310218737,13.2502002799654,3.03715498818587,22.4635641808688,1316.78185515852
10038,21139,23732,"SMPDSv1","Western Georgia transect","W28",42.2333333333333,42.7333333333333,260,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.35839550215588,4882.50945855339,13.376738242612,3.2591474669986,22.4259595900351,1353.36662709604
10038,21140,23733,"SMPDSv1","Western Georgia transect","W29",42.2,42.7333333333333,140,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.39258807888824,5157.5182258787,14.1301869202156,4.29828899558016,22.9605867919264,1390.18960010053
10038,21141,23710,"SMPDSv1","Western Georgia transect","W3",42.93,43.15,2100,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.06919221545341,1762.39598044294,1.13396244768404,-13.1259796945565,13.5286608435432,961.983844269729
10038,21142,23734,"SMPDSv1","Western Georgia transect","W30",42.1666666666667,42.7333333333333,96,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.40671978266534,5256.87626602653,14.4024007288398,4.68012549547731,23.1485810574004,1405.29160061479
10038,21143,23735,"SMPDSv1","Western Georgia transect","W32",42.0166666666667,42.8333333333333,290,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.28174558502463,4764.31008181498,13.0529043337397,2.53337762007341,22.4055146036453,1279.04997330597
10038,21144,23736,"SMPDSv1","Western Georgia transect","W33",42.0167,42.833333,540,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.21609867584491,4203.51405483965,11.5164768625744,0.432443136761955,21.3004408582322,1210.27401955423
10038,21145,23737,"SMPDSv1","Western Georgia transect","W34",41.9666666666667,42.9,900,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.10975417781886,3527.79471045739,9.30103604772672,-2.64154782784505,19.7405727114642,1100.25866507791
10038,21146,23738,"SMPDSv1","Western Georgia transect","W35",41.9,42.8833333333333,1360,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.985564321322851,2853.21621880347,6.517760815774,-6.45631383981016,17.7381226464049,971.561124258865
10038,21147,23739,"SMPDSv1","Western Georgia transect","W36",41.8667,42.88333,1800,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.861166523878316,2304.84109832116,3.86053142080923,-10.1213819194128,15.8454574389104,842.549130967545
10038,21148,23740,"SMPDSv1","Western Georgia transect","W37",41.8333,42.866667,2000,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.799450268185876,2080.99264995541,2.66562709406676,-11.776311617344,14.9970551035097,779.894538933955
10038,21149,23711,"SMPDSv1","Western Georgia transect","W4",42.91667,43.15,1950,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.05473331236741,1925.95602473362,2.00695451923026,-12.0578613210031,14.2806972288713,956.246488941197
10038,21150,23712,"SMPDSv1","Western Georgia transect","W5",42.916667,43.15,1840,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.04517317242678,2049.24430694452,2.64428007286295,-11.2753694186119,14.828633251525,952.471839724714
10038,21151,23713,"SMPDSv1","Western Georgia transect","W6",42.8833,43.15,1520,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01923994400658,2430.8502435661,4.51637845995292,-8.97727899883328,16.4314398673528,942.959282713691
10038,21152,23714,"SMPDSv1","Western Georgia transect","W7",42.8833,43.15,1520,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01923994400658,2430.8502435661,4.51637845995292,-8.97727899883328,16.4314398673528,942.959282713691
10038,21153,23715,"SMPDSv1","Western Georgia transect","W9",42.8833,43.1833,1440,"not applicable","terrestrial, soil","surface sample","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",1.01006254477727,2531.37885019627,4.97957026818491,-8.42166353296857,16.8425103483626,937.709711993053
10039,21154,23741,"SMPDSv1","Western Sayan","Kunes_a10",51.2044444444444,91.5180555555555,911,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.647929524955665,2213.53641186785,-1.54669158083641,-24.4223216224574,17.5472391193722,491.868161431626
10039,21155,23742,"SMPDSv1","Western Sayan","Kunes_a100",52.8355555555555,91.4172222222222,385,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.757296687414477,2427.10356590772,0.749117958688132,-19.5021728182527,18.9734621654009,507.631724854008
10039,21156,23743,"SMPDSv1","Western Sayan","Kunes_a101",53.0327777777777,91.1486111111111,677,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.75824947218249406,2170.03596468291,-0.641411531528293,-20.9418132519416,17.5492587432355,510.145769524174
10039,21157,23744,"SMPDSv1","Western Sayan","Kunes_a102",53.0369444444444,91.1505555555555,740,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.764533268259728,2116.55476342464,-0.950230972086924,-21.2901895980511,17.243646554132,514.906891103132
10039,21158,23745,"SMPDSv1","Western Sayan","Kunes_a103",52.2105555555555,92.2752777777777,1241,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.885615734023815,1774.69067269194,-3.61259811431986,-25.5641618874558,15.1504843227189,619.533102863303
10039,21159,23746,"SMPDSv1","Western Sayan","Kunes_a104",52.985,91.3588888888888,472,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.764694309642419,2348.44755006687,0.324987472974885,-19.9522718889076,18.5465541094165,511.818882775642
10039,21160,23747,"SMPDSv1","Western Sayan","Kunes_a105",53.0152777777777,91.1513888888888,795,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.769626682254009,2070.65866781995,-1.21935079813061,-21.5983499113524,16.9782961819984,519.103490011121
10039,21161,23748,"SMPDSv1","Western Sayan","Kunes_a106",52.9858333333333,91.3580555555555,436,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.760326522895318,2380.24811598917,0.505164747745,-19.7426646839213,18.7221092276385,508.502303361002
10039,21162,23749,"SMPDSv1","Western Sayan","Kunes_a107",53.0369444444444,91.1602777777777,806,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.771368428015886,2061.16607325152,-1.27395808131726,-21.6580931928278,16.9241615073407,520.100745915689
10039,21163,23750,"SMPDSv1","Western Sayan","Kunes_a108",52.9702777777777,91.2202777777777,635,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.755646413315029,2207.81006376316,-0.436520274640539,-20.7366787319251,17.7596738328798,508.72855990166
10039,21164,23751,"SMPDSv1","Western Sayan","Kunes_a109",52.8352777777777,91.4147222222222,346,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.752678007560921,2461.99571723842,0.943859801803595,-19.2763396352207,19.163361300524,504.122520994435
10039,21165,23752,"SMPDSv1","Western Sayan","Kunes_a11",50.7844444444444,91.9027777777777,1550,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.581798144165442,1672.01036501378,-4.35327501694193,-26.7841893188994,14.4006079403225,441.917074676465
10039,21166,23753,"SMPDSv1","Western Sayan","Kunes_a110",52.7797222222222,91.3533333333333,608,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.779767382340761,2231.62566403708,-0.362848110468764,-20.7918520500297,17.8871594521478,525.806888489731
10039,21167,23754,"SMPDSv1","Western Sayan","Kunes_a111",53.0302777777777,91.1483333333333,597,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.750424857817162,2238.66465267785,-0.249393121085614,-20.4995709918461,17.9372786852526,504.147996931642
10039,21168,23755,"SMPDSv1","Western Sayan","Kunes_a112",53.0113888888888,91.1555555555555,850,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.775103851832963,2024.80050318413,-1.48879866196337,-21.9042683339113,16.7121627691286,523.323062222096
10039,21169,23756,"SMPDSv1","Western Sayan","Kunes_a113",52.9702777777777,91.2016666666666,678,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.759268773927956,2170.81345716735,-0.646862398633495,-20.9709297277128,17.5504494371554,511.588827788943
10039,21170,23757,"SMPDSv1","Western Sayan","Kunes_a114",53.01,91.1586111111111,860,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.776176371941781,2016.56532161265,-1.53784652365988,-21.9606426303679,16.6639568275537,524.148217205313
10039,21171,23758,"SMPDSv1","Western Sayan","Kunes_a115",53.0086111111111,91.1605555555555,837,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.773964927537473,2035.73123547046,-1.42520567760773,-21.8341537210275,16.7756412567818,522.475052228686
10039,21172,23759,"SMPDSv1","Western Sayan","Kunes_a116",53.0111111111111,91.1680555555555,724,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.763185535033638,2130.76007503922,-0.871847075072578,-21.210335996133,17.3236355371641,514.165972099863
10039,21173,23760,"SMPDSv1","Western Sayan","Kunes_a117",52.9391666666666,91.2180555555555,683,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.759927787321233,2167.21728476741,-0.671593758346051,-21.0082694238264,17.5286102656517,512.454599919162
10039,21174,23761,"SMPDSv1","Western Sayan","Kunes_a118",52.7911111111111,91.3988888888888,601,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.781330954426291,2237.69180244503,-0.330120208157111,-20.7590146091752,17.9218680399008,526.566835650202
10039,21175,23762,"SMPDSv1","Western Sayan","Kunes_a119",52.9386111111111,91.2141666666666,775,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.7687492658094,2089.43289738047,-1.12190727294513,-21.5165219553057,17.0830364438328,519.249722444126
10039,21176,23763,"SMPDSv1","Western Sayan","Kunes_a12",51.0622222222222,91.6186111111111,1192,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.615805215247788,1965.72830031013,-2.76143818971746,-25.346981958762,16.1395919913726,467.358936930314
10039,21177,23764,"SMPDSv1","Western Sayan","Kunes_a120",52.7119444444444,91.4311111111111,551,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.764892875671802,2304.38533606789,-0.0449378915814424,-20.6473438011725,18.2494894155353,521.36806859437
10039,21178,23765,"SMPDSv1","Western Sayan","Kunes_a121",52.7236111111111,91.4175,970,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.801979304470697,1951.14689694084,-2.11210849070114,-23.0196876477665,16.2330194383512,550.197156786714
10039,21179,23766,"SMPDSv1","Western Sayan","Kunes_a122",52.7986111111111,91.4419444444444,864,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.814308420353261,2014.42718638202,-1.64498524593631,-22.2874700814175,16.6418990114785,551.040494604009
10039,21180,23767,"SMPDSv1","Western Sayan","Kunes_a123",52.5738888888888,92.0180555555555,600,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.829774225881417,2259.63615839773,-0.394806961549879,-21.2384201751726,18.0090827232086,564.653015558137
10039,21181,23768,"SMPDSv1","Western Sayan","Kunes_a124",52.2269444444444,92.2602777777777,1540,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.884872201389857,1556.38934353333,-5.03585266664717,-27.2670366807856,13.7958565417366,622.808150047504
10039,21182,23769,"SMPDSv1","Western Sayan","Kunes_a125",52.2338888888888,92.2441666666666,1670,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.85374833409575,1464.08779496984,-5.5435856105048,-27.6818172352941,13.2053841364406,603.578964156363
10039,21183,23770,"SMPDSv1","Western Sayan","Kunes_a126",52.2347222222222,92.2444444444444,1720,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.853369029722318,1429.21936471693,-5.77885327571443,-27.9600772045945,12.9796643115993,603.869191417828
10039,21184,23771,"SMPDSv1","Western Sayan","Kunes_a127",52.2319444444444,92.2419444444444,1723,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.852710160321648,1427.30966682201,-5.79149920427556,-27.9747264905809,12.9671040068322,603.508763312195
10039,21185,23772,"SMPDSv1","Western Sayan","Kunes_a128",52.7966666666666,91.4538888888889,963,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.826729104226768,1932.46840117085,-2.14042326858295,-22.8645739030449,16.1600404212096,560.257898858096
10039,21186,23773,"SMPDSv1","Western Sayan","Kunes_a129",52.7711111111111,91.4094444444444,1143,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.844288679360719,1786.5595486397,-3.03241279227162,-23.8880614622401,15.2844222867354,573.868163500678
10039,21187,23774,"SMPDSv1","Western Sayan","Kunes_a13",51.0622222222222,91.6191666666666,1195,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.615682518530958,1962.93228202781,-2.77500297641554,-25.3562342664979,16.1235272042714,467.222193642182
10039,21188,23775,"SMPDSv1","Western Sayan","Kunes_a130",52.8111111111111,93.2619444444444,1468,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18029285610202,1500.06606314753,-5.44737593807457,-27.6850580537249,13.5524560344587,780.670173567638
10039,21189,23776,"SMPDSv1","Western Sayan","Kunes_a131",52.5116666666666,92.0475,1585,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.934390965017753,1491.34611344688,-5.27282038830401,-27.1676373412774,13.4025008632895,648.405020964029
10039,21190,23777,"SMPDSv1","Western Sayan","Kunes_a132",52.7702777777777,91.4097222222222,1179,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.848503126996445,1757.73701020639,-3.2118107384185,-24.0955588699035,15.1092496640193,576.980724399571
10039,21191,23778,"SMPDSv1","Western Sayan","Kunes_a133",52.8741666666666,93.2622222222222,1351,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15536463274225,1586.17324335779,-4.82381491386699,-26.8535934968358,14.1059591223936,762.288332235075
10039,21192,23779,"SMPDSv1","Western Sayan","Kunes_a134",52.5197222222222,92.0419444444444,1270,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.900828693938282,1725.663003047,-3.71440283323601,-25.2754209073682,14.8750630412341,622.063651336607
10039,21193,23780,"SMPDSv1","Western Sayan","Kunes_a135",52.8722222222222,93.2616666666666,1396,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.16647310937709,1552.21349123661,-5.06514219128354,-27.1683490383379,13.8897654395912,769.806457910143
10039,21194,23781,"SMPDSv1","Western Sayan","Kunes_a136",52.2391666666666,92.2094444444444,2160,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.84847231757302,1133.04561595425,-7.83942964737455,-30.3758667216507,10.9920522118142,604.638367026938
10039,21195,23782,"SMPDSv1","Western Sayan","Kunes_a137",52.2427777777777,92.2130555555555,2013,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.850352895910807,1229.34331503731,-7.15103041575347,-29.563816867763,11.6540453177648,604.557421648227
10039,21196,23783,"SMPDSv1","Western Sayan","Kunes_a138",52.7141666666666,91.3961111111111,1115,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.813467726546018,1833.71235357205,-2.82485697965047,-23.8345874199458,15.5357013612511,559.274082557771
10039,21197,23784,"SMPDSv1","Western Sayan","Kunes_a139",52.5055555555555,92.0222222222222,1745,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.948688878516564,1376.81653896883,-6.05538619540843,-28.1071604928794,12.6571670932766,659.826158522865
10039,21198,23785,"SMPDSv1","Western Sayan","Kunes_a14",51.0605555555555,91.6147222222222,1232,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.613929158223854,1928.39423869489,-2.94105958924812,-25.4645879163502,15.9243446107291,465.355062673018
10039,21199,23786,"SMPDSv1","Western Sayan","Kunes_a142",52.2441666666666,92.2283333333333,1859,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.852692835653735,1332.93818662202,-6.43140920796569,-28.7211254337778,12.3489075323723,604.662694974833
10039,21200,23787,"SMPDSv1","Western Sayan","Kunes_a143",52.2505555555555,92.2133333333333,1961,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.955941983270428,1237.47870215953,-7.11903706229001,-29.5432452803554,11.7119433524252,671.782413971578
10039,21201,23788,"SMPDSv1","Western Sayan","Kunes_a144",52.1894444444444,92.2888888888888,907,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.889190587482102,2028.44165767389,-2.02575838775131,-23.6636975318422,16.6607064059738,616.990294115753
10039,21202,23789,"SMPDSv1","Western Sayan","Kunes_a145",52.1655555555555,92.3130555555555,553,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.897747419506225,2308.54083655946,-0.351322062256196,-21.658444679313,18.2560080172023,616.503721466648
10039,21203,23790,"SMPDSv1","Western Sayan","Kunes_a146",52.1663888888888,92.3116666666666,563,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.897390447585844,2300.49270447931,-0.398380925595318,-21.7146868349547,18.2110722577568,616.456006929275
10039,21204,23791,"SMPDSv1","Western Sayan","Kunes_a147",52.1727777777777,92.2963888888888,609,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.895153250826262,2263.66659809771,-0.612859153089236,-21.9686016667419,18.0048236602827,615.821998574303
10039,21205,23792,"SMPDSv1","Western Sayan","Kunes_a148",52.0091666666666,92.0872222222222,595,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.860289067144305,2281.27387326226,-0.481255042988011,-21.7683126764364,18.0899417862527,596.101538616645
10039,21206,23793,"SMPDSv1","Western Sayan","Kunes_a149",52.0080555555555,92.0905555555555,592,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.860749551746075,2283.62999571292,-0.468202698755951,-21.7540348623366,18.1031560378033,596.357504334827
10039,21207,23794,"SMPDSv1","Western Sayan","Kunes_a15",51.055,91.6069444444444,1303,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.610262375733587,1862.78915691811,-3.25892036056741,-25.6734743968021,15.5435302947454,461.591707877744
10039,21208,23795,"SMPDSv1","Western Sayan","Kunes_a150",52.0094444444444,92.0905555555555,628,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.858841254231208,2254.83681488305,-0.634301523436855,-21.9470883811022,17.9417941029233,595.714386034268
10039,21209,23796,"SMPDSv1","Western Sayan","Kunes_a22",51.3713888888888,91.2533333333333,728,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.720487067915015,2280.35251140876,-0.918946820364405,-23.1838259492506,17.9858685271539,530.220939829361
10039,21210,23797,"SMPDSv1","Western Sayan","Kunes_a24",50.8944444444444,91.8008333333333,1709,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.590038912652321,1518.32137147336,-5.09737157120381,-27.1747024218675,13.4728655916357,442.829324016436
10039,21211,23798,"SMPDSv1","Western Sayan","Kunes_a25",50.8297222222222,91.860555555555493,1920,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.582849624652903,1334.10415696379,-6.06336133585108,-27.8117564710801,12.3141774769229,433.8823523652
10039,21212,23799,"SMPDSv1","Western Sayan","Kunes_a26",50.8911111111111,91.8069444444444,1727,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.589604515582536,1502.30440454693,-5.18027396087722,-27.2294264506191,13.3736637503421,442.173645120791
10039,21213,23800,"SMPDSv1","Western Sayan","Kunes_a34",51.2886111111111,92.0072222222222,1247,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.701195388512862,1875.02347206957,-3.23190772149068,-25.6761854222275,15.6579890242074,519.189046845897
10039,21214,23801,"SMPDSv1","Western Sayan","Kunes_a35",51.2894444444444,92.0094444444444,1244,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.701380147722287,1877.72595663547,-3.21884502192766,-25.6678280195835,15.6737851166628,519.361393947946
10039,21215,23802,"SMPDSv1","Western Sayan","Kunes_a42",51.4024999999999,92.3775,989,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.715638807211643,2133.04789595306,-2.14910909690673,-25.3124693654412,17.1292001162118,534.874094852504
10039,21216,23803,"SMPDSv1","Western Sayan","Kunes_a51",51.6038888888888,92.1280555555555,1090,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.756764345530754,1982.33719716822,-2.65180192101943,-25.1225176700088,16.3047576996154,553.13568436948
10039,21217,23804,"SMPDSv1","Western Sayan","Kunes_a52",51.7166666666666,91.9269444444444,1037,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.771650926679089,2011.30002356546,-2.42435739259344,-24.751157951282998,16.4835106204847,560.299438703103
10039,21218,23805,"SMPDSv1","Western Sayan","Kunes_a53",51.5991666666666,92.1294444444444,1134,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.754967328033083,1943.37679203127,-2.84766682500654,-25.2712403738361,16.0793213792139,551.362322948896
10039,21219,23806,"SMPDSv1","Western Sayan","Kunes_a54",51.7102777777777,91.8694444444444,1221,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.758237377406778,1852.69831216359,-3.22483654486999,-25.3620427756021,15.5603714446039,549.278345669162
10039,21220,23807,"SMPDSv1","Western Sayan","Kunes_a55",51.7130555555555,91.9258333333333,1079,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.768756024108811,1975.06170095229,-2.60855056922531,-24.8990892405672,16.2745373903542,557.988127540573
10039,21221,23808,"SMPDSv1","Western Sayan","Kunes_a56",51.7036111111111,91.8775,1081,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.76545789132593,1973.888476368,-2.60580356240634,-24.8781771026408,16.2671333567829,555.817485309906
10039,21222,23809,"SMPDSv1","Western Sayan","Kunes_a61",51.8916666666666,92.1608333333333,924,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.844808360786202,2026.92444956651,-2.01323431063112,-23.6234730141885,16.6347791941069,593.163391938978
10039,21223,23810,"SMPDSv1","Western Sayan","Kunes_a62",53.5241666666666,91.2477777777777,479,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.748583436371621,2311.96510223933,0.284867881548711,-19.6252378299805,18.4136062106782,490.688568401107
10039,21224,23811,"SMPDSv1","Western Sayan","Kunes_a64",51.8461111111111,91.9605555555555,1454,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.793681785634376,1637.61811405642,-4.3882472822227,-26.3212559056172,14.2870449542906,566.831427264008
10039,21225,23812,"SMPDSv1","Western Sayan","Kunes_a66",51.8111111111111,91.9080555555555,1525,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.782602592984727,1588.34012552301,-4.69428703765275,-26.6585466395786,13.9777054534549,560.55348214082
10039,21226,23813,"SMPDSv1","Western Sayan","Kunes_a67",52.4869444444444,93.4327777777777,922,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.992009972005679,1976.31184620656,-2.42457467752579,-24.2038000369588,16.4239923342716,669.993593830657
10039,21227,23814,"SMPDSv1","Western Sayan","Kunes_a68",52.4955555555555,93.4719444444444,865,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.983505242591209,2022.02226470399,-2.13200500382481,-23.8329829762802,16.6919235939959,663.542421083156
10039,21228,23815,"SMPDSv1","Western Sayan","Kunes_a69",51.8402777777777,91.935,1530,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.787029252478403,1583.45281023271,-4.72874725306198,-26.702118276424,13.9480937878237,563.202285079964
10039,21229,23816,"SMPDSv1","Western Sayan","Kunes_a70",51.8458333333333,91.9333333333333,1591,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.783981399114172,1539.90026761197,-5.0081741254656,-27.0198498204697,13.6733963398954,561.67612191311
10039,21230,23817,"SMPDSv1","Western Sayan","Kunes_a71",52.4869444444444,93.4336111111111,931,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.993391656019178,1969.13301596808,-2.47122939260187,-24.2635621778433,16.3818147666281,670.999529628236
10039,21231,23818,"SMPDSv1","Western Sayan","Kunes_a72",51.8238888888888,91.9144444444444,1865,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.764139479793469,1350.86997902759,-6.24926042367932,-28.4333076052254,12.4512585670941,550.971759765813
10039,21232,23819,"SMPDSv1","Western Sayan","Kunes_a73",51.8008333333333,91.9797222222222,1452,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.790107946967517,1641.3135379588,-4.3746905955004,-26.3266692704374,14.307915588991,565.132471505578
10039,21233,23820,"SMPDSv1","Western Sayan","Kunes_a74",52.4863888888888,93.4644444444444,884,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.985797122501392,2007.15384558377,-2.2294427563482,-23.9608996595321,16.6045407825642,665.475704056745
10039,21234,23821,"SMPDSv1","Western Sayan","Kunes_a75",53.1644444444444,91.1530555555555,708,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.763251397412067,2141.49642136529,-0.795287761152301,-21.0908151869242,17.3917139680344,512.138004412988
10039,21235,23822,"SMPDSv1","Western Sayan","Kunes_a76",52.1666666666666,92.3102777777777,548,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.897648349092128,2312.61556305214,-0.326916523571972,-21.628181607178,18.2786635053459,616.334571857742
10039,21236,23823,"SMPDSv1","Western Sayan","Kunes_a77",52.1675,92.3108333333333,584,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.896811397994612,2283.55805038095,-0.497714409254618,-21.8339405568752,18.1165559839732,616.467685618267
10039,21237,23824,"SMPDSv1","Western Sayan","Kunes_a78",52.5561111111111,93.4336111111111,976,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.00623738468094,1929.61174634376,-2.70994103296177,-24.5333287945361,16.1532736370269,678.287274692646
10039,21238,23825,"SMPDSv1","Western Sayan","Kunes_a79",53.1652777777777,91.1024999999999,500,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.741000519578442,2320.22077564551,0.226943227954545,-19.9253174957392,18.399531569415,495.165299514806
10039,21239,23826,"SMPDSv1","Western Sayan","Kunes_a80",53.1672222222222,91.1013888888888,500,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.740991722387291,2320.17569095418,0.226945858967272,-19.9247219710603,18.3993856976966,495.135223572928
10039,21240,23827,"SMPDSv1","Western Sayan","Kunes_a84",53.0644444444444,91.1519444444444,499,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.741268010710095,2323.27165037636,0.23123479291825,-19.9499954297236,18.4112682981236,496.584484831585
10039,21241,23828,"SMPDSv1","Western Sayan","Kunes_a85",52.1908333333333,92.2858333333333,870,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.8896388319252,2057.18637416459,-1.8493419277309,-23.4498682507519,16.8274129367447,616.640585621636
10039,21242,23829,"SMPDSv1","Western Sayan","Kunes_a86",52.1638888888888,92.31,580,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.89690697728144,2286.8832269453,-0.478888991640725,-21.8126444440115,18.1350303235984,616.507178334335
10039,21243,23830,"SMPDSv1","Western Sayan","Kunes_a88",52.6352777777777,93.4605555555555,993,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.01552915382947,1912.14358306028,-2.80656102485815,-24.6219516513003,16.0551730501301,682.608628762424
10039,21244,23831,"SMPDSv1","Western Sayan","Kunes_a91",53.0636111111111,93.1313888888888,450,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.913811170276488,2327.56804444094,0.0972662845288879,-20.3977559434931,18.4836821318083,597.521937033831
10039,21245,23832,"SMPDSv1","Western Sayan","Kunes_a96",53.1716666666666,92.8647222222222,508,"not applicable","terrestrial","moss polster or moss","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.920866688373523,2280.34438650416,-0.172909322535429,-20.714285873346,18.2181775534576,602.312563575765
10040,21246,23833,"SMPDSv1","Western shore of Lake Sedmo Rilsko, Rila Mts.","Tonkov_l1",42.211417,23.324681000000002,2095,"not applicable","terrestrial","moss polster or moss","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.995750044694023,1785.10510463785,2.82410162714846,-8.14906651293334,12.5153719078571,838.750246608388
10041,21247,8921,"EMPDv2","Western Siberia,  forest-steppe, Gladilovskii Ryam","Ryabogina_a229",56.367125,68.533314,97,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.742095566876539,2409.60212990387,1.11230219970229,-18.0581861900654,19.3881989468851,424.187637231696
10042,21248,8786,"EMPDv2","Western Siberia, forest-steppe, 10.601","Ryabogina_a45",56.068745,69.332246,87,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.754138275112514,2371.03315824137,0.892215910187753,-18.2866903930369,19.2644917082507,427.643376771108
10043,21249,8787,"EMPDv2","Western Siberia, forest-steppe, 10.801 (Maiskoye Marsh)","Ryabogina_a46",56.141399,69.286995,96,"not known","terrestrial, marsh","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.726908543180392,2400.94056609467,1.01959054077017,-18.1405546670058,19.3567466486989,417.890626859513
10044,21250,8788,"EMPDv2","Western Siberia, forest-steppe, 10*.801","Ryabogina_a47",56.098145,69.236813,95,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.733868511977139,2397.22945970359,1.01710797369631,-18.144780924263,19.3407936614449,420.425312676194
10045,21251,8789,"EMPDv2","Western Siberia, forest-steppe, 11.601","Ryabogina_a48",56.068266,69.329005,76,"not known","terrestrial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.791031366172058,2334.00352485006,0.735295821584978,-18.4680331226387,19.1493080283154,440.078095227662
10046,21252,8790,"EMPDv2","Western Siberia, forest-steppe, 12.601","Ryabogina_a49",56.379567,68.718395,122,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.678578705259735,2466.13029025073,1.32907762875008,-17.8088952293809,19.5375872528565,399.899943451469
10047,21253,8791,"EMPDv2","Western Siberia, forest-steppe, 13.601","Ryabogina_a50",56.372343,68.639774,126,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.66955647744912,2475.59896695615,1.36883664572513,-17.7658984562444,19.5628883481399,396.535530542891
10048,21254,8769,"EMPDv2","Western Siberia, forest-steppe, 2.601","Ryabogina_a28",56.260141,69.633787,119,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.665740091423843,2466.04181203703,1.2863959426335,-17.8260725401326,19.5514418120145,395.063481315252
10049,21255,8770,"EMPDv2","Western Siberia, forest-steppe, 2.698","Ryabogina_a29",56.440989,66.1274,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.777000958444628,2419.88493003298,1.4829400409614,-17.5430472243704,19.4495560558815,461.493860604193
10050,21256,8793,"EMPDv2","Western Siberia, forest-steppe, 203 (M6)","Ryabogina_a52",56.072297,69.326068,76,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.791136406389935,2334.00836300015,0.735417091437793,-18.4679768550261,19.1493247491018,440.099680386863
10051,21257,8794,"EMPDv2","Western Siberia, forest-steppe, 204SR up","Ryabogina_a53",55.804786,70.204046,126,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.619692395909396,2512.40696157749,1.46641176874654,-17.6130989098648,19.7045965075876,380.863157987396
10052,21258,8795,"EMPDv2","Western Siberia, forest-steppe, 205SR botton","Ryabogina_a54",55.805871,70.201385,128,"not known","terrestrial","not known","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.613779053334197,2519.94338182879,1.49843032787407,-17.5761522201292,19.7274483698156,378.540889759084
10053,21259,8796,"EMPDv2","Western Siberia, forest-steppe, 206","Ryabogina_a55",55.621579,69.359518,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.773550387128065,2339.46597189923,0.755211786690672,-18.4217319760478,19.1441496552569,433.586625363144
10054,21260,8797,"EMPDv2","Western Siberia, forest-steppe, 207","Ryabogina_a56",56.230914,69.207416,124,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.64951477356012,2489.87860723119,1.40265543701574,-17.7066855501948,19.6245135391928,389.131503896467
10055,21261,8798,"EMPDv2","Western Siberia, forest-steppe, 208","Ryabogina_a57",56.310567,68.946905,112,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.695050297308537,2443.58138618354,1.21934386343085,-17.919869743175,19.4800918992209,405.813248026454
10056,21262,8799,"EMPDv2","Western Siberia, forest-steppe, 209","Ryabogina_a58",56.093041,69.241648,97,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.72734990329731,2403.81933513437,1.04440766985631,-18.1136112157142,19.3611303094603,418.156550421044
10057,21263,8800,"EMPDv2","Western Siberia, forest-steppe, 210","Ryabogina_a59",56.307329,68.94536,125,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.662074631179614,2477.39376547483,1.35667931039538,-17.7611618096112,19.5729648028665,393.267226059433
10058,21264,8801,"EMPDv2","Western Siberia, forest-steppe, 211","Ryabogina_a60",56.487487,68.04647,102,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.7355228980296,2427.99995893972,1.22685915812543,-17.9392039446224,19.4380689267287,423.779658338953
10059,21265,8802,"EMPDv2","Western Siberia, forest-steppe, 212","Ryabogina_a61",56.40826,68.400822,115,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.699427310696887,2450.38396318256,1.27796548380966,-17.874357088098,19.4966218914978,408.302540103094
10060,21266,8803,"EMPDv2","Western Siberia, forest-steppe, 213","Ryabogina_a62",56.359602,68.455067,107,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.717422148581392,2432.68816510479,1.20644951349629,-17.9533832382683,19.4499566192309,415.226309382996
10061,21267,8804,"EMPDv2","Western Siberia, forest-steppe, 214","Ryabogina_a63",56.473708,68.264208,128,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.671501255474391,2478.58593295298,1.39223970439016,-17.7500275906324,19.5701589152249,397.408666191054
10062,21268,8805,"EMPDv2","Western Siberia, forest-steppe, 215","Ryabogina_a64",55.896217,68.782125,134,"not known","lake","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.614977457372752,2528.42848098305,1.56656974481362,-17.533310727456,19.7442443610435,377.217055864839
10063,21269,8806,"EMPDv2","Western Siberia, forest-steppe, 216 (near Gladilovsky peat bog)","Ryabogina_a65",56.346096,68.481846,94,"not known","terrestrial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.749746201911214,2403.21951175218,1.08900127704738,-18.0848419828193,19.3713922533801,427.184654941058
10064,21270,8807,"EMPDv2","Western Siberia, forest-steppe, 217  (near Chesnoki)","Ryabogina_a66",55.827574,68.460903,133,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.624696077275182,2520.67035087113,1.55048928722107,-17.5777381800223,19.7159639231588,381.779159096734
10065,21271,8808,"EMPDv2","Western Siberia, forest-steppe, 219","Ryabogina_a67",56.174099,69.29565,85,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.763236353404425,2363.83341974504,0.863078431895143,-18.3216967467883,19.2423244436348,430.375534175958
10066,21272,8809,"EMPDv2","Western Siberia, forest-steppe, 220 (Ishim Plain)","Ryabogina_a68",55.932981,68.318281,128,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.643927171532549,2502.34051366362,1.48146756532946,-17.6560018956039,19.6588295569224,389.107910842319
10067,21273,8810,"EMPDv2","Western Siberia, forest-steppe, 221","Ryabogina_a69",56.448509,65.596561,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.77303050315002,2416.20163072761,1.49800070937353,-17.4874584299084,19.4312864499826,461.611750901242
10068,21274,8811,"EMPDv2","Western Siberia, forest-steppe, 222 (Tarmanskiy peatland)","Ryabogina_a70",57.279896,65.51342,55,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.822655905789316,2348.79591496206,1.20863607139987,-17.7460631581836,19.2737306355891,474.187666736143
10069,21275,8812,"EMPDv2","Western Siberia, forest-steppe, 223  (Tarmanskiy peatland)","Ryabogina_a71",57.311431,65.360985,56,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.822866851013545,2344.81993380656,1.20011806869676,-17.7441829069814,19.2591243808631,474.567199735977
10070,21276,8813,"EMPDv2","Western Siberia, forest-steppe, 224 (near ancient settlement Arkaim)","Ryabogina_a72",52.644912,59.575596,313,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.463087742090216,2844.98192246623,3.08066141037121,-16.243530273986,20.9843138618559,346.16261464553
10071,21277,8814,"EMPDv2","Western Siberia, forest-steppe, 225","Ryabogina_a73",52.203504,59.919477,299,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.421904767480624,2926.60029534459,3.32570645282662,-16.2295591617965,21.4460726588132,324.041738438426
10072,21278,8771,"EMPDv2","Western Siberia, forest-steppe, 3.601","Ryabogina_a30",55.976615,69.470741,92,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.734637659601516,2388.36469407196,0.961780638727628,-18.2039369194653,19.3190395085,421.283649890916
10073,21279,8773,"EMPDv2","Western Siberia, forest-steppe, 3.698","Ryabogina_a32",56.440915,66.127872,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.777003098513352,2419.88564633081,1.48292131017487,-17.5430892670216,19.4495597650636,461.493409181821
10074,21280,8774,"EMPDv2","Western Siberia, forest-steppe, 4.601","Ryabogina_a33",56.0272,69.470322,96,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.722881435236806,2401.6339042891,1.01792340355867,-18.1394367132329,19.3601083616038,416.978613634359
10075,21281,8772,"EMPDv2","Western Siberia, forest-steppe, 4.698","Ryabogina_a31",56.440823,66.128623,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.777007304024649,2419.88630571462,1.48288944637111,-17.5431578129779,19.4495649747688,461.492865408864
10076,21282,8775,"EMPDv2","Western Siberia, forest-steppe, 5.601","Ryabogina_a34",56.262001,69.629152,110,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.689855585128097,2439.27636370708,1.17418978779412,-17.9570726249487,19.4761363049828,404.177572039156
10077,21283,8776,"EMPDv2","Western Siberia, forest-steppe, 6.601","Ryabogina_a35",56.25833,69.611084,114,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.679129212248446,2451.12425829616,1.22444579703984,-17.8985701880212,19.5094643176036,400.145505024373
10078,21284,8777,"EMPDv2","Western Siberia, forest-steppe, 6.698","Ryabogina_a36",56.449024,66.150051,64,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.766999383979015,2427.88982535893,1.50232123398821,-17.5366939506353,19.465461826352,456.792223952043
10079,21285,8778,"EMPDv2","Western Siberia, forest-steppe, 6.801","Ryabogina_a37",56.367689,68.528252,100,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.734528347117082,2416.43312396281,1.13953434637973,-18.0275541959803,19.4064198873728,421.4127762745
10080,21286,8780,"EMPDv2","Western Siberia, forest-steppe, 7.698","Ryabogina_a39",56.559038,66.267958,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.789154310140159,2412.01792505125,1.43000533131371,-17.6134584202807,19.4303012470801,463.69539852716
10081,21287,8781,"EMPDv2","Western Siberia, forest-steppe, 7.898","Ryabogina_a40",56.533987,66.367714,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.781521734246372,2417.57729620941,1.43594492745061,-17.6216403848937,19.4407406623297,459.732890572099
10082,21288,8782,"EMPDv2","Western Siberia, forest-steppe, 8.601 (Bokarevsky peat bog)","Ryabogina_a41",56.266584,69.63099,112,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.684550442426771,2445.12629369489,1.19882654386035,-17.9282975474162,19.4926522559608,402.168928603729
10083,21289,8783,"EMPDv2","Western Siberia, forest-steppe, 8.898","Ryabogina_a42",56.534957,66.359689,59,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.784855928265801,2415.09955691833,1.43094678987456,-17.6224591935674,19.4358642286572,461.336981352385
10084,21290,8784,"EMPDv2","Western Siberia, forest-steppe, 9.601","Ryabogina_a43",56.068402,69.334366,91,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.74101912943849,2384.54844529173,0.949274932420675,-18.2207350096923,19.3063923040506,423.117662897991
10085,21291,8785,"EMPDv2","Western Siberia, forest-steppe, 9.898","Ryabogina_a44",56.53588,66.362822,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.781490809605751,2417.61280541186,1.43633437416289,-17.6210347360512,19.4408432411784,459.732273585332
10086,21292,8755,"EMPDv2","Western Siberia, forest-steppe, Cheremuhovyi Kust","Ryabogina_a14",56.835982,66.082859,57,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.799504933770941,2389.82995127361,1.35890204616587,-17.6497246564737,19.3809148558897,467.842665056977
10087,21293,8764,"EMPDv2","Western Siberia, forest-steppe, Iset river O","Ryabogina_a23",56.417566,65.171217,69,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.751646715824602,2426.34644922733,1.55040439019941,-17.4300665048208,19.4372643278533,454.109038591795
10088,21294,8763,"EMPDv2","Western Siberia, forest-steppe, Iset river XX","Ryabogina_a22",56.417568,65.171213,69,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.751646815079705,2426.34631079067,1.55040403788489,-17.4300665572464,19.4372639349431,454.109078558648
10089,21295,8759,"EMPDv2","Western Siberia, forest-steppe, Ishim river M-RZ-1","Ryabogina_a18",56.067691,69.331988,87,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.754117980909788,2371.04155772943,0.892255358181909,-18.2866405130589,19.2645113906475,427.640029677952
10090,21296,8760,"EMPDv2","Western Siberia, forest-steppe, Ishim river M-RZ-2","Ryabogina_a19",56.071392,69.327203,77,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.787703291042199,2337.36549973884,0.749635720861796,-18.4515223655894,19.1597843112101,438.963779297157
10091,21297,8761,"EMPDv2","Western Siberia, forest-steppe, Ishim river M-RZ-3","Ryabogina_a20",56.072063,69.328169,77,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.787707821881724,2337.35702154756,0.749572423324546,-18.4515876299044,19.1597710338082,438.963293759113
10092,21298,8762,"EMPDv2","Western Siberia, forest-steppe, Ishim river M-RZ-4","Ryabogina_a21",56.071456,69.331099,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.777519061754894,2347.42735245797,0.792249051279118,-18.4022293389278,19.1911556513848,435.564137561848
10093,21299,8923,"EMPDv2","Western Siberia, forest-steppe, Kolovskoe settelment","Ryabogina_a231",56.448086000000004,65.594544,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.767408100925095,2420.90099014953,1.51398967451349,-17.4764445984626,19.4409623073546,459.413540748473
10094,21300,8758,"EMPDv2","Western Siberia, forest-steppe, Sartanskii Ryam","Ryabogina_a17",56.937206,70.883344,97,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.755358758658458,2348.14806926491,0.722379295509187,-18.459721725345702,19.2092776369566,429.417499684793
10095,21301,8757,"EMPDv2","Western Siberia, forest-steppe, Stanichnyi Ryam","Ryabogina_a16",55.804931,70.206481,127,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.616707822344644,2516.19691102762,1.48248262897194,-17.5945696078206,19.7161145516021,379.69975997777
10096,21302,8918,"EMPDv2","Western Siberia, forest-steppe, Tobol river, Ostrov-2","Ryabogina_a226",56.533156,66.287055,55,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.790424978020698,2410.94921845449,1.42723457568831,-17.6153455802153,19.4278945973193,464.392658256672
10097,21303,8756,"EMPDv2","Western Siberia, forest-steppe, Ustug burial,kurgan 2","Ryabogina_a15",56.518688,66.389722,54,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.793566365184408,2408.52815534405,1.41443985064038,-17.6308095564422,19.4225218653066,465.363562734051
10098,21304,8818,"EMPDv2","Western Siberia, forest-steppe, XM-3","Ryabogina_a77",56.483475,65.549619,64,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.76298161035141,2424.36576145531,1.5271432131289,-17.4651005611182,19.4477065586121,457.638970629941
10099,21305,8819,"EMPDv2","Western Siberia, forest-steppe, XM-4","Ryabogina_a78",56.483665,65.549018,64,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.762988644632652,2424.35417284293,1.52712288493569,-17.4650857181314,19.4476743275364,457.642460814623
10100,21306,8768,"EMPDv2","Western Siberia, forest-steppe, XM-5","Ryabogina_a27",56.483712,65.548117,64,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.762991973876946,2424.34129771452,1.52710770688482,-17.4650553547569,19.4476331533399,457.64581272488
10101,21307,8765,"EMPDv2","Western Siberia, forest-steppe,1.601(a) (Ishim Plain)","Ryabogina_a24",56.261452,69.638078,112,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.684399740702513,2445.19395232666,1.19898193808812,-17.9280541553534,19.4929416867075,402.141353645799
10102,21308,8766,"EMPDv2","Western Siberia, forest-steppe,1.601(b)","Ryabogina_a25",56.261451,69.638077,112,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.684399725213207,2445.19396457774,1.19898200803045,-17.9280540831918,19.4929417195685,402.141351474049
10103,21309,8767,"EMPDv2","Western Siberia, forest-steppe,1.698","Ryabogina_a26",56.441049,66.12688,55,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.782253748470355,2415.77940443095,1.47229223393373,-17.5476025525783,19.4414900461072,463.872355433512
10104,21310,8779,"EMPDv2","Western Siberia, forest-steppe,7.601","Ryabogina_a38",56.254921,69.632285,107,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.69782857384175,2430.49407056745,1.13708802827106,-18.0003481298524,19.4513779321507,407.182414191053
10105,21311,8816,"EMPDv2","Western Siberia, forest-steppe,Kolovo 1.2000","Ryabogina_a75",56.448086000000004,65.594544,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.767408100925095,2420.90099014953,1.51398967451349,-17.4764445984626,19.4409623073546,459.413540748473
10106,21312,8817,"EMPDv2","Western Siberia, forest-steppe,L1/95","Ryabogina_a76",56.51814,66.392879,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.790143718732148,2411.06489271244,1.41992332992689,-17.6292878035925,19.4275553111246,463.749801727078
10107,21313,8830,"EMPDv2","Western Siberia, forest-steppe,Rafailovskoe_94_22","Ryabogina_a89",56.417567,65.171214,69,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.751646774708676,2426.34635645822,1.55040415408505,-17.4300665422072,19.4372640515958,454.10906361685
10108,21314,8843,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 27","Ryabogina_a116",66.018444,77.144833,31,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29486971185952,1191.7447984307,-6.07976486365981,-24.060246613896,13.4459786422799,473.602775747129
10109,21315,8844,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 28","Ryabogina_a117",66.018445,77.144833,31,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29486974352343,1191.74474424913,-6.07976520303543,-24.0602467981537,13.4459781878995,473.602767284594
10110,21316,8845,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 29 (9 km from Karatchayevo)","Ryabogina_a118",65.969806,77.984278,70,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31862239686932,1255.06124250338,-5.77661956512487,-23.9721947982488,13.9616932012616,492.145891400624
10111,21317,8846,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 30 (9 km from Karatchayevo)","Ryabogina_a119",65.969807,77.984278,70,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31862242363696,1255.06120673068,-5.7766197900852,-23.9721949126,13.9616929117559,492.145887146175
10112,21318,8847,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 31","Ryabogina_a120",65.880194,78.197389,61,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.32032010936781,1242.54100962734,-5.85470077278147,-24.0104477438376,13.8533591972741,490.397858441934
10113,21319,8848,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 32","Ryabogina_a121",65.52875,77.835028,97,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2998455258238,1342.17820164387,-5.21683512690288,-23.6430519524873,14.6466880913516,501.748143739587
10114,21320,8849,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 33","Ryabogina_a122",65.528751,77.835028,97,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29984557002677,1342.17808105401,-5.21683589383267,-23.6430524032264,14.646687153276,501.748129758984
10115,21321,8850,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 34","Ryabogina_a123",65.528752,77.835028,97,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.29984561422974,1342.17796046414,-5.21683666076258,-23.6430528539655,14.6466862152001,501.748115778379
10116,21322,8851,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 35","Ryabogina_a124",65.140417,77.763528,94,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27216056374396,1464.77716539532,-4.4436540152439,-23.1738368216348,15.5550842968575,512.516721430037
10117,21323,8852,"EMPDv2","Western Siberia, forest-tundra, N.Port-Tobolsk 36 (Tudylyakha River)","Ryabogina_a125",65.140418,77.763528,94,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.27216059834806,1464.77703895981,-4.44365476984001,-23.1738372801925,15.5550833895231,512.516708167114
10118,21324,8792,"EMPDv2","Western Siberia, forest-tundra, Parom 1","Ryabogina_a51",66.621003,66.558266,31,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16740554156026,1265.51379631275,-5.38874651583179,-23.6484487323929,14.5104389714066,444.41103980219
10119,21325,8867,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 51","Ryabogina_a140",63.262028,74.548444,135,"not known","terrestrial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22298501317428,1550.93664167097,-3.76511304302537,-22.6804465242937,16.2367787837032,521.126822589546
10120,21326,8868,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 52","Ryabogina_a141",63.262029,74.548444,135,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2229850343916,1550.936700326,-3.76511269171132,-22.6804462978128,16.2367791823917,521.126829787548
10121,21327,8869,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 53","Ryabogina_a142",63.262027,74.548444,135,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22298499195695,1550.9365830159,-3.76511339433965,-22.6804467507746,16.2367783850145,521.12681539154
10122,21328,8870,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 54","Ryabogina_a143",62.927639,74.32575,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21353181217101,1600.69463321765,-3.46941953641421,-22.4405140422194,16.5335423497685,522.066311473081
10123,21329,8871,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 55","Ryabogina_a144",62.927638,74.32575,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21353179224283,1600.6947339164,-3.46941894351851,-22.4405136430409,16.5335429957605,522.066323157506
10124,21330,8872,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 56","Ryabogina_a145",62.584222,74.077972,84,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20700763434326,1592.09195856713,-3.50386660712217,-22.4717422256276,16.4900488062393,522.88858830184
10125,21331,8873,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 57","Ryabogina_a146",62.584223,74.077972,84,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20700765528051,1592.09194159759,-3.50386670812219,-22.4717422942866,16.4900486985933,522.888586425808
10126,21332,8874,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 58","Ryabogina_a147",62.27125,73.701694,105,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20320938715375,1528.41259981076,-3.8791883463085,-22.7390032697911,16.1018555159797,517.562569922825
10127,21333,8875,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 59","Ryabogina_a148",62.271251,73.701694,105,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20320940710867,1528.41258679053,-3.8791884203671,-22.7390033113748,16.1018554210284,517.562568140054
10128,21334,8876,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 60","Ryabogina_a149",61.91625,73.764528,103,"not known","lake","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19522325332248,1557.12195474389,-3.71445776986804,-22.6288726424205,16.2858858238849,520.45200118005
10129,21335,8877,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 61","Ryabogina_a150",61.916251,73.764528,103,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19522327503533,1557.12194248649,-3.71445784198267,-22.6288726853434,16.2858857405521,520.452000269384
10130,21336,8878,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 62","Ryabogina_a151",61.59625,73.811444,127,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18062961938222,1536.70269154413,-3.84314579740423,-22.7219606133645,16.1436111561043,516.12750123489
10131,21337,8879,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 63","Ryabogina_a152",61.596251,73.811444,127,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18062967515362,1536.70257164095,-3.84314659509874,-22.7219612435272,16.1436104893475,516.127499961609
10132,21338,8880,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 64","Ryabogina_a153",61.357889,73.373694,129,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16722107350351,1565.00932711252,-3.63752947359266,-22.5607711314851,16.29688509374,516.254485009844
10133,21339,8881,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 65","Ryabogina_a154",61.357888,73.373694,129,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16722100254605,1565.00949933417,-3.63752834069895,-22.5607702194202,16.2968859855294,516.254485897298
10134,21340,8882,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 66","Ryabogina_a155",61.166861,72.974889,95,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10377074350046,1834.78881925412,-1.98829383118869,-21.219020877232,17.6473595946547,520.801447740005
10135,21341,8883,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 67","Ryabogina_a156",60.946111,72.801722,114,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06398334487892,1916.46688801828,-1.51524354717313,-20.7855688919029,17.930305691548,514.226796171373
10136,21342,8884,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 68","Ryabogina_a157",60.946112,72.801722,114,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06398342201511,1916.46668477419,-1.5152446546718,-20.7855698613021,17.9303048994179,514.226802483023
10137,21343,8885,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 69","Ryabogina_a158",60.585556,72.837694,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.01331850769816,2035.30054658346,-0.882121751928623,-20.2176596407482,18.3589999519902,505.778208189448
10138,21344,8886,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 70","Ryabogina_a159",60.585557,72.837694,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.01331856202783,2035.30045630739,-0.882122225728527,-20.2176600827074,18.3589996505706,505.778216569849
10139,21345,8887,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 71","Ryabogina_a160",60.421583,72.267972,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00775950980549,2042.51647966552,-0.83162568729864,-20.1490304493182,18.3923307669152,503.976530098888
10140,21346,8888,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 72","Ryabogina_a161",60.421584,72.267972,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.00775956101664,2042.516399955,-0.831626100320699,-20.1490308355365,18.3923305097115,503.976538491268
10140,21347,8889,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 72","Ryabogina_a162",60.268056,71.693944,117,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.996140553636357,2075.78988807664,-0.633316215423961,-19.9525978494406,18.5029919289421,500.110698967141
10141,21348,8890,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 73","Ryabogina_a163",60.268057,71.693944,117,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.996140607590968,2075.78980185152,-0.633316643717765,-19.9525982474594,18.5029916606888,500.110708514159
10142,21349,8891,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 74","Ryabogina_a164",59.911417,71.16575,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06934860140876,1908.90557118612,-1.4942898607875,-20.7526484925988,17.982476518765,518.353588154074
10143,21350,8892,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 75","Ryabogina_a165",59.911418,71.16575,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.06934862572687,1908.90555375897,-1.4942899628427,-20.7526485933457,17.9824764572183,518.353589854289
10144,21351,8893,"EMPDv2","Western Siberia, middle taiga, N.Port-Tobolsk 76","Ryabogina_a166",59.719633,70.318914,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.05554663733228,1959.22737013904,-1.1694222356263,-20.4325887640718,18.1771954303346,515.333127697315
10145,21352,8828,"EMPDv2","Western Siberia, north taiga, Vyngayaha B7_r.1","Ryabogina_a87",63.51272,76.49399,105,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22515295703443,1551.32954688544,-3.81797059933767,-22.6934736443223,16.1951808617894,515.862381210717
10146,21353,8853,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 37 (near Purovsk)","Ryabogina_a126",64.846222,77.354,111,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24132802053556,1458.26457959773,-4.39228117508348,-23.109211709744,15.5388867654059,502.871277152998
10147,21354,8854,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 38","Ryabogina_a127",64.846223,77.354,111,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2413280371953,1458.264439378,-4.39228198669527,-23.1092121894532,15.5388857557247,502.871257872968
10148,21355,8855,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 39","Ryabogina_a128",64.611556,77.043917,80,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24279964330263,1413.0093593159,-4.66654377187866,-23.2442038735216,15.2101426739796,499.945739009109
10149,21356,8856,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 40","Ryabogina_a129",64.527444,76.876972,91,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24085372842348,1435.57907080706,-4.51868013229963,-23.1515859357741,15.3801895635967,502.120027015813
10150,21357,8857,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 41","Ryabogina_a130",64.527445,76.876972,91,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2408537455902,1435.57899992328,-4.51868055113259,-23.1515861960096,15.3801890486504,502.120016828804
10151,21358,8858,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 42","Ryabogina_a131",64.332944,76.177556,87,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23822975646033,1408.35419530267,-4.66634470771042,-23.2324137937471,15.1977481759175,498.967085077845
10152,21359,8859,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 43","Ryabogina_a132",64.332945,76.177556,87,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23822977457496,1408.35413258241,-4.66634508385224,-23.23241401692,15.1977477147228,498.967075406823
10153,21360,8860,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 44","Ryabogina_a133",64.192361,75.408667,113,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2406107219254,1513.66092634717,-4.00356600613467,-22.8147599038902,15.9645708535251,513.631563609646
10154,21361,8861,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 45","Ryabogina_a134",64.192362,75.408667,113,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24061074169552,1513.66088503987,-4.00356624044052,-22.8147600450341,15.9645705792095,513.631557750975
10155,21362,8862,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 46","Ryabogina_a135",64.101697,75.057183,124,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24111529369616,1554.93507732357,-3.75125638261064,-22.6617065324072,16.254906259179,520.756477378668
10156,21363,8863,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 47","Ryabogina_a136",63.977972,74.884806,128,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23901623059409,1571.16883014563,-3.65374090676696,-22.6025791688015,16.3669620527773,523.19874663472
10157,21364,8864,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 48","Ryabogina_a137",63.977973,74.884806,128,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23901625117945,1571.16880398645,-3.65374105925098,-22.6025792680886,16.3669618831213,523.19874380763
10158,21365,8865,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 49","Ryabogina_a138",63.644528,74.582361,136,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23108093273112,1572.49849176806,-3.63728498258578,-22.5989587486764,16.3831369075928,523.785556057568
10159,21366,8866,"EMPDv2","Western Siberia, northern taiga, N.Port-Tobolsk 50","Ryabogina_a139",63.644529,74.582361,136,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23108095357934,1572.49853421046,-3.63728473289848,-22.5989585912408,16.3831371953679,523.785561127501
10160,21367,8894,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 77","Ryabogina_a167",59.719634,70.318914,58,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.05554666413262,1959.22734662854,-1.16942237141255,-20.4325889030027,18.1771953555574,515.333130669344
10161,21368,8895,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 78","Ryabogina_a168",59.626028,69.754139,63,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03107915710525,2012.50558921422,-0.857854713692112,-20.1122268116121,18.3283518716619,508.024593034654
10162,21369,8896,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 79","Ryabogina_a169",59.626029,69.754139,63,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03107919010882,2012.50555163906,-0.857854925414528,-20.1122270309683,18.32835176147,508.024598319207
10163,21370,8897,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 80","Ryabogina_a170",59.599117,69.395897,58,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.03028701935287,2026.96439905023,-0.747040404572414,-19.9853996794084,18.3765952602046,508.013070541304
10164,21371,8898,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 81","Ryabogina_a171",59.478083,69.141222,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.02264786622974,2046.97527126304,-0.611832782987185,-19.834028160654,18.4338273797171,506.545571869388
10165,21372,8899,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 82","Ryabogina_a172",59.478084,69.141222,56,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.02264790183584,2046.97522427149,-0.611833042306081,-19.8340284213016,18.4338272484609,506.54557853909
10166,21373,8900,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 83","Ryabogina_a173",59.478085,69.141222,56,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.02264793744194,2046.97517727995,-0.611833301624974,-19.8340286819492,18.4338271172047,506.545585208792
10167,21374,8901,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 84","Ryabogina_a174",59.141917,68.990722,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.986494672557706,2109.22951265077,-0.296650277157175,-19.5283638556307,18.5955271975219,495.281062129377
10168,21375,8902,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 85","Ryabogina_a175",59.141918,68.990722,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.98649471539269,2109.22945546536,-0.296650573028196,-19.5283641509095,18.5955270459021,495.28107175304
10169,21376,8903,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 86","Ryabogina_a176",59.141919,68.990722,62,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.986494758227667,2109.22939827995,-0.296650868899159,-19.5283644461882,18.5955268942822,495.2810813767
10170,21377,8904,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 87","Ryabogina_a177",58.793389,68.956667,88,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.948080614904444,2148.69258278656,-0.163547777554935,-19.4384590372187,18.6514074883828,481.773959829053
10171,21378,8905,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 88","Ryabogina_a178",58.793388,68.956667,88,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.948080583950327,2148.6926097919,-0.163547645687022,-19.4384589000718,18.6514075588349,481.773954355584
10172,21379,8906,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 89","Ryabogina_a179",58.633333,68.590472,57,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.947752979473014,2184.23510384422,0.129003889792788,-19.0762259121879,18.8066116358112,486.121093980032
10173,21380,8907,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 90","Ryabogina_a180",58.4905,68.644333,79,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.914833919694584,2217.41238292959,0.220553140172728,-19.0242686552848,18.8563885442799,472.832958865415
10174,21381,8908,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 91","Ryabogina_a181",58.49051,68.644333,79,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.914834371172765,2217.41188625966,0.220550741719395,-19.0242711336566,18.8563871877723,472.833057259083
10175,21382,8909,"EMPDv2","Western Siberia, southern taiga, N.Port-Tobolsk 92","Ryabogina_a182",58.490511,68.644333,79,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.914834416320559,2217.4118365927,0.220550501874253,-19.0242713814935,18.8563870521217,472.83306709844
10176,21383,8742,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a1",57.934278,68.993096,59,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.907179522987898,2237.78459554733,0.355080397033072,-18.8713334956183,18.9361161393798,473.446867993535
10176,21384,8751,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a10",57.187404,66.602283,52,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.832413923947474,2363.04922814947,1.20418595334201,-17.837817251844,19.3126031404322,474.462234099515
10176,21385,8752,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a11",58.066966,68.431985,42,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.943734534674485,2217.91210451773,0.34464216125589,-18.855366442714,18.9079854291541,488.207444992803
10176,21386,8753,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a12",57.146686,66.305856,54,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.822315051374438,2370.88791745632,1.25210270523762,-17.7770243488646,19.3316981822349,472.318084544941
10176,21387,8743,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a2",58.016882,69.135876,44,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.933287634971664,2224.91097060966,0.327492618252073,-18.8998596358885,18.9227960365581,481.828222971351
10176,21388,8744,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a3",57.988503,69.1115,45,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.931126359700549,2226.10135755292,0.3307965421311,-18.8968786441701,18.9241049256535,481.236839614739
10176,21389,8745,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a4",57.958698,69.08535,45,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.9304887230603,2226.77121304329,0.334126018532886,-18.8938518065835,18.9253120612593,481.163796326422
10176,21390,8746,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a5",57.975033,68.691273,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.905909226266954,2246.21024240479,0.422805611929766,-18.7903898926435,18.9634240856218,474.469024897183
10176,21391,8747,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a6",58.092683,68.214794,41,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.94377114124277,2216.87757442362,0.372914359791417,-18.7969723314178,18.9104890698388,490.91592495675
10176,21392,8748,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a7",57.764657,67.64657,48,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.90708806039626,2260.06618167374,0.607810263506932,-18.5298797772454,19.0274030315857,484.352945158176
10176,21393,8749,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a8",57.393795,67.039547,59,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.847760371625909,2335.42615627875,1.00687409306916,-18.087347655964,19.2246526345903,472.140965404345
10176,21394,8750,"EMPDv2","Western Siberia, southern taiga, Northern Wagai river","Ryabogina_a9",58.023128,69.156675,42,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.936304040855504,2223.90602020076,0.327206916628901,-18.9002143406304,18.9231126429792,482.799501942901
10177,21395,8815,"EMPDv2","Western Siberia, sub-taiga, 448 KA-1","Ryabogina_a74",57.165027,67.018219,59,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.831810856836448,2362.91316863875,1.13350903924418,-17.9650622562703,19.2994584701806,468.396748748849
10178,21396,8910,"EMPDv2","Western Siberia, sub-taiga, N.Port-Tobolsk 93","Ryabogina_a183",57.948083,68.159042,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.897304671662779,2263.8941112918,0.550721406396086,-18.6300873660283,19.0127516512444,474.98670292861
10179,21397,8911,"EMPDv2","Western Siberia, sub-taiga, N.Port-Tobolsk 94","Ryabogina_a184",57.948084,68.159042,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.897304709215935,2263.89406568578,0.550721193042337,-18.6300875739122,19.0127515290746,474.986710469034
10180,21398,8912,"EMPDv2","Western Siberia, sub-taiga, N.Port-Tobolsk 95","Ryabogina_a185",57.833175,68.022558,53,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.907172763564126,2256.03611414363,0.536959893316193,-18.6358457217915,19.0015719043863,479.999261202116
10181,21399,8913,"EMPDv2","Western Siberia, sub-taiga, N.Port-Tobolsk 96","Ryabogina_a186",57.680472,67.512833,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.86925265414771,2311.28096723009,0.833583425437439,-18.307230594347,19.1510974405539,472.172953841097
10182,21400,8914,"EMPDv2","Western Siberia, sub-taiga, N.Port-Tobolsk 97","Ryabogina_a187",57.680473,67.512833,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.869252686587671,2311.2809327133,0.833583268646315,-18.3072307482209,19.1510973460006,472.172959333993
10183,21401,8922,"EMPDv2","Western Siberia, subtaiga, Andreevskii 2/98","Ryabogina_a230",57.052292,65.858567,55,"not known","terrestrial, bog/fen/swamp","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.80993962561426,2377.92587099818,1.32192862747969,-17.6674260369151,19.3539221368973,471.368134787007
10184,21402,8754,"EMPDv2","Western Siberia, subtaiga, Andreevskoe lake","Ryabogina_a13",57.110636,66.272972,56,"not known","fluvial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.816862197504446,2375.45525266262,1.26969726500565,-17.7612101035337,19.3410254761555,470.459473736899
10184,21403,8917,"EMPDv2","Western Siberia, subtaiga, Andreevskoe lake","Ryabogina_a225",57.051174,65.889256,52,"not known","lake","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.815765490901708,2373.49684528343,1.30558173636221,-17.681574536364,19.3467730689316,473.57853261193
10185,21404,8920,"EMPDv2","Western Siberia, subtaiga, Kalininskii Ryam","Ryabogina_a228",56.924031,70.981225,101,"not known","terrestrial, bog/fen/swamp","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.743340216755908,2362.78922949762,0.786070484714034,-18.3923345192341,19.2493902205493,425.435670436376
10186,21405,8829,"EMPDv2","Western Siberia, subtaiga,Karagai Aul 1_r.1","Ryabogina_a88",57.165158,67.018851,63,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.824113080111019,2369.16525464042,1.15208049054789,-17.9507404864027,19.3123476367066,465.16345425249
10187,21406,9280,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 1 (near Yar-Sale)","Ryabogina_a188",66.814169,70.850029,4,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20095864377062,1189.75511186416,-6.00715617613874,-23.9856794798084,13.6394907870385,429.390251419659
10188,21407,9287,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 10 (near Mash-Gorta)","Ryabogina_a197",64.437648,65.340385,68,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24047285373055,1455.87360629648,-4.08176448827939,-22.8504846674288,15.841129575351,512.210213666502
10189,21408,9288,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 11 (Nyurik)","Ryabogina_a198",64.30081,65.667801,64,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24084931368775,1470.83183756635,-3.99792971296616,-22.7960529949557,15.9293256895936,515.48544495375
10190,21409,9289,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 12 (near Ingi-Soim)","Ryabogina_a199",64.080184,65.188522,66,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24249673884535,1498.12471204887,-3.77644747204796,-22.6259866511172,16.0793027212203,521.629284487356
10191,21410,9290,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 13 (near Berezovo)","Ryabogina_a200",63.905769,65.042381,104,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23905526264064,1501.15500987158,-3.71095870895877,-22.5505298009032,16.0671725402322,524.441090952339
10192,21411,9291,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 14 (Kazym river)","Ryabogina_a201",63.820167,65.976906,52,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24170565803946,1518.53597064822,-3.70551791575518,-22.5863682105404,16.2062289886479,526.051796699915
10193,21412,9292,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 15 (Kozlovskaya)","Ryabogina_a202",63.378787,64.662552,76,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.22113156440584,1567.39024655033,-3.24843847669744,-22.1732270436962,16.4018019638197,530.111186395023
10194,21413,9293,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 16 (Yalbyn-Ya river)","Ryabogina_a203",63.209281,63.258476,95,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19185181367641,1601.59753366007,-2.87704852764204,-21.8268813295067,16.4633803325556,526.301313821194
10195,21414,9294,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 17. (Auxeret)","Ryabogina_a204",63.209621,64.983215,116,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20909951700531,1655.16224629565,-2.65389502177015,-21.6176886310958,16.8150678329319,542.85031957951
10196,21415,9295,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 18 (river Lui-Ya)","Ryabogina_a205",62.83048,65.382957,103,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21059507622005,1675.47490797775,-2.57447470904321,-21.5549165464205,16.9532322157432,548.919900043449
10197,21416,9296,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 19 (opposite Karym-Kary)","Ryabogina_a206",61.988782,67.19696,135,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2033731932629,1625.4949314798,-2.96994919925428,-21.9238884251965,16.7446233571812,546.28298233661
10198,21417,9281,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 2 (Prokhor-Pan)","Ryabogina_a189",66.83333,68.103332,16,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.12782858811173,1219.92338953889,-5.73444543936147,-23.8476293684593,14.0859831684025,416.937303378553
10199,21418,9297,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 20 (near Zarechye)","Ryabogina_a207",62.2412629999999,66.892776,129,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20828445416266,1636.32798874183,-2.8980480115487,-21.8614473003951,16.7997778600774,547.160187259301
10200,21419,9298,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 21 (near Zenkovo ​​pier)","Ryabogina_a208",61.209493,69.892216,137,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.15690013111075,1647.46870295209,-3.04286222902766,-22.0897068583739,16.8077137875158,525.095400114638
10201,21420,9299,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 22 (Irtysh river near the Samara mountain)","Ryabogina_a209",60.990144,68.997517,101,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.16652337432504,1681.96968128406,-2.74338416610688,-21.8025017674861,17.0533385002882,536.023790554223
10202,21421,9300,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 23 (near Samarovo)","Ryabogina_a210",61.084392,68.727493,128,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20526431396511,1573.61133962288,-3.34762027766363,-22.2490583884945,16.5570972774205,548.143960525653
10203,21422,9301,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 24 (near Medvedev)","Ryabogina_a211",60.615331,77.369099,101,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.10533112524206,1900.11332903437,-1.8235335233094,-21.1017960072923,18.0012375494953,523.965860682902
10204,21423,9302,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 25 (near Gornofilinsky)","Ryabogina_a212",60.058552,69.893246,131,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.962287895674413,2133.02098374315,-0.339069898223548,-19.6844871878228,18.5807116611949,482.125035655634
10205,21424,9303,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 26. (near Novonikolskoye)","Ryabogina_a213",59.76549,79.214745,48,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.09450923949608,1877.14649775133,-2.01811315326233,-21.2535950429738,17.9605792325586,518.031755425172
10206,21425,9304,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 27 (near Narym)","Ryabogina_a214",58.906986,81.567764,54,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.980206661219376,1987.46683145581,-1.36491687238423,-20.5263544708003,18.3026032572346,506.178335524697
10207,21426,9305,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 28 (near Krivosheino)","Ryabogina_a215",57.346218,83.962612,56,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.885281605184602,2135.20011158445,-0.480028077488484,-19.4737975046093,18.7866846556452,496.709652493887
10208,21427,9306,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 29 (near Shegarsky)","Ryabogina_a216",56.575523,84.170837,72,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.845917330179089,2246.8442917922,0.199811201369424,-18.5852886147685,19.0890542151849,493.67306564414
10209,21428,9282,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 3","Ryabogina_a190",68.489646,73.575211,5,"not known","terrestrial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.30878717387937,883.174412905279,-8.3565999914098,-25.326330456238,10.535762547024,400.630115690861
10210,21429,9307,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 30 (near Kozhevnikovo)","Ryabogina_a217",56.257712,83.992481,71,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.833651090141638,2258.95057849314,0.268364216173451,-18.5008047918837,19.1302171610296,490.074326194084
10211,21430,9308,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 31 (Koliv)","Ryabogina_a218",55.323734,82.85059,83,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.766357016975848,2340.98287531781,0.696441043891354,-17.9762629039151,19.3595005931146,463.074604672523
10212,21431,9309,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 32 (near Krasny Yar)","Ryabogina_a219",55.012532,82.906551,85,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.740572245844467,2400.09549781788,1.00441712013621,-17.6025564948794,19.5514101233888,454.024167289626
10213,21432,9310,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 33 (near Novosibirsk)","Ryabogina_a220",55.010534,82.910185,85,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.740527054698955,2400.27450397766,1.00541981559227,-17.6012642111659,19.5519693221218,454.025161764172
10214,21433,9311,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 34 (near Novosibirsk)","Ryabogina_a221",54.919704,83.037357,94,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.738134653324593,2412.97634340853,1.07900415830927,-17.5002489912259,19.5773506868793,454.676339409252
10215,21434,9312,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 35 (river Ina)","Ryabogina_a222",54.978628,82.975073,91,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.739763024586576,2406.7083205925,1.04375091402056,-17.5471641808094,19.5623091180415,454.61111840538
10216,21435,9313,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 36 (near Bolsherechye village)","Ryabogina_a223",56.100826,74.648266,56,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.729735869658482,2354.98427643428,0.753177452747027,-18.493006831036,19.0917809231708,434.617547643656
10217,21436,9314,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 37 (near Cherlak)","Ryabogina_a224",54.151508,74.7894,72,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.366505589136014,2872.92119196753,2.79320852244982,-16.5519919392407,21.4440388660125,273.869868415727
10218,21437,9283,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 4 (near Angalski Cape)","Ryabogina_a191",66.62665,66.568794,31,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.1672241311729,1265.20692230438,-5.39103541400365,-23.6498936653347,14.5078904780323,444.256395996183
10219,21438,9284,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 5 (Pichugai-Yakha)","Ryabogina_a192",66.609482,69.126549,25,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.14907273936047,1211.6588210872,-5.80919547942998,-23.9196877229986,13.9793292448492,422.964285075917
10220,21439,9285,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 6 (Maly Nadym River)","Ryabogina_a193",66.546405,69.974213,5,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.13374412362861,1171.07239682134,-6.09744901346652,-24.0578510905257,13.6054021200921,408.204870271625
10221,21440,9286,"EMPDv2","Western Siberia, tundra, floodplain of the Ob river, 9 (near Ov-Hort)","Ryabogina_a196",64.649261,65.456429,87,"not known","fluvial","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24452248137563,1452.44962595331,-4.09145587004107,-22.8458803788333,15.8140543913268,512.505224405108
10222,21441,8831,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 1_Taz Peninsula (Ob Guba Gulf)","Ryabogina_a90",67.890417,74.81525,7,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.34305926467308,840.695853142146,-8.63499792064385,-25.4544432572204,10.0900631622205,403.182690777053
10223,21442,9274,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 10__Yamal Peninsula","Ryabogina_a99",67.808,75.571139,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33990572914191,931.974453247797,-7.81640081665091,-24.9885852543552,11.1279088304441,417.651658987402
10224,21443,9275,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 11__Yamal Peninsula","Ryabogina_a100",67.744544,75.744544,21,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33081823751531,985.312799129493,-7.42914574125664,-24.7839324184702,11.6475026634504,427.154891300613
10225,21444,9276,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 12__Yamal Peninsula","Ryabogina_a101",67.744543,75.744544,21,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33081821331994,985.312828318401,-7.4291455366089,-24.7839323103227,11.6475029387473,427.154897174765
10226,21445,9277,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 13__Yamal Peninsula","Ryabogina_a102",67.744545,75.744544,21,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.33081826171069,985.312769940591,-7.42914594590435,-24.7839325266177,11.6475023881536,427.154885426461
10227,21446,9278,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 14__Yamal Peninsula","Ryabogina_a103",67.475611,75.348694,43,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3013929211483,1071.78535330376,-6.82288296815996,-24.4673152800982,12.478217485118,439.332549400489
10228,21447,9279,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 15__Yamal Peninsula","Ryabogina_a104",67.475612,75.348694,43,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.3013929391228,1071.78533221222,-6.82288310837818,-24.4673153539881,12.478217303831,439.33254361582
10229,21448,8832,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 16__Tazovsky Peninsula","Ryabogina_a105",67.133556,76.455222,42,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31530453715671,1110.07837735202,-6.57930191034495,-24.3301268845583,12.7765040186155,454.528705447129
10230,21449,8833,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 17__Tazovsky Peninsula","Ryabogina_a106",67.133557,76.455222,42,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31530455753703,1110.07834929548,-6.57930208958603,-24.3301269837843,12.7765037851057,454.528698696153
10231,21450,8834,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 18__Tazovsky Peninsula","Ryabogina_a107",67.133555,76.455222,42,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.31530451677638,1110.07840540856,-6.57930173110392,-24.3301267853324,12.7765042521253,454.528712198103
10232,21451,8835,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 19__Tazovsky Peninsula","Ryabogina_a108",66.854556,76.391861,49,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30413436671961,1132.1528961778,-6.43282631031321,-24.2541111241349,12.9754671618801,457.986628431893
10233,21452,9266,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 2_Yamal Peninsula","Ryabogina_a91",67.710139,72.874167,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.27353171665482,1000.61651255557,-7.45820147679388,-24.8642977871052,11.7932928531343,415.663923447814
10234,21453,8836,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 20__Tazovsky Peninsula","Ryabogina_a109",66.854554,76.391861,49,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30413432589406,1132.15294682563,-6.43282599007647,-24.2541109423238,12.9754675739624,457.986640366076
10235,21454,8837,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 21_Tazovsky Peninsula","Ryabogina_a110",66.854555,76.391861,49,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30413434630684,1132.15292150172,-6.43282615019482,-24.2541110332293,12.9754673679213,457.986634398986
10236,21455,8838,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 22_Tazovsky Peninsula","Ryabogina_a111",66.527586,76.621614,43,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.30043942869541,1153.09179959402,-6.30265072700521,-24.1769073472897,13.1386784658536,463.38190477602
10237,21456,8839,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 23","Ryabogina_a112",66.527443,76.637083,43,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.3004548299292,1153.40541938023,-6.30074053226296,-24.1758717755097,13.1411821524008,463.459729671057
10238,21457,8840,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 24","Ryabogina_a113",66.345111,76.903333,65,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.283707029096,1210.42800514568,-5.93218773941566,-23.9883372731031,13.6359342905664,472.004970156241
10239,21458,8841,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 25","Ryabogina_a114",66.345112,76.903333,65,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.28370705241997,1210.42798641431,-5.93218786005559,-23.9883373482448,13.6359341469456,472.004967360254
10240,21459,8842,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 26 (28 km from N. Urengoi)","Ryabogina_a115",66.188786,76.870031,66,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.2788632538374,1223.40175537831,-5.84787715432417,-23.9415142096505,13.7433887600357,473.736889645647
10241,21460,9267,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 3__Yamal Peninsula","Ryabogina_a92",67.714194,72.865028,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.27352066159586,1000.89227594558,-7.45600697473312,-24.8630451261669,11.7962004554498,415.680196845402
10242,21461,9268,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 4__Yamal Peninsula","Ryabogina_a93",67.704131,72.97325,8,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.27505573847951,995.532022369709,-7.4977507163884,-24.8864295404321,11.7399141459951,415.304495720026
10243,21462,9269,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 5__Yamal Peninsula","Ryabogina_a94",67.711306,72.955778,9,"not known","terrestrial, bog/fen/swamp","sediment sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.27238566269305,999.268978774135,-7.46447986808105,-24.8676583533008,11.7831806621913,415.073966017878
10244,21463,9270,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 6__Yamal Peninsula","Ryabogina_a95",67.80975,72.590417,31,"not applicable","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17953859134678,1028.51956642894,-7.13374423927698,-24.7309010457635,12.303042000607,389.89647678086
10245,21464,9271,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 7__Yamal Peninsula","Ryabogina_a96",67.7805,72.394361,26,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19409250397458,1023.29505339289,-7.19171370364817,-24.7554409512432,12.2152176310135,394.022166601789
10246,21465,9272,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 8__Yamal Peninsula","Ryabogina_a97",67.778042,72.388892,26,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19398149878917,1023.44359080797,-7.19063445460416,-24.7549165346457,12.2167891763404,394.029820741014
10247,21466,9273,"EMPDv2","Western Siberia, tundra, N.Port-Tobolsk 9__Yamal Peninsula","Ryabogina_a98",67.768556,75.419639,25,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.32279091912702,977.224726225082,-7.48797371642012,-24.8208420580698,11.5838622355936,423.27686876723
10248,21467,8820,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 926","Ryabogina_a79",67.810431,80.060434,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.59275339185931,736.809194998768,-9.50267849870046,-26.2785542121489,9.23903456498537,440.967612717423
10249,21468,8821,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 927","Ryabogina_a80",67.812246,80.062323,61,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51790301301363,934.082391294034,-8.02135811211259,-25.3464344272217,11.1280316981437,460.93308816739
10250,21469,8822,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 928","Ryabogina_a81",67.81633,80.090475,62,"not known","terrestrial","moss polster or moss","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.52003021764308,931.139454739321,-8.04448344511178,-25.3631595270582,11.1014239719334,460.815162589443
10251,21470,8823,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 929","Ryabogina_a82",67.828642,80.046015,57,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51485672005326,942.565118609176,-7.95892011429979,-25.3051919239954,11.205422804029,461.604687550323
10252,21471,8824,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 930","Ryabogina_a83",67.828836,80.03726,59,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51613662837412,938.040726868589,-7.9909461317518,-25.324615580472,11.1636748479219,461.108707819701
10253,21472,8825,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 931","Ryabogina_a84",67.846773,80.112619,46,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.50897643730007,966.934403119092,-7.78829376332245,-25.2020530227138,11.428838065653,464.276163150624
10254,21473,8826,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 932","Ryabogina_a85",67.843731,80.114336,46,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.5089003411574,967.091727172846,-7.78733729803787,-25.2016996770309,11.4303479260028,464.310587975795
10255,21474,8827,"EMPDv2","Western Siberia, tundra, Pyakihinskoe 933","Ryabogina_a86",67.844378,80.123434,47,"not applicable","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.51005159377407,964.641895250803,-7.80542233919742,-25.2137648333283,11.4082232898584,464.127517448556
10256,21475,1610,"Australian pollen","Wet Lagoon","Wet Lagoon",-34.805,149.452925,700,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.722322646279786,4498.82486293816,12.3255475696936,5.16428604122281,19.2705675298746,905.331612671495
10257,21476,12055,"Neotoma","Wet Prairie ""Fak-1 prairie""","FSPSP1",25.96868,-81.36534,2,"not known","terrestrial","surface sample","-54","Donders, T.H., F. Wagner, and H. Visscher. 2005. Quantification strategies for human-induced and natural hydrological changes in wetland vegetation, southern Florida, USA. Quaternary Research 64(3):333-342.","10.1016/j.yqres.2005.08.016",4,"warm-temperate evergreen and mixed forest",0.88033697568261,8860.41269497958,24.2751032739167,19.116998002905,28.4637140147119,1292.66522711635
10258,21477,1611,"Australian pollen","Weylk","Weylk 3",-5.75,144,1885,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
10258,21478,1612,"Australian pollen","Weylk","Weylk 4",-5.75,144,1885,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
10258,21479,1613,"Australian pollen","Weylk","Weylk 6",-5.75,144,1885,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
10258,21480,1614,"Australian pollen","Weylk","Weylk 7",-5.75,144,1885,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
10258,21481,1615,"Australian pollen","Weylk","Weylk 8",-5.75,144,1885,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.08513714235132,7736.93159336069,21.1970728585224,20.2574033046224,21.7249384485645,2924.329315754
10259,21482,17348,"Neotoma","White","TW050",44.365833,-88.931111,246,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.92559743892617,3286.3244957361,6.93375039480301,-9.5567833260608,21.4471427495703,776.573097780298
10260,21483,17341,"Neotoma","White Clay","TW044",44.801389,-88.404167,246,"not known","not known","surface sample","Modern","Webb III, T., 1970. The late- and post-glacial sequence of climatic events in Wisconsin and east-central Minnesota: quantitative estimates derived from fossil pollen spectra by multivariate statistical analysis. Dissertation. University of Wisconsin, Madison, Wisconsin, USA.",,9,"cool mixed forest",0.943921094194994,3144.07746532969,6.42101605776844,-9.77539540162677,20.8534868726345,773.57305660753
10261,21484,15705,"Neotoma","White Lake","DRW002",34.65,-78.5,20,"not known","coastal, other","surface sample","Modern","Whitehead, D.R. and Tan, K.W., 1969. Modern vegetation and pollen rain in Bladen County, North Carolina. Ecology, 50(2), pp.235-248.","10.2307/1934851",4,"warm-temperate evergreen and mixed forest",1.08076728978647,6169.31456256715,16.9022316782662,6.2176527926685,26.622383018628,1273.8055451684
10261,21485,11493,"Neotoma","White Lake","SDTOWH",43.04232,-100.69573,848,"not known","lake","surface sample","-34","Unpublished data",,22,"steppe",0.477950026179516,3539.83384942558,8.31047961377326,-6.80228187578917,23.3160182088189,480.202913892854
10262,21486,13453,"Neotoma","White Lily Lake","WHITLIL1",46.086111,-93.102778,344,"not known","lake","core","-12","Unpublished data",,9,"cool mixed forest",0.88765053208272,3112.61221072348,5.58328083737435,-12.7098937398872,21.0110853344953,722.490751037018
10262,21486,13454,"Neotoma","White Lily Lake","WHITLIL1",46.086111,-93.102778,344,"not known","lake","core","19","Unpublished data",,9,"cool mixed forest",0.88765053208272,3112.61221072348,5.58328083737435,-12.7098937398872,21.0110853344953,722.490751037018
10263,21487,17534,"Neotoma","White Pond","WAW010",34.16759,-80.77616,90,"not known","lake","surface sample","Modern","Watts, W.A., 1980. Late-Quaternary Vegetation History at White Pond on the Inner Coastal Plain of South Carolina 1. Quaternary Research, 13(2), pp.187-199.","10.1016/0033-5894(80)90028-9",4,"warm-temperate evergreen and mixed forest",1.01245296344837,6211.69662723608,17.0183469239345,6.30302372696569,26.634378704118,1214.16962362748
10263,21488,13422,"Neotoma","White Pond","WHITEPND",34.16759,-80.77616,90,"not known","lake","core","0","Watts, W.A. 1980. Late-Quaternary vegetation history at White Pond on the inner coastal plain of South Carolina. Quaternary Research 13:187-199.",,4,"warm-temperate evergreen and mixed forest",1.01245296344837,6211.69662723608,17.0183469239345,6.30302372696569,26.634378704118,1214.16962362748
10263,21489,13421,"Neotoma","White Pond","WHITESC",34.16759,-80.77616,90,"not known","lake","core","-47","Krause, T.R., J.M. Russell, R. Zhang, J.W. Williams, and S.T. Jackson. in press. Late-Quaternary vegetation, climate, and fire history of the Southeast Atlantic Coastal Plain based on a 30,000-yr multi-proxy record from White Pond, South Carolina (USA). Quaternary Research.",,4,"warm-temperate evergreen and mixed forest",1.01245296344837,6211.69662723608,17.0183469239345,6.30302372696569,26.634378704118,1214.16962362748
10264,21490,15061,"Neotoma","Whitebark Moraine Pond","WHITBARK",43.788365,-110.794225,2801,"not known","lake","core","-4","Kelly, K.E. 2014. Paleoecological reconstruction of a modern whitebark pine (Pinus albicaulis) population in Grand Teton National Park, WY. Master's thesis. Kansas State University, Manhattan, Kansas, USA.",,17,"temperate evergreen needleleaf open woodland",0.590366679761692,1493.28706586309,0.733661058586655,-10.0451326753618,13.1049614519943,507.582384792494
10264,21490,15062,"Neotoma","Whitebark Moraine Pond","WHITBARK",43.788365,-110.794225,2801,"not known","lake","core","16","Kelly, K.E. 2014. Paleoecological reconstruction of a modern whitebark pine (Pinus albicaulis) population in Grand Teton National Park, WY. Master's thesis. Kansas State University, Manhattan, Kansas, USA.",,17,"temperate evergreen needleleaf open woodland",0.590366679761692,1493.28706586309,0.733661058586655,-10.0451326753618,13.1049614519943,507.582384792494
10265,21491,17418,"Neotoma","Whitmore Lake","TW125",42.45,-83.75,322,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",13,"temperate deciduous broadleaf forest",0.945521529366189,3559.90981319034,8.59757029177303,-5.98090396074442,21.6762214157541,834.439053287065
10266,21492,11992,"Neotoma","Whitney Lake","SM-WHT",39.4263799999999,-106.450314999999,3321,"not known","lake","surface sample","-61","Anderson, R.S., G. Jiménez-Moreno, T. Ager, and D.F. Porinchu. 2014. High-elevation paleoenvironmental change during MIS 6–4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82(3):542-552.","10.1016/j.yqres.2014.03.005",17,"temperate evergreen needleleaf open woodland",0.552178470156426,1059.00876529288,-1.72730735598292,-13.0669940179688,9.90242355877077,509.826391174816
10267,21493,13452,"Neotoma","Whitney's Gulch","WHITGLCH",51.516667,-57.3,98,"not known","not known","core","-26","Lamb, H.F. 1978. Post-glacial vegetation change in southeastern Labrador. Thesis. University of Minnesota, Minneapolis, Minnesota, USA.; Lamb, H.F. 1980. Late Quaternary vegetational history of southeastern Labrador. Arctic and Alpine Research 12:117-135.",,9,"cool mixed forest",1.99639955806138,1567.4647278535,1.02795025997405,-11.2175692142085,12.9174185249778,1103.76879507903
10268,21494,1616,"Australian pollen","WI10_PNG","WI10",-5.5,143.417,3850,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.13647128157824,5504.5370853935,15.080923521626,13.9671694315369,15.7937735774552,2981.50918994324
10269,21495,23834,"SMPDSv1","Wielkie Oczko Lake","Swieta_g1",54.05,17.9833333333333,158,"0.045","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.8823186141066,2881.02673051576,7.56990619302746,-2.30654361307427,16.7439182741151,615.962911331156
10269,21496,23835,"SMPDSv1","Wielkie Oczko Lake","Swieta_g2",54.05,17.9833333333333,158,"0.045","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.8823186141066,2881.02673051576,7.56990619302746,-2.30654361307427,16.7439182741151,615.962911331156
10269,21497,23836,"SMPDSv1","Wielkie Oczko Lake","Swieta_g3",54.05,17.9833333333333,158,"0.045","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.8823186141066,2881.02673051576,7.56990619302746,-2.30654361307427,16.7439182741151,615.962911331156
10270,21498,13455,"Neotoma","Wien Lake","WIENLAKE",64.333333,-151.266667,305,"not known","lake","core","0","Hu, F.S., L.B. Brubaker, and P.M. Anderson. 1993. A 12000 year record of vegetation change and soil development from Wien Lake, central Alaska. Canadian Journal of Botany 71:1133-1142.",,15,"cold evergreen needleleaf forest",0.947149315604934,1566.8850941114,-3.54574878408627,-20.6940326770308,14.4460646075879,384.426008511749
10271,21499,23837,"SMPDSv1","Wierzchlas 1","PL/AN/W1",53.517867,18.107399,106,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.81640522841797,2989.56276329723,7.88745234101574,-2.21462784851557,17.1872503302437,580.766381929303
10272,21500,23838,"SMPDSv1","Wierzchlas 2","PL/AN/W2",53.517143,18.12307,101,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813293385537253,2996.25498446505,7.90684127509631,-2.20864844980782,17.2149420490289,578.784778333161
10273,21501,23839,"SMPDSv1","Wierzchlas 3","PL/AN/W3",53.517378,18.124184,101,"not applicable","terrestrial","pollen trap","-54","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.813296057238032,2996.25022683611,7.90680547586669,-2.20877714752853,17.2149231700002,578.783744852038
10274,21502,23840,"SMPDSv1","Wife Park Ribblesdale, North Yorkshire UK","Shaw_d1",54.2037972222222,-2.33207777777777,287,"not known","not known","core top","-50","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",2.28983509633189,2764.4469440639,7.57382724401068,2.06387683928025,13.7659385589788,1277.76215899349
10275,21503,23841,"SMPDSv1","Wiggenhall St. Germans","EPDcoretop_E698",52.683333,0.333333,1,"not known","terrestrial, blanket bog","core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",1.03636179616791,3461.10141501898,9.48246963018898,3.47412454063887,16.0597751917823,653.459230464519
10276,21504,16703,"Neotoma","Wigwam Pond","PWD11",41.275,-70.016667,6,"not known","lake","surface sample","Modern","Dunwiddie, P.W. 1990. Postglacial vegetation history of coastal islands in southeastern New England. National Geographic Research 6:178-195.",,9,"cool mixed forest",1.41172909604149,3973.41072664116,10.6781837233974,-1.6115559903325,22.4140850725421,1285.46181162916
10277,21505,16073,"Neotoma","Wilcox Lake","JHM026",43.95,-79.43,304,"not known","lake","surface sample","Modern","McAndrews, J.H. and Power, D.M., 1973. Palynology of the Great Lakes: the surface sediments of Lake Ontario. Canadian Journal of Earth Sciences, 10(5), pp.777-792.","10.1139/e73-071",9,"cool mixed forest",1.10654796018222,2993.66611377774,6.29413036634077,-8.41920015088933,19.731545991126,936.038304878785
10277,21506,12770,"Neotoma","Wilcox Lake","WILCOX98",43.95,-79.43,304,"not known","lake","core","-48","McAndrews, J.H. 1997. Pollen, climate, a comet, and mastodon extinction. Canadian Association of Palynologists Newsletter 31(2):7-8.",,9,"cool mixed forest",1.10654796018222,2993.66611377774,6.29413036634077,-8.41920015088933,19.731545991126,936.038304878785
10278,21507,13456,"Neotoma","Wilcox Pass","WILCOX",52.241667,-117.216667,2355,"not known","terrestrial, bog/fen/swamp","core","-2","Beaudoin, A.B. 1984. Holocene environmental change in the Sunwapta Pass Area, Jasper National Park. Dissertation. University of Western Ontario, London, Ontario, Canada.. Doctoral dissertation.; Beaudoin, A.B., and R.H. King. 1986. Using discriminant function analysis to identify Holocene tephras based on magnetite composition: a case study from the Sunwapta Pass area, Jasper National Park. Canadian Journal of Earth Sciences 23:804-812.; Beaudoin, A.B., and R.H. King. 1990. Late Quaternary vegetation history of Wilcox Pass, Jasper National Park, Alberta. Palaeogeography, Palaeoclimatology, Palaeoecology 80:129-144.",,15,"cold evergreen needleleaf forest",2.00079330370259,734.492384619024,-3.08960615801191,-13.0350638781529,7.44603709050496,1206.7157778539
10279,21508,13468,"Neotoma","Wild Spear Lake","WLDSPEAR",59.25,-114.15,880,"not known","lake","core","-30","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. 1987. Postglacial vegetation history of the Mackenzie River Basin. Quaternary Research 28:245-262.; MacDonald, G.M., and L.C. Cwynar. 1985. A fossil pollen based reconstruction of the late Quaternary history of lodgepole pine (Pinus contorta ssp. latifolia) in the western interior of Canada. Canadian Journal of Forest Research 15:1039-1044.",,15,"cold evergreen needleleaf forest",0.770646190840133,1470.75428350755,-4.10454553637616,-24.0649917285952,13.3766173795694,412.581740581144
10280,21509,8737,"EMPDv2","Wilder See am Ruhestein","Roesch_a11",48.570823,8.24029,910,"0.021","lake","moss polster or moss","-63","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.74717162846024,2728.83939309972,7.27890664201214,-1.51946308636638,15.9982279188288,1300.67032635818
10281,21510,16514,"Neotoma","Wiley Pond","KG011",46,-68.63,253,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.45946223343551,2508.83762151249,3.91036500359886,-11.738368190593,18.2219930494511,1075.76404554305
10282,21511,15491,"Neotoma","Willaby Creek","CJH070",47.6,-124.22,15,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.9177707562875,3584.90250041869,9.82165068607859,4.29766361946553,15.99642598029,2188.23561332053
10283,21512,12201,"Neotoma","Willcox Playa area","WILCOXST1",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21513,12200,"Neotoma","Willcox Playa area","WILCOXST2",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21514,12205,"Neotoma","Willcox Playa area","WILCOXST3",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21515,12204,"Neotoma","Willcox Playa area","WILCOXST4",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21516,12202,"Neotoma","Willcox Playa area","WILCOXST5",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21517,12206,"Neotoma","Willcox Playa area","WILCOXST6",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10283,21518,12203,"Neotoma","Willcox Playa area","WILCOXST7",32.13943,-109.843875,1265,"not known","artificial water body","surface sample","-10","Hevly, R.H., and P.S. Martin. 1961. Geochronology of Pluvial Lake Cochise, southern Arizona: I. pollen analysis of shore deposits. Journal of the Arizona Academy of Science 2(1):24-31.","10.2307/40025668",27,"desert",0.24512435043271,6036.5190810196,16.5384084411496,7.07854830250895,26.6766489289732,379.368900778164
10284,21519,11566,"Neotoma","Williams Lake","NDGVWI",46.6026899999999,-103.89233,847,"not known","artificial water body","surface sample","-37","Unpublished data",,22,"steppe",0.434788724274787,3143.79111004466,6.36904740124992,-9.90356151956785,21.7932437300157,390.802548044976
10284,21520,13965,"Neotoma","Williams Lake","WILLIAMJ",46.95391,-94.66923,421,"not known","lake","core","-8","Locke, S.M. 1995. A paleohydrologic model applied to the Holocene sediment stratigraphy of two lakes in north-central Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.",,9,"cool mixed forest",0.815784819516432,2966.83293966251,4.54515393671878,-14.6687964527379,20.5098032714847,657.332384525729
10285,21521,23842,"SMPDSv1","Willingham Mere","EPDcoretop_E699",52.333333,-0.051389,2,"not known","lacustrine, drained lake","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",13,"temperate deciduous broadleaf forest",0.99109390893949,3440.41403592218,9.42579187923886,3.381500434155,16.0316206943146,630.387472966268
10286,21522,1617,"Australian pollen","Willsmere Billabong","Willsmere Billabong",-37.7833,145.05,20,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.6954818044875,5256.81419550627,14.4022306726199,9.34472381468146,19.7960919333105,729.133917627707
10287,21523,1618,"Australian pollen","Wilpena Creek","Pound SS",-30.93,138.85,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.179109591319141,6142.05432871397,16.8275461060657,8.58750700438284,24.8922219968074,293.585200877344
10287,21524,1619,"Australian pollen","Wilpena Creek","WC Car Park",-30.87,138.92,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.178061742726871,6152.14187882876,16.8551832296678,8.60052972269247,24.9309857129126,292.344327196494
10287,21524,1620,"Australian pollen","Wilpena Creek","WC Car Park",-30.87,138.92,600,"not applicable","fluvial","surface sample","8","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.178061742726871,6152.14187882876,16.8551832296678,8.60052972269247,24.9309857129126,292.344327196494
10287,21525,1621,"Australian pollen","Wilpena Creek","WCCP Eastbank SS",-30.87,138.92,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.178061742726871,6152.14187882876,16.8551832296678,8.60052972269247,24.9309857129126,292.344327196494
10287,21526,1622,"Australian pollen","Wilpena Creek","WCCP Profile SS",-30.87,138.92,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.178061742726871,6152.14187882876,16.8551832296678,8.60052972269247,24.9309857129126,292.344327196494
10287,21527,1623,"Australian pollen","Wilpena Creek","WCDS SS",-30.93,138.91,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.179119414580195,6140.27071776053,16.8226595007138,8.58250211551047,24.8876917514245,293.563165981457
10287,21528,1624,"Australian pollen","Wilpena Creek","WCUS SS",-30.93,138.91,600,"not applicable","fluvial","surface sample","-46","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.179119414580195,6140.27071776053,16.8226595007138,8.58250211551047,24.8876917514245,293.563165981457
10288,21529,16545,"Neotoma","Wilson Pond","KG039",44.58,-70.25,173,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50677388961903,2877.59215072724,5.97306272132399,-8.55155541051647,19.3874425311961,1169.50704954876
10289,21530,7036,"EMPDv2","Windbruch","EPDcoretop_E1616",49.61,12.54,497,"0.2","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.937305765154111,2950.94114035227,7.75267698124867,-2.27305813036941,16.980791055951,688.288930219519
10290,21531,1625,"Australian pollen","Windin","Windin",-17.317,145.783,760,"not applicable","terrestrial","moss polster or moss","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.700903913470448,7813.4660905,21.4067564123288,16.5909746463549,24.8023336743143,1266.21690832429
10291,21532,7048,"EMPDv2","Windmill Rough","EPDcoretop_E1684",50.97,-3.63,263,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",2.37143024960016,3187.65070686317,8.73328960784429,3.33332011537556,14.6858591265557,1489.20406644152
10292,21533,13457,"Neotoma","Windsor Pond","WINDSOR",42.53693,-72.980005,496,"not known","lake","core","0","Unpublished data",,9,"cool mixed forest",1.38130619814359,2856.93033232286,5.77140699465622,-9.06455530105855,19.117572900799,1093.65404383197
10292,21533,13458,"Neotoma","Windsor Pond","WINDSOR",42.53693,-72.980005,496,"not known","lake","core","33","Unpublished data",,9,"cool mixed forest",1.38130619814359,2856.93033232286,5.77140699465622,-9.06455530105855,19.117572900799,1093.65404383197
10293,21534,13459,"Neotoma","Winneconnet Pond","WINNE",41.966667,-71.116667,20,"not known","lake","core","35","Suter, S.M. 1985. Late-glacial and Holocene vegetation history in southeastern Massachusetts: a 14,000 year pollen record. Current Research in the Pleistocene. Current Research in the Pleistocene 2:87-89.",,13,"temperate deciduous broadleaf forest",1.34291396798709,3834.05799122753,10.1356315827504,-2.49245544868529,22.2601193656965,1201.01212440278
10294,21535,7049,"EMPDv2","Winneys Down","EPDcoretop_E1685",50.62,-3.94,517,"not known","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",3.49577571924219,2704.60064731052,7.4098647871521,1.52769599954782,13.6178191032677,2076.41845849977
10295,21536,13460,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","-20","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13461,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","-12","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13462,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","-5","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13463,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","2","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13464,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","11","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13465,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","20","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13466,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","31","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10295,21536,13467,"Neotoma","Wintergreen Lake","WINTERGR",42.4,-85.383333,271,"not known","lake","core","42","Manny, B.A., R.G. Wetzel, and R.E. Bailey. 1978. Paleolimnological sedimentation of organic carbon, nitrogen, phosphorous, fossil pigments, pollen, and diatoms in a hypereutrophic, hardwater lake: a case history of eutrophication. Polskie Archiwum Hydrobiologii 25:243-267.",,13,"temperate deciduous broadleaf forest",0.993982644963431,3623.86239440658,8.85300304246627,-5.71921236983938,21.9982273369445,879.151019922538
10296,21537,13966,"Neotoma","Winton Bay Lake","WINTONBY",63.3901388888889,-64.6806944444444,0,"not known","coastal, estuarine","core","2","Doner, L.A. 2001. Late Holocene paleolimnology and paleoclimatology from sub-arctic lakes in Nunavut, Canada and Iceland. Doctoral dissertation. University of Colorado, Boulder, Colorado, USA.",,31,"tundra",1.63651135873428,475.036025538015,-7.43232086676704,-20.9250997038859,6.01131456413283,536.66757742009
10296,21537,13967,"Neotoma","Winton Bay Lake","WINTONBY",63.3901388888889,-64.6806944444444,0,"not known","coastal, estuarine","core","11","Doner, L.A. 2001. Late Holocene paleolimnology and paleoclimatology from sub-arctic lakes in Nunavut, Canada and Iceland. Doctoral dissertation. University of Colorado, Boulder, Colorado, USA.",,31,"tundra",1.63651135873428,475.036025538015,-7.43232086676704,-20.9250997038859,6.01131456413283,536.66757742009
10296,21537,13968,"Neotoma","Winton Bay Lake","WINTONBY",63.3901388888889,-64.6806944444444,0,"not known","coastal, estuarine","core","26","Doner, L.A. 2001. Late Holocene paleolimnology and paleoclimatology from sub-arctic lakes in Nunavut, Canada and Iceland. Doctoral dissertation. University of Colorado, Boulder, Colorado, USA.",,31,"tundra",1.63651135873428,475.036025538015,-7.43232086676704,-20.9250997038859,6.01131456413283,536.66757742009
10296,21537,13969,"Neotoma","Winton Bay Lake","WINTONBY",63.3901388888889,-64.6806944444444,0,"not known","coastal, estuarine","core","43","Doner, L.A. 2001. Late Holocene paleolimnology and paleoclimatology from sub-arctic lakes in Nunavut, Canada and Iceland. Doctoral dissertation. University of Colorado, Boulder, Colorado, USA.",,31,"tundra",1.63651135873428,475.036025538015,-7.43232086676704,-20.9250997038859,6.01131456413283,536.66757742009
10297,21538,1626,"Australian pollen","WISU_PNG","WISU",-5.5,143.417,4500,"not applicable","terrestrial","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.1082975255256,4768.61930630591,13.0647104282354,11.8927215196751,13.8382613912738,2937.98783568381
10298,21539,1627,"Australian pollen","Witherspoon Swamp","Witherspoon Swamp core 1",-17.8167,145.4,652,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-54","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.628794392253175,8074.10580481578,22.1208378214131,17.0740481009884,25.6924556377556,1140.78783626656
10298,21540,1628,"Australian pollen","Witherspoon Swamp","Witherspoon Swamp core 2",-17.8167,145.4,652,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","-56","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",0.628794392253175,8074.10580481578,22.1208378214131,17.0740481009884,25.6924556377556,1140.78783626656
10299,21541,15746,"Neotoma","Wolf L. (H.F.)","DRW046",44.02092,-74.21973,556,"not known","lake","surface sample","Modern","Whitehead, D.R., and Jackson, S.T., 1990. The regional vegetational history of the High Peaks (Adirondack Mountains), New York. Bulletin No. 478, New York State Museum, Albany, New York, USA..",,9,"cool mixed forest",1.37578497811656,2660.10228366556,4.94271958379321,-9.78926256815308,18.2111537757996,1055.33645535439
10300,21542,1629,"Australian pollen","Wolgan","Wolgan 1",-33.24,150.14,551,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.612127045939439,5321.55003871869,14.5795891471745,7.32232331068617,21.3340114911507,829.150031171514
10300,21543,1630,"Australian pollen","Wolgan","Wolgan 2",-33.24,150.14,551,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.612127045939439,5321.55003871869,14.5795891471745,7.32232331068617,21.3340114911507,829.150031171514
10301,21544,23843,"SMPDSv1","Wolin II","EPDcoretop_E750",53.833333,14.666667,5,"0.05","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.845348117119544,3108.8599859339,8.36249483612791,-1.17015547799137,17.5624497936562,592.682672440755
10302,21545,13469,"Neotoma","Wolsfeld Lake","WOLSFELD",45.005015,-93.5727599999999,292,"not known","lake","core","-25","Grimm, E.C. 1981. An ecological and paleoecological study of the vegetation in the Big Woods region of Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",13,"temperate deciduous broadleaf forest",0.854807002174724,3433.48652419057,6.86952950002451,-11.564454234677,22.4052697380637,732.143983200265
10302,21545,13470,"Neotoma","Wolsfeld Lake","WOLSFELD",45.005015,-93.5727599999999,292,"not known","lake","core","-13","Grimm, E.C. 1981. An ecological and paleoecological study of the vegetation in the Big Woods region of Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",13,"temperate deciduous broadleaf forest",0.854807002174724,3433.48652419057,6.86952950002451,-11.564454234677,22.4052697380637,732.143983200265
10302,21545,13471,"Neotoma","Wolsfeld Lake","WOLSFELD",45.005015,-93.5727599999999,292,"not known","lake","core","0","Grimm, E.C. 1981. An ecological and paleoecological study of the vegetation in the Big Woods region of Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",13,"temperate deciduous broadleaf forest",0.854807002174724,3433.48652419057,6.86952950002451,-11.564454234677,22.4052697380637,732.143983200265
10302,21545,13472,"Neotoma","Wolsfeld Lake","WOLSFELD",45.005015,-93.5727599999999,292,"not known","lake","core","22","Grimm, E.C. 1981. An ecological and paleoecological study of the vegetation in the Big Woods region of Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",13,"temperate deciduous broadleaf forest",0.854807002174724,3433.48652419057,6.86952950002451,-11.564454234677,22.4052697380637,732.143983200265
10302,21545,13473,"Neotoma","Wolsfeld Lake","WOLSFELD",45.005015,-93.5727599999999,292,"not known","lake","core","46","Grimm, E.C. 1981. An ecological and paleoecological study of the vegetation in the Big Woods region of Minnesota. Doctoral dissertation. University of Minnesota, Minneapolis, Minnesota, USA.; Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytologist 93(2):311-350.","10.1111/j.1469-8137.1983.tb03434.x",13,"temperate deciduous broadleaf forest",0.854807002174724,3433.48652419057,6.86952950002451,-11.564454234677,22.4052697380637,732.143983200265
10303,21546,13474,"Neotoma","Wolverine Lake","WOLVERIN",46.429167,-85.661111,259,"not known","lake","core","-26","Unpublished data",,9,"cool mixed forest",1.20581179674524,2598.39237579187,4.29276073172075,-11.2449086889992,18.0096498322832,907.985324534863
10303,21546,13475,"Neotoma","Wolverine Lake","WOLVERIN",46.429167,-85.661111,259,"not known","lake","core","-11","Unpublished data",,9,"cool mixed forest",1.20581179674524,2598.39237579187,4.29276073172075,-11.2449086889992,18.0096498322832,907.985324534863
10303,21546,13476,"Neotoma","Wolverine Lake","WOLVERIN",46.429167,-85.661111,259,"not known","lake","core","8","Unpublished data",,9,"cool mixed forest",1.20581179674524,2598.39237579187,4.29276073172075,-11.2449086889992,18.0096498322832,907.985324534863
10303,21546,13477,"Neotoma","Wolverine Lake","WOLVERIN",46.429167,-85.661111,259,"not known","lake","core","26","Unpublished data",,9,"cool mixed forest",1.20581179674524,2598.39237579187,4.29276073172075,-11.2449086889992,18.0096498322832,907.985324534863
10304,21547,16773,"Neotoma","Woman Lake","RJM035",51.19909,-92.754195,379,"not known","lake","surface sample","Modern","Mott, R.J., 1975. Modern pollen spectra from northwestern Ontario. Pages 147-150 in Report of Activities Part B. Paper 75-1B. Canadian Geological Survey, Ottawa, Ontario, Canada.",,15,"cold evergreen needleleaf forest",0.940638748428477,2324.46414693059,0.763178092221541,-19.916171247775,18.3967195129961,653.235669988707
10305,21548,13478,"Neotoma","Wonder Lake","WONDER",63.483333,-151.083333,610,"not known","lake","core","48","Anderson, P.M., A.V. Lozhkin, W.R. Eisner, D.M. Hopkins, L.B. Brubaker, and P.A. Colinvaux. 1994. Pollen records from Ten Mile and Wonder Lake, Alaska. Geographie Physique et Quaternaire 48(2):131-141..",,15,"cold evergreen needleleaf forest",1.08864782734915,1291.66863176232,-3.82349905059404,-18.7606300646044,12.3678126379254,429.202444972886
10306,21549,13493,"Neotoma","Wood Lake","WOODLAKE",45.333333,-90.083333,464,"not known","lake","core","-42","Bender, M.M., D.A. Baerreis, R.A. Bryson, and R.L. Steventon. 1981. University of Wisconsin Radiocarbon dates XVIII. Radiocarbon 23(1):145-161. Heide, K.M. 1981. Late Quaternary vegetational history of north-central Wisconsin, U.S.A.: estimating forest composition from pollen data. Dissertation, Brown University, Providence, Rhode Island, USA.; Heide, K.M. 1984. Holocene pollen stratigraphy from a lake and small hollow in north-central Wisconsin, USA. Palynology 8:3-19.","10.1017/S0033822200037504",9,"cool mixed forest",1.01272555468469,2713.90712577994,4.24132395815692,-12.7129398379837,19.2249853782518,793.404722696873
10307,21550,1631,"Australian pollen","Wood Nymphs Dell Forest","Wood Nymphs Dell Forest",-33.7,150.4,850,"not applicable","terrestrial","surface sample","-41","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.577317813730989,4504.69354841537,12.3416261600421,4.80155943487976,19.6395406598846,775.655135715109
10308,21551,15244,"Neotoma","Woodbn07","AMD011",42.33,-90.12,274,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.935792612609783,3622.50692607571,8.2035605347315,-8.69847778292969,22.5127922145337,855.103928206649
10309,21552,15242,"Neotoma","Woodbn24","AMD009",42.32,-90.1,244,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.95204307614878,3795.11195216393,8.91757809353948,-7.84118283470355,23.0491816313848,884.941400707308
10310,21553,15239,"Neotoma","Woodbn25","AMD006",42.3,-90.12,244,"not known","not known","surface sample","Modern","Davis, A.M. 1975. Reconstructions of local and regional Holocene environments from the pollen and peat stratigraphies of some Driftless Area peat deposits. Doctoral dissertation. University of Wisconsin, Madison, Wisconsin, USA.; Davis, A.M., 1977. The prairie-deciduous forest ecotone in the upper Middle West. Annals of the Association of American Geographers, 67(2), pp.204-213.",";
10.1111/j.1467-8306.1977.tb01133.x",13,"temperate deciduous broadleaf forest",0.95161345835755,3797.17774530019,8.92495467479612,-7.83575782230727,23.0560489440594,885.086590305663
10311,21554,13479,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","2","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13480,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","5","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13481,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","7","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13482,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","10","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13483,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","14","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13484,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","17","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13485,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","19","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13486,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","22","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13487,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","29","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13488,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","31","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13489,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","34","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13490,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","39","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13491,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","43","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10311,21554,13492,"Neotoma","Woodcliff Lake","WOODCLIF",41.02,-74.03,29,"not known","artificial water body","core","46","Solomon, A.M., and D.F. Kroener. 1971. Suburban replacement of rural land uses reflected in the pollen rain of northeastern New Jersey. Bulletin of the New Jersey Academy of Science 16:30-44.",,13,"temperate deciduous broadleaf forest",1.1991250385696,4227.11421066413,11.3831136821478,-1.62822290786145,23.5503008208393,1150.06956892397
10312,21555,17394,"Neotoma","Woodland Lake","TW101",43.7,-85.87,253,"not known","lake","surface sample","Modern","Webb III, T., 1974. Corresponding patterns of pollen and vegetation in Lower Michigan: a comparison of quantitative data. Ecology, 55(1), pp.17-28.","10.2307/1934614",9,"cool mixed forest",0.975848937312927,3307.27099527645,7.63200584813095,-6.84947908449125,21.0383744676137,826.249267959422
10313,21556,17541,"Neotoma","Woody Cove Section","WOODYCVS",47.861667,-59.366667,10,"not known","coastal, other","surface sample","Modern","Brookes, I.A., McAndrews, J.H. and von Bitter, P.H., 1982. Quaternary interglacial and associated deposits in southwest Newfoundland. Canadian Journal of Earth Sciences, 19(3), pp.410-423.","10.1139/e82-033",9,"cool mixed forest",1.8124418041337,2134.87030149324,4.13010631431614,-7.21875786359159,15.7919454882605,1167.21679317369
10314,21557,16547,"Neotoma","Worthley Pond","KG041",44.47,-70.4,174,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.50051229030937,2894.24721120578,6.04833961685824,-8.45791806779087,19.4323203452237,1167.92151649552
10315,21558,13495,"Neotoma","Woski Pond","WOSKI",37.725,-119.625,1212,"not known","fluvial","core","-36","Anderson, R.S. 1987. Late-Quaternary environments of the Sierra Nevada, California. Doctoral dissertation. University of Arizona, Tucson, Arizona, USA.; Anderson, R.S., and S.L. Carpenter. 1991. Vegetation change in Yosemite Valley, Yosemite National Park, California, during the protohistoric period. Madroño 38:1-13.",,8,"cool evergreen needleleaf forest",0.45336348461163,4271.54899106554,11.7028739481248,3.03738525135515,21.6887604622663,600.455636108965
10316,21559,1632,"Australian pollen","Wriggly Stick Swamp","Wriggly Stick Swamp",-37.75,149.433,10,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.846771317744548,5367.01474888623,14.7041499969486,10.0918195375571,19.3300068195263,900.324529345746
10317,21560,1633,"Australian pollen","Wrights Creek Valley","Wrights Creek BH1",-33.309565,150.991,2,"not applicable","coastal, estuarine","core top","34","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.866009151515568,6447.08499980775,17.6632465748157,11.7111861691992,22.6522239346647,1109.1842735945
10318,21561,5379,"CMPD","Wudaoliang","Wudaoliang 1",35.26,93.15,4676,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.162168048788316,494.983615219847,-5.60318458832924,-17.2731221232757,5.72239494398922,156.228541876961
10318,21562,5380,"CMPD","Wudaoliang","Wudaoliang 2",34.62,92.8,4758,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.199409830372112,496.7872596177,-5.59943535200203,-17.2714130832713,5.65577037167116,192.782406177636
10319,21563,5381,"CMPD","Wulungu Lake","Wulungu Lake",47.1,87.3,650,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.151237814228479,3536.31866048568,5.92830832154125,-14.4239828055118,23.2965408730097,156.552853881904
10320,21564,5382,"CMPD","Wumaqu","Wumaqu",30.4,91.1,4737,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.492114425720261,1210.40539505831,0.127267346952275,-10.3061327600843,9.44547470975395,565.286471451909
10321,21565,5383,"CMPD","Wuqia","Wuqia",43.2,83.5,1320,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.138279395970432,3425.79071435745,6.38559489823743,-13.4873620927954,21.1821980323246,144.350373873016
10322,21566,1634,"Australian pollen","Wurup","Wurup 2",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21567,1635,"Australian pollen","Wurup","Wurup 3",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21568,1636,"Australian pollen","Wurup","Wurup 4",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21569,1637,"Australian pollen","Wurup","Wurup 5",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21570,1638,"Australian pollen","Wurup","Wurup 6",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21571,1639,"Australian pollen","Wurup","Wurup 7",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21572,1640,"Australian pollen","Wurup","Wurup 8",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21573,1641,"Australian pollen","Wurup","Wurup Core 1",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","core top","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21574,1642,"Australian pollen","Wurup","Wurup slopes 2",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21575,1643,"Australian pollen","Wurup","Wurup slopes 203",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10322,21576,1644,"Australian pollen","Wurup","Wurup slopes 4",-5.74,144.062,1764,"not known","terrestrial, bog/fen/swamp","surface sample","modern","Pickett, E.J, Harrison, S.P., Hope, G. Harle, K., Dodson, J.R., Kershaw, A.P., Prentice, I.C., Backhouse, J., Colhoun, E.A., D’Costa, D., Flenley, J., Grindrod, J., Haberle, S., Hassell, C., Kenyon, C., Macphail, M., Martin, H., Martin, A.H., McKenzie, M., Newsome, J.C., Penny, D., Powell, J., Raine, J.I., Southern, W., Stevenson, J., Sutra, J.P., Thomas, I., van der Kaars, S. and Ward, J., 2004. Pollen-based reconstructions of biome distributions for Australia, Southeast Asia and the Pacific (SEAPAC region) at 0, 6000 and 18,000 14C yr B.P. Journal of Biogeography 31:  1381-1444.","10.1111/j.1365-2699.2004.01001.x",4,"warm-temperate evergreen and mixed forest",2.10478072766628,7867.87497731536,21.5558218556585,20.6271014200703,22.0719253814255,2952.05931623474
10323,21577,5384,"CMPD","Wutong Mt","Wutong Mt 1",22.57,114.23,197,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55485214855031,7862.57432710007,21.5412995263016,13.3064936075193,28.0393584494591,1973.60764871077
10323,21578,5385,"CMPD","Wutong Mt","Wutong Mt 2",22.57,114.22,223,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55293008143536,7800.41980854126,21.3710131740856,13.0742873909862,27.9318640046621,1966.02082734562
10323,21579,5386,"CMPD","Wutong Mt","Wutong Mt 3",22.57,114.23,170,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55669205263915,7927.11431114458,21.7181214003961,13.5460776708988,28.152293985116,1981.2179995643
10324,21580,5387,"CMPD","Wuxi","Wuxi",31.55,120.3,40,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06822139394467,5675.35600947675,15.5489205739089,3.08586268436656,27.6862600206733,1176.07233832724
10325,21581,5388,"CMPD","Wuzhi Mt","Wuzhi Mt 01",18.9,109.7,900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56776670385134,7804.8069771839,21.3830328142025,17.4326624669079,24.2878091571225,2134.70162721957
10325,21582,5389,"CMPD","Wuzhi Mt","Wuzhi Mt 02",18.9,109.7,1380,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6511574460634,7124.5216499139,19.5192373970244,16.6655664110017,21.8686551467979,2265.21654038322
10325,21583,5390,"CMPD","Wuzhi Mt","Wuzhi Mt 03",18.9,109.7,1850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73204970796526,6458.4089336287,17.6942710510375,15.8372320533968,19.4999001783551,2393.01239285596
10325,21584,5391,"CMPD","Wuzhi Mt","Wuzhi Mt 04",18.9,109.7,1280,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.63385137458207,7266.24775976182,19.9075281089365,16.8253780893155,22.3726455656155,2238.02593347413
10325,21585,5392,"CMPD","Wuzhi Mt","Wuzhi Mt 05",18.9,109.7,1640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.69599557533069,6756.03376430933,18.5096815460529,16.2500560473859,20.5582800578721,2335.91211834686
10325,21586,5393,"CMPD","Wuzhi Mt","Wuzhi Mt 06",18.9,109.7,1180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.61651068190623,7407.97386960973,20.2958188208486,16.9851897676293,22.8766359844331,2210.83532656503
10325,21587,5394,"CMPD","Wuzhi Mt","Wuzhi Mt 07",18.91,109.7,1480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6690303564912,6984.62218346943,19.1359511875875,16.5222589155463,21.3616956318953,2293.53483130334
10325,21588,5395,"CMPD","Wuzhi Mt","Wuzhi Mt 08",18.92,109.71,1520,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.67607603243812,6932.59358134006,18.9934070721645,16.4884076461893,21.1611499580218,2305.49162411477
10325,21589,5396,"CMPD","Wuzhi Mt","Wuzhi Mt 09",18.9,109.7,820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55378677647232,7918.18786506223,21.6936653837321,17.560511809559,24.6910014921766,2112.9491416923
10325,21590,5397,"CMPD","Wuzhi Mt","Wuzhi Mt 10",18.9,109.7,1000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58520802591377,7663.08086733598,20.9947421022904,17.2728507885942,23.7838187383049,2161.89223412867
10325,21591,5398,"CMPD","Wuzhi Mt","Wuzhi Mt 11",18.9,109.7,1855,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73290642196721,6451.32262813631,17.6748565154419,15.8260608554632,19.4747006574142,2394.37192320141
10325,21592,5399,"CMPD","Wuzhi Mt","Wuzhi Mt 12",18.9,109.7,840,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.55728402295726,7889.84264309264,21.6160072413497,17.5285494738962,24.590203408413,2118.38726307412
10325,21593,5400,"CMPD","Wuzhi Mt","Wuzhi Mt 13",18.9,109.7,1867,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73496221262012,6434.31549495456,17.6282616300125,15.7992499804225,19.4142218071561,2397.6347960305
10325,21594,5401,"CMPD","Wuzhi Mt","Wuzhi Mt 14",18.9,109.7,1130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.60782714489619,7478.83692453369,20.4899641768046,17.0650956067862,23.1286311938419,2197.24002311049
10325,21595,5402,"CMPD","Wuzhi Mt","Wuzhi Mt 15",18.9,109.7,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.70631123335138,6670.99809840058,18.2767071189057,16.1541690403976,20.2558858065815,2352.22648249232
10325,21596,5403,"CMPD","Wuzhi Mt","Wuzhi Mt 16",18.9,109.69,1235,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.62640413100827,7327.96193782897,20.0766080488465,16.887754502295,22.59630566497,2225.88510794307
10325,21597,5404,"CMPD","Wuzhi Mt","Wuzhi Mt 17",18.9,109.69,880,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56447468248772,7831.91603206424,21.4573041974363,17.4587939557306,24.3868270121844,2129.32281838117
10325,21598,5405,"CMPD","Wuzhi Mt","Wuzhi Mt 18",18.9,109.7,860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.56077975537079,7861.49742112306,21.5383490989673,17.4965871382335,24.4894053246495,2123.82538445594
10325,21599,5406,"CMPD","Wuzhi Mt","Wuzhi Mt 19",18.9,109.7,1580,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.68566818923936,6841.06943021807,18.7426559732002,16.3459430543742,20.8606743091627,2319.59775420141
10325,21600,5407,"CMPD","Wuzhi Mt","Wuzhi Mt 20",18.9,109.7,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.68050006503784,6883.58726317245,18.8591431867738,16.3938865578683,21.0118714348079,2311.44057212868
10325,21601,5408,"CMPD","Wuzhi Mt","Wuzhi Mt 21",18.9,109.7,1080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59913469821059,7549.69997945765,20.6841095327607,17.1450014459431,23.3806264032508,2183.64471965594
10325,21602,5409,"CMPD","Wuzhi Mt","Wuzhi Mt 22",18.9,109.7,1330,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.64250869774269,7195.38470483786,19.7133827529804,16.7454722501586,22.1206503562067,2251.62123692867
10325,21603,5410,"CMPD","Wuzhi Mt","Wuzhi Mt 23",18.9,109.7,1660,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.69943542603907,6727.68854233974,18.4320234036705,16.2180937117231,20.4574819741086,2341.35023972868
10325,21604,5411,"CMPD","Wuzhi Mt","Wuzhi Mt 24",18.91,109.7,1500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6724894641861,6956.31323673576,19.058392429413,16.490611451758,21.2608478602126,2298.99557121758
10325,21605,5412,"CMPD","Wuzhi Mt","Wuzhi Mt 25",18.9,109.7,1620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6925544215587,6784.37898627891,18.5873396884354,16.2820183830487,20.6590781416356,2330.47399696504
10325,21606,5413,"CMPD","Wuzhi Mt","Wuzhi Mt 26",18.9,109.7,1376,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.65046585991938,7130.19069430782,19.5347690255009,16.6719588781343,21.8888147635506,2264.12891610686
10325,21607,5414,"CMPD","Wuzhi Mt","Wuzhi Mt 27",18.91,109.7,1430,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.6603764620784,7055.3945503036,19.3298480830236,16.6013775750171,21.6138150611022,2279.88298151775
10325,21608,5415,"CMPD","Wuzhi Mt","Wuzhi Mt 28",18.9,109.7,1860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.73376305679332,6444.23632264391,17.6554419798463,15.8148896575296,19.4495011364733,2395.73145354686
10325,21609,5416,"CMPD","Wuzhi Mt","Wuzhi Mt 29",18.9,109.7,980,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.58172271353557,7691.42608930556,21.0724002446728,17.3048131242569,23.8846168220684,2156.45411274685
10325,21610,5417,"CMPD","Wuzhi Mt","Wuzhi Mt 30",18.9,109.7,1600,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.68911196084751,6812.72420824849,18.6649978308178,16.3139807187114,20.7598762253991,2325.03587558322
10325,21611,5418,"CMPD","Wuzhi Mt","Wuzhi Mt 31",18.9,109.7,1820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.72690775869541,6500.92676658308,17.8107582646112,15.9042592409984,19.651097304000398,2384.85521078323
10325,21612,5419,"CMPD","Wuzhi Mt","Wuzhi Mt 32",18.9,109.7,1780,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.72004737241846,6557.61721052224,17.966074549376,15.9936288244672,19.8526934715274,2373.97896801959
10325,21613,5420,"CMPD","Wuzhi Mt","Wuzhi Mt 33",18.9,109.7,1030,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59043325186955,7620.56303438161,20.8782548887167,17.2249072851,23.6326216126596,2170.04941620139
10325,21614,5421,"CMPD","Wuzhi Mt","Wuzhi Mt 34",18.9,109.7,1080,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.59913469821059,7549.69997945765,20.6841095327607,17.1450014459431,23.3806264032508,2183.64471965594
10326,21615,1645,"Australian pollen","Wyelangta","Wyelangta",-38.65,143.4667,450,"not known","terrestrial, bog/fen/swamp","not known","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",7,"cool-temperate rainforest",0.529374558281795,4634.39935622933,12.6969845376146,6.72281820256338,18.8572307719949,577.731985097975
10327,21616,13496,"Neotoma","Wylde Lake","WYLDELK",43.91,-80.4,484,"not known","lake","core","-25","Unpublished data",,9,"cool mixed forest",1.19233490720759,2808.56129967332,5.52735549801005,-8.99036459491451,18.6842769378896,1011.39744537297
10327,21616,13497,"Neotoma","Wylde Lake","WYLDELK",43.91,-80.4,484,"not known","lake","core","21","Unpublished data",,9,"cool mixed forest",1.19233490720759,2808.56129967332,5.52735549801005,-8.99036459491451,18.6842769378896,1011.39744537297
10328,21617,1646,"Australian pollen","Wyndham","Wyndham_KR01",-15.48952,128.10437,8,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.520958561368525,10345.9132055049,28.3449676863148,23.2226747794549,31.8455242718057,975.556362980351
10328,21618,1647,"Australian pollen","Wyndham","Wyndham_KR02",-15.57036,128.13965,3,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.518025393663559,10361.1968164839,28.3868405931066,23.2461806205832,31.8951764492134,969.247352596724
10328,21619,1648,"Australian pollen","Wyndham","Wyndham_KR02 core",-15.57036,128.13965,3,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","core top","-61","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.518025393663559,10361.1968164839,28.3868405931066,23.2461806205832,31.8951764492134,969.247352596724
10328,21620,1649,"Australian pollen","Wyndham","Wyndham_No 1",-15.46753,128.09941,3,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.523528540029832,10350.1820436606,28.3566631333167,23.2531984278068,31.8454844512577,979.974020898039
10328,21621,1650,"Australian pollen","Wyndham","Wyndham_No 10",-15.52805,128.15837,8,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.517896801563828,10349.3530606969,28.3543919471147,23.2109221163662,31.8659857285172,969.760061446973
10328,21622,1651,"Australian pollen","Wyndham","Wyndham_No 12",-15.57012,128.14407,8,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.516441904305025,10354.2650439927,28.3678494355964,23.2148694853482,31.8844897551198,966.786611486446
10328,21623,1652,"Australian pollen","Wyndham","Wyndham_No 13",-15.51615,128.160701,8,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.518344501912719,10348.0008231869,28.3506871868135,23.2101754182595,31.860714568694,970.665504270354
10328,21624,1653,"Australian pollen","Wyndham","Wyndham_No 14",-15.46753,128.09941,3,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.523528540029832,10350.1820436606,28.3566631333167,23.2531984278068,31.8454844512577,979.974020898039
10328,21625,1654,"Australian pollen","Wyndham","Wyndham_No 2",-15.48583,128.10255,3,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",20,"xerophytic woods/scrub",0.522668124491572,10352.219032404,28.3622439243944,23.2530304620101,31.8540935535135,978.277621381342
10328,21626,1655,"Australian pollen","Wyndham","Wyndham_No 9",-15.57751,128.14246,8,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.516159309602968,10355.1153177441,28.3701789527235,23.2153333998693,31.8878052365364,966.216193832436
10328,21627,1656,"Australian pollen","Wyndham","Wyndham_PL01",-15.59188,128.26073,9,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.515122314883731,10320.7878731363,28.2761311592774,23.060092849017,31.8078375071437,961.427308487715
10328,21628,1657,"Australian pollen","Wyndham","Wyndham_PL03i",-15.54897,128.25946,9,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.516802698813247,10316.9182415807,28.2655294289882,23.061229244647,31.7910996762086,964.788950264778
10328,21629,1658,"Australian pollen","Wyndham","Wyndham_PL03j",-15.54897,128.25946,9,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.516802698813247,10316.9182415807,28.2655294289882,23.061229244647,31.7910996762086,964.788950264778
10328,21630,1659,"Australian pollen","Wyndham","Wyndham_PL04",-15.54778,128.25494,9,"large (50.1-500 km2)","terrestrial, bog/fen/swamp","surface sample","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",18,"tropical savanna",0.516875750475886,10317.1006783765,28.266029255826,23.0626291862634,31.7911706125568,964.943002367952
10329,21631,15479,"Neotoma","Wynoochee Valley","CJH058",47.37884,-123.61357,244,"not known","not known","surface sample","Modern","Heusser, C.J., 1969. Modern pollen spectra from the Olympic Peninsula, Washington. Bulletin of the Torrey Botanical Club, pp.407-417.","10.2307/2484060",8,"cool evergreen needleleaf forest",2.59037967325311,3474.50269632728,9.51918546938981,3.70545917189829,16.0528505378914,2000.3302952181
10330,21632,16516,"Neotoma","Wytopitlock Lake","KG013",45.78,-68.15,157,"not known","lake","surface sample","Modern","Gajewski, K.J., 1983. On the interpretation of climatic change from the fossil record: climatic change in central and eastern United States for the past 2000 years estimated from pollen data (Doctoral dissertation, The University of Wisconsin-Madison).",,9,"cool mixed forest",1.4922291206721,2607.97882109027,4.65335451123951,-10.316259349332,18.4282115485179,1114.75770986175
10331,21633,1660,"Australian pollen","Wyvuri Swamp","W1",-17.32,146,12,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.26238823635753,8922.51157561237,24.4452371934586,20.393363582302,27.280081172927,2127.37250803771
10331,21634,1661,"Australian pollen","Wyvuri Swamp","W2",-17.336,145.999,0.4,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.27125665211724,8939.47755305111,24.4917193234277,20.4469492968875,27.3224261298446,2140.03585468821
10331,21635,1662,"Australian pollen","Wyvuri Swamp","W3",-17.319,145.997,6,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.26722417801689,8931.54425949533,24.46998427259,20.424789973967,27.3001938109629,2134.24896374717
10331,21636,1663,"Australian pollen","Wyvuri Swamp","W4",-17.319,146.002,7,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.26629006782354,8930.06244940221,24.4659245189102,20.4191824347068,27.2971525069107,2132.92227729536
10331,21637,1664,"Australian pollen","Wyvuri Swamp","W5",-17.3123,145.9944,5,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.26821926370813,8933.22595671006,24.4745916622193,20.4326565598998,27.3022583426503,2135.64174664715
10331,21638,1665,"Australian pollen","Wyvuri Swamp","W6",-17.31,145.9969,8,"7","terrestrial, bog/fen/swamp","surface sample","-44","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",4,"warm-temperate evergreen and mixed forest",1.26582649055465,8928.79285815294,24.4624461867204,20.417880788727,27.2917993221698,2132.2335750327
10332,21639,10509,"IBERIA","Xan de Llamas","XL",42.30416667,-6.321388889,1500,"12","terrestrial, bog/fen/swamp","core top","34","Harrison, S.P., Shen, Y. and Sweeney, L., 2022. Pollen data and charcoal data of the Iberian Peninsula (version 3). University of Reading. Dataset.","10.17864/1947.000369",4,"warm-temperate evergreen and mixed forest",0.699786811375834,2908.35024077926,7.88741446908339,-0.629741640167121,18.0024593039902,794.031724764505
10333,21640,5422,"CMPD","Xiangpishan","Xiangpishan",36.75,99.61,3817,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.227880900907291,865.997448291327,-3.16078461631983,-16.1341607769988,8.35559572276072,221.262179857926
10334,21641,5423,"CMPD","Xiangtou Mt","Xiangtou Mt 1",23.26,114.36,573,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35114571461796,6668.80577658769,18.2707007577745,8.39346436021718,26.5846996991516,1606.86569323608
10334,21642,5424,"CMPD","Xiangtou Mt","Xiangtou Mt 2",23.27,114.37,850,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2168764573938,5844.7572635019,16.0130335986353,5.07498789523389,25.4921414170709,1386.3477060727
10334,21643,5425,"CMPD","Xiangtou Mt","Xiangtou Mt 3",23.27,114.37,838,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.22291210662472,5880.43715918805,16.1107867375015,5.21862441635945,25.539503904929,1395.85549699441
10334,21644,5426,"CMPD","Xiangtou Mt","Xiangtou Mt 4",23.27,114.37,859,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.21233402942472,5817.99734173729,15.9397187444857,4.96726050438972,25.4566195511774,1379.21686288143
10334,21645,5427,"CMPD","Xiangtou Mt","Xiangtou Mt 5",23.27,114.37,705,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.28824861858536,6275.88933637619,17.1942173599348,6.81059585883442,26.0644381453556,1501.23351304328
10334,21646,5428,"CMPD","Xiangtou Mt","Xiangtou Mt 6",23.26,114.36,341,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45396371048376,7358.43666353748,20.1601004480479,11.1687166321713,27.5011800080789,1790.11120439189
10334,21647,5429,"CMPD","Xiangtou Mt","Xiangtou Mt 7",23.27,114.37,859,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.21233402942472,5817.99734173729,15.9397187444857,4.96726050438972,25.4566195511774,1379.21686288143
10335,21648,5430,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S01",43.2653722222222,84.2920305555556,1650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.162176109073309,2913.21332468124,3.89252201117248,-16.3250554204927,19.411834791145,164.193771638793
10335,21649,5431,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S02",43.2455138888889,84.3134166666667,1700,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.1422648142045,3035.46969760564,4.78848533484804,-14.7303989215147,19.6089193563112,146.693275101741
10335,21650,5432,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S03",43.2328416666667,84.3260722222222,1770,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145172938013783,2947.86155908122,4.44838806968913,-14.9532200779879,19.2010927763395,149.137864447485
10335,21651,5433,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S04",43.2167694444445,84.312425,1890,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.150503453963504,2796.31073715369,3.84609088422668,-15.3706090164108,18.4884748628446,153.539649846609
10335,21652,5434,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S05",43.2134694444444,84.3294138888889,2060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.158933963130735,2581.79286518517,2.96904633591364,-15.9930352771541,17.4708410622027,160.384242375005
10335,21653,5435,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S06",43.2048111111111,84.3462138888889,2200,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.165849406791196,2410.4844536207,2.25612312178602,-16.4916504763218,16.6386887949585,165.865729298912
10335,21654,5436,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S07",43.1893305555556,84.3205722222222,2370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.174538405608567,2204.13274860293,1.37414012135744,-17.1259070977818,15.6124465192048,172.536586557432
10335,21655,5437,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S08",43.182525,84.3342444444445,2450,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178658391208083,2110.36054411969,0.968079456926778,-17.4087289006119,15.1386360526224,175.660677886142
10335,21656,5438,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S09",43.1715916666667,84.3602305555556,2560,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.184345296808074,1984.03111378749,0.41481560222689,-17.790109382668,14.4917387339532,179.916011184635
10335,21657,5439,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S10",43.1561972222222,84.3740222222222,2700,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.191850357118163,1824.75151839304,-0.299768358545013,-18.2928527084257,13.6598424600155,185.394229547746
10335,21658,5440,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S11",43.1462833333333,84.3448861111111,1650,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.136106579454347,3132.47484047679,5.22843181534742,-14.2630705175987,20.0069403100687,141.447646253039
10335,21659,5441,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S12",43.1292305555556,84.331,1560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.131077936891087,3259.57619279792,5.73385732547611,-13.8723700797262,20.5672390807303,137.086961018357
10335,21660,5442,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S13",43.0992194444444,84.3275,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.129416359714275,3283.50782133016,5.84371688170551,-13.7478371013638,20.6580717022071,135.632491862531
10335,21661,5443,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S14",43.0677,84.3302833333333,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178458436333445,2065.48294515742,0.809424120330507,-17.4381653806291,14.8914484751616,175.45379889521
10335,21662,5444,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S15",43.0610694444444,84.3297888888889,2480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.177142635339102,2090.48011210909,0.922686870523022,-17.3492567500206,15.0167153468019,174.460894504963
10335,21663,5445,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S16",43.0416388888889,84.37775,2540,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179830476200991,2025.17936468477,0.644215751806075,-17.5203354549546,14.6832088791299,176.528261979543
10335,21664,5446,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S17",43.0405555555556,84.3773888888889,2542,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179920963663837,2022.88706490467,0.634235306925522,-17.5271656790478,14.6713512910363,176.595089598544
10335,21665,5447,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S18",43.0391388888889,84.3771388888889,2554,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.180582212038923,2008.67217710646,0.570879130089976,-17.5734761026429,14.5986645485963,177.088105734442
10335,21666,5448,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S19",43.0338055555556,84.3752222222222,2604,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183379789304354,1949.58446746041,0.305503148012974,-17.7685597880267,14.2948638309149,179.161477314457
10335,21667,5449,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S20",43.0308888888889,84.3736388888889,2654,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186269066696397,1890.65514282068,0.0378283483657502,-17.9671449936916,13.9898497825823,181.284742316517
10335,21668,5450,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S21",43.0284444444444,84.3728055555555,2704,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.189197615235332,1832.19244212116,-0.230086670800572,-18.1660679137117,13.6848438463697,183.418094382291
10335,21669,5451,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S22",43.0254444444444,84.3716666666667,2754,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192149634100046,1774.2027681643399,-0.498122875964451,-18.3651344498846,13.3796995868814,185.54778679404
10335,21670,5452,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S23",43.0223333333333,84.3698055555556,2804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.195140138759103,1716.59929013866,-0.766940001343785,-18.5653469107453,13.0739572047096,187.683773823151
10335,21671,5453,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S24",43.0194166666667,84.3679444444444,2854,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.198171107479458,1659.44316616303,-1.03627200579841,-18.7663068529722,12.7679123013463,189.827986141936
10335,21672,5454,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S25",43.0169444444444,84.3664722222222,2904,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201244108388862,1602.78454466191,-1.30593647419519,-18.9677574811591,12.4617538635517,191.981619377691
10335,21673,5455,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S26",43.0153055555556,84.3635277777778,2954,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.204382410200136,1546.40582969465,-1.57738844521538,-19.1718745686008,12.1542457093541,194.157455766961
10335,21674,5456,"CMPD","Xiao Yourdusi Basin","Xiao Yourdusi Basin S27",43.0143055555556,84.361,3001,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207373292249807,1493.8781510634,-1.83286239808289,-19.3641986322674,11.8650443130997,196.211503331265
10336,21675,5457,"CMPD","Xiaoheigou","Xiaoheigou 01",31.23,119.73,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11845634502662,5655.95750747884,15.4957739930927,2.93736442860833,27.669115820342,1233.04086250156
10336,21676,5458,"CMPD","Xiaoheigou","Xiaoheigou 02",31.23,119.73,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.11845634502662,5655.95750747884,15.4957739930927,2.93736442860833,27.669115820342,1233.04086250156
10336,21677,5459,"CMPD","Xiaoheigou","Xiaoheigou 03",31.23,119.73,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12610853290237,5645.60017532589,15.4673977406189,2.92070435059829,27.6267772593815,1240.47055226069
10336,21678,5460,"CMPD","Xiaoheigou","Xiaoheigou 04",31.23,119.73,110,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12610853290237,5645.60017532589,15.4673977406189,2.92070435059829,27.6267772593815,1240.47055226069
10336,21679,5461,"CMPD","Xiaoheigou","Xiaoheigou 05",31.23,119.73,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.15684874319981,5604.17084671408,15.3538927307235,2.85406403855811,27.4574230155395,1270.18931129719
10336,21680,5462,"CMPD","Xiaoheigou","Xiaoheigou 06",31.23,119.73,180,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.18004321900666,5573.09885025523,15.268763973302,2.80408380452797,27.330407332658,1292.47838057457
10336,21681,5463,"CMPD","Xiaoheigou","Xiaoheigou 07",31.23,119.73,210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.20335850468814,5542.02685379637,15.1836352158805,2.75410357049784,27.2033916497765,1314.76744985195
10336,21682,5464,"CMPD","Xiaoheigou","Xiaoheigou 08",31.23,119.73,220,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.21115733266657,5531.66952164342,15.1552589634066,2.73744349248779,27.161053088816,1322.19713961108
10336,21683,5465,"CMPD","Xiaoheigou","Xiaoheigou 09",31.23,119.73,230,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2189697727298,5521.31218949047,15.1268827109328,2.72078341447775,27.1187145278555,1329.62682937021
10336,21684,5466,"CMPD","Xiaoheigou","Xiaoheigou 10",31.23,119.73,250,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.23463568023255,5500.59752518456,15.0701302059851,2.68746325845766,27.0340374059345,1344.48620888846
10337,21685,5467,"CMPD","Xiaonan","Xiaonan",43.8833,125.217,209,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.63073649904081,3391.55434933899,5.39672714836269,-15.9703025549186,23.2438777767805,567.633179694338
10338,21686,5468,"CMPD","Xiaoshazi","Xiaoshazi",36.78,90.83,4106,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0914765055565628,884.448636098123,-3.37372527311565,-16.1551560172337,8.69181977367349,91.759001761446
10339,21687,10290,"Herzschuh et al., 2019","Xiaoxinganling","Xiaoxinganling",48.375,129.705,486,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",9,"cool mixed forest",0.899857959211664,2266.14550087289,-1.44895428865237,-25.1868929548839,18.5620957279562,608.904382026965
10340,21688,5469,"CMPD","Xiehu","Xiehu GK10",21.4667,109.117,20,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33023257647861,8524.23740648102,23.3540750862494,15.5873621755455,29.0409917883575,1668.57066023688
10341,21689,5470,"CMPD","Xilingol","Xilingol NM01",42.7194,115.9304,1319,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.348128806153484,2616.28538346522,2.45932613347333,-17.0803269799085,19.3440366505701,344.027958942842
10341,21690,5471,"CMPD","Xilingol","Xilingol NM02",42.7848,115.9007,1313,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.337570510958296,2610.64180370231,2.30233736318375,-17.4927833184998,19.4103906516359,334.296881889414
10341,21691,5472,"CMPD","Xilingol","Xilingol NM03",42.8586,115.9011,1308,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.335787243338868,2610.40486192906,2.27462125476253,-17.5707651866139,19.4290160716011,332.380859100569
10341,21692,5473,"CMPD","Xilingol","Xilingol NM04",42.9557,115.9514,1298,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.333004413647784,2608.37585764969,2.21863141415241,-17.7129260293158,19.4542694933838,329.3622948345
10341,21693,5474,"CMPD","Xilingol","Xilingol NM05",43.0424,116.0059,1295,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.332534313594487,2603.16525335074,2.17323142885641,-17.7928786541433,19.4460023697209,328.409931855349
10341,21694,5475,"CMPD","Xilingol","Xilingol NM06",43.1184,116.0995,1305,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.336730267456341,2589.41754572766,2.13397756452874,-17.7718750440729,19.3645217174216,331.47348846712
10341,21695,5476,"CMPD","Xilingol","Xilingol NM07",43.1937,116.1382,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.335438580140368,2586.50785232493,2.09432952849616,-17.8567914078228,19.3707763682239,329.899178226358
10341,21696,5477,"CMPD","Xilingol","Xilingol NM08",43.3364,116.106,1366,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349531988936741,2548.7581933213,2.04850980388639,-17.6383329035103,19.0918565761237,341.3356156744
10341,21697,5478,"CMPD","Xilingol","Xilingol NM09",43.4636,116.0853,1422,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.364186955772733,2524.77683398813,2.09202825274267,-17.293122704109,18.8633050108368,353.432669249835
10341,21698,5479,"CMPD","Xilingol","Xilingol NM10",43.5245,116.1442,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.349520940752498,2539.7053661143,1.98865466470598,-17.7209352010289,19.0626447189195,340.392390199714
10341,21699,5480,"CMPD","Xilingol","Xilingol NM11",43.6261,116.1562,1369,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.348826336125534,2536.13628630344,1.95618232098908,-17.7784852812775,19.0574936712084,339.319404117368
10341,21700,5481,"CMPD","Xilingol","Xilingol NM12",43.705,116.1261,1085,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.274464940959891,2644.22728646915,1.59387623909778,-19.7875563451949,20.1996999434251,273.234681793476
10341,21701,5482,"CMPD","Xilingol","Xilingol NM13",43.7792,116.1086,1070,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.276221808476657,2623.75964227071,1.45900030547321,-19.9496225194106,20.1224661738387,273.787281235642
10341,21702,5483,"CMPD","Xilingol","Xilingol NM14",43.9191,116.2855,1212,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.316440773873902,2529.02524785289,1.42811323892724,-19.1265339934101,19.3918346340128,307.883319604537
10341,21703,5484,"CMPD","Xilingol","Xilingol NM15",43.8563,116.3782,1153,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.306557634106122,2545.25062491626,1.36739443849865,-19.430100788623,19.5646783881254,299.084166368535
10341,21704,5485,"CMPD","Xilingol","Xilingol NM16",43.8329,116.5116,1107,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.299867275474798,2554.18612329107,1.30616620796779,-19.6650077304107,19.6794549799102,292.889042282221
10341,21705,5486,"CMPD","Xilingol","Xilingol NM17",43.7929,116.5493,1146,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.308059696092169,2539.62313432103,1.34593883722324,-19.4218320511151,19.537298819437,300.297849264413
10341,21706,5487,"CMPD","Xilingol","Xilingol NM18",43.7248,116.6149,1236,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.329775153304677,2528.02777276871,1.59543637572376,-18.6367609910158,19.2793032853364,320.268352005562
10341,21707,5488,"CMPD","Xilingol","Xilingol NM19",43.7343,116.6736,1192,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.319922317759336,2542.60922754862,1.54128976443066,-18.9129267096583,19.4368317188809,311.536987539093
10341,21708,5489,"CMPD","Xilingol","Xilingol NM20",43.5046,116.6863,1327,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.353593646891027,2492.09565935209,1.71521234539074,-17.9765848139385,18.9045067423714,341.667505543795
10341,21709,5490,"CMPD","Xilingol","Xilingol NM21",43.4248,116.7943,1245,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.346759714830765,2511.9047054005,1.70451617813931,-18.1181131269508,19.0916873164012,335.467755083231
10341,21710,5491,"CMPD","Xilingol","Xilingol NM22",43.3395,117.0104,1265,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.354733669704268,2497.35609892221,1.72431447095841,-17.911591472544,18.9649708371228,342.447518665628
10341,21711,5492,"CMPD","Xilingol","Xilingol NM23",43.2531,117.175,1288,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361642413587394,2482.85441896078,1.73280630478415,-17.7480731117254,18.8441800456233,348.545275316315
10341,21712,5493,"CMPD","Xilingol","Xilingol NM24",43.1489,117.1721,1303,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.372498415246709,2490.30608923894,1.90242737225146,-17.3554917058332,18.7845675510553,358.554915397683
10341,21713,5494,"CMPD","Xilingol","Xilingol NM25",43.1258,117.2353,1210,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.368861119997511,2552.49048237622,2.18508861605893,-17.0588396239514,19.1111580876056,356.203540819002
10341,21714,5495,"CMPD","Xilingol","Xilingol NM26",42.9919,116.8482,1327,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.370605022131718,2494.33238356418,1.91883875352142,-17.4001188325637,18.7882028392909,358.038704609748
10341,21715,5496,"CMPD","Xilingol","Xilingol NM27",42.7903,116.2491,1345,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.351788437366533,2572.09443976342,2.22629061618533,-17.3413638491595,19.1564078535922,345.77010332729
10341,21716,5497,"CMPD","Xilingol","Xilingol NM28",42.5986,115.9125,1302,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.34792474940478,2623.56000525762,2.49617918475752,-17.0436956591286,19.3762805833602,344.226633830038
10341,21717,5498,"CMPD","Xilingol","Xilingol NM29",42.4333,115.8181,1344,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.353931563695861,2621.56433331384,2.59221370887973,-16.7314053559688,19.2890639904041,350.901893838064
10341,21718,5499,"CMPD","Xilingol","Xilingol NM30",42.3039,115.5666,1300,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.33464798035305,2672.63968616637,2.74253384015983,-16.770324999355,19.5945840528757,335.661752004265
10342,21719,13878,"Neotoma","Xindi Lake","XINDI",67.111235,-152.491385,240,"not known","lake","core","-53","Higuera, P.E. 2006. Late glacial and Holocene fire history in the southcentral Brooks Range, Alaska: Direct and indirect impacts of climate change on fire regimes.. Doctoral dissertation. University of Washington, Seattle, Washington, USA.",,15,"cold evergreen needleleaf forest",0.82049211541033,1452.69672169259,-5.74347151140299,-24.1483867104285,14.1361341753219,305.945264477969
10343,21720,5500,"CMPD","Xinfeng","Xinfeng 1",24.18,114.18,512,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37257795177377,6716.13712388056,18.4003756818646,8.30677963796175,27.09743062862,1624.99443735956
10343,21721,5501,"CMPD","Xinfeng","Xinfeng 2",24.17,114.2,515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37113472948203,6707.92060497079,18.3778646711528,8.27434695223507,27.0863078764913,1622.90224664425
10343,21722,5502,"CMPD","Xinfeng","Xinfeng 3",24.1,114.19,724,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.2935872471047,6059.58184961906,16.6015941085454,5.63267591041958,26.3823120050785,1487.31046160397
10343,21723,5503,"CMPD","Xinfeng","Xinfeng 4",24.17,114.2,515,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.37113472948203,6707.92060497079,18.3778646711528,8.27434695223507,27.0863078764913,1622.90224664425
10344,21724,5504,"CMPD","Xinglong Mt","Xinglong Mt 01",35.88525,104.082888888889,1829,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.361894944824569,3001.32365140562,6.74286818550402,-7.12856849189398,18.7870724330092,379.416445765777
10344,21725,5505,"CMPD","Xinglong Mt","Xinglong Mt 02",35.8841388888889,104.026555555556,2139,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.385331728640365,2720.92842124312,5.81182378449049,-7.59735981672249,17.3717671932349,399.358754558384
10344,21726,5506,"CMPD","Xinglong Mt","Xinglong Mt 03",35.7928055555556,104.113416666667,2189,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.39422543226195,2681.48638035915,5.69618641759942,-7.60897041759857,17.1546000018931,407.747212398573
10344,21727,5507,"CMPD","Xinglong Mt","Xinglong Mt 04",35.7824444444444,104.103444444444,2313,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.404417823283485,2573.27026870013,5.33444318399428,-7.78739331988196,16.5978529511068,416.381886456408
10344,21728,5508,"CMPD","Xinglong Mt","Xinglong Mt 05",35.7823611111111,104.105138888889,2322,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.40518447307319,2565.42360682883,5.30815799996893,-7.80020775575269,16.5574740513505,417.025568412651
10344,21729,5509,"CMPD","Xinglong Mt","Xinglong Mt 06",35.7824722222222,104.103444444444,2333,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406035125390827,2555.81235516656,5.27574053856841,-7.81669358684213,16.5080670403598,417.732066892065
10344,21730,5510,"CMPD","Xinglong Mt","Xinglong Mt 07",35.8524166666667,104.005472222222,2409,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.4073430183361,2484.14701972556,5.01931548485681,-7.98300874167434,16.1547326365558,417.985315431177
10344,21731,5511,"CMPD","Xinglong Mt","Xinglong Mt 08",35.77975,104.089055555556,2525,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.421433304713714,2389.49730627444,4.71305419748768,-8.09901435211316,15.6476645527864,430.481166818509
10344,21732,5512,"CMPD","Xinglong Mt","Xinglong Mt 09",35.8514444444444,104.003611111111,2434,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.409318236680213,2462.37983235757,4.9456331292048,-8.01959866622935,16.0423642939347,419.621948080709
10344,21733,5513,"CMPD","Xinglong Mt","Xinglong Mt 10",35.8527777777778,104.006694444444,2422,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.408386722714151,2472.74090121416,4.98073493706153,-8.0021049384862,16.0960823774422,418.845038950102
10344,21734,5514,"CMPD","Xinglong Mt","Xinglong Mt 11",35.8520833333333,104.005694444444,2393,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.406094996492758,2498.17989722002,5.06683482596448,-7.95925142612774,16.2268685353584,416.957653406392
10344,21735,5515,"CMPD","Xinglong Mt","Xinglong Mt 12",35.8527777777778,104.006944444444,2423,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.408471714927484,2471.86767780638,4.97778672574849,-8.00353040330834,16.0915741205939,418.915554092702
10344,21736,5516,"CMPD","Xinglong Mt","Xinglong Mt 13",35.7531944444444,104.1135,2499,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.420885244048488,2414.11085005431,4.80160355519354,-8.04269622865462,15.7693115797007,430.343822107346
10344,21737,5517,"CMPD","Xinglong Mt","Xinglong Mt 14",35.7530555555555,104.113861111111,2546,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.424771221069666,2373.70191840528,4.66438912048346,-8.11126400107996,15.559086188914,433.5412302357
10344,21738,5518,"CMPD","Xinglong Mt","Xinglong Mt 15",35.7500555555556,104.110166666667,2590,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.428410701465191,2336.29051400267,4.53719729404726,-8.17467231382559,15.3634279052477,436.549422977788
10344,21739,5519,"CMPD","Xinglong Mt","Xinglong Mt 16",35.7806111111111,104.086055555556,2634,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.43028893629534,2295.72569872677,4.39303418148592,-8.25952187584348,15.1590271557943,437.702943930339
10344,21740,5520,"CMPD","Xinglong Mt","Xinglong Mt 17",35.7773055555556,103.961361111111,2836,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.443072467398397,2126.221473751,3.80325898834437,-8.57362846528303,14.272946597171,447.868559845823
10344,21741,5521,"CMPD","Xinglong Mt","Xinglong Mt 18",35.7537777777778,104.098388888889,2899,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.453775237821905,2073.79019188572,3.63309644949831,-8.63020128646528,13.9824053750863,456.951798287385
10344,21742,5522,"CMPD","Xinglong Mt","Xinglong Mt 19",35.7511388888889,104.073083333333,2788,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.44367162563304,2168.19396206969,3.95869257026802,-8.47080201153343,14.4830031282054,448.860080634371
10344,21743,5523,"CMPD","Xinglong Mt","Xinglong Mt 20",35.7710555555555,104.058305555556,2810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.444339653342796,2147.33621490039,3.88287740890277,-8.51637214613692,14.3783079909299,449.122513171056
10344,21744,5524,"CMPD","Xinglong Mt","Xinglong Mt 21",35.7835277777778,104.053444444444,2301,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.402393933293499,2583.51689217491,5.36622297173284,-7.77988082712203,16.6507476425311,414.605934487448
10344,21745,5525,"CMPD","Xinglong Mt","Xinglong Mt 22",35.7806388888889,104.08525,2335,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.405878272028788,2554.1582856877,5.26949408804213,-7.82213646509996,16.4992521565581,417.591354890516
10344,21746,5526,"CMPD","Xinglong Mt","Xinglong Mt 23",35.8510555555555,104.003666666667,2462,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.411556950272171,2437.97549320792,4.86293705148567,-8.06056022881316,15.9163649491612,421.469030352934
10344,21747,5527,"CMPD","Xinglong Mt","Xinglong Mt 24",35.7805,104.084861111111,2498,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.419089472956476,2412.7523652985,4.7917222823589,-8.06066082950395,15.7687132789426,428.540354576388
10344,21748,5528,"CMPD","Xinglong Mt","Xinglong Mt 25",35.7710555555555,104.058305555556,2556,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.423463746215032,2363.85853063869,4.6253350119873,-8.14526391564689,15.5130332452712,432.193371358963
10344,21749,5529,"CMPD","Xinglong Mt","Xinglong Mt 26",35.7740555555555,104.058055555556,2640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.430203526297373,2291.59040554603,4.37826587071997,-8.26965777595294,15.1368019094424,437.664971008954
10344,21750,5530,"CMPD","Xinglong Mt","Xinglong Mt 27",35.7805833333333,104.084277777778,2135,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.38989762881517,2729.28250840214,5.85570876760959,-7.52963092291743,17.395615012358,404.140715484825
10344,21751,5531,"CMPD","Xinglong Mt","Xinglong Mt 28",35.7508055555556,104.104472222222,2680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.435687287031701,2259.41915613079,4.27403928733128,-8.30757855860955,14.9614645089545,442.460233802643
10344,21752,5532,"CMPD","Xinglong Mt","Xinglong Mt 29",35.75125,104.075416666667,2852,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.449086755855746,2114.16344052183,3.77205635922535,-8.56390086550701,14.1972048774446,453.206984491861
10344,21753,5533,"CMPD","Xinglong Mt","Xinglong Mt 30",35.7463055555556,104.067972222222,2669,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.45802769936314,2337.5173186441,4.63065231138312,-7.92326190306282,15.2354915639954,465.109596731151
10344,21754,5534,"CMPD","Xinglong Mt","Xinglong Mt 31",35.7463055555556,104.067666666667,2675,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.458580079144759,2332.76481815488,4.61474418970063,-7.93102910998268,15.2104235689676,465.575044854775
10344,21755,5535,"CMPD","Xinglong Mt","Xinglong Mt 32",35.7528611111111,104.100666666667,2763,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.442428417438194,2188.71000130284,4.03064297082653,-8.43060590294967,14.5902300413003,447.880484812699
10344,21756,5536,"CMPD","Xinglong Mt","Xinglong Mt 33",35.7710555555555,104.058305555556,2810,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.444339653342796,2147.33621490039,3.88287740890277,-8.51637214613692,14.3783079909299,449.122513171056
10344,21757,5537,"CMPD","Xinglong Mt","Xinglong Mt 34",35.7539166666667,104.098277777778,2917,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.455292641455193,2058.63244874355,3.58046171777106,-8.65659689243227,13.9019174301364,458.156706588005
10344,21758,5538,"CMPD","Xinglong Mt","Xinglong Mt 35",35.7497777777778,104.081694444444,2962,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.486130369444274,2105.89750648736,3.85098745028434,-8.30032002323113,14.0053735254636,488.479487527083
10344,21759,5539,"CMPD","Xinglong Mt","Xinglong Mt 36",35.7531944444444,104.097861111111,2953,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.458358858321418,2028.54863344971,3.47584528326075,-8.70886176365621,13.7414989015031,460.598981702605
10344,21760,5540,"CMPD","Xinglong Mt","Xinglong Mt 37",35.7551111111111,104.096833333333,3043,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.46594735326442,1953.092976291,3.21182956940834,-8.84160435126119,13.3384618180121,466.558199255673
10344,21761,5541,"CMPD","Xinglong Mt","Xinglong Mt 38",35.7641944444444,103.950333333333,3229,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.475340875352245,1802.26859639786,2.66914519286537,-9.13955188840959,12.5393756853679,473.506591375753
10344,21762,5542,"CMPD","Xinglong Mt","Xinglong Mt 39",35.7533055555555,103.95025,3464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.495435646984855,1613.8582577813,1.99626188355059,-9.47434774703583,11.507538550693999,489.146035499053
10344,21763,5543,"CMPD","Xinglong Mt","Xinglong Mt 40",35.7308888888889,103.984722222222,3565,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.541404163447293,1649.30350773974,2.27807000167729,-9.07025673630433,11.5286370223066,533.335745792781
10345,21764,5544,"CMPD","Xinjingbridge","Xinjingbridge",26.05,105.49,1258,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03531272234714,5790.91188926093,15.8655120253724,6.49609902669299,23.3406446727784,1158.85237835804
10346,21765,5545,"CMPD","Xiongoucuo","Xiongoucuo",31.04,91.63,4637,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.403105537955966,1171.46914701973,-0.524059662909283,-11.7471542796496,9.45479691635034,453.286137377272
10347,21766,5546,"CMPD","Xishan","Xishan 1",25.3,102.45,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811136880726588,5501.01659225381,15.0712783349419,7.83456327992798,20.4239897640463,1057.64393270128
10347,21767,5547,"CMPD","Xishan","Xishan 2",25.25,102.51,2000,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.814351618255484,5499.78520917854,15.0679046826809,7.89167483037092,20.3538635073513,1061.92347617679
10347,21768,5548,"CMPD","Xishan","Xishan 3",25.21,102.5,2200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.81209159353518,5032.85820775715,13.7886526239922,6.51322554449698,19.3334766503756,1045.94666474296
10347,21769,5549,"CMPD","Xishan","Xishan 4",25.22,102.52,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819021430526396,5715.81345361852,15.6597628866261,8.55883030214426,20.7948701557825,1071.51330675819
10347,21770,5550,"CMPD","Xishan","Xishan 5",25.2,102.53,1900,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.819175246544582,5714.59705557914,15.6564302892579,8.55674511275024,20.7901404832619,1071.61584271363
10348,21771,5551,"CMPD","Xiyaohu","Xiyaohu",28.6,115.9,50,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.32527998492115,6509.77863589058,17.8350099613441,5.52330838300198,29.4032358380669,1535.86831088587
10349,21772,6061,"EMBSeCBIO","XK-120 (Black Sea South)","XK-120 (Black Sea South)",42.1,28.5,-94,"436402","marine","marine core","-41","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
10350,21773,6062,"EMBSeCBIO","XK-55 (Black Sea SW)","XK-55 (Black Sea SW)",42.1,28.9,0,"436402","marine","marine core","-41","Harrison, S.P., Marinova, E. and Cruz-Silva, E., 2021. EMBSeCBIO pollen database. University of Reading. Dataset.","10.17864/1947.309",,"not applicable",,,,,,
10351,21774,11323,"Bush et al., 2020","Xlakal","Xlakal",21.09,-89.6,8,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",3,"tropical deciduous broadleaf forest and woodland",0.596451143397654,9489.00106510808,25.9972631920769,22.7377314013111,28.1482042727669,917.659729164119
10352,21775,10291,"Herzschuh et al., 2019","Xox Nuur. 45A","Xox Nuur. 45A",49.82297,91.73363,1928,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.3818048436004,1445.44125904664,-5.4165828790348,-27.5201714181243,12.9020510425938,305.052417248493
10353,21776,5552,"CMPD","Xugecuo","Xugecuo",31.97,90.33,4540,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.445652604730502,1230.83196176585,-0.253970844126966,-11.4923656212302,9.92903926829906,496.764800479124
10354,21777,11324,"Bush et al., 2020","Yaaxex","Yaaxex",20.62,-88.42,30,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.739977930621463,9414.04046193771,25.7918916765417,22.6599365655978,27.8503462515258,1130.60497989425
10355,21778,10628,"BIOME6000 Japan","Yabitsuyachi 43","YbtsyC0",40.61,140.9,1080,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.04522622922246,2752.83564583474,6.13716996472449,-6.2152513550531,19.2869017173383,1517.59624238453
10356,21779,10607,"BIOME6000 Japan","Yachidaira","YacdC0",37.72,140.18,1500,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.17822632253925,2461.46384116895,4.678521018083,-8.03002112328066,18.0778837942024,1658.64802639281
10357,21780,23844,"SMPDSv1","Yaila","Crimea-32",44.5,33.7,1205,"not applicable","terrestrial, soil","soil sample","-39","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",17,"temperate evergreen needleleaf open woodland",0.956191680443146,2807.56693797599,7.49727204113616,-1.1453383101915,17.0090347410753,944.922016786998
10358,21781,10567,"BIOME6000 Japan","Yakumogahara A","YakmC0",35.25,135.92,910,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.4620326886314,3482.1934964648,8.91645057099791,-3.46135754867584,21.6475362737461,2107.07920296014
10359,21782,23861,"SMPDSv1","Yakutia","07-NA-01",62.206,129.486,212,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.646261291132508,1746.5072430602,-10.2971435882649,-40.7691789142811,17.6569100095326,290.21314916515
10359,21783,23862,"SMPDSv1","Yakutia","07-NA-02",62.171,129.514,155,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.613253868827546,1769.88854990826,-10.4480773378667,-41.3376131707167,17.8595688879316,275.757061963794
10359,21784,23863,"SMPDSv1","Yakutia","07-NA-03",62.857,129.368,198,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.630890410333635,1686.42796131348,-11.0964858716537,-41.9561401011007,17.3433199744454,278.442350789193
10359,21785,23864,"SMPDSv1","Yakutia","07-NA-04",62.856,129.468,190,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.628099829072835,1696.4882888019,-11.0427863013886,-41.9360034839746,17.408381606432,277.495787697732
10359,21786,23865,"SMPDSv1","Yakutia","07-NE-01",61.305,128.927,107,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.565919779569475,1830.23614692647,-10.158816444985,-41.2825959448753,18.2901601734749,260.039562059944
10359,21787,23866,"SMPDSv1","Yakutia","07-NE-02",60.877,128.716,418,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.808275299555838,1652.5754312015,-9.40175441253716,-37.5877282663667,16.8061055431707,368.831500635922
10359,21788,23867,"SMPDSv1","Yakutia","07-NE-03",60.565,128.054,476,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.858556612995868,1638.53591977084,-9.00110481738142,-36.3390113206666,16.6634778064876,393.557551794863
10359,21789,23868,"SMPDSv1","Yakutia","07-NE-04",60.224,127.355,574,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.961307840898033,1596.61304544007,-8.43964853203378,-34.3058372686382,16.3106483196029,438.274245161175
10359,21790,23869,"SMPDSv1","Yakutia","07-NE-05",59.783,127.21,416,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.817074353086246,1677.56366049659,-8.68947031398761,-35.8816157871014,16.9461737511202,383.764523793745
10359,21791,23870,"SMPDSv1","Yakutia","07-NE-06",59.381,126.992,414,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.850872643983482,1678.28220607671,-8.3745723094015,-35.0295387963371,16.9109550326222,399.632401553246
10359,21792,23871,"SMPDSv1","Yakutia","07-NE-07",59.04,126.474,534,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.96552416191505,1645.53806734895,-7.7390907285862,-32.8582561440969,16.6522530537209,448.554491912536
10359,21793,23872,"SMPDSv1","Yakutia","07-NE-08",58.862,125.7,451,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.953877527387546,1702.54295382883,-7.02342375501899,-31.4552071588122,17.0570344243043,446.250056679167
10359,21794,23873,"SMPDSv1","Yakutia","07-NE-09",58.449,125.418,919,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.19344220894066,1462.7693052984,-7.80478754210432,-31.0251839886029,15.3679520643691,538.474777222988
10359,21795,23874,"SMPDSv1","Yakutia","07-NE-10",58.028,125.491,924,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.18943308395907,1462.62520011145,-7.8083124360487,-31.1394878274645,15.342499866997,541.912190754244
10359,21796,23875,"SMPDSv1","Yakutia","07-NE-11",57.633,125.175,1188,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.25489785198131,1298.72475555124,-8.84919952503508,-32.3459541556398,14.1030894214656,570.365886993672
10359,21797,23876,"SMPDSv1","Yakutia","07-NE-12",57.258,124.896,1010,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1888650131055,1400.01055799234,-8.16087328100898,-31.6516422975321,14.8313666042804,548.559641843884
10359,21798,23877,"SMPDSv1","Yakutia","07-NE-13",56.88,124.896,750,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1073982664136,1585.20501436024,-6.95040392868907,-30.5879173420752,16.0873126527092,525.774138486218
10359,21799,23878,"SMPDSv1","Yakutia","07-NE-14",56.43,124.742,920,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.1284830170606,1437.43672714216,-7.84831634763517,-31.5474949427498,14.9262534183531,535.284430290513
10359,21800,23879,"SMPDSv1","Yakutia","07-NE-15",55.993,124.902,1053,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.15667686637963,1350.51171669264,-8.4921640971546,-32.2772236610683,14.3467176783217,547.566940478518
10359,21801,23880,"SMPDSv1","Yakutia","07-NE-16",61.526,129.152,101,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.564284198192801,1827.05184769123,-10.2518256144501,-41.4733685223906,18.2751469315827,257.787374739811
10359,21802,23860,"SMPDSv1","Yakutia","07-SA-LY_ABCD_1-6",72.068,113.92,10,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.731024012821754,977.247351393615,-15.1682100126938,-41.5463873800375,13.2682248011971,216.926662287659
10359,21803,23845,"SMPDSv1","Yakutia","07-SAS-01",72.478,114.077,20,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.735739323397576,945.16515946055,-15.1834130326141,-41.2385478909224,12.8750408470855,216.174285435102
10359,21804,23846,"SMPDSv1","Yakutia","07-SAS-02",72.6,113.856,6,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.73290636425739,938.845833276905,-15.2375669401475,-41.2250689189667,12.8210927182068,213.980870242417
10359,21805,23847,"SMPDSv1","Yakutia","07-SAS-03",73.254,114.293,7,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",0.736385461281073,857.015130983075,-15.3990518372103,-40.6517939029732,11.8399859369534,209.234773749561
10359,21806,23848,"SMPDSv1","Yakutia","07-SAS-04",72.953,114.95,5,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.722260096519491,880.151548665848,-15.3859528305567,-40.9529146669704,12.075965357772,208.984071375655
10359,21807,23849,"SMPDSv1","Yakutia","07-SAS-05",72.885,115.755,17,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.719519510497026,887.63147456754,-15.3436178047857,-41.0445248823809,12.0960571507891,211.431970555566
10359,21808,23850,"SMPDSv1","Yakutia","07-SAS-06",72.964,115.345,17,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.723452514822619,881.568440902879,-15.3487292715868,-40.9530928950008,12.0566365425691,210.850852719223
10359,21809,23851,"SMPDSv1","Yakutia","07-SAS-07",72.077,114.914,2,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.72030647253422,959.762696991286,-15.5110236482396,-42.0604340208302,13.1282390358266,213.327057583383
10359,21810,23852,"SMPDSv1","Yakutia","07-SAS-08",73.128,114.869,3,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.722665881723304,869.815173186813,-15.3847526089212,-40.8310999138187,11.9465889908552,208.092224775887
10359,21811,23853,"SMPDSv1","Yakutia","07-SAS-09",73.214,113.614,4,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",0.74449120019329,907.292116964456,-15.3074096643565,-40.925078071747,12.4896760366496,212.947616904222
10359,21812,23854,"SMPDSv1","Yakutia","07-SAS-10",73.381,113.934,5,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",0.739036274678894,846.55065876474,-15.384777520067,-40.495098071719,11.714491897744,209.164690636442
10359,21813,23855,"SMPDSv1","Yakutia","07-SAS-11",72.32,111.189,86,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.832195578113828,954.631963055743,-14.7412908123404,-40.1357839426955,13.1465369385913,238.962880712831
10359,21814,23856,"SMPDSv1","Yakutia","07-SAS-12",72.07,111.105,61,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.825139538932744,969.506083741254,-14.6148025195478,-40.0525711497592,13.2727090465718,238.413272413863
10359,21815,23857,"SMPDSv1","Yakutia","07-SAS-13",72.074,111.113,37,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.8185553367434,974.109629976334,-14.5998337821257,-40.0432173702987,13.3167886421475,236.36686019155
10359,21816,23858,"SMPDSv1","Yakutia","07-SAS-14",71.747,111.132,52,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.820987148654776,988.23965381611,-14.4387445445295,-39.97439055934,13.4218377495308,239.75351388789
10359,21817,23859,"SMPDSv1","Yakutia","07-SAS-15",71.503,110.819,84,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.830764808051819,979.56529505118306,-14.4599530928997,-39.9446709657736,13.3463477578354,243.11093244066
10359,21818,23881,"SMPDSv1","Yakutia","07-WI-01",62.084,129.192,229,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.656870489663238,1736.79905047394,-10.1777121086168,-40.3437729098483,17.5869508453872,296.062487028216
10359,21819,23882,"SMPDSv1","Yakutia","07-WI-02",62.055,128.401,260,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.676826129171686,1715.55679760701,-10.0088824073905,-39.6537733221373,17.4225504097562,306.866873757298
10359,21820,23883,"SMPDSv1","Yakutia","07-WI-03",62.233,127.746,257,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.679357556602899,1701.64077974995,-9.89800554065684,-39.1836215645158,17.3239381067737,310.416602668754
10359,21821,23884,"SMPDSv1","Yakutia","07-WI-04",62.128,127.03,293,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.70122531311973,1681.92786231491,-9.64612718496806,-38.3715344396977,17.1277977613469,323.425275179995
10359,21822,23885,"SMPDSv1","Yakutia","07-WI-05",62.378,126.592,270,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.676059275855497,1684.82549463486,-9.65830468259008,-38.4561827553796,17.1640816235446,313.935315325518
10359,21823,23886,"SMPDSv1","Yakutia","07-WI-06",62.508,125.6,293,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.677049555262283,1652.02348786611,-9.5305194172368,-37.8544324916058,16.9299273497121,316.468857350977
10359,21824,23887,"SMPDSv1","Yakutia","07-WI-07",62.611,124.904,265,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.662873318605303,1641.26252184024,-9.6189828598301,-37.9366764517751,16.9396609733995,309.095914295136
10359,21825,23888,"SMPDSv1","Yakutia","07-WI-08",62.869,124.312,234,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.644250034643944,1640.27891778536,-9.6699358256406,-38.0261614524206,17.0284509014322,299.410119837593
10359,21826,23889,"SMPDSv1","Yakutia","07-WI-09",63.136,123.988,198,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.629468463951092,1641.48873736169,-9.73431060337613,-38.1632013386569,17.121732174511,291.424398329881
10359,21827,23890,"SMPDSv1","Yakutia","07-WI-10",63.374,123.466,166,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.614954573859592,1632.33370955393,-9.86355006433262,-38.3460028311033,17.1575874566409,283.521951966385
10359,21828,23891,"SMPDSv1","Yakutia","07-WI-11",63.61,123.054,158,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.60763611280591,1630.35265464074,-9.85313957207562,-38.321842948328,17.1870481991768,279.691484422894
10359,21829,23892,"SMPDSv1","Yakutia","07-WI-12",63.777,122.635,125,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.594233245334918,1624.8835126515,-9.95447700858554,-38.4757276347489,17.2336082522599,272.969852515879
10359,21830,23893,"SMPDSv1","Yakutia","07-YT-01",62.032,130.003,139,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.601835701803944,1777.59528757095,-10.5662000669762,-41.7313163394612,17.9077884405995,270.947953662135
10359,21831,23894,"SMPDSv1","Yakutia","07-YT-02",62.158,130.816,155,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.611814601018919,1751.03829954775,-10.8614960292269,-42.2447593809077,17.6905166675532,274.402237523468
10359,21832,23895,"SMPDSv1","Yakutia","07-YT-03",62.087,131.604,260,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.673604282438824,1706.14837809355,-10.7693087425464,-41.9339669597431,17.2221205204718,303.873132233798
10359,21833,23896,"SMPDSv1","Yakutia","07-YT-04",62.148,133.134,157,"not applicable","terrestrial, soil","soil sample","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",14,"cold deciduous forest",0.626739719554889,1618.59520575962,-12.1524260699005,-44.0292080524355,16.6937644879585,277.559273517916
10360,21834,11325,"Bush et al., 2020","Yalahau","Yalahau",20.66,-89.22,12,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",18,"tropical savanna",0.662397311295559,9465.55279025462,25.9330213431633,22.748431169803,28.0346166176532,1018.41146023684
10361,21835,11326,"Bush et al., 2020","Yalaluch","Yalaluch",16.09,-91.66,1504,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.51882333627932,7066.9684713856695,19.3615574558512,17.1537392002645,21.0865830936073,2403.54846090688
10362,21836,1666,"Australian pollen","Yalgorup","Yalgorup",-32.867,115.667,20,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.600632688117445,6330.27938761588,17.3432311989476,12.7893708116577,23.0097000144848,821.521316376832
10363,21837,5553,"CMPD","Yalongwan","Yalongwan",18.3,109.8,4,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10364,21838,5554,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-01",29.6731833333333,91.3843,3696,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.635117758124213,2576.11178547119,6.6721493578154,-2.6318790022543,14.500269968097,801.678227176606
10364,21839,5555,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-02",29.7231833333333,92.0009666666667,3700,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.752856969358063,2521.22389022624,6.59276848188294,-2.2681834651649,14.1028170323947,940.033506178299
10364,21840,5556,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-03",29.8058,91.65185,3783,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.665358088620762,2447.59935665354,6.2185903664906,-3.07795659919078,14.0468978715485,833.780401548108
10364,21841,5557,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-04",29.8119166666667,91.6674166666667,3788,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.665323697294737,2439.60077109504,6.18909275738679,-3.10905801726254,14.019435641924,833.344673979307
10364,21842,5558,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-05",29.7752333333333,91.8784833333333,3926,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.68276440722349,2261.29082495226,5.57164242567814,-3.57266785749679,13.3819192164532,847.669639162071
10364,21843,5559,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-06",29.7087666666667,92.3843,4141,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.679430842241151,1796.66341521727,3.6628758061657,-5.52580913974082,11.6800853466127,812.350758831773
10364,21844,5560,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-07",29.7037666666667,92.3343,4200,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.667612486307712,1733.87209313379,3.36086918596108,-5.88489612576643,11.44660454832,795.855157305255
10364,21845,5561,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-08",29.6924333333333,92.24315,4377,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.641439815737046,1596.05655252492,2.64683542762633,-6.76883275041166,10.9206085502149,762.255643146376
10364,21846,5562,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-09",29.69255,92.245,4375,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.641848966058481,1598.19242686995,2.65782498095649,-6.75584594978256,10.9291756907287,762.83716134731
10364,21847,5563,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-10",29.8210666666667,92.36705,4931,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.477933402456121,1018.32921351316,-0.788649454407382,-10.9622263240352,8.34840783068086,541.305252092884
10364,21848,5564,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-11",29.8372166666667,92.3245166666667,4787,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.510036062329624,1152.91900668811,0.0836473253095284,-9.91141411693618,9.01592580483196,584.620543779526
10364,21849,5565,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-12",29.9128,92.3657166666667,4458,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580032231840613,1493.75082086984,2.07758409411657,-7.50186952013945,10.5364192748692,682.00638484036
10364,21850,5566,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-13",29.8757,92.5196,4207,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.638038865554957,1782.48608626574,3.59654082020099,-5.59223869403234,11.6442479900098,763.538719128995
10364,21851,5567,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-14",29.8736333333333,92.6855833333333,3979,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.691419010553015,2078.88855190293,4.97606130509913,-3.83479080460532,12.6358418898597,839.220407896393
10364,21852,5568,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-15",29.87365,92.6856166666667,3979,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.691419572090665,2078.88888711231,4.976065827797,-3.83477669533492,12.6358397934606,839.220830650204
10364,21853,5569,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-16",29.99345,93.0897333333333,3539,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.746959630395552,2560.11331749369,6.86573465408567,-1.32466228933408,13.8997561057633,911.725082461308
10364,21854,5570,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-17",29.9113833333333,93.1719,3462,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.760187193472605,2667.87181404337,7.22504299409572,-0.869980824380912,14.156688453733,930.79911948667
10364,21855,5571,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-18",29.8949666666667,93.362,3377,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.734034472680246,2711.42006275813,7.30993742121059,-1.12378952212594,14.4768347979948,901.151783788612
10364,21856,5572,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-19",29.8251333333333,93.7566333333333,3206,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.734125425067255,2999.90184603452,8.19769781001494,-0.232283761530796,15.2950908944265,911.582065761157
10364,21857,5573,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-20",29.7933,93.9067166666667,3149,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.739784876321938,3093.66684538368,8.47218637546175,0.0633228321957968,15.5303526770929,921.278810960014
10364,21858,5574,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-21",29.7337,94.0765,3112,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.783483101479032,3103.46013226253,8.49407432754136,-0.0346082368999627,15.6137835580234,976.559865921946
10364,21859,5575,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-22",29.7506333333333,94.26135,3044,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.749668339233608,3262.98144714613,8.93967519766063,0.586107202231322,15.9248178029398,936.63304328382
10364,21860,5576,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-23",29.75065,94.2613666666667,3044,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.749667853095061,3262.98207535742,8.93967691878746,0.5861090352374,15.9248198192446,936.632291608003
10364,21861,5577,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-24",29.5732333333333,94.4865166666667,3021,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.786628879378022,3237.48846726973,8.86983141717734,0.397872002914152,15.9241174787097,983.514102497438
10364,21862,5578,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-25",29.565,94.5438166666667,3312,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.732790870381652,2744.00112724394,7.37741447076591,-1.25626703472438,14.6853408177271,903.159417394716
10364,21863,5579,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-26",29.5662,94.56025,3429,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.710968998276295,2566.69019343002,6.77677669442884,-1.92143779603071,14.1863043658845,870.94326216164
10364,21864,5580,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-27",29.5676333333333,94.5655166666667,3515,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.694970382005859,2442.51275855159,6.33599204106489,-2.40982484059959,13.8201404416686,847.479430412807
10364,21865,5581,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-28",29.63195,94.6250333333333,4349,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.533493444819099,1443.15733260845,2.03556711234624,-7.17594071787799,10.2483112918017,619.092954394679
10364,21866,5582,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-29",29.63195,94.6333333333333,4400,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.523127500494087,1391.88658591077,1.77043922703435,-7.46863165918876,10.0273057894246,605.045035531851
10364,21867,5583,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-30",29.6163,94.6964166666667,4287,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.544193185140008,1500.53286639841,2.33246793295101,-6.834920743439,10.4874936663575,633.544998664773
10364,21868,5584,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-31",29.63995,94.7053666666667,4043,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.591616306922129,1762.15871382747,3.58224282867882,-5.45211871190682,11.5277560407445,698.827131997727
10364,21869,5585,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-32",29.6687166666667,94.71445,3733,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",9,"cool mixed forest",0.650216146195531,2136.57068657976,5.1756024280896,-3.68829507752072,12.8535774194117,781.683464307633
10364,21870,5586,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-33",29.84115,94.75475,3038,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.745046850062853,3237.62685996476,8.87021057524592,0.534146278621099,15.8556274012806,927.032985052934
10364,21871,5587,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-34",30.0774666666667,95.0486666666667,2050,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.893085078934968,5343.84498739647,14.6406711983465,7.0263261140511,20.6073988488948,1171.01780518266
10364,21872,5588,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-35",30.0774833333333,95.0486833333333,2050,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.893084711527166,5343.84958579288,14.6406837966928,7.02634164141779,20.6074089241036,1171.01734031141
10364,21873,5589,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-36",30.0724,95.1431666666667,2172,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.874029804021952,5097.41486167477,13.965520168972,6.26223274434352,20.0568254832581,1139.89643852744
10364,21874,5590,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-37",30.0571333333333,95.21345,2248,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.862290608595684,4942.52405694444,13.5411617998478,5.78182538277426,19.7107115210312,1120.80255685709
10364,21875,5591,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-38",29.9844333333333,95.3537666666667,2482,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.816393272200089,4380.22745379223,12.0006231610746,3.97519036274056,18.5014843371402,1046.39491688693
10364,21876,5592,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-39",29.97185,95.36455,2539,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.808473397598361,4254.14642733717,11.6551956913347,3.59808053688046,18.2091191279736,1032.54712767957
10364,21877,5593,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-40",29.9327666666667,95.4030833333333,2562,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.805332932920087,4198.52564229427,11.5028099788884,3.43156462676882,18.0803453338557,1027.09603755267
10364,21878,5594,"CMPD","Yalung Zangbo River","Yalung Zangbo River YL-41",29.8801333333333,95.71455,2781,"not applicable","terrestrial, soil","moss/soil","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.773428064379107,3686.95658019811,10.1012509046524,1.92473082890565,16.8822225621137,970.059862514729
10365,21879,10577,"BIOME6000 Japan","Yamakado Moor","YamakC0",35.57,136.13,300,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.8900060556902,4777.34390066537,13.0886134264805,1.58874419840289,25.3936142961757,1802.21501977064
10366,21880,7747,"EMPDv2","Yamal Peninsula","Lapteva_b108",68.53311,72.15206,19,"1e-04","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19779234006123,964.317461529019,-7.62341892038968,-25.009432839185,11.6742265934724,380.441661158718
10366,21881,7748,"EMPDv2","Yamal Peninsula","Lapteva_b109",68.63883,71.76122,14,"1e-04","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19725192541541,948.454615609609,-7.74370963083147,-25.0837480025283,11.5269401368093,376.73342728232
10366,21882,7749,"EMPDv2","Yamal Peninsula","Lapteva_b110",68.40583,72.15333,29,"1e-04","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17733682674002,994.248909905506,-7.39082972897003,-24.8979451791122,12.0110401580921,380.265981058171
10366,21883,7682,"EMPDv2","Yamal Peninsula","Lapteva_b36",68.63883,71.76122,30,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.17147707787918,984.757683521301,-7.46178631775916,-24.9551838362092,11.9474937801129,375.690098791839
10366,21884,7683,"EMPDv2","Yamal Peninsula","Lapteva_b37",68.63883,71.76122,32,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.16830633448288,989.375131746475,-7.42654590362512,-24.9391133154193,12.0000629855258,375.559682730529
10366,21885,7684,"EMPDv2","Yamal Peninsula","Lapteva_b38",68.61887,72.04157,17,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.19903521349966,954.849454953515,-7.69513744824026,-25.0511394493982,11.5825370974892,378.622951561474
10366,21886,7685,"EMPDv2","Yamal Peninsula","Lapteva_b39",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21887,7686,"EMPDv2","Yamal Peninsula","Lapteva_b40",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21888,7687,"EMPDv2","Yamal Peninsula","Lapteva_b41",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21889,7688,"EMPDv2","Yamal Peninsula","Lapteva_b42",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21890,7689,"EMPDv2","Yamal Peninsula","Lapteva_b43",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21891,7690,"EMPDv2","Yamal Peninsula","Lapteva_b44",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21892,7691,"EMPDv2","Yamal Peninsula","Lapteva_b45",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21893,7692,"EMPDv2","Yamal Peninsula","Lapteva_b46",67.69194,72.89639,13,"0.01","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.26019037657627,1015.65493984729,-7.32163305305599,-24.7875101748079,11.9704164076518,414.20548736334
10366,21894,7707,"EMPDv2","Yamal Peninsula","Lapteva_b67",68.21667,69.1,2,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.08025052067841,1014.445090968,-7.24652849214379,-24.7913974972255,12.3378467246335,356.271177207449
10366,21895,7708,"EMPDv2","Yamal Peninsula","Lapteva_b69",66.7755,71.08292,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20878737115443,1189.41989240148,-6.01743007420191,-23.9882747114474,13.6164267696917,431.827688409673
10366,21896,7709,"EMPDv2","Yamal Peninsula","Lapteva_b70",70.65236,67.39047,13,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.9418970735248,808.712453077872,-8.79995833960607,-25.7256425601308,10.6051539180211,272.600237638617
10366,21897,7710,"EMPDv2","Yamal Peninsula","Lapteva_b71",70.65236,67.38925,11,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.94179707157266,798.393395492584,-8.87404674436736,-25.7469516959259,10.4963726949955,271.152243992936
10366,21898,7711,"EMPDv2","Yamal Peninsula","Lapteva_b72",66.84142,71.35425,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.23440699969747,1164.26059883726,-6.2286684378849,-24.1268875283766,13.3550309077027,435.968807340922
10366,21899,7712,"EMPDv2","Yamal Peninsula","Lapteva_b73",66.78111,71.08514,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20897096099508,1189.43984584214,-6.01730076827532,-23.9882062592684,13.6165141240953,431.854229674189
10366,21900,7713,"EMPDv2","Yamal Peninsula","Lapteva_b74",70.65242,67.38717,9,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.941700707496514,788.063116338084,-8.94813851306333,-25.7680770477253,10.3874198902965,269.709195949286
10366,21901,7714,"EMPDv2","Yamal Peninsula","Lapteva_b75",66.77364,71.08075,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20869656376744,1189.4284065418,-6.01734093658783,-23.9882090202448,13.6165820110146,431.811752913433
10366,21902,7715,"EMPDv2","Yamal Peninsula","Lapteva_b76",66.76439,71.08708,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20860105492522,1189.28925610981,-6.01847820359009,-23.9889407357208,13.615149580944,431.817032930047
10366,21903,7716,"EMPDv2","Yamal Peninsula","Lapteva_b77",66.77742,71.08531,1,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20888406163675,1189.40944185583,-6.01753635338571,-23.9883519723011,13.6162468013193,431.844808923967
10366,21904,7717,"EMPDv2","Yamal Peninsula","Lapteva_b78",70.65222,67.38522,8,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",0.941668702766517,782.897724065025,-8.98511047898557,-25.7783965917116,10.3328585759852,268.995869705121
10366,21905,7718,"EMPDv2","Yamal Peninsula","Lapteva_b79",68.21667,69.1,2,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.08025052067841,1014.445090968,-7.24652849214379,-24.7913974972255,12.3378467246335,356.271177207449
10366,21906,7724,"EMPDv2","Yamal Peninsula","Lapteva_b85",68.60953,72.02558,34,"1e-04","terrestrial, soil","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",31,"tundra",1.16786901142117,997.528627598306,-7.36346067264838,-24.901720837743,12.0784265183198,376.847802947002
10366,21907,9551,"EMPDv2","Yamal Peninsula","Panova_a2",67.32,70.1,57,"not known","terrestrial, bog/fen/swamp","peat","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.12408494920874,1087.68537427699,-6.69195194147597,-24.4801031602325,12.9656196751408,389.469737928184
10367,21908,16699,"Neotoma","Yamaska","PJHR060",45.47,-72.87,265,"not known","not known","surface sample","Modern","Unpublished data",,9,"cool mixed forest",1.47599992035288,2656.32345715151,4.38743892349413,-11.7128930126962,18.6327506063102,1113.33768877597
10368,21909,11327,"Bush et al., 2020","Yanacocha","Yanacocha",-13.284107,-72.048482,4062,"not known","lake","lake surface sample","-55","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",22,"steppe",0.353864320885207,2768.65058695281,7.58534407384331,5.47375864043337,8.9009747711951,507.579651252494
10369,21910,1667,"Australian pollen","Yanchep NP","Yanchep NP (4)",-31.283,116.067,20,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.4566321927521,6693.93860873496,18.3395578321506,13.453353788917,24.3913003888016,677.233139469859
10369,21911,1668,"Australian pollen","Yanchep NP","Yanchep NP (5)",-31.283,116.067,20,"not applicable","terrestrial","pollen trap","modern","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",0.4566321927521,6693.93860873496,18.3395578321506,13.453353788917,24.3913003888016,677.233139469859
10370,21912,5595,"CMPD","Yangbajing","Yangbajing",30.08,90.56,4323,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.599868984080852,1797.32474284932,3.33767238597255,-6.60866340212968,11.8849924080706,728.961276155369
10371,21913,5596,"CMPD","Yangchi","Yangchi",23.32,111.63,131,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45199326435159,7909.00009462028,21.6684934099186,13.1511869077679,28.3722564567639,1761.55427850173
10372,21914,5597,"CMPD","Yangerzhuang","Yangerzhuang",38.2,117.3,5,"not known","not known","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.518404040485064,4908.389602184,13.0229489827115,-3.09167749716148,26.7046398999295,581.764145936027
10373,21915,5598,"CMPD","Yangjiapo","Yangjiapo",40.0167,118.683,70,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.514143939706942,4395.76926345636,11.0844112103289,-5.60416439195183,25.3167784502717,549.230681007308
10374,21916,5599,"CMPD","Yangpu","Yangpu 1",19.8,109.2,1,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33398251925263,8911.11799178706,24.414021895307,17.5071537972397,29.3137596180806,1748.45403155748
10374,21917,5600,"CMPD","Yangpu","Yangpu 2",19.8,109.2,2,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10374,21918,5601,"CMPD","Yangpu","Yangpu 3",19.7,109.1,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10374,21919,5602,"CMPD","Yangpu","Yangpu 4",18.2,110.8,0,"not applicable","marine","marine surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10374,21920,5603,"CMPD","Yangpu","Yangpu 5",19.8,109.2,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.33357308946181,8912.11277565528,24.4167473305624,17.5052168129823,29.3201852702652,1747.80995828736
10375,21921,5604,"CMPD","Yanshan Mt","Yanshan Mt 01",40.95,116.33,0,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.497669697149278,4501.75095980145,11.5430498174205,-4.79729295418923,25.6263321803875,523.206209829217
10375,21922,5605,"CMPD","Yanshan Mt","Yanshan Mt 02",40.95,116.33,20,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.496394406108718,4468.48130669275,11.4162920904006,-4.95080222097317,25.5239373381414,521.452332372629
10375,21923,5606,"CMPD","Yanshan Mt","Yanshan Mt 03",40.95,116.33,40,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.495119481722199,4435.36553401602,11.2895343633806,-5.10431148775712,25.4215424958953,519.698454916042
10375,21924,5607,"CMPD","Yanshan Mt","Yanshan Mt 04",40.95,116.33,60,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.493844933578067,4402.43171714295,11.1627766363607,-5.25782075454106,25.3191476536492,517.944577459454
10375,21925,5608,"CMPD","Yanshan Mt","Yanshan Mt 05",40.95,116.33,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.492570729128968,4369.6573166778,11.0360189093407,-5.411330021325,25.216752811403,516.190700002866
10375,21926,5609,"CMPD","Yanshan Mt","Yanshan Mt 06",40.95,116.33,100,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.491296830176496,4337.0472166368,10.9092611823208,-5.56483928810894,25.1143579691569,514.436822546279
10375,21927,5610,"CMPD","Yanshan Mt","Yanshan Mt 07",40.95,116.33,120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.490023258303798,4304.61158640079,10.7825034553008,-5.71834855489288,25.0119631269108,512.682945089691
10375,21928,5611,"CMPD","Yanshan Mt","Yanshan Mt 08",40.95,116.33,160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.487476903078906,4240.23844567075,10.5289880012609,-6.02536708846076,24.8071734424186,509.175190176516
10375,21929,5612,"CMPD","Yanshan Mt","Yanshan Mt 09",40.95,116.33,640,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.456941697347106,3516.05080500907,7.48680255278194,-9.70958949127536,22.3496972285117,467.082131218414
10375,21930,5613,"CMPD","Yanshan Mt","Yanshan Mt 10",40.95,116.33,1160,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.423635469193778,2819.63661853848,4.19110165026308,-13.7008304276578,19.6874313301126,421.481317347138
10375,21931,10292,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 11",40.955,116.335,1260,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.417184637222472,2693.84931975503,3.55365299092789,-14.4739110166058,19.1732602136729,412.675343049492
10375,21932,10293,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 12",40.955,116.335,1350,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.411332827044669,2583.34720552568,2.98321323922561,-15.1648354082611,18.7125496175063,404.77884853744
10375,21933,10294,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 13",40.955,116.335,1450,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.404800243479235,2462.88364130489,2.34939129288975,-15.9325291767669,18.200648955099,396.004965746272
10375,21934,10295,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 14",40.955,116.335,1550,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.398231985167616,2344.79801273864,1.71556934655388,-16.7002229452728,17.6887482926917,387.231082955103
10375,21935,10296,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 15",40.955,116.335,1660,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.390961311369802,2217.6084464737,1.0183652055844301,-17.5446860906292,17.1256575640436,377.579811884818
10375,21936,10297,"Herzschuh et al., 2019","Yanshan Mt","Yanshan Mt 16",40.955,116.335,1760,"not applicable","terrestrial","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.384306164334842,2104.48033864683,0.384543259248565,-18.312379859135,16.6137569016363,368.80592909365
10375,21937,5614,"CMPD","Yanshan Mt","Yanshan Mt 17",40.95,116.33,1860,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.377623673725689,1994.24006018127,-0.245418795435379,-19.0736547650958,16.1036118514984,360.095606366573
10375,21938,5615,"CMPD","Yanshan Mt","Yanshan Mt 18",40.95,116.33,1992,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.36870632231036,1851.66736068049,-1.08201979376709,-20.0868159258698,15.427805892674,348.520015153095
10375,21939,5616,"CMPD","Yanshan Mt","Yanshan Mt 19",40.95,116.33,2082,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.362570763024958,1756.9305660686,-1.65242956535689,-20.7776076263975,14.9670291025665,340.627566598451
10376,21940,5617,"CMPD","Yanshengang","Yanshengang",39.8667,118.867,23,"not known","not known","profile top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.523551219006629,4394.99461614369,11.0917683602865,-5.57228726998516,25.3312073287694,558.173669987232
10377,21941,5618,"CMPD","Yanshiping","Yanshiping",33.58,92.07,4700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.239472381376348,622.486033894682,-4.69385468070362,-16.507599068461,6.51852850838929,238.144484507681
10378,21942,1669,"Australian pollen","Yarlington Tier","Yarlington Tier_a",-42.535,147.3008,650,"not known","terrestrial, bog/fen/swamp","core","-25","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16026002680395,3168.72027689952,8.68142541616307,3.89071065512227,13.8351871751158,1072.86185906815
10378,21943,1670,"Australian pollen","Yarlington Tier","Yarlington Tier_b",-42.535,147.3008,650,"not known","terrestrial, bog/fen/swamp","core","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",16,"temperate sclerophyll woodland and shrubland",1.16026002680395,3168.72027689952,8.68142541616307,3.89071065512227,13.8351871751158,1072.86185906815
10379,21944,23897,"SMPDSv1","Yasenskaya-pereprava","Yasenskaya-pereprava_SS (Novenko_c139)",46.2593,38.29,24,"0.01","terrestrial, soil","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",22,"steppe",0.60464374569459,4211.35439292782,11.3156748899272,-1.77934471920606,23.45623191021,605.884435333483
10380,21945,10592,"BIOME6000 Japan","Yashimagahara","D20048",36.116667,138.166667,1630,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",9,"cool mixed forest",1.85166238405287,2481.76952218861,4.82741575270347,-8.01242014657019,17.8816226118834,1485.78206053792
10381,21946,23898,"SMPDSv1","Yasnaya-polyana","Yasnaya-polyana_SS (Novenko_c15)",54.0757,37.5181,231,"0.01","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.855555583884277,2777.42743716319,5.16106204156118,-9.78287248984407,18.4850333646174,613.534350634707
10382,21947,16328,"Neotoma","Yathkyed Lake Site 1","JTA143",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21948,16337,"Neotoma","Yathkyed Lake Site 1","JTA144",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21949,16332,"Neotoma","Yathkyed Lake Site 1","JTA145",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21950,16335,"Neotoma","Yathkyed Lake Site 1","JTA146",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21951,16329,"Neotoma","Yathkyed Lake Site 1","JTA147",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21952,16331,"Neotoma","Yathkyed Lake Site 1","JTA148",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21953,16334,"Neotoma","Yathkyed Lake Site 1","JTA149",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21954,16336,"Neotoma","Yathkyed Lake Site 1","JTA150",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21955,16330,"Neotoma","Yathkyed Lake Site 1","JTA151",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10382,21956,16333,"Neotoma","Yathkyed Lake Site 1","JTA152",62.77,-98.38,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.760017122733093,860.732765381789,-11.3481106489838,-32.0430653137017,11.1384984223081,276.299681680204
10383,21957,16338,"Neotoma","Yathkyed Lake Site 2","JTA153",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21958,16340,"Neotoma","Yathkyed Lake Site 2","JTA154",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21959,16346,"Neotoma","Yathkyed Lake Site 2","JTA155",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21960,16343,"Neotoma","Yathkyed Lake Site 2","JTA156",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21961,16344,"Neotoma","Yathkyed Lake Site 2","JTA157",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21962,16342,"Neotoma","Yathkyed Lake Site 2","JTA158",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21963,16341,"Neotoma","Yathkyed Lake Site 2","JTA159",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21964,16345,"Neotoma","Yathkyed Lake Site 2","JTA160",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21965,16339,"Neotoma","Yathkyed Lake Site 2","JTA161",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10383,21966,16347,"Neotoma","Yathkyed Lake Site 2","JTA162",63.28,-97.75,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",31,"tundra",0.763880867437367,841.986052286415,-11.566477908295001,-32.1912924426255,10.9918957533152,273.022361868013
10384,21967,16349,"Neotoma","Yathkyed Lake Site 3","JTA163",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21968,16352,"Neotoma","Yathkyed Lake Site 3","JTA164",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21969,16350,"Neotoma","Yathkyed Lake Site 3","JTA165",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21970,16348,"Neotoma","Yathkyed Lake Site 3","JTA166",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21971,16354,"Neotoma","Yathkyed Lake Site 3","JTA167",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21972,16351,"Neotoma","Yathkyed Lake Site 3","JTA168",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21973,16353,"Neotoma","Yathkyed Lake Site 3","JTA169",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10384,21974,16355,"Neotoma","Yathkyed Lake Site 3","JTA170",63.7,-97.62,150,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.762916803741977,831.58118842544,-11.6820225935885,-32.270880383091,10.9034670014128,269.516186991851
10385,21975,16363,"Neotoma","Yathkyed Lake Site 4","JTA171",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21976,16359,"Neotoma","Yathkyed Lake Site 4","JTA172",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21977,16364,"Neotoma","Yathkyed Lake Site 4","JTA173",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21978,16356,"Neotoma","Yathkyed Lake Site 4","JTA174",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21979,16361,"Neotoma","Yathkyed Lake Site 4","JTA175",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21980,16362,"Neotoma","Yathkyed Lake Site 4","JTA176",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21981,16365,"Neotoma","Yathkyed Lake Site 4","JTA177",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21982,16358,"Neotoma","Yathkyed Lake Site 4","JTA178",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21983,16360,"Neotoma","Yathkyed Lake Site 4","JTA179",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10385,21984,16357,"Neotoma","Yathkyed Lake Site 4","JTA180",63.98,-96.5,50,"not known","lake","surface sample","Modern","Andrews, J.T. and Nichols, H., 1981. Modern pollen deposition and Holocene paleotemperature reconstructions, central northern Canada. Arctic and alpine research, 13(4), pp.387-408.","10.1080/00040851.1981.12004259",15,"cold evergreen needleleaf forest",0.769132338321439,799.086870937582,-12.2070906934339,-32.6015933686909,10.6668137022793,262.538656945399
10386,21985,11328,"Bush et al., 2020","Yaxha","Yaxha",17.07,-89.41,171,"not known","lake","lake surface sample","-60","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",1.34021412573448,9267.23959699071,25.3896975260019,22.4893945455807,27.4462215029096,2166.22532545235
10387,21986,16742,"Neotoma","Yellow Creek","RJM004",52.716667,-105.216667,494,"not known","not known","surface sample","Modern","Mott, R.J., 1969. Palynological studies in Central Saskatchewan: Contemporary pollen spectra from surface samples. Geological Survey of Canada Paper 69-32.",,15,"cold evergreen needleleaf forest",0.57372750992008,2360.28554904599,0.967318855208298,-18.9883172752609,17.6362552970965,411.204671230911
10388,21987,11464,"Neotoma","Yellow Dog Pond","YELLO561",46.754925,-87.94245,445,"not known","lake","surface sample","0","Brubaker, L.B. 1973. Ancient and modern forest patterns associated with glacial till and outwash in northcentral Upper Michigan. Doctoral dissertation. University of Michigan, Ann Arbor, Michigan, USA.; Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06359244179362,2602.4569279318,4.00962499376267,-12.1902460459316,18.6054104602645,801.282194936516
10388,21988,13499,"Neotoma","Yellow Dog Pond","YELLOWDG",46.754925,-87.94245,445,"not known","lake","core","-4","Brubaker, L.B. 1975. Postglacial forest patterns associated with till and outwash in northcentral Upper Michigan. Quaternary Research 5(4):499-527.","10.1016/0033-5894(75)90013-7",9,"cool mixed forest",1.06359244179362,2602.4569279318,4.00962499376267,-12.1902460459316,18.6054104602645,801.282194936516
10389,21989,17287,"Neotoma","Yellowknife","RLF67014",62.45,-114.366667,0,"not known","terrestrial","surface sample","Modern","Ritchie, J.C. and Lichti-Federovich, S., 1967. Pollen dispersal phenomena in arctic-subarctic Canada. Review of Palaeobotany and Palynology, 3(1-4), pp.255-266.","10.1016/0034-6667(67)90058-9",15,"cold evergreen needleleaf forest",0.598203732999132,2171.38766546057,-1.81945441165476,-24.8357897362835,17.8830700592165,325.912397118999
10390,21990,13500,"Neotoma","Yesterday Lake","YESTERDY",56.766667,-119.483333,1050,"not known","lake","core","-32","MacDonald, G.M. 1984. Postglacial plant migration and vegetation development in the western Canadian boreal forest. Dissertation. University of Toronto, Toronto, Ontario, Canada.; MacDonald, G.M. 1987. Postglacial development of the subalpine-boreal transition forest of western Canada. Journal of Ecology 75:303-320.; MacDonald, G.M., and L.C. Cwynar. 1985. A fossil pollen based reconstruction of the late Quaternary history of lodgepole pine (Pinus contorta ssp. latifolia) in the western interior of Canada. Canadian Journal of Forest Research 15:1039-1044.",,15,"cold evergreen needleleaf forest",0.763822408717104,1587.61201553992,-1.50853876014857,-18.7968536196847,12.6263356286224,451.228087385491
10391,21991,17660,"Phelps et al., 2020","Yéviédié","YEV1_0",6.5343333,2.3736667,3,"not known","not known","not known","0","Phelps, L.N., Chevalier, M., Shanahan, T.M., Aleman, J.C., Courtney‐Mustaphi, C., Kiahtipes, C.A., Broennimann, O., Marchant, R., Shekeine, J., Quick, L.J., Davis, B.A.S., Guisan, A. and Manning, K., 2020. Asymmetric response of forest and grassy biomes to climate variability across the African Humid Period: influenced by anthropogenic disturbance?. Ecography, 43(8), pp.1118-1142.","10.1111/ecog.04990",18,"tropical savanna",1.0535120998769,9812.15240921807,26.8826093403235,25.1246914780981,28.5297029681394,1380.24228680071
10392,21992,5619,"CMPD","Yidun Lake","Yidun Lake",30.2833,99.55,4470,"not known","lake","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.540114370685682,1373.6545927151,1.67799021522056,-7.59146137490183,9.7190475432824,595.073676040956
10393,21993,5620,"CMPD","Yili Basin","Yili Basin 01",43.4071944444444,81.0379722222222,2780,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.281466250049859,1439.69230781093,-1.72083527348282,-18.3350989344065,11.7525633806534,258.965758944037
10393,21994,5621,"CMPD","Yili Basin","Yili Basin 02",43.32675,81.0662222222222,2663,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.274545692032652,1560.30868752387,-1.10713941203931,-17.8213512055009,12.401774649118,255.227876469818
10393,21995,5622,"CMPD","Yili Basin","Yili Basin 03",43.8279444444444,83.69725,2656,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.225749273551675,1641.59430367308,-1.51670000038801,-20.1460893714124,12.7315294689284,209.230914868811
10393,21996,5623,"CMPD","Yili Basin","Yili Basin 04",43.8293055555556,83.69275,2502,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.221111132008262,1783.73804587907,-0.896523323845075,-19.7675036404291,13.533848778835,206.544385338916
10393,21997,5624,"CMPD","Yili Basin","Yili Basin 05",43.2538611111111,81.0785277777778,2312,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.26440830662318,1901.20361986701,0.524753470882042,-16.5019680856162,14.1755938955907,251.355939291155
10393,21998,5625,"CMPD","Yili Basin","Yili Basin 06",44.4983888888889,81.1418333333333,2175,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.370958721235067,1619.57873609322,-1.43706764974695,-19.0477287067506,12.9834635607081,327.934916923056
10393,21999,5626,"CMPD","Yili Basin","Yili Basin 07",43.2192777777778,81.1215833333333,2142,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.240143279223271,2184.19983257845,1.90087672054408,-15.2256475173164,15.517498926798,234.055883444359
10393,22000,5627,"CMPD","Yili Basin","Yili Basin 08",44.4639722222222,81.1682777777778,2036,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.355380771664122,1777.9283173849,-0.626150310467005,-18.3430992834835,13.8222628851591,318.54454579348
10393,22001,5628,"CMPD","Yili Basin","Yili Basin 09",43.3781666666667,81.03475,3102,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.288155793030518,1164.54475328958,-3.13613285364788,-19.4575679992596,10.1926805346219,260.258361693064
10393,22002,5629,"CMPD","Yili Basin","Yili Basin 10",43.8278333333333,83.7006944444445,2836,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.23134234956986,1478.80289251159,-2.24216544590693,-20.5890526167236,11.7929719662078,212.396995431753
10393,22003,5630,"CMPD","Yili Basin","Yili Basin 11",43.3494166666667,81.0385555555555,2777,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.278796782447727,1452.05945060238,-1.64582345975321,-18.2532526122844,11.8172110392554,257.174944870502
10393,22004,5631,"CMPD","Yili Basin","Yili Basin 12",43.8285277777778,83.69275,2513,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.221427272188538,1773.53440663102,-0.94052924677787,-19.7941148463363,13.4767049171014,206.728334448973
10393,22005,5632,"CMPD","Yili Basin","Yili Basin 13",43.4353333333333,81.0678888888889,2442,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.273864756700917,1746.9549616865,-0.22932638982928,-17.1580220191728,13.3960290307837,256.71108976989
10393,22006,5633,"CMPD","Yili Basin","Yili Basin 14",43.8301944444444,83.6895,2425,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.218839236210115,1855.72224863009,-0.586539160181375,-19.5781376363198,13.9347263292679,205.207652457663
10393,22007,5634,"CMPD","Yili Basin","Yili Basin 15",43.7832222222222,83.656,2350,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.215904296584141,1928.95962698481,-0.263882970886434,-19.3617037227346,14.3344480875806,203.406203334964
10393,22008,5635,"CMPD","Yili Basin","Yili Basin 16",43.262,81.0653055555556,2294,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.264605962169801,1917.07651161478,0.598198608014022,-16.4409909710936,14.2573146834139,251.714989175103
10393,22009,5636,"CMPD","Yili Basin","Yili Basin 17",43.4611388888889,81.0986666666667,2234,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.269379936045684,1941.99008520232,0.675044181226082,-16.4536109882279,14.3969218430313,255.177856730834
10393,22010,5637,"CMPD","Yili Basin","Yili Basin 18",43.7628611111111,83.6351944444445,2143,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.209714912992475,2128.27782471815,0.578865245239248,-18.8376120368023,15.414183794127,199.637932436403
10393,22011,5638,"CMPD","Yili Basin","Yili Basin 19",43.22,81.1221666666667,2142,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.240148821187001,2184.10402206045,1.90031286449218,-15.2264602647814,15.5170447963924,234.055862947201
10393,22012,5639,"CMPD","Yili Basin","Yili Basin 20",43.7540555555556,83.6308055555556,2065,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207410263313768,2204.59531332462,0.896720611128498,-18.6401819141829,15.821425285049,198.204984084307
10393,22013,5640,"CMPD","Yili Basin","Yili Basin 21",43.7339166666667,83.6221944444444,1953,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.189156606128957,2427.56123618019,1.93615172526616,-17.7416347411873,16.9039260192102,184.370610834161
10393,22014,5641,"CMPD","Yili Basin","Yili Basin 22",43.7342222222222,83.6213611111111,1951,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.189104173136663,2429.62019602803,1.94444459590068,-17.7366480338865,16.914509368622,184.336457484503
10393,22015,5642,"CMPD","Yili Basin","Yili Basin 23",43.7241666666667,83.6203055555555,1926,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.188182392256083,2456.65912053356,2.05513253171764,-17.6657818971649,17.0525188981731,183.709061297296
10393,22016,5643,"CMPD","Yili Basin","Yili Basin 24",43.7166666666667,83.6182777777778,1885,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186823506074727,2500.58769885248,2.23247518798791,-17.5560964312554,17.2767893485704,182.787589499497
10393,22017,5644,"CMPD","Yili Basin","Yili Basin 25",43.7560833333333,83.1005555555555,1608,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.205180819784833,2602.65667660458,2.63918730133303,-17.2800643694948,17.8237540428361,199.047317796574
10393,22018,5645,"CMPD","Yili Basin","Yili Basin 26",43.2533611111111,81.0780833333333,2326,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.264674901523633,1887.79714016551,0.462901701979872,-16.5508751373018,14.1074787519637,251.423320287293
10393,22019,5646,"CMPD","Yili Basin","Yili Basin 27",44.5002222222222,81.1434166666667,2136,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.367031222410643,1662.57239534142,-1.21621481765616,-18.8565488360509,13.2153355033181,325.638484870045
10393,22020,5647,"CMPD","Yili Basin","Yili Basin 28",43.19925,81.1276666666667,2017,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",15,"cold evergreen needleleaf forest",0.23801580617646,2313.17127229581,2.46594920425415,-14.7770292475057,16.1365285229258,233.555172041801
10393,22021,5648,"CMPD","Yili Basin","Yili Basin 29",43.3429722222222,81.8073333333333,1843,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223609198671978,2389.45284783963,2.3858302502802,-15.9198745480141,16.5547373873301,217.330772173956
10393,22022,5649,"CMPD","Yili Basin","Yili Basin 30",43.7618333333333,83.1279166666667,1653,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.205959280062889,2559.93816802637,2.46181249246775,-17.4077450801749,17.6095887333581,199.443557325259
10393,22023,5650,"CMPD","Yili Basin","Yili Basin 31",43.1570833333333,81.4700277777778,1632,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214964463301337,2739.3098070647,4.13451854935632,-13.8625722131042,18.0830689270439,215.083033745694
10393,22024,5651,"CMPD","Yili Basin","Yili Basin 32",43.3106111111111,81.8068333333333,1608,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.220551086362556,2605.35800554909,3.27229701214342,-15.3146156794187,17.5924881840403,216.160294798316
10393,22025,5652,"CMPD","Yili Basin","Yili Basin 33",43.7630833333333,83.0065277777778,1576,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.205786112204164,2626.34798134809,2.7501775547505,-17.1682583656837,17.937713560678,199.725533993159
10393,22026,5653,"CMPD","Yili Basin","Yili Basin 34",43.3999444444444,81.8828611111111,1540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.220158827594612,2657.29718124092,3.45001106540226,-15.2752080474201,17.8543582947986,215.692085542876
10393,22027,5654,"CMPD","Yili Basin","Yili Basin 35",43.7924166666667,83.1941111111111,1497,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.202201850637461,2715.47580273446,3.06503841164043,-17.063146724487,18.4068462424733,196.993399262068
10393,22028,5655,"CMPD","Yili Basin","Yili Basin 36",43.5320555555556,81.14525,1445,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.253529463148243,2733.34321020107,4.11878913133024,-13.7437928883374,18.1994739712174,249.285818980155
10393,22029,5656,"CMPD","Yili Basin","Yili Basin 37",44.0119166666667,82.0208888888889,1172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.23062432990812,2888.32908307557,4.14863577395127,-15.290365690371,19.1330222074515,223.95172422582
10393,22030,5657,"CMPD","Yili Basin","Yili Basin 38",43.945,81.9607777777778,1172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.230415109570538,2894.32842738276,4.20336107231846,-15.178560695711,19.1421018937017,224.112812192575
10393,22031,5658,"CMPD","Yili Basin","Yili Basin 39",43.9080277777778,82.1497777777778,1083,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223912669914327,2994.2604957401,4.55381461177531,-15.0605506190552,19.6242594703941,218.79862104844
10393,22032,5659,"CMPD","Yili Basin","Yili Basin 40",43.8576944444444,81.9834444444444,993,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223147495324448,3086.43704355975,4.97140525421279,-14.6290264483862,20.0250057080447,219.008787683327
10393,22033,5660,"CMPD","Yili Basin","Yili Basin 41",43.8593333333333,81.98225,979,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.222769956846633,3100.56713817983,5.02648751305139,-14.5911720399363,20.0906804564277,218.743967693098
10393,22034,5661,"CMPD","Yili Basin","Yili Basin 42",43.9156666666667,82.1122777777778,1183,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.227702634145778,2891.09321442678,4.15609076662961,-15.305540222563,19.1350055330693,221.589779377945
10393,22035,5662,"CMPD","Yili Basin","Yili Basin 43",43.854,81.9849722222222,1025,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.224025533603341,3054.20580637497,4.84583587764021,-14.7143961547487,19.874719928558,219.626968368919
10393,22036,5663,"CMPD","Yili Basin","Yili Basin 44",43.4989166666667,81.9303611111111,1023,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.215395363355415,3128.46280457981,5.26591318705211,-14.1425942161137,20.0681771631892,213.677407373801
10393,22037,5664,"CMPD","Yili Basin","Yili Basin 45",43.8335555555556,82.3512777777778,1021,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.213099883041799,3079.32647413749,4.73353388569511,-15.3442079866751,20.0865865747709,209.156585594874
10393,22038,5665,"CMPD","Yili Basin","Yili Basin 46",43.8562777777778,81.984611111111,1005,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223467930541611,3074.36249652136,4.92419707005575,-14.6615679153412,19.968772858159902,219.232424447312
10393,22039,5666,"CMPD","Yili Basin","Yili Basin 47",43.6454444444444,81.1622777777778,999,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.245781398990949,3205.42481582144,6.0186265481652,-12.2577520815476,20.3098580850224,245.776559838275
10393,22040,5667,"CMPD","Yili Basin","Yili Basin 48",43.8604444444444,81.96175,970,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.222819526417714,3109.28134857309,5.06608509063479,-14.5485412502288,20.1284444159316,218.858719999296
10393,22041,5668,"CMPD","Yili Basin","Yili Basin 49",43.8026388888889,82.6145277777778,1173,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210902809243356,2957.81732580735,4.21105183461184,-15.826174508883,19.5201675063014,206.533722415832
10393,22042,5669,"CMPD","Yili Basin","Yili Basin 50",43.7709722222222,82.6217777777778,1149,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.209824782461723,2984.65367020921,4.32003031634905,-15.7468197420849,19.6439258278215,205.803549261131
10393,22043,5670,"CMPD","Yili Basin","Yili Basin 51",43.7615277777778,83.1290277777778,1645,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.205760840276757,2567.84307422216,2.49352335596485,-17.3878909838297,17.6499966833396,199.319795334853
10393,22044,5671,"CMPD","Yili Basin","Yili Basin 52",44.0431111111111,82.0343333333333,1229,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.233026591871879,2826.82576434872,3.8930671535202,-15.4881805759259,18.8482888078105,225.573112151992
10393,22045,5672,"CMPD","Yili Basin","Yili Basin 53",43.8576666666667,81.9594444444444,956,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.222406947492418,3123.8862322257,5.12398209010942,-14.5057270285497,20.1948209482178,218.580228865284
10393,22046,5673,"CMPD","Yili Basin","Yili Basin 54",43.8575,81.9591666666667,955,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.222379565687915,3124.9240341858,5.12812381510912,-14.5025893946677,20.1995284124376,218.562196750287
10393,22047,5674,"CMPD","Yili Basin","Yili Basin 55",43.8621111111111,81.9605555555556,975,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.223004935513241,3103.96025513047,5.04545353913034,-14.562529931051,20.1041287973419,218.991918123444
10393,22048,5675,"CMPD","Yili Basin","Yili Basin 56",43.5378055555556,81.9171666666667,897,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214835476008462,3243.64785796815,5.70140305393751,-13.8599446765201,20.5972756446893,213.642878584651
10394,22049,5676,"CMPD","Yili River Basin","Yili River Basin 01",42.5035833333333,83.4529444444444,3104,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.214773624996546,1276.55389835041,-2.97930295625771,-20.578302434934,10.6508262581588,198.698766567553
10394,22050,5677,"CMPD","Yili River Basin","Yili River Basin 02",43.0143055555556,84.361,3001,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.207373292249807,1493.8781510634,-1.83286239808289,-19.3641986322674,11.8650443130997,196.211503331265
10394,22051,5678,"CMPD","Yili River Basin","Yili River Basin 03",43.0153055555556,84.3635277777778,2954,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.204382410200136,1546.40582969465,-1.57738844521538,-19.1718745686008,12.1542457093541,194.157455766961
10394,22052,5679,"CMPD","Yili River Basin","Yili River Basin 04",43.0169444444444,84.3664722222222,2904,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.201244108388862,1602.78454466191,-1.30593647419519,-18.9677574811591,12.4617538635517,191.981619377691
10394,22053,5680,"CMPD","Yili River Basin","Yili River Basin 05",43.0194166666667,84.3679444444444,2854,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.198171107479458,1659.44316616303,-1.03627200579841,-18.7663068529722,12.7679123013463,189.827986141936
10394,22054,5681,"CMPD","Yili River Basin","Yili River Basin 06",43.0223333333333,84.3698333333333,2804,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.195139918776963,1716.60231280984,-0.766921310569996,-18.5653187874891,13.0739735803856,187.683657105095
10394,22055,5682,"CMPD","Yili River Basin","Yili River Basin 07",43.0254444444444,84.3716666666667,2754,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.192149634100046,1774.2027681643399,-0.498122875964451,-18.3651344498846,13.3796995868814,185.54778679404
10394,22056,5683,"CMPD","Yili River Basin","Yili River Basin 08",42.6093611111111,83.6504444444444,2708,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.185607729208577,1773.73391916762,-0.463796949301795,-18.4421501004354,13.3173658957722,179.180552544939
10394,22057,5684,"CMPD","Yili River Basin","Yili River Basin 09",43.0284444444444,84.3728055555555,2704,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.189197615235332,1832.19244212116,-0.230086670800572,-18.1660679137117,13.6848438463697,183.418094382291
10394,22058,5685,"CMPD","Yili River Basin","Yili River Basin 10",43.0308888888889,84.3736388888889,2654,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.186269066696397,1890.65514282068,0.0378283483657502,-17.9671449936916,13.9898497825823,181.284742316517
10394,22059,5686,"CMPD","Yili River Basin","Yili River Basin 11",43.0338055555556,84.3752222222222,2604,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183379789304354,1949.58446746041,0.305503148012974,-17.7685597880267,14.2948638309149,179.161477314457
10394,22060,5687,"CMPD","Yili River Basin","Yili River Basin 12",42.4599444444444,83.3811944444444,2574,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.173026141738716,1979.95452681692,0.564731054828199,-17.4770767074115,14.3506486818128,170.362867626455
10394,22061,5688,"CMPD","Yili River Basin","Yili River Basin 13",43.0439166666667,84.3622777777778,2561,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.181195706111033,1998.29894466865,0.520725390460505,-17.6210904025011,14.5462035341774,177.528783090121
10394,22062,5689,"CMPD","Yili River Basin","Yili River Basin 14",43.1715916666667,84.3602305555556,2560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.184345296808074,1984.03111378749,0.41481560222689,-17.790109382668,14.4917387339532,179.916011184635
10394,22063,5690,"CMPD","Yili River Basin","Yili River Basin 15",43.1292305555556,84.331,2560,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.183451236987233,1986.37848911977,0.435182269013396,-17.7587298726781,14.496944062374,179.200549277276
10394,22064,5691,"CMPD","Yili River Basin","Yili River Basin 16",43.0464166666667,84.3563888888889,2559,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.181176554188785,1999.83392956166,0.525991199841031,-17.6216450267493,14.5542859144393,177.508253858977
10394,22065,5692,"CMPD","Yili River Basin","Yili River Basin 17",43.0442222222222,84.3505555555555,2558,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.181098251122661,2000.74897103661,0.529988177256596,-17.6198443946508,14.5585216034225,177.441977250577
10394,22066,5693,"CMPD","Yili River Basin","Yili River Basin 18",43.7362777777778,83.7152777777778,2558,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.208758680062724,1807.26515555279,-0.648531075453369,-19.3027516480529,13.6038400806425,196.898354234066
10394,22067,5694,"CMPD","Yili River Basin","Yili River Basin 19",43.0391388888889,84.3754722222222,2554,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.180592031736983,2008.51471879959,0.569939511763097,-17.5749530722271,14.5978303838414,177.093379476379
10394,22068,5695,"CMPD","Yili River Basin","Yili River Basin 20",43.0992194444444,84.3275,2550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.182146594163543,2001.48361474211,0.5123175749678,-17.6822983985028,14.5699826795705,178.216365573302
10394,22069,5696,"CMPD","Yili River Basin","Yili River Basin 21",43.0405555555556,84.3773888888889,2542,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179920963663837,2022.88706490467,0.634235306925522,-17.5271656790478,14.6713512910363,176.595089598544
10394,22070,5697,"CMPD","Yili River Basin","Yili River Basin 22",43.0416388888889,84.37775,2540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179830476200991,2025.17936468477,0.644215751806075,-17.5203354549546,14.6832088791299,176.528261979543
10394,22071,5698,"CMPD","Yili River Basin","Yili River Basin 23",43.0422055555556,84.3766277777778,2540,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.179851253249443,2025.00366950654,0.643086352843174,-17.5221001320857,14.6823767494449,176.542635278959
10394,22072,5699,"CMPD","Yili River Basin","Yili River Basin 24",43.0480833333333,84.3331388888889,2513,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178686416400541,2052.6410583674,0.759090675244181,-17.459850514278,14.8231827218601,175.620402282703
10394,22073,5700,"CMPD","Yili River Basin","Yili River Basin 25",43.0677,84.3302833333333,2500,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178458436333445,2065.48294515742,0.809424120330507,-17.4381653806291,14.8914484751616,175.45379889521
10394,22074,5701,"CMPD","Yili River Basin","Yili River Basin 26",43.1561972222222,84.3740222222222,2700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.191850357118163,1824.75151839304,-0.299768358545013,-18.2928527084257,13.6598424600155,185.394229547746
10394,22075,5702,"CMPD","Yili River Basin","Yili River Basin 27",43.1462833333333,84.3448861111111,2650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.188934492946623,1880.51571024665,-0.0466019815676702,-18.1163153226956,13.950821944429,183.243300112801
10394,22076,5703,"CMPD","Yili River Basin","Yili River Basin 28",42.9654166666667,83.9907777777778,2492,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.17883512277691,2050.03628463256,0.712341451300749,-17.6697423462364,14.782412529543,175.422987961924
10394,22077,5704,"CMPD","Yili River Basin","Yili River Basin 29",43.0610694444444,84.3297888888889,2480,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.177142635339102,2090.48011210909,0.922686870523022,-17.3492567500206,15.0167153468019,174.460894504963
10394,22078,5705,"CMPD","Yili River Basin","Yili River Basin 30",43.182525,84.3342444444445,2450,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.178658391208083,2110.36054411969,0.968079456926778,-17.4087289006119,15.1386360526224,175.660677886142
10394,22079,5706,"CMPD","Yili River Basin","Yili River Basin 31",43.1893305555556,84.3205722222222,2370,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.174538405608567,2204.13274860293,1.37414012135744,-17.1259070977818,15.6124465192048,172.536586557432
10394,22080,5707,"CMPD","Yili River Basin","Yili River Basin 32",42.4428611111111,83.2570277777778,2323,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.155504067799556,2343.31417905024,2.24613269693315,-15.9988876715474,16.1019049950076,157.298327864703
10394,22081,5708,"CMPD","Yili River Basin","Yili River Basin 33",43.2043888888889,84.3484166666667,2241,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.16797980931446,2360.34876177846,2.04370617834126,-16.6436422376725,16.3927637428123,167.52892021692
10394,22082,5709,"CMPD","Yili River Basin","Yili River Basin 34",43.2048111111111,84.3462138888889,2200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.165849406791196,2410.4844536207,2.25612312178602,-16.4916504763218,16.6386887949585,165.865729298912
10394,22083,5710,"CMPD","Yili River Basin","Yili River Basin 35",43.2134694444444,84.3294138888889,2060,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.158933963130735,2581.79286518517,2.96904633591364,-15.9930352771541,17.4708410622027,160.384242375005
10394,22084,5711,"CMPD","Yili River Basin","Yili River Basin 36",42.3674444444444,83.2738611111111,2041,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.135743968798285,2781.31667131895,4.16542958364103,-14.303149008858,18.09581830757,141.497565131792
10394,22085,5712,"CMPD","Yili River Basin","Yili River Basin 37",43.2167694444445,84.312425,1890,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.150503453963504,2796.31073715369,3.84609088422668,-15.3706090164108,18.4884748628446,153.539649846609
10394,22086,5713,"CMPD","Yili River Basin","Yili River Basin 38",43.2328416666667,84.3260722222222,1770,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.145172938013783,2947.86155908122,4.44838806968913,-14.9532200779879,19.2010927763395,149.137864447485
10394,22087,5714,"CMPD","Yili River Basin","Yili River Basin 39",43.2455138888889,84.3134166666667,1700,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.1422648142045,3035.46969760564,4.78848533484804,-14.7303989215147,19.6089193563112,146.693275101741
10394,22088,5715,"CMPD","Yili River Basin","Yili River Basin 40",43.2631111111111,84.29375,1653,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.162233158228958,2909.98267484023,3.88101245559896,-16.3294560485261,19.3954125498078,164.236340962469
10394,22089,5716,"CMPD","Yili River Basin","Yili River Basin 41",43.2653722222222,84.2920305555556,1650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.162176109073309,2913.21332468124,3.89252201117248,-16.3250554204927,19.411834791145,164.193771638793
10394,22090,5717,"CMPD","Yili River Basin","Yili River Basin 42",43.2930833333333,84.2233611111111,1577,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.163216491259696,2955.70492587508,4.03198701584721,-16.3768543626321,19.5825280691064,165.041889994002
10394,22091,5718,"CMPD","Yili River Basin","Yili River Basin 43",43.3108888888889,84.0911111111111,1439,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.159893099424514,3102.64790232296,4.57997449587035,-16.094929614212,20.2940970326642,162.517936423843
10394,22092,5719,"CMPD","Yili River Basin","Yili River Basin 44",41.9546666666667,82.9802222222222,1455,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.0927967294986185,3903.87095298986,8.73144880605289,-9.9978559792606,22.6759166257396,103.811318649342
10394,22093,5720,"CMPD","Yili River Basin","Yili River Basin 45",43.6576944444444,82.7382777777778,1320,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.197237626931747,2922.14372319186,4.15718375253876,-15.7148900917372,19.2386565362445,194.745779318256
10394,22094,5721,"CMPD","Yili River Basin","Yili River Basin 46",43.8439722222222,82.7746388888889,1255,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.203669824198824,2913.8214836306,3.91416997574947,-16.3405878377475,19.3663040273675,199.348957883904
10394,22095,5722,"CMPD","Yili River Basin","Yili River Basin 47",43.6903055555555,82.7207777777778,1238,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.196916968760227,2993.92740676904,4.42971096178597,-15.5514869746273,19.5883827682483,194.712011483774
10394,22096,5723,"CMPD","Yili River Basin","Yili River Basin 48",43.8038888888889,82.6125,1161,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.210737554626487,2968.95350362766,4.25445769551812,-15.7974664601861,19.5742086436621,206.44180822684
10394,22097,5724,"CMPD","Yili River Basin","Yili River Basin 49",43.9146944444444,82.1094166666667,1151,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.226746639462187,2923.38622063138,4.2847091663426,-15.2161614777125,19.2874844131747,220.938812273839
10394,22098,5725,"CMPD","Yili River Basin","Yili River Basin 50",43.8680277777778,81.99,962,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.222247241767531,3117.403800528,5.08773461483567,-14.5593882182668,20.1711830058925,218.327326588953
10394,22099,5726,"CMPD","Yili River Basin","Yili River Basin 51",43.8345555555556,81.9131666666667,889,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",22,"steppe",0.220878767921708,3194.01231243027,5.41423884773142,-14.2582843647238,20.5056184908723,217.72026093192
10394,22100,5727,"CMPD","Yili River Basin","Yili River Basin 52",43.5592222222222,82.9981111111111,877,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",27,"desert",0.175778839969503,3463.55736858327,6.09499830536097,-14.8025360869703,21.8464640625993,177.920963145151
10395,22101,5728,"CMPD","Yingde","Yingde 1",24.16,113.81,246,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45666770155533,7537.18760053717,20.6498290425676,11.626598461872,28.0048185193365,1785.57570701967
10395,22102,5729,"CMPD","Yingde","Yingde 2",24.12,113.36,120,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.47126345280938,7898.84585815797,21.6406735839944,13.0438626515712,28.448037178892,1822.79579351668
10395,22103,5730,"CMPD","Yingde","Yingde qt",24.16,113.81,246,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.45666770155533,7537.18760053717,20.6498290425676,11.626598461872,28.0048185193365,1785.57570701967
10396,22104,5738,"CMPD","Yingluo Bay","Yingluo Bay B1",21.4912861111111,109.757077777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22105,5739,"CMPD","Yingluo Bay","Yingluo Bay B2",21.4911583333333,109.7577,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22106,5740,"CMPD","Yingluo Bay","Yingluo Bay B3",21.4912,109.758391666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22107,5741,"CMPD","Yingluo Bay","Yingluo Bay B4",21.4912638888889,109.759180555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22108,5742,"CMPD","Yingluo Bay","Yingluo Bay B5",21.4912861111111,109.759855555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22109,5743,"CMPD","Yingluo Bay","Yingluo Bay B6",21.4912027777778,109.760386111111,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10396,22110,5744,"CMPD","Yingluo Bay","Yingluo Bay B7",21.4911444444444,109.760891666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22111,5731,"CMPD","Yingluo Bay _","Yingluo Bay A1_2",21.4959583333333,109.757897222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22112,5732,"CMPD","Yingluo Bay _","Yingluo Bay A2_2",21.4959222222222,109.758336111111,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22113,5733,"CMPD","Yingluo Bay _","Yingluo Bay A3_2",21.4956611111111,109.758441666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22114,5734,"CMPD","Yingluo Bay _","Yingluo Bay A4_2",21.4954944444444,109.758877777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22115,5735,"CMPD","Yingluo Bay _","Yingluo Bay A5_2",21.4955,109.759411111111,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22116,5736,"CMPD","Yingluo Bay _","Yingluo Bay A6_2",21.4953138888889,109.759866666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22117,5737,"CMPD","Yingluo Bay _","Yingluo Bay A7_2",21.4952555555556,109.76035,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22118,5745,"CMPD","Yingluo Bay _","Yingluo Bay E1_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22119,5746,"CMPD","Yingluo Bay _","Yingluo Bay E1_2",21.4959333333333,109.757294444444,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22120,5747,"CMPD","Yingluo Bay _","Yingluo Bay E2_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22121,5748,"CMPD","Yingluo Bay _","Yingluo Bay E2_2",21.4958166666667,109.756941666667,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22122,5749,"CMPD","Yingluo Bay _","Yingluo Bay E3_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22123,5750,"CMPD","Yingluo Bay _","Yingluo Bay E3_2",21.4955888888889,109.756633333333,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22124,5751,"CMPD","Yingluo Bay _","Yingluo Bay E4_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22125,5752,"CMPD","Yingluo Bay _","Yingluo Bay E4_2",21.4951444444444,109.756313888889,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22126,5753,"CMPD","Yingluo Bay _","Yingluo Bay E5_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22127,5754,"CMPD","Yingluo Bay _","Yingluo Bay E5_2",21.4945722222222,109.756036111111,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22128,5755,"CMPD","Yingluo Bay _","Yingluo Bay E6_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22129,5756,"CMPD","Yingluo Bay _","Yingluo Bay E6_2",21.4940138888889,109.755947222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22130,5757,"CMPD","Yingluo Bay _","Yingluo Bay E7_1",21.48,109.73,13,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.35077414470628,8620.39355776509,23.6175165966167,16.0921811092092,29.1356129669099,1702.06297015599
10397,22131,5758,"CMPD","Yingluo Bay _","Yingluo Bay E7_2",21.49345,109.756072222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22132,5759,"CMPD","Yingluo Bay _","Yingluo Bay K1_2",21.4885722222222,109.755688888889,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22133,5760,"CMPD","Yingluo Bay _","Yingluo Bay K2_2",21.4892583333333,109.756355555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22134,5761,"CMPD","Yingluo Bay _","Yingluo Bay K3_2",21.4895305555556,109.756975,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22135,5762,"CMPD","Yingluo Bay _","Yingluo Bay K4_2",21.4897055555556,109.757333333333,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22136,5763,"CMPD","Yingluo Bay _","Yingluo Bay K5_2",21.4898694444444,109.757769444444,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22137,5764,"CMPD","Yingluo Bay _","Yingluo Bay K6_2",21.4901222222222,109.758377777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22138,5765,"CMPD","Yingluo Bay _","Yingluo Bay K7_2",21.4902777777778,109.758986111111,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22139,5766,"CMPD","Yingluo Bay _","Yingluo Bay R1_2",21.4922583333333,109.759705555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22140,5767,"CMPD","Yingluo Bay _","Yingluo Bay R2_2",21.4923888888889,109.760427777778,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22141,5768,"CMPD","Yingluo Bay _","Yingluo Bay R3_2",21.4923694444444,109.761030555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22142,5769,"CMPD","Yingluo Bay _","Yingluo Bay R4_2",21.4922638888889,109.761605555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22143,5770,"CMPD","Yingluo Bay _","Yingluo Bay R5_2",21.4921861111111,109.762088888889,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22144,5771,"CMPD","Yingluo Bay _","Yingluo Bay R6_2",21.4925111111111,109.762655555556,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10397,22145,5772,"CMPD","Yingluo Bay _","Yingluo Bay R7_2",21.4928583333333,109.763272222222,0,"not applicable","marine","core top","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",,"not applicable",,,,,,
10398,22146,5773,"CMPD","Yixing","Yixing 1",31.32,119.8,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06484705859006,5668.07351073802,15.5289685225699,2.93291600255339,27.7625365343803,1177.33030967647
10398,22147,5774,"CMPD","Yixing","Yixing 2",31.32,119.8,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06484705859006,5668.07351073802,15.5289685225699,2.93291600255339,27.7625365343803,1177.33030967647
10399,22148,23899,"SMPDSv1","Ylimysneva","EPDcoretop_E705",62.133333,22.866667,172,"1.2","terrestrial, blanket bog","peat core top","-40","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",1.02282381111062,2123.55504204608,3.40242617943001,-8.96529066130493,15.8961189740524,535.51645351502
10400,22149,9700,"Gaillard et al., 1992","Yngligarum","Yngligarum A",55.98429,13.6667532,103,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02613724490153,2706.99885968981,7.07838309542201,-1.89271662909008,16.1707742261524,675.287761433825
10400,22150,9701,"Gaillard et al., 1992","Yngligarum","Yngligarum B",55.98429,13.6667532,103,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",1.02613724490153,2706.99885968981,7.07838309542201,-1.89271662909008,16.1707742261524,675.287761433825
10401,22151,23900,"SMPDSv1","Ystad","Barboni_a362",55.4,13.8,10,"not known","not known","not known","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.904151982349003,2993.22174481284,8.03461558434022,-1.13695412611579,17.1389381339455,612.915107476126
10402,22152,23901,"SMPDSv1","Ytertjorna","Bjune_a319",78.2311666666666,12.9416666666666,20,"0.2","lake","lacustrine core top","modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",30,"tundra",2.16089189941488,278.128740179892,-6.03907460815479,-13.5758700505578,4.15637781105533,490.515302721598
10403,22153,5775,"CMPD","Yulin","Yulin",18.2,109.7,10,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.4638935288761,9208.82048826203,25.2296451733206,20.0072501210094,28.6772264376667,1999.39176230444
10404,22154,5776,"CMPD","Yunan","Yunan 1",23.17,111.38,177,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.46800261917448,7829.11642901701,21.4496340521014,12.9187689951583,28.1822964184588,1777.31490038428
10404,22155,5777,"CMPD","Yunan","Yunan 2",23.1,111.83,22,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.50723734730162,8223.55642704669,22.5302915809498,14.5036960924844,28.7578807107695,1876.2804520402
10405,22156,5778,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_05",23.815,100.825,1723,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.848358837095445,6202.25384759679,16.9924762947857,10.3493178140057,21.5522397064443,1160.56293812115
10405,22157,5779,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_08",23.9166666666667,100.321666666667,920,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.09353552198825,7291.24083495026,19.976002287535,14.5570853973129,23.1440511558301,1492.53314262856
10405,22158,5780,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_11",25.0733333333333,100.303333333333,1820,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.829895572231277,6024.32956687039,16.5050125119737,9.65101016349331,21.2909687394017,1123.73200364017
10405,22159,5781,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_12",24.644,99.7824833333333,1628,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.896880568754437,6229.62682241764,17.0674707463497,10.401179418752,21.5027862943679,1220.53989764355
10405,22160,5782,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_14",24.9333333333333,100.288333333333,1516,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.860521943349592,6594.01850737819,18.0658041298033,11.3038612098869,22.5429098905121,1177.85463080834
10405,22161,5783,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_15",24.9333333333333,100.288333333333,1490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.863059150273592,6643.66087663117,18.2018106209073,11.4464915305954,22.6537981988337,1182.2967192692
10405,22162,5784,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_18",25.3716666666667,99.9233333333333,1828,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.845628582585121,5990.78917898211,16.4131210383071,9.45823521094217,21.2558609755571,1142.5422208826
10405,22163,5785,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_22",24.213,97.79435,1255,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06351520009397,6671.27443006724,18.277464191965,11.618086089229,22.2576891326034,1470.31901111123
10405,22164,5786,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_25",24.3921333333333,97.8222666666667,1760,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.99963251487368,5638.81692814687,15.4488135017723,8.5941712291908,19.9965753737261,1335.77065363759
10405,22165,5787,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_27",24.3921333333333,97.8222666666667,1550,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.03403642260118,6056.1548094501,16.5922049573975,9.77428560099636,20.9514298867101,1399.90102327578
10405,22166,5788,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_28",24.4268666666667,97.7684333333333,1392,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.06215624572946,6364.30596765126,17.4364547058939,10.6431076348455,21.6582037315779,1450.72957262256
10405,22167,5789,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_32",25.3216666666667,98.455,1159,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.12380367701236,6661.11760087264,18.2496372626648,11.286509061846,22.6287079280009,1525.5928852147
10405,22168,5790,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_35",25.5466666666667,99.0016666666667,1499,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02190220498992,6133.02860532391,16.8028180967778,9.79628402293384,21.4321032973135,1367.51340222432
10405,22169,5791,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_37",25.4866666666667,99.1266666666667,1679,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.980624046493701,5786.66971539444,15.8538896312177,8.87179972083715,20.5645804509439,1300.66676615211
10405,22170,5792,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_38",25.4283333333333,99.2016666666667,1966,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.922881346095896,5198.66052038296,14.2429055352958,7.29492949028352,19.1746787806976,1203.42983177809
10405,22171,5793,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_42",25.4283333333333,99.2016666666667,1795,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.953996155500029,5562.20688195375,15.2389229642569,8.27312823584009,20.0075610031339,1258.09443594101
10405,22172,5794,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_43",25.4283333333333,99.2016666666667,1606,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.987903039447251,5964.02128158462,16.3397843331086,9.35429527040262,20.9998917350752,1318.51320896318
10405,22173,5795,"CMPD","Yunan Middle-West","Yunan Middle-West 06_YN_44",24.8145333333333,98.8334166666667,1506,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.00871679642296,6174.76373376292,16.917160914419,10.0530294952847,21.3386955036917,1363.21414706988
10405,22174,5796,"CMPD","Yunan Middle-West","Yunan Middle-West 11",21.9198333333333,101.269916666667,592,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.0366879990526,8696.79639308987,23.8268394331229,19.1058619898533,26.7873289603955,1488.06553920523
10405,22175,5797,"CMPD","Yunan Middle-West","Yunan Middle-West 25",22.9805833333333,101.051527777778,1333,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.949937579873265,6901.45251405922,18.9080890796143,13.0199019612454,22.7711695518804,1311.84466990956
10405,22176,5798,"CMPD","Yunan Middle-West","Yunan Middle-West 28",23.5979444444444,101.168861111111,943,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07728873473424,7556.37648180695,20.702401320019,15.3852112053161,24.0361653814005,1469.02761281481
10405,22177,5799,"CMPD","Yunan Middle-West","Yunan Middle-West 74",25.689,100.104222222222,3130,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.778379959958744,2296.29593499019,6.23443573327564,-0.570449746555107,12.3928086516499,900.315173713806
10405,22178,5800,"CMPD","Yunan Middle-West","Yunan Middle-West 77",25.6951388888889,100.108777777778,3050,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.781970814610543,2507.72890229261,6.86927441356507,0.0545050624995323,12.9467091237071,914.644848545466
10405,22179,5801,"CMPD","Yunan Middle-West","Yunan Middle-West 80",25.6974166666667,100.108694444444,2933,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.787024797466463,2849.97674288064,7.80815545994696,0.978706939675592,13.7679341293014,935.637262762451
10405,22180,5802,"CMPD","Yunan Middle-West","Yunan Middle-West 82",25.6979444444444,100.112611111111,2866,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.789813395181423,3047.14110726916,8.34833180073744,1.51030920847426,14.2410291749687,947.589503687414
10405,22181,5803,"CMPD","Yunan Middle-West","Yunan Middle-West 85",25.6961388888889,100.115761111111,2738,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.795152755898275,3424.57748500222,9.38240406849923,2.52805661534961,15.1469742166597,970.474133364599
10405,22182,5804,"CMPD","Yunan Middle-West","Yunan Middle-West 86",25.6998888888889,100.116777777778,2681,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.797682902778072,3591.08322824706,9.83858418697824,2.97710955633604,15.5457881987428,980.671833570659
10405,22183,5805,"CMPD","Yunan Middle-West","Yunan Middle-West 87",25.7024166666667,100.120722222222,2582,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.801916979412423,3882.2924807058,10.6364177553584,3.76237938639012,16.244423767299,998.325295708422
10405,22184,5806,"CMPD","Yunan Middle-West","Yunan Middle-West 90",25.7071111111111,100.130611111111,2269,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.815467223613725,4805.41684881535,13.1655256131927,6.25170827506799,18.4603173027406,1054.09981636747
10405,22185,5807,"CMPD","Yunan Middle-West","Yunan Middle-West G62",24.7938611111111,98.8708611111111,1190,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.07227491988158,6773.89014095798,18.5586031259123,11.7260577662816,22.7267943602521,1471.39967827153
10405,22186,5808,"CMPD","Yunan Middle-West","Yunan Middle-West G63",24.8079166666667,98.8579166666667,1336,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.04293983661699,6497.28347695633,17.8007766491954,10.9527972997103,22.0871721822215,1421.19537826273
10405,22187,5809,"CMPD","Yunan Middle-West","Yunan Middle-West G67",24.8255,98.7760277777778,2064,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.8916351119856,5120.99900245796,14.0301342533095,7.11740868406027,18.9578191300167,1170.62305091152
10405,22188,5810,"CMPD","Yunan Middle-West","Yunan Middle-West G73",24.8505277777778,98.7375555555555,1862,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.950690828001632,5406.41958175593,14.8121084431669,7.89100402410955,19.5573825970249,1254.59132070583
10405,22189,5811,"CMPD","Yunan Middle-West","Yunan Middle-West G80",24.8863333333333,98.6943055555556,1501,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.02902693221682,6105.43487598713,16.7272188383209,9.83811673424407,21.1885002687852,1385.44754526356
10406,22190,5812,"CMPD","Yunnan","Yunnan S-s1",23.35,104.7,1612,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.981642261339898,6023.5714510955,16.5029354824534,8.96473789124185,21.718534040608,1208.22649651192
10406,22191,5813,"CMPD","Yunnan","Yunnan S-s2",22.8333333333333,103.8,1731,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.963804421464075,5977.18924179876,16.375860936435,9.34086277419178,21.1200942478026,1209.7703504467
10406,22192,5814,"CMPD","Yunnan","Yunnan S-s3",24.1333333333333,101.4,2365,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.672273264850202,5174.66094689051,14.1771532791521,6.54440397043746,19.95869867747,915.924793088929
10406,22193,5815,"CMPD","Yunnan","Yunnan S-s4",24.0333333333333,101.516666666667,1975,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.773170543710253,5779.30239795449,15.8337051998753,8.75953110359087,20.9056300138326,1049.58026528635
10406,22194,5816,"CMPD","Yunnan","Yunnan S-s5",23.5166666666667,100.35,1149,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.01483486898556,7153.38400997708,19.5983123561016,13.9853273082869,23.1310615815781,1405.89708049659
10406,22195,5817,"CMPD","Yunnan","Yunnan S-s6",24.0166666666667,99.25,1915,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.852610999513955,5673.81205985761,15.5446905749524,8.62851011832011,20.3161666243882,1150.281290484
10406,22196,5818,"CMPD","Yunnan","Yunnan S-s7",23.75,99.1,2046,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.811490786079098,5373.98452847968,14.723245283506,7.90148546984544,19.5397020021508,1081.31800148136
10407,22197,5819,"CMPD","Yuntaishan","Yuntaishan",34.8,119.2,150,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",13,"temperate deciduous broadleaf forest",0.70095824747557,4809.77568549757,13.0147702239392,-1.45781007226611,25.7884071267797,776.475375542167
10408,22198,11329,"Bush et al., 2020","Yuriria2","Yuriria2",20.24,-101.13,1713,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.543945724636061,7228.24982849093,19.8034241876464,16.2447377915726,23.1704919146538,845.835555873132
10409,22199,11330,"Bush et al., 2020","Yuriria3","Yuriria3",20.23,-101.13,1715,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",20,"xerophytic woods/scrub",0.544429053189305,7223.2272410071,19.7896636739921,16.2336102888254,23.1540598912312,846.479579148249
10410,22200,10579,"BIOME6000 Japan","Yutorinuma","UtrnmC0",35.63,140.55,620,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",4,"warm-temperate evergreen and mixed forest",1.78333364725574,3846.63071607213,10.429443131546,-0.856170062173747,22.5999382130633,1604.35581240358
10411,22201,9702,"Gaillard et al., 1992","Yxnas","Yxnas A",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22202,9703,"Gaillard et al., 1992","Yxnas","Yxnas B",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22203,9704,"Gaillard et al., 1992","Yxnas","Yxnas C",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22204,9705,"Gaillard et al., 1992","Yxnas","Yxnas D",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22205,9706,"Gaillard et al., 1992","Yxnas","Yxnas E",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22206,9707,"Gaillard et al., 1992","Yxnas","Yxnas F",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10411,22207,9708,"Gaillard et al., 1992","Yxnas","Yxnas G",57.330001,15.697148,131,"not applicable","terrestrial","surface sample","modern","Gaillard, M.J., Birks, H.J.B., Emanuelsson, U. and Berglund, B.E., 1992. Modern pollen/land-use relationships as an aid in the reconstruction of past land-uses and cultural landscapes: an example from south Sweden. Vegetation history and archaeobotany, 1(1), pp.3-17.","10.1007/BF00190697",9,"cool mixed forest",0.91317996562996,2505.52139200191,6.25242702826078,-2.98536396802935,15.9159015100745,583.821242844659
10412,22208,23902,"SMPDSv1","Zabinowskie Lake","Swieta_h1",54.15,17.5333333333333,189,"0.1","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.903435607805573,2843.98953935438,7.45503699519669,-2.3860834885305,16.5886901092191,627.305733407572
10412,22209,23903,"SMPDSv1","Zabinowskie Lake","Swieta_h2",54.15,17.5333333333333,189,"0.1","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.903435607805573,2843.98953935438,7.45503699519669,-2.3860834885305,16.5886901092191,627.305733407572
10412,22210,23904,"SMPDSv1","Zabinowskie Lake","Swieta_h3",54.15,17.5333333333333,189,"0.1","lake","sediment sample","assumed modern","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.903435607805573,2843.98953935438,7.45503699519669,-2.3860834885305,16.5886901092191,627.305733407572
10413,22211,9530,"EMPDv2","Zadnee lake","Novenko_c108",62.778,41.9875,104,"0.01","terrestrial, soil","soil sample","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.19267858909253,1936.09864514246,1.15574076479328,-14.9390384331898,16.3721401203392,599.281579275244
10413,22212,9531,"EMPDv2","Zadnee lake","Novenko_c109",62.7753,41.9908,130,"0.01","terrestrial","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.20952039897791,1941.67161105743,1.17384612959132,-14.9267543777843,16.362861710749,611.134693425546
10413,22213,9532,"EMPDv2","Zadnee lake","Novenko_c110",62.768,42.004,133,"0.01","terrestrial","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.21116228589319,1942.42133408695,1.17597325840902,-14.9263024633763,16.362756062586,612.411515685629
10413,22214,9533,"EMPDv2","Zadnee lake","Novenko_c111",62.76,42.0047,100,"0.01","terrestrial","moss polster or moss","-25","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.18940134593338,1935.85149081905,1.15512128740714,-14.9407487592195,16.3767023894036,597.350907224586
10414,22215,10298,"Herzschuh et al., 2019","Zagas nuur. 31A","Zagas nuur. 31A",48.50684,90.61074,2377,"not known","not known","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.267684042621851,1207.9103273493,-6.05703501865594,-26.538979944034,11.2447858279014,227.48003535947
10415,22216,7037,"EMPDv2","Zahaji","EPDcoretop_E1617",50.38,14.12,232,"0.03","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.780160763782346,3238.87271170112,8.67521011104213,-1.59873138067303,18.0418123856151,573.779912791376
10416,22217,11331,"Bush et al., 2020","Zancudococha","Zancudococha",-0.597,-75.485,188,"not known","lake","lake surface sample","-42","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",1,"tropical evergreen broadleaf forest",2.35322637207145,9614.1453274224,26.3401241847189,25.1066396976093,26.9332760417418,3076.481872478
10417,22218,10611,"BIOME6000 Japan","Zao no. 4","D4001",38.1,140.466667,1690,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.30503286933043,2365.17221607615,4.0775152479094,-9.01989992287778,17.744353878187,1701.35902682449
10418,22219,8224,"EMPDv2","Zarechnoye","Mikishin-Gvozdeva_b55",42.5330555555556,130.649722222222,2,"1.43","lake","sediment sample","-40","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.844830070101314,3295.13905582274,6.4128424331704,-11.5722272884134,21.8932984928068,698.081250374268
10419,22220,8205,"EMPDv2","Zastava_Beloglilyannyi","Mikishin-Gvozdeva_b36",45.1113888888889,132.04,75,"1e-04","lake","sediment sample","-58","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.828493305934129,3103.3704295165,4.3353951152545,-16.3672852743611,21.4500453404852,627.668562016438
10420,22221,23905,"SMPDSv1","Zbudovska blata","EPDcoretop_E711",49.833333,14.330556,380,"not known","terrestrial, bog/fen/swamp","peat core top","-14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.834909183724733,3078.47297966136,8.1171621330473,-2.27188255444286,17.5147289957277,620.975040101621
10420,22222,23906,"SMPDSv1","Zbudovska blata","EPDcoretop_E712",49.833333,14.330556,380,"not known","terrestrial, bog/fen/swamp","peat core top","-14","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.834909183724733,3078.47297966136,8.1171621330473,-2.27188255444286,17.5147289957277,620.975040101621
10421,22223,23907,"SMPDSv1","Zditivi boloto","Zditivi boloto_SS",52.4042083333333,25.2424611111111,138,"not known","terrestrial, bog/fen/swamp","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.815776138620356,2966.23023663991,7.0624599739247,-5.60928268587478,17.8163997446867,585.076446768533
10422,22224,10299,"Herzschuh et al., 2019","Zegst Nuur. 13A","Zegst Nuur. 13A",48.43253,95.22352,1640,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.245047434274742,1917.95449532564,-3.21658841940048,-26.1209913876965,15.6344742262992,215.532009145329
10423,22225,11332,"Bush et al., 2020","Zempoala","Zempoala",19.32,-99.31,2901,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.569976772837961,4428.79408848026,12.1336824341925,8.90719384773988,14.3807419047213,821.837233394763
10424,22226,11333,"Bush et al., 2020","Zempoala2","Zempoala2",19.06,-99.32,2959,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.609426818028027,4281.36363952495,11.7297633959588,8.49402436816711,13.9706524042877,873.055304272475
10425,22227,11334,"Bush et al., 2020","Zempoala3","Zempoala3",19.05,-99.32,2914,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.610302643814119,4392.79593037808,12.0350573435016,8.81740532373874,14.2569446921109,877.249294390324
10426,22228,5820,"CMPD","Zengpiyan","Zengpiyan 1",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
10426,22229,5821,"CMPD","Zengpiyan","Zengpiyan 2",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
10426,22230,5822,"CMPD","Zengpiyan","Zengpiyan 3",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
10426,22231,5823,"CMPD","Zengpiyan","Zengpiyan 4",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
10426,22232,5824,"CMPD","Zengpiyan","Zengpiyan 5",25.28,110.28,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.36391173717552,7613.47361727764,20.8588318281579,10.5000765735433,29.5114833733868,1584.11790563044
10427,22233,8261,"EMPDv2","Zenit","Mikishin-Gvozdeva_b92",42.7658333333333,131.249444444444,40,"not applicable","terrestrial, soil","litter","-49","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",13,"temperate deciduous broadleaf forest",0.914462922205008,3199.24143602756,6.04914334521759,-11.880916894123,21.5195832035214,736.915393921738
10428,22234,10623,"BIOME6000 Japan","Zenkochitai","ZnkjdC0",40.53,140.87,950,"not known","terrestrial, bog/fen/swamp","peat core top","assumed modern","Takahara, H., Sugita, S., Harrison, S.P., Miyoshi, N., Morita, Y. and Uchiyama, T., 2000. Pollen‐based reconstructions of Japanese biomes at 0, 6000 and 18,000 14C yr BP. Journal of Biogeography, 27(3), pp.665-683.","10.1046/j.1365-2699.2000.00432.x",13,"temperate deciduous broadleaf forest",2.00186994519729,2847.27611350959,6.52562413811135,-5.78784237065885,19.6811541684963,1501.41539024962
10429,22235,8171,"EMPDv2","Zerkalnaya","Mikishin-Gvozdeva_b1",44.2427777777778,135.210555555556,120,"not known","fluvial","sediment sample","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.13999844655121,2729.53537814859,4.33160023183925,-12.5414050462651,19.5597079518765,834.875900096179
10430,22236,8172,"EMPDv2","Zerkalnaya_Valley (1m terrace)","Mikishin-Gvozdeva_b2",44.2419444444444,135.210833333333,120,"not known","fluvial","litter","-54","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.14003731094767,2729.53745104449,4.33194770327175,-12.5402738708486,19.5597319026619,834.916537359126
10431,22237,6262,"EMPDv2","Zerkalnoye","Binney2017_E2255",44.17,135.61,1,"not known","not known","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.20757762314029,2755.13106811489,4.88035068328477,-10.942090411699,19.6875548196654,882.329932443308
10432,22238,23908,"SMPDSv1","Zermatt","Knaap_a77",46.005375,7.775239,2240,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.70717163390974,1024.6634864982,0.684937416848493,-6.2989140355137,8.45956928398247,2000.63325612155
10432,22239,23909,"SMPDSv1","Zermatt","Knaap_a78",46.005375,7.775239,2240,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.70717163390974,1024.6634864982,0.684937416848493,-6.2989140355137,8.45956928398247,2000.63325612155
10432,22240,23910,"SMPDSv1","Zermatt","Knaap_a79",46.005375,7.775239,2240,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.70717163390974,1024.6634864982,0.684937416848493,-6.2989140355137,8.45956928398247,2000.63325612155
10432,22241,23911,"SMPDSv1","Zermatt","Knaap_a80",46.004892,7.786208,2320,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78927222176591,934.912428648176,0.242363821691121,-6.62412400940569,7.93947711162129,2038.96241851762
10432,22242,23912,"SMPDSv1","Zermatt","Knaap_a81",46.004892,7.786208,2320,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78927222176591,934.912428648176,0.242363821691121,-6.62412400940569,7.93947711162129,2038.96241851762
10432,22243,23913,"SMPDSv1","Zermatt","Knaap_a82",46.004892,7.786208,2320,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.78927222176591,934.912428648176,0.242363821691121,-6.62412400940569,7.93947711162129,2038.96241851762
10432,22244,23914,"SMPDSv1","Zermatt","Knaap_a83",46.001309,7.781345,2520,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99075558142759,725.028107074274,-0.843962204010661,-7.42152556116816,6.66738343577475,2130.07102640379
10432,22245,23915,"SMPDSv1","Zermatt","Knaap_a84",46.001309,7.781345,2520,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99075558142759,725.028107074274,-0.843962204010661,-7.42152556116816,6.66738343577475,2130.07102640379
10432,22246,23916,"SMPDSv1","Zermatt","Knaap_a85",46.001309,7.781345,2520,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.99075558142759,725.028107074274,-0.843962204010661,-7.42152556116816,6.66738343577475,2130.07102640379
10432,22247,23917,"SMPDSv1","Zermatt","Knaap_a86",45.987326,7.77958,2915,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.42363644226735,360.653795500269,-2.99082779987363,-9.30503591033533,4.15236910631396,2309.72618438557
10432,22248,23918,"SMPDSv1","Zermatt","Knaap_a87",45.987326,7.77958,2915,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.42363644226735,360.653795500269,-2.99082779987363,-9.30503591033533,4.15236910631396,2309.72618438557
10432,22249,23919,"SMPDSv1","Zermatt","Knaap_a88",45.987326,7.77958,2915,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.42363644226735,360.653795500269,-2.99082779987363,-9.30503591033533,4.15236910631396,2309.72618438557
10432,22250,23920,"SMPDSv1","Zermatt","Knaap_a89",45.982195,7.780903,3000,"not applicable","terrestrial","moss polster or moss","-48","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.52354565503439,293.716840150498,-3.45331948345039,-9.72048898368388,3.61019443020498,2348.24783192979
10432,22251,23921,"SMPDSv1","Zermatt","Knaap_a90",45.982195,7.780903,3000,"not applicable","terrestrial","moss polster or moss","-53","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.52354565503439,293.716840150498,-3.45331948345039,-9.72048898368388,3.61019443020498,2348.24783192979
10432,22252,23922,"SMPDSv1","Zermatt","Knaap_a91",45.982195,7.780903,3000,"not applicable","terrestrial","moss polster or moss","-58","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",3.52354565503439,293.716840150498,-3.45331948345039,-9.72048898368388,3.61019443020498,2348.24783192979
10433,22253,5825,"CMPD","Zhangzhou","Zhangzhou",24.64,117.37,172,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.27184772544617,7637.36870242768,20.9242978148703,12.7488301151929,28.1500190633762,1568.44848671306
10434,22254,8355,"EMPDv2","Zharyk","Naidina_a1",49.3,54.05,73,"not applicable","terrestrial","soil sample","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",22,"steppe",0.26760121875697,3625.03178387281,6.85193905509766,-12.1475781310281,24.6644676935453,241.527683557327
10435,22255,5826,"CMPD","Zhuhai","Zhuhai 1",22.35,113.57,80,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.54713931746759,8124.20142623083,22.2580860992626,14.2354029521484,28.5277990278425,1975.67843928948
10435,22256,5827,"CMPD","Zhuhai","Zhuhai 2",22.35,113.57,50,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",1.54624784347277,8196.37424636458,22.4558198530537,14.5155014514144,28.6422078668961,1982.02925535862
10436,22257,23923,"SMPDSv1","Zhukovskoe","Novenko_b8",56.333333,84.833333,98,"0.25","terrestrial, bog/fen/swamp","peat core top","-51","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.863870175887618,2273.81870403349,0.374284802989138,-18.3292390990257,19.0914507096758,509.751652972197
10437,22258,6263,"EMPDv2","Zhukovskoye peat mire","Binney2017_E2333",56.33,84.83,106,"not known","terrestrial, bog/fen/swamp","not known","-55","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.863523390125893,2279.86178343458,0.411706105945589,-18.2779735777073,19.0922966622736,510.769013182757
10438,22259,13585,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","-32","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10438,22259,13586,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","-19","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10438,22259,13587,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","-6","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10438,22259,13588,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","20","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10438,22259,13589,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","33","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10438,22259,13590,"Neotoma","Ziebell Lake","ZIEBELL",46.05545,-95.26345,425,"not known","lake","core","46","Unpublished data",,9,"cool mixed forest",0.781771727084027,3076.07348672799,5.04666367441846,-14.0422811929796,21.0202001044993,647.177641208992
10439,22260,23924,"SMPDSv1","Zigalginskoe boloto","Zigalginskoe boloto_SS (Novenko_c172)",54.7,58.7667,1040,"0.01","terrestrial, bog/fen/swamp","moss polster or moss","-25","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.778901085231238,1891.76357180828,-1.25715898887728,-19.6485817282809,15.8375908379813,499.189938047697
10440,22261,5828,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-01",32.1255555555556,90.4165277777778,4687,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.4196218743184,1023.43217291007,-1.50721045942863,-12.7586400047646,8.81735152206342,455.972963247869
10440,22262,5829,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-02",32.1223333333333,90.8260277777778,4650,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.407418548545664,1095.38579701893,-1.09942487725419,-12.4687120913634,9.1714004436689,446.454315624888
10440,22263,5830,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-03",32.0981111111111,90.2279444444445,4620,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.446859152470316,1105.68710556088,-0.969785781817033,-12.133408330257,9.29601223222886,490.60998417764
10440,22264,5831,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-04",32.06225,91.1355,4666,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.400099689897638,1075.78768746494,-1.23132529818301,-12.6419699669874,9.05228350756312,437.562908669168
10440,22265,5832,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-05",32.0318055555556,90.8179444444444,4578,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.419663961389535,1200.8814467172,-0.468497284650242,-11.8362346558239,9.72194564782193,465.802070848892
10440,22266,5833,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-06",31.9673333333333,90.8000555555556,4622,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.412973391111741,1142.84823459365,-0.80763418434403,-12.1684261470645,9.42045591728196,455.991507214555
10440,22267,5834,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-07",31.9581388888889,90.7545833333333,4658,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.408033145691908,1094.54798285355,-1.09537295128529,-12.4462750145663,9.16533637156577,448.244588378043
10440,22268,5835,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-08",31.9301111111111,90.8570833333333,4681,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.402841250477097,1064.84404515884,-1.2802360299739,-12.6421234536044,9.00003217625836,441.14104673282
10440,22269,5836,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-09",31.9307777777778,90.8577222222222,4680,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.402984856259583,1066.13319223526,-1.27241714567032,-12.6345409201842,9.00701020614129,441.357933206086
10440,22270,5837,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-10",31.8992222222222,90.8703333333333,4745,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.392797362860483,983.723578386537,-1.78652809423386,-13.140381856962,8.54809175510022,426.2555195001
10440,22271,5838,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-11",31.8645,90.8876111111111,4817,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.381676120237041,896.86927647774,-2.34924186702583,-13.6913658393155,8.04324370105566,409.949923136851
10440,22272,5839,"CMPD","Zigetang Co Watershed","Zigetang Co Watershed ZGT-12",31.8536666666667,90.8431111111111,4811,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.38345537937322,904.896149958128,-2.29338278385568,-13.6295225923578,8.09133564487719,412.380016073122
10441,22273,10300,"Herzschuh et al., 2019","Zigetang Lake","Zigetang Lake",32,90.9,4560,"not known","lake","not known","35.799999999999997","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",28,"tundra",0.421066122805752,1227.285883634,-0.319853406159,-11.7015622397112,9.85240467144265,468.760909041656
10442,22274,5840,"CMPD","Zigetangcuo","Zigetangcuo 1",32.01,90.95,4576,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.417700194417827,1203.60949357589,-0.459178237411996,-11.8475787601965,9.72968673324744,463.7459898459
10442,22275,5841,"CMPD","Zigetangcuo","Zigetangcuo 2",32.01,90.94,4566,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.419449278001892,1217.8633278697,-0.376214960111897,-11.7638581464739,9.80286165042192,466.390617295718
10442,22276,5842,"CMPD","Zigetangcuo","Zigetangcuo 3",32.01,90.94,4575,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.418029948650069,1205.11817302668,-0.449915668328912,-11.836800555531,9.73783889579616,464.19704900011
10442,22277,5843,"CMPD","Zigetangcuo","Zigetangcuo 4",32.01,90.94,4600,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.414071054363894,1170.04245174952,-0.654639857820621,-12.0394183584676,9.55722013294684,458.103803734531
10442,22278,5844,"CMPD","Zigetangcuo","Zigetangcuo 5",32.01,90.95,4570,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.418646357772707,1212.0876329978,-0.41006248351575,-11.7989778545711,9.77301891995572,465.207228628714
10442,22279,5845,"CMPD","Zigetangcuo","Zigetangcuo 6",32.02,90.95,4580,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.417074919599425,1197.47859834925,-0.494934394938138,-11.8830805189891,9.6983718679108,462.68737780388
10442,22280,5846,"CMPD","Zigetangcuo","Zigetangcuo 7",32.03,90.93,4560,"not known","lake","lake surface sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.420602275678195,1225.53163584943,-0.331667704746843,-11.7182154741176,9.84246415399612,467.919713191927
10443,22281,5847,"CMPD","Zijin Mt","Zijin Mt",32.3,118.6,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.966152358588028,6136.17640642372,16.81144220938,3.46199950344079,28.7910681401344,1112.14256523407
10444,22282,5848,"CMPD","Zijinshan","Zijinshan",32.3,118.6,200,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",4,"warm-temperate evergreen and mixed forest",0.966152358588028,6136.17640642372,16.81144220938,3.46199950344079,28.7910681401344,1112.14256523407
10445,22283,7227,"EMPDv2","Zilai bog","EPDcoretop_E2600",57.92,24.55,38,"1.5393","terrestrial, bog/fen/swamp","core top","assumed modern","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.02704381079581,2535.31609594424,5.6348271819303,-5.64568159740061,16.6765742293043,635.285962264333
10446,22284,8038,"EMPDv2","Zimnyk","Mikishin-Gvozdeva_a100",53.4719444444444,140.896666666667,3,"not known","fluvial","sediment sample","-36","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.17601217693716,1895.0937614834,-1.35654691966491,-21.0536291684842,15.6057653153407,621.378551147748
10447,22285,11335,"Bush et al., 2020","Zirahuen","Zirahuen",19.45,-101.73,2093,"not known","lake","lake surface sample","-62","Bush, M.B., Correa‐Metrio, A., van Woesik, R., Collins, A., Hanselman, J., Martinez, P. and McMichael, C.N., 2021. Modern pollen assemblages of the Neotropics. Journal of Biogeography, 48(1), pp.231-241.","10.1111/jbi.13960",4,"warm-temperate evergreen and mixed forest",0.580649849211731,6245.32357569517,17.1104755498498,13.4260341772054,20.3480971887683,888.609582970108
10448,22286,23925,"SMPDSv1","Zirbenwaldmoor","EPDcoretop_E715",46.858333,11.025,2150,"0.004","lake","peat core top","-26","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",2.87107848900833,785.353128889714,-0.707634640970189,-7.82781511128251,6.79099725000103,1902.56303586082
10449,22287,23926,"SMPDSv1","Ziskensee","Ziskensee_ss",52.10599,14.4699,73,"0.026","lake","lake surface sample","-60","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.768722186934262,3311.84255714174,8.95277636165858,-1.11117125751715,18.2106252892016,554.73563154914
10450,22288,6888,"EMPDv2","Zoca","Colombaroli_a3",37.1792777777778,14.8699444444444,474,"not applicable","terrestrial","moss polster or moss","-64","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",4,"warm-temperate evergreen and mixed forest",0.431603544903984,5839.79968038446,15.9994511791355,9.41367654105712,24.1519201306976,586.412380060661
10451,22289,5849,"CMPD","Zoige","Zoige 1",33.71,102.48,3440,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.542660012138938,1922.19200916356,3.47689536257918,-7.81782507012711,12.8347042285599,555.307028422903
10451,22290,5850,"CMPD","Zoige","Zoige 2",33.86,102.36,3438,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.516991813506486,1803.33071198159,2.87127353942838,-8.62297453207163,12.3938291553465,525.637628063683
10451,22291,5851,"CMPD","Zoige","Zoige 3",34.02,102.74,3600,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.521148083421374,1659.57553513945,2.30729944539322,-9.0005818723179,11.698510745938,526.396227295849
10452,22292,5852,"CMPD","Zoige Plateau","Zoige Plateau 01",33.9333333333333,102.066666666667,3502,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.50276324406826,1708.57824074082,2.44857789774459,-9.07282370179979,11.9636032268223,510.28683892361
10452,22293,5853,"CMPD","Zoige Plateau","Zoige Plateau 02",34,102,3784,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.490711936401488,1416.25870687879,1.10038399757416,-10.2781385326825,10.5785020714625,492.781552331579
10452,22294,5854,"CMPD","Zoige Plateau","Zoige Plateau 03",34.1166666666667,102.25,3764,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.501219527417598,1423.41741428269,1.19949555380075,-10.0817558809497,10.5884467904996,500.995907101542
10452,22295,5855,"CMPD","Zoige Plateau","Zoige Plateau 04",34.0666666666667,102.316666666667,3701,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.508697170133495,1520.37763479612,1.66593706633193,-9.62261316298753,11.0497063472011,511.177321606529
10452,22296,5856,"CMPD","Zoige Plateau","Zoige Plateau 05",34.0333333333333,102.366666666667,3683,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.511180027040761,1543.90592036557,1.77739899777116,-9.51119499475488,11.1599130261896,514.183363007597
10452,22297,5857,"CMPD","Zoige Plateau","Zoige Plateau 06",34.1666666666667,102.466666666667,3691,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.509318882432459,1536.98015573008,1.74256824081161,-9.5558876832766,11.1298156442941,511.838201020451
10452,22298,5858,"CMPD","Zoige Plateau","Zoige Plateau 07",34.1,102.6,3796,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.516298982272415,1456.55616009144,1.44083041999842,-9.69823844798423,10.7076082951729,517.35691603292
10452,22299,5859,"CMPD","Zoige Plateau","Zoige Plateau 08",34.05,102.65,3470,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.516381685095924,1772.65844292144,2.73924045195549,-8.73862718744598,12.2574244398389,523.636132155498
10452,22300,5860,"CMPD","Zoige Plateau","Zoige Plateau 09",34.0166666666667,102.716666666667,3394,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.517704270811339,1853.24101385596,3.06423464246443,-8.48484157175879,12.6359134114627,526.530474301708
10452,22301,5861,"CMPD","Zoige Plateau","Zoige Plateau 10",33.95,102.8,3417,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.534127869209233,1848.90022985863,3.12092026656163,-8.24591721454578,12.5734508137053,541.521502352625
10452,22302,5862,"CMPD","Zoige Plateau","Zoige Plateau 11",33.9,102.866666666667,3442,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.537183855837843,1838.72703262789,3.09811407698133,-8.22204055593949,12.5123728763391,544.784159260177
10452,22303,5863,"CMPD","Zoige Plateau","Zoige Plateau 12",33.8166666666667,102.933333333333,3470,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.541337216703755,1830.08994066798,3.08747084273994,-8.17327541544502,12.4540756514187,549.35872044179
10452,22304,5864,"CMPD","Zoige Plateau","Zoige Plateau 13",33.75,102.95,3464,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.552898999806185,1860.15674791003,3.24886288137711,-7.93988002438065,12.5620979453305,560.947004769323
10452,22305,5865,"CMPD","Zoige Plateau","Zoige Plateau 14",33.65,102.95,3476,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.562714474839494,1941.45551848914,3.65330122683224,-7.38085466951968,12.8578944800408,575.218432967744
10452,22306,5866,"CMPD","Zoige Plateau","Zoige Plateau 15",33.6333333333333,102.883333333333,3443,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.563152233541876,1966.12697954694,3.74611627309314,-7.3109462699741,12.9730783155641,575.727285601706
10452,22307,5867,"CMPD","Zoige Plateau","Zoige Plateau 16",33.5,102.716666666667,3465,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.551495808356799,1944.52872443057,3.61506981082671,-7.562517593779,12.8972791129876,566.235926042364
10452,22308,5868,"CMPD","Zoige Plateau","Zoige Plateau 17",33.35,102.5,3446,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.552681426235172,1977.35175799768,3.76035998779507,-7.40824765808604,13.0249689029238,569.178713475452
10452,22309,5869,"CMPD","Zoige Plateau","Zoige Plateau 18",33.25,102.55,3490,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.569839882199457,2000.26755953122,3.93036330356394,-7.04852885712919,13.0523120974466,587.456161062167
10452,22310,5870,"CMPD","Zoige Plateau","Zoige Plateau 19",33.15,102.616666666667,3533,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.580796961485111,2009.16937501259,4.03780320134635,-6.73167936040195,13.0336541113411,599.988015040651
10452,22311,5871,"CMPD","Zoige Plateau","Zoige Plateau 20",33.05,102.633333333333,3543,"not applicable","terrestrial, soil","soil sample","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.583446489492098,2019.84825709287,4.10124252847848,-6.61182605826919,13.0606883430935,603.888189582378
10452,22312,5872,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB01",33.4620277777778,102.634333333333,3467,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.551313538207167,1941.89952593434,3.60727499296509,-7.56360028022846,12.8818822895904,566.232737134303
10452,22313,5873,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB02",33.9250833333333,102.869611111111,3435,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.536409941410825,1842.64893762313,3.10899475188825,-8.22486297467867,12.5343722553634,543.943356448613
10452,22314,5874,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB04",33.8007222222222,102.572833333333,3435,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.522140104569118,1822.94094858668,2.96972702985328,-8.49476273674605,12.4733619363303,531.312771708668
10452,22315,5875,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB05",33.0773888888889,102.855361111111,3572,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.588880757112597,2027.33113877112,4.17835584140867,-6.40410894546972,13.0576633869154,609.967835431703
10452,22316,5876,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB08",33.0773888888889,102.855361111111,3552,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.590199929271823,2047.94063150917,4.25882309014049,-6.33117800933633,13.1466200712345,611.403799545963
10452,22317,5877,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB18",33.0954166666667,102.664972222222,3482,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.585600214896272,2097.34422178044,4.39542771587553,-6.38550035058928,13.3981714286448,607.210208306099
10452,22318,5878,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB19",32.9633333333333,103.009138888889,3608,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.590856206221819,2032.48143540143,4.22549569640832,-6.2879720051597,13.0553408360448,614.127156673699
10452,22319,5879,"CMPD","Zoige Plateau","Zoige Plateau 3 ZB23",33.0931666666667,102.76875,3558,"not applicable","terrestrial","moss polster or moss","assumed modern","Chen, H.Y., Xu, D.Y., Liao, M.N., Li, K., Ni, J., Cao, X.Y., Cheng, B., Hao, X.D., Kong, Z.C., Li, S.F., Li, X.Q., Liu, G.X., Liu, P.M., Liu, X.Q., Sun, X.J., Tang, L.Y., Wei, H.C., Xu, Q.H., Yan, S., Yang, X.D., Yang, Z.J., Yu, G., Zhang, Y., Zhang, Z.Y., Zhao, K.L., Zheng, Z., and Herzschuh, U., 2021. A modern pollen dataset of China. Chinese Journal of Plant Ecology, 45(7), pp. 799-808.","10.17521/cjpe.2021.0024",28,"tundra",0.588380389417483,2028.91181474772,4.17764734157975,-6.42257877019884,13.0698782349779,608.967244581436
10453,22320,10301,"Herzschuh et al., 2019","Zoog Nuur.54A","Zoog Nuur.54A",49.37264,95.12486,2031,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.362390117925221,1364.11173707732,-6.50275883333822,-29.2077028370606,12.3990665353664,290.807226798845
10454,22321,10302,"Herzschuh et al., 2019","Zost Nuur.21A","Zost Nuur.21A",48.89632,93.30901,1040,"not known","lake","lake surface sample","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.241606079151203,2534.79445465895,-0.642710456002366,-25.4810367205558,19.069630688923,215.619900940338
10455,22322,1671,"Australian pollen","Zurath Islet","Zurath Islet",-10.2667,142.1,3,"small (0.01-1 km2)","terrestrial, bog/fen/swamp","core top","0","Herbert, A.V. and Harrison, S.P., 2016. Evaluation of a modern-analogue methodology for reconstructing Australian palaeoclimate from pollen. Review of Palaeobotany and Palynology 226: 65-77.","10.1016/j.revpalbo.2015.12.006",22,"steppe",1.26013076448127,9821.36668576911,26.907853933614,25.3110550255543,28.1620496526161,1920.76730827378
10456,22323,23927,"SMPDSv1","Zuratkul peatland","EPDcoretop_E718",54.9,59.266667,720,"0.65","terrestrial, blanket bog","peat core top","0","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",15,"cold evergreen needleleaf forest",0.820029540297771,2119.68280822506,0.154940563203553,-18.1231139052179,17.1547694801775,526.874855824691
10456,22324,9493,"EMPDv2","Zuratkul peatland","Novenko_c165",54.9142,59.2475,700,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.802437228221973,2149.19178354279,0.295480275290306,-18.0064379027694,17.3094411194511,518.170453687194
10456,22325,9494,"EMPDv2","Zuratkul peatland","Novenko_c166",54.9142,59.2475,701,"0.1","terrestrial, bog/fen/swamp","moss polster or moss","-29","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",0.802337178154095,2148.48335382672,0.2911095579003,-18.0112258433684,17.3054753284163,518.104374138044
10457,22326,10303,"Herzschuh et al., 2019","Zuun Khol Nuur. 38B","Zuun Khol Nuur. 38B",49.38627,90.62801,1435,"not known","lake","not known","modern","Herzschuh, U., Cao, X., Laepple, T., Dallmeyer, A., Telford, R.J., Ni, J., Chen, F., Kong, Z., Liu, G., Liu, K.B. and Liu, X., 2019. Position and orientation of the westerly jet determined Holocene rainfall patterns in China. Nature communications, 10(1), pp.1-8.","10.1038/s41467-019-09866-8",22,"steppe",0.273635588102011,1989.22879562027,-2.53602585339516,-25.4814003540828,16.0391889098819,233.044449698938
10458,22327,9459,"EMPDv2","Zvenigorod-1","Novenko_c216",55.6675,36.7139,183,"0.15","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.00659654735422,2628.1824912405,4.83948806067855,-9.73701851466879,17.9523455256642,674.671048224578
10459,22328,9460,"EMPDv2","Zvenigorod-2","Novenko_c217",55.6947,36.7281,186,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.00680807816074,2629.41336906078,4.84298547091437,-9.73216481277688,17.952538581096,674.991260890158
10460,22329,9461,"EMPDv2","Zvenigorod-3","Novenko_c218",55.6919,36.7289,181,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.00768177903489,2626.53201656634,4.83417304269913,-9.743064429832,17.9510641332496,674.70055438246
10461,22330,9462,"EMPDv2","Zvenigorod-4","Novenko_c219",55.6947,36.7297,185,"0.01","terrestrial, soil","soil sample","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",1.0069758751744,2628.85524652226,4.84127552574813,-9.73433285540864,17.9524063257331,674.925114054143
10462,22331,9463,"EMPDv2","Zvenigorod-5","Novenko_c220",54.6678,36.7136,178,"0.15","terrestrial, bog/fen/swamp","peat","-60","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",9,"cool mixed forest",0.95803666988392,2688.30667787449,5.08331272482304,-9.47675092129989,18.1450677404365,660.028283737755
10463,22332,23928,"SMPDSv1","Оzernyj","Оzernyj_SS",54.0689,37.5919,250,"not known","not known","surface sample","-67","Harrison, Sandy P., 2019. Modern pollen data for climate reconstructions, version 1 (SMPDS). University of Reading. Dataset.","10.17864/1947.194",9,"cool mixed forest",0.844280001093035,2795.72088027346,5.20234913766659,-9.77369289084507,18.5101497995229,609.95771223326
10464,22333,8507,"EMPDv2","Р-131","Novenko_c150",66.4228,74.0752,36,"0.01","terrestrial, soil","soil sample","-50","Davis, B.A., Chevalier, M., Sommer, P., Carter, V.A., Finsinger, W., Mauri, A., Phelps, L.N., Zanon, M., Abegglen, R., Åkesson, C.M. and Alba-Sánchez, F., 2020. The Eurasian Modern Pollen Database (EMPD), version 2. Earth System Science Data, 12(4), pp.2423-2445.","10.5194/essd-12-2423-2020",15,"cold evergreen needleleaf forest",1.24938234494,1168.1336873561,-6.18149806978057,-24.1059108703996,13.3474814699135,446.497891040978